In: Glasbey , J C , Ademuyiwa , A , Adisa , A , AlAmeer , E , Arnaud , A P , Ayasra , F , Azevedo , J , Bravo , A M , Costas-Chavarri , A , Edwards , J , Elhadi , M , Fiore , M , Fotopoulou , C , Gallo , G , Ghosh , D , Griffiths , E A , Harrison , E , Hutchinson , P , Lawani , I , Lawday , S , Lederhuber , H , Leventoglu , S , Li , E , Gomes , G M A , Mann , H , Marson , E J , Martin , J , Mazingi , D , McLean , K , Modolo , M , Moore , R , Morton , D , Ntirenganya , F , Pata , F , Picciochi , M , Pockney , P , Ramos-De la Medina , A , Roberts , K , Roslani , A C , Seenivasagam , R K , Shaw , R , Simoes , J F F , Smart , N , Stewart , G D , Sullivan , R , COVIDSurg Collaborative , Global Initiative for Children's Surgery , GlobalSurg , GlobalPaedSurg , ItSURG , PTSurg , SpainSurg , Italian Society of Colorectal Surgery , Association of Surgeons in Training , Irish Surgical Research Collaborative , Transatlantic Australasian Retroperitoneal Sarcoma Working Group , Italian Society of Surgical Oncology , Kuiper , S Z , Melenhorst , J , Poeze , M , Sluijpers , N R F & Vaassen , L A A 2021 , ' Effect of COVID-19 pandemic lockdowns on planned cancer surgery for 15 tumour types in 61 countries: an international, prospective, cohort study ' , Lancet oncology , vol. 22 , no. 11 , pp. 1507-1517 . https://doi.org/10.1016/S1470-2045(21)00493-9
Background Surgery is the main modality of cure for solid cancers and was prioritised to continue during COVID-19 outbreaks. This study aimed to identify immediate areas for system strengthening by comparing the delivery of elective cancer surgery during the COVID-19 pandemic in periods of lockdown versus light restrictions. Methods This international, prospective, cohort study enrolled 20 006 adult (>= 18 years) patients from 466 hospitals in 61 countries with 15 cancer types, who had a decision for curative surgery during the COVID-19 pandemic and were followed up until the point of surgery or cessation of follow-up (Aug 31, 2020). Average national Oxford COVID-19 Stringency Index scores were calculated to define the government response to COVID-19 for each patient for the period they awaited surgery, and classified into light restrictions (index 60). The primary outcome was the non-operation rate (defined as the proportion of patients who did not undergo planned surgery). Cox proportional-hazards regression models were used to explore the associations between lockdowns and non-operation. Intervals from diagnosis to surgery were compared across COVID-19 government response index groups. This study was registered at ClinicalTrials.gov, NCT04384926. Findings Of eligible patients awaiting surgery, 2003 (10middot0%) of 20 006 did not receive surgery after a median follow-up of 23 weeks (IQR 16-30), all of whom had a COVID-19-related reason given for non-operation. Light restrictions were associated with a 0middot6% non-operation rate (26 of 4521), moderate lockdowns with a 5middot5% rate (201 of 3646; adjusted hazard ratio [HR] 0middot81, 95% CI 0middot77-0middot84; p<0middot0001), and full lockdowns with a 15middot0% rate (1775 of 11 827; HR 0middot51, 0middot50-0middot53; p<0middot0001). In sensitivity analyses, including adjustment for SARS-CoV-2 case notification rates, moderate lockdowns (HR 0middot84, 95% CI 0middot80-0middot88; ...
KEMAL'S INFIDELITY AND ITS INFLUENTIAL FACTOR IN ORHAN PAMUK'S THE MUSEUM OF INNOCENCE Ayu Setya Rahayu English Department, Language and Arts Faculty, State University of Surabaya cosmeticmiracle@yahoo.com Drs. Much. Khoiri M.Si. English Department, Language and Arts Faculty, State University of Surabaya much_choiri@yahoo.com Abstract Infidelity is defined as unfaithfulness of being unreliable or being attracted to someone other than one relationship partner. There are two types of infidelity, emotional and sexual infidelity. What constitutes an act of infidelity varies within cultures and depends on the type of relationship that exists between people.This study is aimed to present infidelity as experinced by Kemal as the main character in Orhan Pamuk's The Museum of Innocence, and to reveal the most influential factor of his infidelity.The study uses descriptive qualitative research with psychoanalitic approach. The object of the study is The Museum of Innocence by Orhan Pamuk, published in New York by vintage books in 2009. The data are in the form of quotation, fragments, and dialogues or monologues that indicated the thoughts and action concerning form of infidelity, and also its most influential factor. The data is analyzed by applying the theory of infidelity by Dirgosta and Barta, and also the most influential factor of it. This study also uses the theory of love and will by Rollo May to reveal his influential factor that lead to his infidelity based on the concept above and the quotation depicted in the novel.The result of this study shows thatKemal, the main character of this novel, commits both sexual and emotional infidelity. Initially, he becomes emotionally connected with someone outside of his relationship named Fusun. One way of looking at emotional infidelity is, that it is very dangerous, because it is not only takes away time and energy from his relationship, but it lead him to sexual infidelity and to the end of his engagement. Andthe main factors of Kemal's infidelity represented from this novel is he falls in love with someone else named Fusun. Actually, this novel is story of love of Kemal and Fusun, then his feeling of love that prompted him to take an action in certain direction which can realize his purpose of love. Because in love, there is definitely a will to unite with beloved people, then it gives rise a boost in his heart to betray his fiancee. Keywords: Infdelity, love, will, novel Abstrak Perselingkuhan didefinisikan sebagai ketidaksetiaan, diandalkan atau tertarik pada orang lain di luar dari pasangannya . Ada dua jenis perselingkuhan , perselingkuhan emosional dan seksual . Yang merupakan suatu tindakan perselingkuhan bervariasi dalam budaya dan tergantung pada jenis hubungan yang ada antara manusia. Penelitian ini bertujuan untuk menyajikan perselingkuhan yang di alami oleh Kemal sebagai sebagai tokoh utama dalam novel berjudul The Museum of Innocence karya Orhan Pamuk, dan untuk mengungkap faktor yang paling berpengaruh dalam perselingkuhannya.Penelitian ini menggunakan penelitian deskriptif kualitatif dengan pendekatan psikoanalisis . Objek penelitiaan ini adalah novel The Museum of Innocence karya Orhan Pamuk , yang diterbitkan di New York oleh vintage books tahun 2009 . Data tersebutdi peroleh dalam bentuk kutipan , fragmen , dan dialog atau monolog yang menunjukkan pemikiran dan tindakan mengenai bentuk perselingkuhan Kemal dan juga faktor yang paling berpengaruh. Data dianalisis dengan menerapkan teori perselingkuhan oleh Dirgosta dan Barta untuk mengungkapkan refleksi penggambaran perselingkuhan Kemal dan juga faktor yang paling berpengaruh. Penelitian ini juga menggunakan teori cinta dan keinginan oleh Rollo May untuk mengungkapkan faktor paling berpengaruh yang mengarah pada perselingkuhan yang didasarkan pada konsep di atas dan kutipan yang digambarkan dalam novel. Penelitian ini menunjukkan bahwa Kemal , tokoh utama dalam novel ini , melakukan perselingkuhan baik seksual mapun emosional . Awalnya , ia menjadi terhubung secara dengan seseorang di luar hubungannya, bernama Fusun . Salah satu cara untuk melihat perselingkuhan emosional adalah , bahwa sangat berbahaya , karena tidak hanya menghilangkan waktu dan energi dari hubungannya sebelumnya , namun membawanya ke perselingkuhan seksual, hingga merusak pertunangannya dengan Sibel. Dan faktor utama perselingkuhan oleh Kemal yang tergambar dalam novel ini adalah ia jatuh cinta dengan orang lain bernama Fusun . Sebenarnya , novel ini adalah kisah cinta Kemal dan Fusun , maka perasaannya cinta yang mendorongnya untuk mengambil tindakan dalam arah tertentu yang dapat mewujudkan tujuan cintanya . Karena di dalam cinta , pasti ada keinginan untuk bersatu dengan orang-orang yang di cintainya, kemudian memberikan dorongan dalam hatinya untuk mengkhianati tunangannya . Kata kunci: Infidelity, love, will, novel Introduction Within the context of intimate relationships, infidelity has been defined as a partner's violation of norms pertaining to the level of emotional or physical intimacy in which people engaged in outside the relationship (Drigotas & Barta, 2001:45). In the currentera,many strange phenomena appear and done by society. One of the interesting behavior in humansare donetoday is infidelity and that is very oftenaround environment. Not only household commit infidelity, but also in interpersonal relationship. The phenomenon of infidelity is dominant on the socioeconomic statu sof middle to top, especially in big cities. Moreover, the problem of infidelity is often atrigger forvarious cases of divorce or even murder. There are two kinds of infidelity that occurs in today's modern society, the emotional and sexual infidelity.Emotional infidelity in channeling emotional feeling for someone outside the relationship or marriage, whilesexual infidelity isi having sexual intercourse outside of relationship or marriage.The case of emotional infidelity begin when two beings of different sex, begin exchange of information, and the feelings that it was actually supposed to be feel just exclusive for partner. And started to be worse when there is no excitement and keep the distance with ypartner and began to yearn to talk to someone else, rather than the one romantic partners. The climax it will past the limit and begin to emerge the real problem in the relationship that shouldn't happen, that's secrets and lies. And when the lie begins,it will difficult to stop. Then, sexual infidelity is just waiting for the right moment. Talking about infidelity, nobody can remove it from the word "love", because if the lovethat isbuilt with the previous couple is strong and sturdy, then the affair could have been avoided. Love is a natural thingin human life. Love is a basic human emotion, but understanding how and why it happens is not necessarily easy. In fact, for a long time, many people suggested that love was simply something that they couldn't understand. Accoding to Erich Fromm, to love somebody is not just a strong feeling, but it is a decision, it is a judgement, and it is a promise,if love were only a feeling there would be no basis for the promise to love each other forever (McGee G. Mark, 1980:208).It means that if the love is just relying on feeling, without the underlying on bond and the sacred promise, as well as the commitment to be together forever, then that love won'tlast long. Psychologist Rollo May proposed that romantic love is made up of four elements: sex, eros, philia, and agape.In conclusion, adult personal relationships containing four forms of love, this relationship based on the sexual satisfaction, a desire for eternal unification and non egoistic concern for the welfare of others. But unfortunately, this kind of authentic love quite difficult to accomplish. At the same time, love hint of tenderness, passion, commitment, and devote themselves to the beloved personal interests, from there, love gives rise to will, the will is an impulse that comes from love, where lover have a will to unite with people they love (May, 1969: 146). In this case, if the love for partneris not strong enough to keep the relationship in order to survive and also the lack of commitment and promise, then sometime there will arise a feeling of love to others, and if the love is greater than the old partner, then the infidelity could happen. In literature like novel, many of whichraised issue of infidelity, where in novel, is related to the human's emotion and expression of feeling, Including ideas, motivation, and describe it by using language. Novel also has people or characters with their own personalities that can represent and act to carry issues that occur in the society. Morover, the dispositive of characters is described in outline only and the events described, contains a mental conflict, which resulted in a change of fortunes. A novel TheMuseum of Innocence by Orhan Pamuk has many sources in culture, love, social, combined into a variety of events and actions. The Museum of Innocence by Orhan Pamuk also depicts infidelity between a rich man and a poor shop girl, in the background of the Turkish city which at that time was experiencing modernization. These issues of infidelity in the background of love willbe discussed in more interesting and more complex from a variety of perspectives in one character. Orhan Pamuk was born in Istanbul in 1952 and grew up in a large family similar to those which he describes in his novelsCevdet Bey and His SonsandThe Black Book, in the wealthy westernised district of Nisantasi. As he writes in his autobiographical bookIstanbul, from his childhood until the age of 22 he devoted himself largely to painting and dreamed of becoming an artist. After graduating from the secular American Robert College in Istanbul, he studied architecture at Istanbul Technical University for three years, but abandoned the course when he gave up his ambition to become an architect and artist. He went on to graduate in journalism from Istanbul University, but never worked as a journalist. At the age of 23 Pamuk decided to become a novelist, and giving up everythingnelsenretreatednintonhisnflatnandnbeganntonwrite. His first novelCevdet Bey and His Sonswas published seven years later in 1982. The novel is the story of three generations of a wealthy Istanbul family living in Nisantasi, Pamuk's own home district. The novel was awarded both the Orhan Kemal and Milliyet literary prizes. The following year Pamuk published his novelThe Silent House, which in French translation won the 1991 Prix de la découverte européene.The White Castle(1985) about the frictions and friendship between a Venetian slave and an Ottoman scholar was published in English and many other languages from 1990 onwards, bringing Pamuk his first international fame. The same year Pamuk went to America, where he was a visiting scholar at Columbia University in New York from 1985 to 1988. It was there that he wrote most of his novelThe Black Book, in which the streets, past, chemistry and texture of Istanbul are described through the story of a lawyer seeking his missing wife. This novel was published in Turkey in 1990, and the French translation won the Prix France Culture.The Black Bookenlarged Pamuk's fame both in Turkey and internationally as an author at once popular and experimental, and able to write about past and present with the same intensity. In 1991 Pamuk's daughter Rüya was born. That year saw the production of a filmHidden Face, whose script by Pamuk was based on a one-page story inThe Black Book. His novelThe New Life, about young university students influenced by a mysterious book, was published in Turkey in 1994 and became one of the most widely read books in Turkish literature.My Name Is Red, about Ottoman and Persian artists and their ways of seeing and portraying the non-western world, told through a love story and family story, was published in 1998. This novel won the French Prix du meilleur livre étranger, the Italian Grinzane Cavour (2002) and the International IMPAC Dublin literary award (2003). From the mid-1990s Pamuk took a critical stance towards the Turkish state in articles about human rights and freedom of thought, although he took little interest in politics.Snow, which he describes as "my first and last political novel" was published in 2002. In this book set in the small city of Kars in northeastern Turkey he experimented with a new type of "political novel", telling the story of violence and tension between political Islamists, soldiers, secularists, and Kurdish and Turkish nationalists.Snowwas selected as one of the best 100 books of 2004 byThe New York Times. In 1999 a selection of his articles on literature and culture written for newspapers and magazines in Turkey and abroad, together with a selection of writings from his private notebooks, was published under the titleOther Colours. Pamuk's most recent book,Istanbul, is a poetical work that is hard to classify, combining the author's early memoirs up to the age of 22, and an essay about the city of Istanbul, illustrated with photographs from his own album, and pictures by western painters and Turkish photographers. Orhan Pamuk's books have been translated into 46 languages, including Georgian, Malayan, Czech, Danish, Japanese, Catalan, as well as English, German and French. Pamuk has been awarded The Peace Prize, considered the most prestigious award in Germany in the field of culture, in 2005. In the same year,Snowreceived the Le Prix Médicis étranger, the award for the best foreign novel in France. Again in 2005, Pamuk was honoured with the Richarda Huck Prize, awarded every three years since 1978 to personalities who "think independently and act bravely."In the same year, he was named among world's 100 intellectuals byProspectmagazine. In 2006,TIMEmagazine chose him as one of the 100 most influential persons of the world. In September 2006, he won the Le Prix Méditerranée étranger for his novelSnow.Pamuk is an honorary member of the American Academy of Arts and Letters, and holds an honorary doctorate from Tilburg University. He is an honorary member of the American Academy of Arts and Letters as well as the Chiese Academy for Social Sciences. Pamuk gives lectures once a year in Columbia University. Lastly, he received the 2006 Nobel Prize for Literature, becoming the second youngest person to receive the award in its history. Apart from three years in New York, Orhan Pamuk has spent all his life in the same streets and district of Istanbul, and he now lives in the building where he was raised. Pamuk has been writing novels for 30 yearsnandnneverndonenanynothernjobnexceptnwriting.(http://www.orhanpamuk.net/biography.aspx) The Museum of Innocenceis the latest Orhan Pamuk's novel, published on August, 2009.Pamuk has been working on the novel for many years and it has been hinted by himself in many interviews during this period. The story, which takes place in Istanbul between 1975 and today, is about obsessive love and the great questionof what is love. This colorful and fabulous novel will not only challenge the reader's thoughts about love, but also those about marriage, sex, passion, family, friendship, and happiness. The story begin with the apparent narrator named Kemal who is engaged to be married to Sibel. Kemal is a rich man when he by chance encounters a long-lost relation, Fusun, a young shopgirl whose beauty stirs all the passion denied him in a society where sex outside marriage is taboo. But Kemal, a young man with high passion has several times having sex with Sibel, and of course it is also more likely to do so with Fusun. Kemalwho really falls in love with Fusun,goes ahead anyway with his long-planned engagement to perfect partner Sibel, then Fusundisappears. Kemal finally breaks off with Sibel, finds Fusun, waits eight years for her to dump her husband (by going to her family's home some four times a week). In relationship, there will be many problems. The union of two different people, usually can cause contention and eventually lead to big problems. Feelings of love, affection, understanding, and accepting shortcomings of couple, is the very need in a relationship. Because according to psychologist Erich Fromm in his book The art of loving (2006:99) love is an essential of human need. That is, if theneed love is not fullfilled it will cause the problems.In this novel, Kemal who had been engaged to a woman with equal social class with him, women withwell education and from a wealthy family, it seems perfect to be his life partner. Kemal eventually leaveshis fiancée in order to pursue his dream to be unite with Fusun.The infidelity issues in the novel has the most significant cause,Kemal lack of affection to his fiancee, so that makes him fall in love with another woman. This novel begin at Istanbul in 1975. Kemal is a rich and engaged manBut when Kemal encounters Füsun, a poor beautiful shopgirl and a distant relation, he becomes enthralled. And once they violate the code of virginity, when sex before married considerd as taboo at that time.The firsttime hemetwithFusunwaswhenhe boughtjennycolon bag tohis fiancee, sibel, an upper-class beautiful girl. The city of Intanbul is captured by pamuk with a romantic touch, sturdy apartments of the rich man, once supported. The lovers met in Merhamet Apartments, in a flat abandoned by his mother. He dated his first secret meeting with Fusun to the spring of 1975. At that time, Pamuk initially planned Kemal to marry Sibel, a fashionable young woman with enlightened views of life, she goes without limits enlightened with Kemal. Love becomes the main motive, when someone can destroy virginity code. Fusun ends their relationship when she learns of Kemal's engagement with Sibel. But Kemal cannot forget her. It will take Kemal almost a year to find her again, a year of driving through every neighbourhood of the enormous city, months of heavy drinking in which he loses all interest in Sibel, even after they move in together. Sibel hopes to save him from what seems an inexplicable sadness, and learning the truth enrages her. To her, Füsun is just "a common shopgirl", a slut, even though they have each only slept with one man. Both sexual and emotional infidelity bound this novel. How kemal lie and keep his secret relationship to sibel, while he loves someone else and having sexual intercourse with Fusun. Psychologist Rollo May defines love into various types, such as sex, eros, philia, and agape. Sex is defined in category where someone loves another person just because of an underlying sexual appetite. Eros is defined as a lover which includes not only sexual intimacy, but also the feeling of love, attention, care so as to make the relationship last. Philia is defined as a sincere friendship, while gape is defined as selfless feeling or don't expecting reward (Jess Feist and Gregory J. Feist, 2009:58-59). In the case of Kemal in this novel, his love for Sibel does not meet all of four elements above, thus making their relationship is not too strong to survive. Then he finds Fusun, and feel the perfect love. In analyzing Kemal's infidelity and the most influential factor, it is used some related concept and one theory. In this thesis, the problem statement is divided into two. The first problem statement deals with how Kemal's infidelityreflected in this novel. While the second problem deals with the most influential factor of Kemal's infidelity. Those problems can be analysed by using the psychological approach as the base of the guide and theory. The first statement is how Kemal's infidelity reflected in The Museum of Innocence. This statement will use the concept of infidelity by American psycologyst, Dirgostra and Barta. This concept is united and merged with the bases of marital or extramarital relationship. There are two kinds of infidelity in this concept. The writer will analyses which kind of infidelity that Kemal uses through the quotations and monologues. Then the second statement is what is the most influential factor of Kemal's infidelity. This statement will also apply the concept of infidelity factor. Actually, the are a lot of infidelity factos, but the writer only use one factor that tha most represent based on quotation in this novel. The factor is love.So, ithe writer will use the theory of love and will that become the most influential factor of Kemal's infidelity. This concept is developed by existential psychologyst, Rollo May. It is about the unity between love and will, this circles of love and will is however affected to his infidelity. Methods Research methodolgy that used in this analysis here must be qualified as an applying in literary appreciation. The thesis is regarded as a descriptive-qualitative study and uses a library research.The data obtained to answer research question study. This study uses novel of Orhan Pamuk entitled The Museum of Innocence that published in 2009 as the data source of this study. The datas are in the form of direct and indirect speech of the characters, dialogues, epilogues and quotations which indicate and represent aspect of infidelity and love and will which is experienced by the main character. This thesis is using the library method in collecting the data. It does not use the statistic method. That is why it is not served in numbering or tables. Library research used an approach in analyzing this study. The kind of library research which is used here is intensive or closely reading to search quotations or phrases. It also used to analyze the literary elements both intrinsic and extrinsic. The references are taken from library and contributing ideas about this study from internet that support the idea of analyzing. Some steps of how the data is analyzed will be described as follows: Classification based on the statement of the problems. This classification is used to avoid the broad discussion. There are two classifications in this study. They are infidelity and The main factor that lead to his infidelity. Describing Kemal's infidelity which is stated from the quotations or statements by using theory of infidelity to be applied to the data. Describing the most influential factor of Kemal's infidelity which is stated from the quotations or statements by using theory of love and will to be applied to the data. RESULT How is the students' writing ability of SMP Muhammadiyah 5 in writing descriptive text after they being taugh by picture puzzle. Infidelity, is the main topic that will be analyzed. Many couples are under the misconception that infidelity only occurs when a man and a woman have sex together. Yet, there are other forms of infidelity such as emotional infidelity.Emotional infidelity may take on different forms, but in general it is the act of forming an emotional connection with someone outside of one's formal relationship. Kemal Brasmaci, the main character of the novel, born as a wealthy and well eucated instanbul family in Nisantasi. His fascinating live, ranging from being a socialite among A class people, and he prefers to live as a modern Turkish, in which at the time, Turkey was undergoing modernization with the influence of European culture. 30-year-old Kemal Basmaci, works as a bussinessman and lives in Merhamet Apartment which will be a silent witness to his secret love adventure with his distance relation, Fusun. Initially, Kemal is set to be engaged to a well educated and high socety girl named Sibel. Kemal first meetsFusun when he bought a Jenny Colon bag to Sibel in Sazalize boutique where Fusun works in. When he step up in Sazalize boutique, Kemal looks like very attentive to every detail in Fusun's clothes and shoes, her yellow skirt, her empty shoe over her long bare legs, her long till Dexterous fingers. Kemal begins to admire Fusun's beauty. Knowing that, because it was less than 10 years they had not met. There was a silence. I looked again into one of the pockets she had just pointed to inside the bag. Her beauty, or her skirt, which was in fact too short, or something else together, had unsettled me, and I couldn't act naturally. (Pamuk, 2009:6) Based on quotation above, Kemal gives the impression of a "darting" man by notices detail of what Fusun wear. Her skirts that look very short, her beauty, and anything else that can not be said. Actually, it does not really matter, but there is something rustled in Kemal's heart. It became the beginning of Kemal's interest feeling to Fusun. Moreover, Kemal also admittes that he can't act naturally when dealing with Fusun, he feels uneasy, but rather, look awkward in front of the opposite sex, there is definitely something special, something that raises passions and encouragement in his heart, even if it happens on the first time he meet. In this case, Kemal commits emotional infidelity by having eventual emotional connection, or a feeling of interest with someone other than one his romantic partner. Beside perform emotional infidelity, Kemal also perfor sexual infidelity has been defined as behaviour of a sexual nature carried out with someone other than one's primary partner.Usually, cheating involves people meeting face – to - face, and then engaging in physical intimacy. Beside having emotional infidelity with Fususn, he also comitted sexual infidelity, because the emotional affair can lead to phsycal affair. the intimate nature of the communication, plus the emotional investment made by the people involved, places an emotional infidelity become more intimate, and perform sexual intercourse, such as having sex kissing, touching, etc. The verry first page in this novel Tells about Kemal's happiest moment of his life. Having sexual intercourse with Fusun in his appartement. We felt the same coolness rising from the musty mattress on which we were making love, the way children play, happily forgetting everything else.(Pamuk, 2009:1) Based on quoatation above, it is clearly mentioned that Kemal comittes sexual infidelity by having sexual contact with Fusun, a woman other than his one romantic partner. In the firs page of this novel, Kemal explained clearly how and the steps of having sex with Fusun, and describes the atmosphere when they were in apartment when doing so. Because having sex is actually become a necessity. They look really enjoyed with the secret relationship, the way the kids played, happy to forget everything else seemed to describe what they both feel at that moment, as if they feel in pleasure without limits and make them forget themselves, forget about all the obstacles and problems that never happened, that there was only pleasure at that time. The second analysis is about The most influential factor of Kemal's infidelity. In this novel, Kemal Brasmaci a perfect gentleman, well educated, came from a wealthy, and respectable family in the city, is set to be married to perfect Sibel, who comes from an equal family as him. Many people assume if they are a perfect match. Kemal actually love Sibel, the woman who would soon be engaged to him. They both underwent a romantic date, having a harmonious family, came into exclusive places, even they both also have made love, although in that era, having sex outside of marriage is considered as taboo. Psychologist Rollo May argues that love is a pleasure, love is a pleasure to the presence of someone, as well as a confirmation of the value and development of the beloved person, just like themselves. Love is able to make a big motivation to someone, which raises the desire to realize the dream to be unite with someone they love. While Will of its own, generating an action to self directed, so that certain goals can be achieved. Kemal actually has already realized if what he has done is the most fatal mistake in his life, even he can not imagine how the devastation that can occur, as a result of these actions. But Still his love for Fusun become a big power that able to beat all obstacle. Kemal has been trying to forget Fusun, consider if he never loved Fusun. But, it can be covered by his feelings love that he could never lose, and always encouraged him to betray his old partner. Finally, Kemal continued to repeat the days of their togetherness, having sexual intercourse in his apartement. I am certain that the fire at the heart of my tale is the desire to relive those moment of love, and my attachment to those pleasure. For years, whenever I recalled those moments, seeking to understand the bond I still felt with her, images would from before my eyes, crowding out reason; for example, Fusun would be sitting on my lap, and I would have taken her large left breast into my moth. (Pamuk, 2009:53) From the quotation above, it is illustrated that Kemal feels her turmoil, that grows more fiery, he even wants to revive the her passion of making love with Fusun, because it is considered as a pleasure for him. Kemal is very attached, and no longer awkward in doing his pleasure in his secret relationship with Fusun. His tremendous sex desire to make love with Fusun, bring it into delusion when they're together. Kemal always be remembered while they are making love, for example when Fusun sits on his lap, and he holds the Fusun's left breast, then puts into his mouth. The thing that Kemal does based on description above is sexual infidelity, because he was having sex with a woman other than his partner. Kemal pleasure in making love with Fusun, is the Will of Kemal who loves Fusun. That is, the Kemal's impulse to commit sexual infidelity influenced by his love for Fusun. It was proved that Kemal has strong emotional ties to Fusun like people who really love his partner, even for many years, Kemal still remember the time they spent together, which can not be removed from his memory. Conclusions From overalls of this study, can be conclude that Kemal comitts infidelity, by having a relationship with Fusun, and violate her engagement to Sibel. In this novel, Kemal commits two types of infidelity, they are emotional and sexual infidelity. Kemal enjoying passionate sexual intercourse and perform a deep emotional attachment with Fusun. Kemal committs both infidelities at the same time. At first, Kemal perform emotional infidelity with Fusun, starting when he met with Fusun in Sanzalize boutique, where Fusun work, he began to admire Fusun, beauty, watching his every movement, pay attention to her clothes. From there, came a strange feeling inside Kemal's heart that he had not been aware of. But over time, that feeling grow stronger. Moreover, the two lovers are getting often met. Emotional Infidelity sounds fairly simple, but it is not as simple as that. Precisely emotional infidelity more dangerous than those who experienced only sexual infidelity. Because sometimes emotional infidelity could lead to a more intimate relationship, and over time will be difficultto integral, as experinced by kemal. As already described above, that emotional infidelity can lead to sexual infidelity, because the people who are already emotionally attached, will also certainly have the desire to have sexual intercourse.In this novel, Kemal also perform sexual activities that are engaged in with someone other than one 's partner. Activities that constitute sexual infidelity include all forms of physical intimacy, from kissing to sexual intercourse. Its pretty clearly described through the evidents in this novel, that Kemal and Fusun often make an appointment to meet at the apartment and Kemal to meet, it is like two people in a drunken romance.It has been shown clearly to the quotation analysis of the first statement problem that Kemal perform his first sexual infidelity, starting by giving a kiss, till make a love. Second conclusion is, actually there must bereasonsbehindKemal's infidelity. But themost crucial factor that is found based on the novel's quotation is his love for Fusun since the beginning of his meeting in a boutique. Initially, Kemal did not have any shortage in his relationship with Sibel, his fiancee.He admitts that he loves Sibel. Even though it is not described implicitlythe describtion of his love for Sibel, but it can be inferredeksplicitly that Kemal was not really love Sibel, it is proven when Kemal seems too easy to fall in love with someone else, and since then, his attention on sibel start to reduced, and even when his relationship with Fusun grows further, he decides to break his engagement with Sibel. People who really love their partner sincerely, certainly will not to do so. Love, which is built by Kemal and Fusun is very great anf strong, exceeding Kemal's love to Sibel, probably thi is because Kemal and Sibel's relationship came from matchmaking. Kemal who love Fusun, give birth to a Will for betraying his fiancee, Sibel. It means that the Will here, is an impulse to do something, without being influenced by the values of the good or bad.Those impulse can take him into a particular direction in which the desired goal can be realized. People who loves someone, like Kemal, definitely have a desire to be happy with Fusun, or want to united with her, So that it can give rise animpulse in his heart to betray his partner, so he could be much longer having relationship with Fusun, a person he love. Refference Drigotas, S.M., & Barta, W. 2001. The cheating heart:Scientific explorations of infidelity.New York: Guildford Press Feist, Jess and Feist, Gregory J. 2009.Teori Kepribadian:Theory of Personality. Terjemahan Sjahputri Smita Prahita. Jakarta:Salemba Humanika --- . 2009. Theories of Personality. Terjemahan Santoso Yudi. Jakarta:Pustaka Belajar Friedman S., Howard, Miriam W. Schustack.(2006). Kepribadian Teori Klasik dan Riset Modern. Jakarta:Erlangga Fromm, Erich, 2006. The Art of Loving.Seoul:Choun Publishing Co. Glass, S. P., & Wright, T. L. 2004. The relationship of extramarital sex, length of marriage,and sex differences on marital satisfaction and romanticism:Athanasiou's data reanalysed. Journal of Marriage and the Family May, R. 1967. Pshycology and the Human Dillema. Princeton, NJ:Van Nostrand McGee, Mark G. 1980. Introductory Psychology Reader. St. Paul: West Publishin CO. Pamuk, Orhan.2009. The Museum of Innocence. New York: Vintage Internet Source: http://www.orhanpamuk.net/biography.aspx
Inhaltsangabe: Introduction: This book covers policy proposals and interim contracts, assesses the positions of various Iraqi political actors and examines the potential significance for international foreign policy goals in Iraq. Despite a lack of progress in reaching agreements on the hydro-carbon sector and revenue sharing legislation to set new conditions for the management of the country's significant oil and gas resources, development in Iraq's oil and gas sector is moving forward. The passage of the oil and gas sector framework and revenue sharing legislation will be seen as significant milestones by International governments and International Oil Companies (IOC´s). This would provide evidence of the Iraqi government's dedication to promoting political reconciliation and providing a solid foundation for long term economic development in Iraq. Interim revenue sharing mechanisms have been introduced due to the lack of new legislation. Additionally, both the Federal Government (the Federal Oil Ministry-MoO) and the Kurdistan Regional Government (KRG) (the Regional Ministry of Natural Resources and Energy) have made oil and gas development deals with foreign firms. The MoO is working with existing regulation from the previous political and administrational regime, while the Regional Ministry of Resource and Energy Kurdistan-Iraq has designed its own laws and regulations, which the Federal Government has not yet recognized. There is wide recognition among Iraqis of the importance of oil and gas revenue for the Iraqi economy. Most groups see the need for new legal and policy guidelines for the development of the country's oil and natural gas resources. However, Iraq's Council of Rrepresentatives (parliament) has not yet considered the proposed legislation due to ongoing political discord and general political instability. There are strong differences on key issues between Iraqi critics and supporters of various proposed solutions. These include the appropriate role and powers of federal and regional authorities in regulating oil and gas development; the conditions and degree of potential foreign participation in the oil and gas sectors; and proposed formulas and mechanisms for equitably sharing oil and gas revenue. Simultaneously, there are strong disagreements on related discussions about the administrative status of the city of Kirkuk and proposed amendments to articles of Iraq's constitution that outline federal and regional oil and gas rights. The U.S. and UK military strategy in Iraq seeks to lay the ground work for an environment in which Iraqis can resolve core political differences in order to ensure national stability and security. However, it is not yet certain whether the proposed oil and gas legislation and ongoing interim efforts to develop Iraq's energy resources will support harmony or create deeper political tension. The United States and its allies face difficult decisions regarding how to work with Iraqis on assorted policy proposals, related constitutional reforms and oil and gas development contracts, and at the same time encouraging their Iraqi counterparts to ensure that the content of proposed laws, amendments and contracts reflect acceptable political compromises. In the 1920s a wide-ranging concession was granted to a consortium of oil companies known as the Turkish Petroleum company and later as the Iraq Petroleum Company. This was the beginning of oil exploration in Iraq. The nationalization of Iraq's oil resources and production was finished by 1975. From 1975 to 2003, oil production and export operations were entirely state operated. However, from the early 1980s until the toppling of Saddam Hussein's government in 2003, the negative effects of war, international sanctions, a shortage of investments and technology and, in many cases, mismanagement caused difficulties for Iraq's hydrocarbon infrastructure. According to the Oil Ministry, Iraq has the third largest proven oil reserves in the world (115 billion barrels). Other estimates of Iraq's potential oil reserves vary. The U.S. Department of Energy's Energy Information Administration notes that current estimates "have not been revised since 2001 and are largely based on 2-D seismic data from nearly three decades ago." In April 2007, oil industry consultants IHS assessed that Iraq's proven and probable reserves tally 116 billion barrels, with a potential additional 100 billion barrels in largely unexplored western areas. The U.S. Geological Survey's median estimate for additional oil reserves in Iraq is around 45 billion barrels. In 2004, Iraq's then Oil Ministry claimed that Iraq had "unconfirmed or potential reserves" of 214 billion barrels. My Reservoir Engineering Estimation is that Iraq's reserves can reach more than 320 bn bbl oil. Approximately 65 percent of Iraq's current proven reserves are located in southern Iraq, with a concentration in the southern most province of Al Basrah. Large proven oil resources have also been found in the northern province of Al Ta´mim near the disputed city of Kirkuk At present, crude oil provides over 90% of Iraq's domestic energy consumption and oil exports produce over 98% of Iraq's government revenue. Due to decreases in global oil prices from their 2008 high and lower oil production, Iraqi leaders revised their 2009 revenue and budget assumptions from a projected surplus to a projected $15.9 billion deficit. According to official U.S. assessments continued fluctuations in oil prices and production could put at risk Iraq's fiscal stability and the sustainability of its reconstruction and development plans. The expansion of oil production to the level of four million barrels per day (m/d) by 2013 and then upward to six m/d by 2017 is called for by current Iraqi plans. Iraqi officials have begun an international bid process for service contracts and renegotiated a series of Saddam era oil production agreements in order to support these goals. These include the transformation of a production sharing agreement into a service contract for Ahdab oil field with China National Petroleum Corporation (CNPC).Inhaltsverzeichnis:Table of contents: 1.Introduction1 2.Iraqi Constitution7 3.Contract Conditions15 4.State-owned Oil Companies27 5.Restructuring of the Iraqi Oil Institutions33 6.Revenue-Sharing and Equalization36 7.Potential Geography50 8.Present Organization and Development56 9.Hydrocarbon Legislation Draft and Contracts59 10.Revenue Sharing65 11.Crisis Management of the Oil Industry in Iraq88 12.U.S. Policy and Issues for Congress99 13.China Investment in the Energy Sector112 14.Conclusion119 15.References127 16.Attachments129Textprobe:Textsample: Revenues and Arrangements: Under current arrangements, the responsibility for the sale and export of Iraq's crude oil is appointed to Iraq's State Oil Marketing Organization (SOMO). The United Nations Security Council resolution (UNSCR) 1483 (and updated under subsequent Security Council resolutions) stipulates that revenue from Iraq's oil exports is to be deposited into an Iraq-controlled account held at the Federal Reserve Bank of New York (FRBNY). Five percent of the funds are put aside for a United Nations Compensation Fund for reparations to the victims of the 1990 Iraqi invasion and occupation of Kuwait. The remaining 95% are deposited into a Development Fund for Iraq (DFI) account at the FRBNY and then transferred to an Iraqi Ministry of Finance account at the Central Bank of Iraq for further distribution to Iraqi government ministries. The terms of UNSCR1546 and subsequent resolutions mandate that the DFI be monitored by an International Advisory and Monitoring Board (IAMB), which provides periodic reports on Iraq's oil export revenue, Iraq's use of its oil revenues, and its oil production practices. According to the IAMB, as of December 31, 2007, $23.43 billion had been disbursed from the United Nations Compensation Fund and Iraq owed $28.95 billion to the Fund. Iraq deposited another $3 billion. According to IAMB estimates in mid 2008 "at the present rate of Iraqi oil sales, it would take approximately 17 years for the compensation award to be fully paid."38 It is likely that this estimate is no longer current due to significant declines in the price of oil in the meantime. The IAMB has not yet announced a corrected date. Under U.N. Security Council Resolution 1859 (December 22, 2008) the IAMB authority ends on December 31, 2009. This refers to a 2009 "transition to successor arrangement" from the DFI and the IAMD to Iraqi-led auditing processes. In October 2006, the Committee of Financial Experts (COFE) was approved by the Iraqi cabinet. Its task is to oversee oil revenue collection and administration. The president of the COFE authorized its activities in April 2007, and it currently is working with the IAMB on audit procedures. The establishment of an audit oversight committee for the DFI and oil export revenues is a structural benchmark under Iraq's Stand-by Arrangement (SBA) with the International Monetary Fund currently satisfied by the extension of the IAMB arrangement and the creation of the COFE. Agreements with members of the Paris club made the approval of the SBA into a necessity.39 The IAMB said in 2009 that Iraq's Committee of Financial Experts "is ready and capable to succeed the IAMB and conduct competent and independent oversight of the DFI." Immunity provisions included in standing UN Security Council resolutions protect Iraqi funds in the DFI from property attachment motions instead of legal judgments rendered against the former Iraqi regime. President Bush extended the U.S. legal protections for the DFI and other Iraqi assets under Executive Order 13303 through May 20, 2009. President Obama prolonged the protections until May 2010.40 Iraq will receive continued support from the United States in its attempts to convince the UN to extend related protections for energy proceeds and the DFI under Article 26 of the U.S.-Iraq security agreement. Oversight of Oil Production and Revenue Management Between its creation in May 2003 until December 31, 2007, the DFI received over $121.7 billion in oil proceeds and other deposits. According to audit estimates, an additional $58.8 billion in net export proceeds were deposited in 2008. Intermittent audits done in conjunction with the IAMB have routinely found serious discrepancies in oil production and export figures and DFI account receipt and distribution amounts. The absence of reliable output measurements for oil has been a critical and ongoing problem. During the Coalition Provisional Authority (CPA) period, there was no metering equipment available for oil production and exports. According to a May 2007 GAO report, there have been no improvements in reliable metering in Iraq's oil fields. This has contributed to the shortage of reliable data on Iraq's oil production and related revenue.42. In January 2008, an IAMB report claimed that Iraq's Ministry of Oil "does not have in place a full operational loading and metering system at production and loading points in order to determine produced and loaded quantities [of oil] accurately." An IAMB report in June 2008 established that "some metering has been installed at oil terminals, but there continues to be no metering in the oil fields." In April 2009, the IAMB stated that "much remains to be done before a fully operational control and measurement system over the oil production, distribution and export sales, can be comprehensively implemented," and added that, "Indications from the Ministry of Oil point to implementation by 2011 at the earliest." Financial audits completed by December 2005 established that "no comprehensive financial and internal controls policies and procedures manuals" existed in the Iraqi ministries that were spending oil export proceeds delivered through the DFI system. On June 12, 2007, the IAMB commented on its 2006 findings, noting that the audits proved "the overall financial system of controls is deficient." The audits showed there was "no overall comprehensive system of controls over oil revenues," and that "basic administrative procedures" were "outdated and ineffective." These conditions may have contributed to widespread corruption. Several Iraqi ministries spending distributed oil export revenue have been accused of corruption which is often associated with weak contracting and cash management policies. The Iraqi government's attempts to respond to IAMB recommendations were noticed by the IAMB's preliminary findings for 2007, but also noted that "the overall financial system of controls in place in the spending ministries, the U.S. agencies in respect of outstanding commitments using DFI resources, and the Iraqi administration of DFI resources remain deficient." The 2008 preliminary assessment, released in April 2009, concluded that "much remains to be done before a sound financial management system is operating effectively in Iraq".
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A healthy working life is fundamental for individuals and society. To date, increasingly research connects the earlier, pre-working life to later working life experiences and beyond, recognizing that a worker's health and exposure starts before the working life begins. The research, however, often lacks a fundamental understanding of (i) the underlying mechanisms and pathways accounting for differences in different life stages and (ii) the role of the social environment in shaping working life experiences. By integrating a life course perspective in our research and crossing disciplinary borders in rigorous, collaborative research, we may get a better understanding of the complex and dynamic interplay between work, environment and health. A life course perspective for work environment and health research A life course perspective in work environment and health research emphasizes the importance of prior life experiences, including the environments in which individuals were raised and exposed, their familial and educational backgrounds, and their physical and mental health status before entering the workforce (1, 2). Life course research in different disciplines has been instrumental in developing more robust causal models (3, 4), particularly for understanding developmental health trajectories and socioeconomic health inequalities (eg, 5–7). Adopting an interdisciplinary life course perspective in work environment and health research helps researchers answering questions as to whether and how the timing, duration, intensity, and context of past and present exposures (ie, pre-working, working, and non-working exposures) are associated with later life work and health outcomes. For instance, the 'exposome paradigm' is a concept used to describe the sum of occupational and environmental exposures an individual encounters throughout life, and how these exposures impact biology and health (8). In exposome research, a broad range of genetic, biological, chemical, physical, social and lifestyle factors is examined throughout the life course to provide a comprehensive picture of potential risk factors impacting working life health (9). In exposome research and beyond, it is important to examine how the exposure-outcome relationships are shaped by specific social, cultural and historical contexts (2). The conceptual framework of the 'Social Exposome' may help to integrate the social environment in conjunction with the physical environment into the exposome concept (10). Moreover, focusing on both historical and contemporary contexts is essential not only for advancing research but also for informing policy and practice, for example by identifying entry points for interventions. Exposures during the life course During the individual's life course, several vulnerable time windows for the impact of a multitude of exposures that potentially harm, protect or promote health, eg, occupational, environmental and social, can be distinguished. The (combinations of) exposures may operate in different life stages and contexts and – directly or indirectly via intergenerational transmission – contribute to health (figure 1). The individual may be particulary sensitive to harmful exposures or adverse experiences during developmental life stages, ie, pre/perinatal, childhood, adolescence, pregnancy and menopause/andropause. Other life stages may reflect vulnerable time windows due to a clustering of exposures, eg, work and family demands during parenthood, or an accumulation of exposures during the (working) life course at retirement and post-retirement age. As illustrated in figure 1, occupational exposure(s) can be divided in exposure through the parents' exposure (early in life) and an individuals' own exposure (later in life). Already in the pre/perinatal life stage, occupational exposure starts through the intergenerational transmission of the parents' occupational exposures. Current and bioaccumulated occupational exposure of chemicals and particles in the father at the time of conception can affect sperm quality. Together with the mother's exposure to occupational exposures of chemicals and particles prior to conception – or chemicals, particles, physical factors, ergonomic load, organizational and (psycho-)social conditions at work during pregnancy – this may affect fetal development and later disease development during the child's life course (11–15). During childhood, the growing child is exposed to parental occupational exposure(s), directly through chemicals and particles in the work clothes and skin or indirectly through organizational and psychosocial factors in the work environment that may increase the risk for mental and physical health problems in parents, which in turn may affect their parental rearing quality (16, 17). During adolescence and early adulthood, individuals usually encounter their first direct occupational exposures through their first (student) job or jobs. Already from this life stage, occupational exposures may accumulate during the (working) life course and may affect not only the active working life but also the post working life. Also important to note is that brain plasticity is not limited to childhood, adolescence or young adulthood as it persists throughout life. Some studies indicate that high physical and chemical exposure during this life stage, can increase the risk of disease later in life (18). A poor psychosocial school or work environment in younger years may also increase the risk of adverse labour market outcomes and mental health problems later in life (19, 20). In adulthood, men and women often start with (the planning of) family formation. Some occupational exposures affect fecundability, others can increase the risk of pregnancy-related disease, such as preeclampsia, hypertension or diabetes, or affect the offspring (21, 22). Chemicals, heat and stress-related exposures affect the ability to conceive. During pregnancy, the bodily and mental systems are vulnerable with changes in the endocrine and inflammation response that can dysregulate the HPA-axis, resulting in a prolonged stress response. The placenta can filter out many hazards, but not all toxicants, such as methylmercury and arsenic (23, 24). Physical exposure, such as noise and vibration, but also shift and night work can affect the womb and cause fetal growth restriction, preterm birth, and hearing impairment (eg, 12, 13, 25–27). During parenthood, occupational exposures may affect the parents' (mental) health and work-family balance (28, 29). Many chemical and physical exposures have now manifested in disease, eg, allergy, asthma and musculoskeletal diseases (28). During menopause in women, with a drastic decrease in oestrogen, and the slow testosterone decline in men (sometimes referred to as andropause), dysregulations of the hormone system may disrupt and affect the individual's susceptibility for occupational exposures in a way similar to environmental exposures (30). Towards retirement, the total cumulative occupational exposure burden over the working life course and the current exposure will affect the ability to stay at work and in the labor market. Post retirement, most direct occupational exposures have ceased, but others may have (bio-) accumulated over time and may cause health problems that manifest after retirement (31, 32). Along with occupational exposures, a multitude of other exposures are present during the entire life course that may operate across different contexts to contribute to health (see figure 1). For instance, chemical, physical and social stressors during the life course leave traces ('memories') on the molecular and tissue levels that may affect later life health (33). Epigenetic marks act as heritable memories in the cell as they respond to different endogenous and exogenous signals and can be propagated from one generation of cells to the next generation of cells (33). Next to the epigenetic marks, the social environment and social determinants of health during the life course, eg, socio-economic and lifestyle factors, social relationships, social cohesion and support, are known to impact health and add to the multitude of exposures to be examined, among others in conjunction with the environmental exposome (eg, 34). In residential, family and school contexts, exposures such as air pollution, drinking water pollution, noise, artificial light at night, limited access to green space and crowding may play a role, as can adverse childhood experiences (eg, 35, 36). Moreover, on the overarching societal context, legislations, labor market conditions, norms, values and cultural aspects may affect worker health (2, 37). Main knowledge gaps and challenges Both conceptual and empirical challenges have to be tackled when conducting work environment and health research with an interdisciplinary life course perspective. On the conceptual level, different paradigms and nomenclature still exist in the various disciplines examining the impact of (occupational) exposures on later life health outcomes, which contributes to fragmented research and publication thereof in specialized journals. On the empirical level, questions arise such as: Is it feasible to examine mechanisms and pathways across different exposure levels considering a life course perspective? Is the follow-up duration of existing birth and other cohorts sufficient to address the dynamic interplay between the work environment and health? Are the multifaceted, constantly changing contexts captured? Effect sizes are often small on an individual level and statistical power decreases when several rare assumptions have to be fulfilled to examine clusters or combinations of exposures and contexts in relation to health outcomes. Big data, interdisciplinary research protocols and innovative, advanced statistical models to capture the life course perspective are needed to proceed beyond the exposome studies that are currently being finalized within the EU Horizon 2020 exposome call (https://www.humanexposome.eu). Moreover, a better understanding is needed of how occupational, environmental and social exposures affect individuals (i) in vulnerable time windows, eg, do exposures contribute to health advantages and/or disadvantages, and (ii) while transitioning between and within different life stages (38). Studies in different disciplines have focused on the childhood and retirement life stages, see eg, the research on the school-to-work transition or the work-to-retirement transition (39–41), but little is known about the menopause or andropause life stage. Last, rigorous examinations of different lifecourse models (eg, sensitive periods) and exposure models (eg, current, first, last, peak, single, chronic or accumulated), and their impact on health are needed within and across the different vulnerable time windows and life stages as exposure-outcome relationships may differ and thus call for targeted (preventive) policies and practices (42–44). Interdisciplinary research opportunities The challenges towards a better understanding of the complex and dynamic interplay between the work environment and health provide ample opportunities for rigorous, collaborative quantitative and in-depth qualitative life course research across different research strands. Researchers from different disciplines, such as occupational and environmental medicine, epidemiology, toxicology, health science, sociology, psychology, demography, public (mental) health, and genetics to name a few, should not shy away from the complexity, but embrace the opportunity to use their knowledge and skills to collectively address relevant research questions. Interdisciplinary research opportunities are already present today and will emerge even more in the years to come as more cohorts designed as birth cohorts or multi-generational cohorts mature (eg, LifelinesNext, 45). Researchers have or get access to (national) registers, databases with individual-level internal and external exposure information and neighbourhood-level exposure information or linkages of all these exposure and health data, allowing them to examine the impact of exposures in advanced causal models on later life health. To illustrate the value of and research opportunities with existing data, Ubalde-Lopez and colleagues (46) recently argued that parental work-related data collected in birth cohorts is a valuable yet underutilized resource that could be exploited more fruitfully in the collaboration between birth cohort research, occupational epidemiology and sociology. Having said that, the authors also refer to the possible constraints of eg, cross-national comparative research in terms of technical (ie, harmonization) and ethical challenges (46). In conclusion, to move research on the work environment and health forward, we call for a more integrated, interdisciplinary approach that considers the timing and accumulation of occupational, environmental and social exposures over the life course.
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Over the first weekend of August 2023, Saudi Arabia convened an international summit on the war in Ukraine. Held in Jeddah and attended by representatives from 40 countries As was widely expected, the meeting did not produce any breakthroughs. Still, it provided a golden opportunity for Saudi Crown Prince Mohammed bin Salman Al Saud (MBS) to position himself as a leader of what might be called a second "Non-Aligned Movement." This movement's growing influence owes much to Russia's invasion of Ukraine. For while Moscow's assault had the unintended effect of revitalizing—and expanding—NATO, it also created an opening for many countries to leverage a multipolar international system in ways that have limited Washington's global power, not to mention its regional clout in the Middle East.
But these "balancing" efforts come with a high cost, as rising grain prices have threatened the stability of many of the very states that have thus far refused to condemn Russia's invasion, much less support Ukraine. For these states, the status quo is increasingly precarious, hence the wider logic of inviting China and the United States to sit a few short whispers away from their Saudi hosts at a meeting to which Russia was not invited.
China's Multi-Faceted Foreign Policy
From the outset, China has tried to advance a position of "neutrality" while echoing Russian President Vladimir Putin's justification for his unprovoked invasion of Ukraine. Beyond rhetoric, Beijing has provided economic support via its purchase of price-discounted Russian oil and, some experts argue, limited military assistance as well (a claim Beijing denies).
China's efforts to maintain these two tracks reflect structural tensions at the heart of China's global engagement. On the one hand, China is closely tied to a global economic order that is dominated by Western states and multilateral institutions. On the other hand, President Xi Jinping is seeking to counter U.S. military, economic, and even cultural power, and has done so in multiple ways, thus inviting conflict with the United States even as Beijing needs to cooperate with Washington and its Western allies. Russia's invasion of Ukraine, which reportedly took Chinese leaders by surprise, created opportunities for China to flex its "counter-hegemonic" muscles, but also opened the door to economic and strategic threats that were likely to intensify absent a diplomatic solution to the Ukraine conflict.
The tension between China's ideological and global economic interests extends well beyond the China-West arena. Many middle-sized regional powers such as India, Brazil, and South Africa share Beijing's desire to counter U.S. global dominance. But their policies are also rooted in the principle of state sovereignty and the rejection of the use of force to solve international conflicts. Beijing has long advocated these very norms and has given them pride of place in the charter of the Shanghai Cooperation Organization, not to mention China's 12-point Ukraine peace proposal.
Thus its support for Russia has raised legitimate questions from many leaders about the rising humanitarian and economic costs of the war and Beijing's readiness to take credible steps to show that its Ukraine plan is not a mere diplomatic feint. The most important of these steps would be for Beijing to reduce its diplomatic support for Moscow.
Beijing's Jeddah Dance
From the outset of the Jeddah meeting China's delegate avoided suggesting that Beijing would endorse any particular proposal other than its own. Indeed, Special Representative Li Hui seemed to emphasize the limited goals of the meeting—and the conflicts animating its leading participants—when he declared, "We have many disagreements and we have heard different positions, but it is important that our principles be shared."
Putting a more positive spin, a spokesperson for the Chinese government noted that, "China is willing to work with the international community to continue to play a constructive role in promoting a political solution to the crisis in Ukraine."
But what kind of solution? The outcome that China has outlined in its own 12-point proposal calls for respecting "the independence and territorial integrity of all countries" but also for a negotiated "political settlement" that could fudge or violate these principles. Thus, China is not ready to accept Ukraine's 10-point peace plan, which would require Russia's total withdrawal from all Ukrainian lands, including Crimea.
That Moscow has totally rejected this idea is not surprising; any hint by Putin that he might accept Ukraine's terms could undermine his rule. Moreover, as one expert has noted, "Ukraine's best-case scenario for the end of this war is also China's worst-case scenario," because Beijing wants Putin to remain in power while sustaining Russia's occupation until it is Ukraine that makes the key compromises.
It is inconceivable that China's envoy came to the Jeddah meeting believing that these various circles could be squared. Still, with the Ukraine conflict settling into what could be a prolonged war of attrition, and with Russia's suspension of its grain deal and its attacks on shipping in the Black Sea, China had to demonstrate concern for those states suffering from Moscow's policy of global blackmail.
Ukrainian President Volodymyr Zelenskyy exploited China's unease when he noted that, "On issues such as food security, the fate of millions of people in Africa, Asia and other parts of the world directly depends on how fast the world moves to implement the peace formula." He was, of course, talking about Ukraine's own proposal, which China certainly did not back. Still, China's active presence in Jeddah presumably showed that it was ready to assume its responsibilities as a major global power that, in the words of the Chinese Foreign Ministry, had helped "to consolidate international consensus" on Ukraine.
Whatever the veracity of this claim, it is worth noting that on the second day of the Jeddah conference, Russian Deputy Foreign Minister Sergei Ryabkov insisted that the meeting was "a reflection of the West's attempt to continue futile, doomed efforts," but added that China could nevertheless "convey common sense to the Western patrons of Kyiv."
China did its best to avoid taking on the role of Moscow's messenger. Still, days after the Jeddah summit, Chinese Foreign Minister Wang Yi, in a phone call with his Russian counterpart Sergey Lavrov, reassured him that Beijing was committed to being an "objective and rational voice." That the week before the summit China had joined Russia in a naval exercise off the coast of Alaska that prompted the deployment of four U.S. Navy destroyers underscored the risky juggling act that is at the heart of Beijing's foreign policy.
A Win for MBS and Zelenskyy
The key participants in the Jeddah conference made good use of the multiple balls that Beijing has thus far kept in the air. Ukrainian officials declared that the meeting "completely destroys the narrative of Russia" that Ukraine was only backed by "countries of the collective West." Such hyperbole was as necessary as they were predictable. Indeed, while in the lead up to the meeting Ukrainian officials insisted that "our goal in Saudi Arabia is to develop a unified vision" ahead of a future global peace summit, the fact that no such vision emerged in Jeddah was almost irrelevant. What counted most was that the summit was held and that it ended, as the Ukrainian ambassador to Saudi Arabia pitched it, with "constructive" talks and "a broad vision." Jeddah was thus a win for Zelenskyy.
The same, of course, can be said for MBS. He may have not fully agreed when the Ukrainian ambassador thanked Saudi Arabia "for being so committed and hospitable to Ukraine in moving forward our peace formula plan." But the meeting signaled that the crown prince is on his way to rehabilitating his international reputation.
More broadly, as one leading Saudi journalist noted, the conference underscored Saudi Arabia's growing clout as a "neutral" mediator in a diverse group of states that constitute a kind of second Non-Aligned Movement whose members are leveraging the US-Russia-China triangle of conflict to advance their interests while maintaining good relations with all three countries.
For Riyadh, a key element in this juggling act is its unhappiness with being replaced by Russia as China's chief supplier of crude oil. This represents a real economic and political cost for MBS, who to the frustration of the Biden White House, has sustained the oil production cuts he initiated in Spring 2023.
In short, the Jeddah meeting gave Riyadh a practically risk-free opportunity to direct multiple signals in multiple directions. Thus, while the conference ended without any final declaration, Saudi officials held that the meeting contributed to "building common grounds that pave the way for peace." As for China, it has signaled its readiness to attend a follow-up meeting.
The Biden Administration (and China) Navigate Choppy Waters
While U.S. national security adviser Jake Sullivan went to the Jeddah conference, the administration's best bet was to let other participants, most importantly Ukraine's president, make their case and test China's intentions. That in the words of one unnamed U.S. official, the administration was "glad" that China attended and participated in the meeting "in a constructive way"— highlights the challenges that the administration faces as it navigates choppy diplomatic waters.
Those waters got a little rougher as the BRICS countries — Brazil, Russia, India, China, and South Africa — held a summit on summit on August 22 during which Egypt, Iran, Ethiopia, the U.A.E. and Saudi Arabia were invited to join. If the decision shows that Russia and China are advancing their efforts to create an alternative to the International Monetary Fund and other Western dominated multi-lateral financial powerhouses, the expanded BRICS club includes not a few members who have concerns about the agenda of Moscow and China on a host of issues, including the Ukraine war.
That Russian Deputy Foreign Minister Ryabkov stated that Moscow looked forward to "an exchange of views" with the BRICS countries that attended the Jeddah meeting could suggest some unease in the Kremlin. For however determined to foster a multi-polar global system, major regional players such as Brazil and South Africa have no interest letting Moscow or China become the new arbiters of a counter hegemonic agenda. Speaking to the point, South African President Cyril Ramaphosa has warned, "We have resisted pressure to align ourselves with any one of the global powers or with influential blocs of nations."
Vladimir Putin might ignore such sentiments, but Beijing's leaders cannot. Afterall, precisely because China is a real world economic and military power in ways that Russia will never be, it needs to find a path to engaging across the global spectrum. This balancing act has become harder with a struggling domestic economy, not to mention the efforts of the Biden White House to foster greater security cooperation in Asia — amply demonstrated by the recent US/South Korea/Japan Camp David summit.
Biden wisely insisted that the meeting was not "anti-China." Still, it is far from clear that this statement shows that the White House has forged a policy that fully takes into account the tensions that are at the heart of China's foreign relations — and that brought Beijing's emissary to Jeddah in the first place.
A version of this piece was published by Arab Center Washington DC. The views expressed in this publication are the author's own and do not necessarily reflect the position of Arab Center Washington DC, its staff, or its Board of Directors.
Article Details: Received: 2020-09-07 | Accepted: 2020-10-19 | Available online: 2020-12-31https://doi.org/10.15414/afz.2020.23.04.241-247The contents of polychlorinated biphenyls (PCBs) were determined in raw cow's milk, feed and soil samples from three regions of Slovak Republic (SR) depending on the environmental regional classification of SR. Total 60 pool milk samples from undisturbed environment (Novoť area), moderately disturbed environment (Tulčík area), and from strongly disturbed environment (Čečejovce area) collected in April, July and September were extracted, purified by gel permeation chromatography (GPC) and analyzed using the gas chromatography with electron capture detector method (GC-ECD). Thirty feed samples of total mixed ration (TMR) were collected in April and September and after the extraction and purification by GPC were analyzed using gas and liquid chromatography (GLC). Fifteen soil samples collected in April were analyzed using the GC-ECD. All samples of raw milk, feed and soil were under the limit of quantification (LOQ) from all regions and did not exceed the limits set by European Commission. There were no seasonal differences in the PCBs levels in the milk, feed and soil samples. The milk PCBs consumption from these locations has no negative impact on consumer's health. The results indicate the decreasing trend in PCBs occurrence in the environment and food sources. Despite this positive findings, there is a constant need to monitor environmental burden of PCBs in the different regions of Slovakia where mainly food of animal origin is produced and to recognize another sources of PCBs that may impact the food chain.Keywords: polychlorinated biphenyls, PCB, cow milk, cows, SlovakiaReferencesAHMADKHANIHA, R., NODEHI, R.N., RASTKARI, N. and AGHAMIRLOO, H.M. (2017). Polychlorinated biphenyls (PCBs) residues in commercial pasteurized cows' milk in Tehran, Iran. 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Not Available ; The land resource inventory of Sonath-1 microwatershed was conducted using village cadastral maps and IRS satellite imagery on 1:7920 scale. The false colour composites of IRS imagery were interpreted for physiography and these physiographic delineations were used as base for mapping soils. The soils were studied in several transects and a soil map was prepared with phases of soil series as mapping units. Random checks were made all over the area outside the transects to confirm and validate the soil map unit boundaries. The soil map shows the geographic distribution and extent, characteristics, classification, behaviour and use potentials of the soils in the microwatershed. The present study covers an area of 445 ha in Sonath -1 microwatershed in Gulbarga taluk of Gulbarga district, Karnataka. The climate is semiarid and categorized as drought-prone with an average annual rainfall of 740 mm, of which about 540 mm is received during south–west monsoon, 126 mm during north-east and the remaining 74 mm during the rest of the year. An area of about 96 per cent is covered by soils, four per cent by waterbodies, settlements and others. The salient findings from the land resource inventory are summarized briefly below. The soils belong to 5 soil series and 14 soil phases (management units) and 5 land use classes. The length of crop growing period is about 120-150 days starting from the 3rd week of May to 1rd week of October. From the master soil map, several interpretative and thematic maps like land capability, soil depth, surface soil texture, soil gravelliness, available water capacity, soil slope and soil erosion were generated. Soil fertility status maps for macro and micronutrients were generated based on the surface soil samples collected at every 250 m grid interval. Land suitability for growing 19 major agricultural and horticultural crops were assessed and maps showing the degree of suitability along with constraints were generated. About 80 per cent area is suitable for agriculture and 16 per cent is not suitable for agriculture. About 65 per cent area has very shallow (150 cm) soils. About 72 per cent of the area has clayey soils and about 24 % loamy soils at the surface. About 55 per cent of the area has non-gravelly soils, 12 per cent gravelly to very gravelly soils (15-60 % gravel) and 29 per cent extremely gravelly soils (60-80%). About 65 per cent of the area has soils that are very low (200 mm/m) in available water capacity. About 67 per cent of the area has very gently sloping (1-3%), about 13 per cent area is gently sloping (3-5%) and about 16 per cent area has moderately sloping (5-10%) lands. An area of about 34 per cent has soils that are slightly eroded (e1), 33 per cent moderately eroded (e2) and 29 per cent severely eroded (e3). An area of about 23 per cent has soils that are slightly alkaline (pH 7.3 to 7.8), about 37 per cent moderately alkaline (pH 7.8-8.4), about 15 per cent strongly alkaline (pH 8.4-9.0) and 22 per cent area is neutral (pH 6.5-7.3) in soil reaction. The Electrical Conductivity (EC) of the soils are dominantly 0.75%) in organic carbon. Major area of 47 per cent has soils that are low (57 kg/ha) in available phosphorus. About 7 per cent low (337 kg/ha) in available potassium. Available sulphur is low (4.5 ppm). Available manganese and copper are sufficient in all the soils. About 82 per cent area has soils that are deficient (0.6 ppm). The land suitability for 19 major crops grown in the microwatershed was assessed and the areas that are highly suitable (S1) and moderately suitable (S2) are given below. It is however to be noted that a given soil may be suitable for various crops but what specific crop to be grown may be decided by the farmer looking to his capacity to invest on various inputs, marketing infrastructure, market price and finally the demand and supply position. Land suitability for various crops in the microwatershed Crop Suitability Area in ha (%) Crop Suitability Area in ha (%) Highly suitable (S1) Moderately suitable (S2) Highly suitable (S1) Moderately suitable (S2) Sorghum 140 (31) - Sapota - - Maize - - Jackfruit - - Red gram - 140 (31) Jamun - 107 (24) Sunflower 140 (31) - Musambi 107 (24) 33 (7) Cotton 107 (24) 33 (7) Lime 107 (24) 33 (7) Sugarcane - - Cashew - - Soybean 140 (31) - Custard apple 140 (31) - Bengal gram 140 (31) 75 (17) Amla 140 (31) - Guava - - Tamarind - 107 (24) Mango - - Apart from the individual crop suitability, a proposed crop plan has been prepared for the 5 identified LUCs by considering only the highly and moderately suitable lands for different crops and cropping systems with food, fibre and horticulture crops that helps in sustained production and also maintaining in the ecological balance in the microwatershed. Maintaining soil-health is vital to crop production and conserve soil and land resource base for maintaining ecological balance and to mitigate climate change. For this, several ameliorative measures have been suggested to these problematic soils like saline/alkali, highly eroded, sandy soils etc., Soil and water conservation treatment plan has been prepared that would help in identifying the sites to be treated and also the type of structures required. As part of the greening programme, several tree species have been suggested to be planted in marginal and submarginal lands, field bunds and also in the hillocks, mounds and ridges. This would help in not only supplementing the farm income but also provides fodder and fuel and generate lot of biomass. This helps in maintaining an ecological balance and also contributes to mitigating the climate change. Baseline socioeconomic characterisation is prerequisite to prepare action plan for program implementation and to assess the project performance before making any changes in the watershed development program. The baseline provides appropriate policy direction for enhancing productivity and sustainability in agriculture. Methodology: Sonath-1 micro-watershed (Sonath-1 sub-watershed, Gulbarga taluk and district) is located in between 17035'–17037' North latitudes and 7705'–7707' East longitudes, covering an area of about 445 ha, bounded by Mormanchi, Malsapur, Kinhi, Chengta and Margatti villages with length of growing period (LGP) 120-150 days. We used soil resource map as basis for sampling farm households to test the hypothesis that soil quality influence crop selection, and conservation investment of farm households. The level of technology adoption and productivity gaps and livelihood patterns were analyses. The cost of soil degradation and ecosystem services were quantified. Results: The socio-economic outputs for Sonath-1 micro-watershed (Sonath subwatershed, Gulbarga taluk, Gulbarga district) are presented here. Social Indicators; Male and female ratio is 60.5 to 39.5 per cent to the total sample population. Younger age 18 to 50 years group of population is around 62.8 per cent to the total population. Literacy population is around 72.1 per cent. Social groups belong to general caste is around 50 per cent. Wood is the source of energy for a cooking among 50 per cent. About 10 per cent of households have a yashaswini health card. Dependence on ration cards for food grains through public distribution system is around 60 per cent. Swach bharath program providing closed toilet facilities around 30 per cent of sample household. Women participation in decisions making is among all the households were found. Economic Indicators; The average land holding 1.6 ha indicates that majority of farm households are belonging to marginal and small and large farmers. The rain fed land is the total cultivated land area among all the sample farmers. 2 Agriculture is the main occupation among 72.1 per cent and agriculture is the main and agriculture labour is subsidiary occupation around 11.6 per cent of sample households. The average value of domestic assets is around Rs.75901 per household. Mobile and television are popular mass media communication. The average farm assets value is around Rs. 181375 per household, about 50 per cent of sample farmers having bullock cart, plough, sprayer and tractor. The average livestock value is around Rs. 71250 per household; among the all sample household are having livestock. The average per capita food consumption is around 823 grams (1811.5 kilo calories) against national institute of nutrition (NIN) recommendation at 827 gram. Around 60 per cent of sample farmers are consuming less than the NIN recommendation. The annual average income is around Rs. 55519 per household. About 80 per cent of farm households are below poverty line. The per capita monthly average expenditure is around Rs. 2428. Environmental Indicators-Ecosystem Services; The value of ecosystem service helps to support investment to decision on soil and water conservation and in promoting sustainable land use. The onsite cost of different soil nutrients lost due to soil erosion is around Rs. 628 per ha/year. The total cost of annual soil nutrients is around Rs. 345861 per year for the total area of 444.65 ha. The average value of ecosystem service for food grain production is around Rs. 8286/ha/year. Per hectare food grain production services is maximum in redgram (Rs. 19003) followed by black gram (Rs. 3970) and green gram (Rs. 1886). The data on water requirement for producing one quintal of grain is considered for estimating the total value of water required for crop production. The per hectare value of water used and value of water was maximum in redgram (Rs. 57451) followed by green gram (Rs. 48847) and black gram (Rs. 45488). Economic Land Evaluation; The major cropping pattern is redgram (86.0 %) followed by black gram (8.2 %) and green gram (5.7 %). Sonath-1 micro-watershed, major soil is Marguti (DDT) series having very shallow soil depth cover around 44.9 % of area. On this soil farmers are presently growing redgram, Novinihala (DGR) are having shallow soil depth cover around 3 16.9 % of area, the crops are red gram and Mannur soil series having very deep soil depth cover around 24.0 % of area; major crops are black gram, red gram and green gram. The total cost of cultivation and benefit cost ratio (BCR) in study area for red gram ranges between Rs. 23799 ha in MAR soil (with BCR of 1.46) and Rs.19508 /ha in NHA soil (with BCR of 2.53). In green gram the cost of cultivation Rs 38785ha in MAR soil (with BCR of 1.06) and black gram the cost of cultivation in MAR soil Rs.22377/ha (with BCR of 1.18). The land management practices reported by the farmers are crop rotation, tillage practices, fertilizer application and use of farm yard manure (FYM). Due to higher wages farmer are following labour saving strategies is not prating soil and water conservation measures. Less ownership of livestock limiting application of FYM. It was observed soil quality influences on the type and intensity of land use. More fertilizer applications in deeper soil to maximize returns. Suggestions; Involving farmers is watershed planning helps in strengthing institutional participation. The per capita food consumption and monthly income is very low. Diversifying income generation activities from crop and livestock production in order to reduce risk related to drought and market prices. Majority of farmers reported that they are not getting timely support/extension services from the concerned development departments. By strengthing agricultural extension for providing timely advice improved technology there is scope to increase in net income of farm households. By adopting recommended package of practices by following the soil test fertiliser recommendation, there is scope to increase yield in red gram (0 to 21.2 %), green gram (18.5 %) and black gram (32.5 %). ; Watershed Development Department, Government of Karnataka (World Bank Funded) Sujala –III Project
Not Available ; The land resource inventory of Narayanpet-3 Microwatershed was conducted using village cadastral maps and IRS satellite imagery on 1:7920 scale. The false colour composites of IRS imagery were interpreted for physiography and the physiographic delineations were used as base for mapping soils. The soils were studied in several transects and a soil map was prepared with phases of soil series as mapping units. Random checks were made all over the area outside the transects to confirm and validate the soil map unit boundaries. The soil map shows the geographic distribution and extent, characteristics, classification, behavior and use potentials of the soils in the microwatershed. The present study covers an area of 501 ha in Yadgir taluk & district, Karnataka. The climate is semiarid and categorized as drought-prone with an average annual rainfall of 866 mm, of which about 652 mm is received during south-west monsoon, 138 mm during north-east and the remaining 76 mm during the rest of the year. An area of 482 ha (96%) in the microwatershed is covered by soils, 1 ha (0.18%) by railway and 18 ha (4%) by others (habitation and water bodies). The salient findings from the land resource inventory are summarized briefly below. The soils belong to 9 soil series and 15 soil phases (management units) and 4 land management units. The length of crop growing period is about 120-150 days starting from 1st week of June to 4th week of October. From the master soil map, several interpretative and thematic maps like land capability, soil depth, surface soil texture, soil gravelliness, available water capacity, soil slope and soil erosion were generated. Soil fertility status maps for macro and micronutrients were generated based on the surface soil samples collected at every 320 m grid interval. Land suitability for growing 29 major agricultural and horticultural crops was assessed and maps showing the degree of suitability along with constraints were generated. Entire area in the microwatershed is suitable for agriculture. About 32 per cent area of the microwatershed has soils that are deep to very deep (100 to >150 cm), 18 per cent soils are moderately deep (75-100 cm) and 46 per cent soils are shallow to moderately shallow (25-75 cm). About 3 per cent sandy soils, 42 per cent area in the microwatershed has loamy soils and 51 per cent clayey soils. Almost area of the microwatershed has non gravelly (200 mm/m) in available water capacity. An area of about 2 per cent is nearly level (0-1%) and 94 per cent area in the microwatershed has very gently sloping (1-3% slope) lands. An area of about 6 per cent are slightly (e1) eroded, 86 per cent are moderately (e2) eroded and 4 per cent area is severely (e3) eroded. An area of about 6 per cent is neutral (pH 6.5-7.3), 29 per cent is slightly alkaline (pH 7.3-7.8), 35 per cent is moderately alkaline (pH 7.8-8.4),22 per cent is strongly alkaline (pH 8.4-9.0) and 4 per cent is very strongly alkaline (pH >9.0) in reaction. The Electrical Conductivity (EC) of the soils in the entire area of the microwatershed is 0.75%) in organic carbon. About 14 per cent area is low (337 kg/ha) in available potassium. Available sulphur is low (1.0 ppm) in 6 per cent area of the microwatershed. Available iron is deficient (4.5 ppm) in 77 per cent area of the microwatershed. Available manganese is sufficient in all the soils of the microwatershed. Available copper is sufficient in all the soils of the microwatershed. Available zinc is deficient (<0.6 ppm) in an area of about 96 per cent area of the microwatershed The land suitability for 29 major agricultural and horticultural crops grown in the microwatershed was assessed and the areas that are highly suitable (S1) and moderately suitable (S2) are given below. It is however to be noted that a given soil may be suitable for various crops but what specific crop to be grown may be decided by the farmer looking to his capacity to invest on various inputs, marketing infrastructure, market price and finally the demand and supply position. Land suitability for various crops in the Microwatershed Crop Suitability Area in ha (%) Crop Suitability Area in ha (%) Highly suitable (S1) Moderately suitable (S2) Highly suitable (S1) Moderately suitable (S2) Sorghum 248(49) 126(25) Guava - - Maize - 360(72) Sapota - - Bajra - 374(74) Pomegranate - 248(50) Groundnut - 13(3) Musambi 159(32) 89(18) Sunflower 159(32) 89(18) Lime 159(32) 89(18) Redgram - 248(50) Amla 159(32) 215(43) Bengal gram 248(50) 126(25) Cashew - - Cotton 159(32) 215(43) Jackfruit - - Chilli - 374(75) Jamun - 159(32) Tomato - 119(24) Custard apple 248(49) 126(25) Drumstick - 248(50) Tamarind - 159(32) Brinjal 88(18) 286(57) Mulberry - - Bhendi 88(18) 286(57) Marigold - 374(74) Onion 88(18) 231(46) Chrysanthemum - 374(74) Mango - - Apart from the individual crop suitability, a proposed crop plan has been prepared for the identified 4 LMUs by considering only the highly and moderately suitable lands for different crops and cropping systems with food, fodder, fibre and other horticulture crops. Maintaining soil-health is vital for crop production and conserve soil and land resource base for maintaining ecological balance and to mitigate climate change. For this, several ameliorative measures have been suggested for these problematic soils like saline/alkali, highly eroded, sandy soils etc., Soil and water conservation and drainage line treatment plans have been prepared that would help in identifying the sites to be treated and also the type of structures required. As part of the greening programme, several tree species have been suggested to be planted in marginal and submarginal lands, field bunds and also in the hillocks, mounds and ridges. This would help in not only supplementing the farm income but also provide fodder and fuel and generate lot of biomass which would help in maintaining an ecological balance and also contribute to mitigating the climate change. FINDINGS OF THE SOCIO-ECONOMIC SURVEY The survey was conducted in Narayanpet-3 is located at North latitude 160 33' 1.89" and 160 31' 0.128" and East longitude 770 16' 10.075'' and 770 14' 49.22" covering an area of about 500.78 ha coming unde Munagala, Sangavara and Kondapura villages of Yadagiri taluk. Socio-economic analysis of Narayanpet-3 micro watersheds of Mungal subwatershed, Yadgiri taluk & District indicated that, out of the total sample of 34 farmers were sampled in Narayanpet-3 micro-watershed among households surveyed 12 (35.29%) were marginal, 8 (23.53%) were small, 7 (20.59 %) were semi medium and 1 (2.94 %) were medium farmers. 6 landless farmers were also interviewed for the survey. The population characteristics of households indicated that, there were 81 (62.31%) men and 49 (37.69 %) were women. The average population of landless was 3.7, marginal farmers 4, small farmers were 3.1, semi medium farmers were 4 and medium farmers were 7. Majority of the respondents (32.31%) were in the age group of 16-35 years. Education level of the sample households indicated that, there were 48.46 per cent illiterates, 0.77 percent were functional literates, 53.08 per cent pre university education and 2.31 per cent attained graduation. About, 67.65 per cent of household heads practicing agriculture and 17.65 per cent of the household heads were engaged as agricultural labourers. Agriculture was the major occupation for 55.38 per cent of the household members. In the study area, 70.59 per cent of the households possess katcha house and 14.71 per cent possess pucca house. The durable assets owned by the households showed that, 91.18 per cent possess TV, 23.53 per cent possess mixer grinder, 88.24 per cent possess mobile phones and 26.47 per cent possess motor cycles. Farm implements owned by the households indicated that, 35.29 per cent of the households possess plough, 2.94 per cent possess tractor, 29.41 per cent possess bullock cart and 11.76 per cent possess sprayer. Regarding livestock possession by the households, 11.76 per cent possess local cow. The average labour availability in the study area showed that, own labour men available in the micro watershed was 1.63, women available in the micro watershed was 1.37, hired labour (men) available was 8.58 and hired labour (women) available was 10.65. Out of the total land holding of the sample respondents 90.73 per cent (39.98 ha) of the area is under dry condition and the remaining 4.25 per cent area is irrigated land. 2 The major crops grown by sample farmers are Red gram, Cotton, Groundnut, Sorghum and Paddy and cropping intensity was recorded as 91.49 per cent. Out of the sample households 32.35 percent possessed bank account and 2.94 per cent of them have savings in the account. About 32.35 per cent of the respondents borrowed credit from various sources. Among the credit borrowed by households and 27.27 per cent from cooperative/ Grameena bank. Majority of the respondents (100.00%) have borrowed loan for agriculture purpose. Regarding the opinion on institutional sources of credit, 25.00 per cent of the households opined that credit helped to perform timely agricultural operations. The per hectare cost of cultivation for Red gram, Cotton, Groundnut, Sorghum and Paddy was Rs.31255.33 , 37268.89, 36375.24, 22806.82 and 44325.40 with benefit cost ratio of 1:1.50, 1: 1.40, 1: 2.10, 1: 1.40 and 1:2.10 respectively. Further, 38.24 per cent of the households opined that dry fodder was adequate and 17.65 per cent of the households have opined that the green fodder was adequate. The average annual gross income of the farmers was Rs. 79470.59 in microwatershed, of which Rs. 47705.88 comes from agriculture. Sampled households have grown 20 horticulture trees and 45 forestry trees together in the fields and back yards. Households have an average investment capacity of Rs. 3338.24 for land development. Source of funds for additional investment is concerned, 11.76 per cent depends on own funds and 38.24 per cent depends on bank loan for land development activities. Regarding marketing channels, 58.82 per cent of the households have sold agricultural produce to the local/village merchants, while, 14.71 per cent have sold in regulated markets. Further, 70.59 per cent of the households have used tractor for the transport of agriculture commodity. Majority of the farmers (61.76%) have experienced soil and water erosion problems in the watershed and 73.53 per cent of the households were interested towards soil testing. Fire was the major source of fuel for domestic use for 88.24 per cent of the households and 11.76 per cent households has LPG connection. Piped supply was the major source for drinking water for 73.53 per cent of the households. Electricity was the major source of light for 97.06 per cent of the households. In the study area, 76.47 per cent of the households possess toilet facility. Regarding possession of PDS card, 97.06 per cent of the households possessed BPL card. 3 Households opined that, the requirement of cereals (85.29%), pulses (88.24%) and oilseeds (32.35%) are adequate for consumption. Farming constraints experienced by households in the micro watersheds were lower fertility status of the soil (79.41%) wild animal menace on farm field (76.47%), frequent incidence of pest and diseases (61.76%), inadequacy of irrigation water (2.94%), high cost of fertilizers and plant protection chemicals (73.53%), high rate of interest on credit (47.06%), low price for the agricultural commodities (61.76%), lack of marketing facilities in the area (61.76%) and lack of transport for safe transport of the agricultural produce to the market (50.00%) and Less rainfall (11.76%). ; Watershed Development Department, Government of Karnataka (World Bank Funded) Sujala –III Project
Not Available ; The land resource inventory of Gudigeri-3 microwatershed was conducted using village cadastral maps and IRS satellite imagery on 1:7920 scale. The false colour composites of IRS imagery were interpreted for physiography and these physiographic delineations were used as base for mapping soils. The soils were studied in several transects and a soil map was prepared with phases of soil series as mapping units. Random checks were made all over the area outside the transects to confirm and validate the soil map unit boundries. The soil map shows the geographic distribution and extent, characterstics, classification, behaviour and use potentials of the soils in the microwartershed. The present study covers an area of 378 ha in Koppal taluk and district, Karnataka. The climate is semiarid and categorized as drought - prone with an average annual rainfall of 662 mm, of which about 424 mm is received during south –west monsoon, 161 mm during north-east and the remaining 77 mm during the rest of the year. An area of about 97 per cent is covered by soils, three per cent by waterbodies. The salient findings from the land resource inventory are summarized briefly below. The soils belong to 9 soil series and 18 soil phases (management units) and 7 land use classes. The length of crop growing period is 150 cm). Entire area has clayey soils at the surface. About 33 per cent of the area has non-gravelly soils, 47 per cent gravelly soils (15-35 % gravel) and 17 per cent very gravelly (35- 60% gravel) soils. About 25 per cent area has low (51-100 mm/m), 16 per cent medium (101-150 mm/m) and 56 per cent area very high (>200mm/m) available water capacity. Entire area has very gently sloping (1-3%) lands. About 9 per cent area is slightly eroded and about 88 per cent area is moderately eroded (e2) lands. Entire area is strongly alkaline (pH 8.4 to 9.0) to very strongly alkaline (pH>9.0) in soil reaction. The Electrical Conductivity (EC) of the soils are dominantly 0.75%) in organic carbon. Available phosphorus is low (57 kg/ha) in 337 kg/ha) in available potassium and a small area of about 2 per cent has medium (145-337 kg/ha) in available potassium. Available sulphur is low (20 ppm). Available boron is low (0.5 ppm) in about 65 per cent area and medium (0.5-1.0 ppm) in 32 per cent area. Available iron is sufficient (>4.5 ppm) in about 90 per cent area and deficient (<4.5 ppm) in about 7 per cent area. Available zinc is deficient (<0.6 ppm) in major area of about 96 per cent and sufficient in very minor area of <1 per cent. Available manganese and copper are sufficient in all the soils. The land suitability for 24 major crops grown in the microwatershed were assessed and the areas that are highly suitable (S1) and moderately suitable (S2) are given below. It is however to be noted that a given soil may be suitable for various crops but what specific crop to be grown may be decided by the farmer looking to his capacity to invest on various inputs, marketing infrastructure, market price and finally the demand and supply position. Land suitability for various crops in the microwatershed Crop Suitability Area in ha (%) Crop Suitability Area in ha (%) Highly suitable (S1) Moderately suitable (S2) Highly suitable (S1) Moderately suitable (S2) Sorghum 45 (12) 267 (71) Guava - - Maize - - Jackfruit - - Bajra - - Jamun - 210 (56) Groundnut - 36 (9) Musambi 35 (9) 237 (63) Sunflower 35 (9) 237 (62) Lime 35 (9) 237 (63) Chilli - - Cashew - - Tomato - - Custard apple 45(12) 267 (71) Drumstick - 272 (72) Amla - 312 (82) Mulberry - 312 (82) Tamarind - 210 (56) Mango - 81 (21) Marigold - 312 (82) Sapota - - Chrysanthemum - 312 (82) Pomegranate - 272 (72) Jasmine - 40 (11) Apart from the individual crop suitability, a proposed crop plan has been prepared for the 7 identified LUCs by considering only the highly and moderately suitable lands for different crops and cropping systems with food, fodder, fibre and other horticulture crops. Maintaining soil-health is vital to crop production and conserve soil and land resource base for maintaining ecological balance and to mitigate climate change. For this, several ameliorative measures have been suggested to these problematic soils like saline/alkali, highly eroded, sandy soils etc., Soil and water conservation treatment plan has been prepared that would help in identifying the sites to be treated and also the type of structures required. As part of the greening programme, several tree species have been suggested to be planted in marginal and submarginal lands, field bunds and also in the hillocks, mounds and ridges. That would help in supplementing the farm income, provide fodder and fuel, and generate lot of biomass which inturn would help in maintaining the ecological balance and contributes to mitigating the climate change. Baseline socioeconomic characterisation is prerequisite to prepare action plan for program implementation and to assess the project performance before making any changes in the watershed development program. The baseline provides appropriate policy direction for enhancing productivity and sustainability in agriculture. Methodology: The Gudigeri-3 micro-watershed is located in between 15018' – 15020' North latitudes and 75054' – 75056' East longitudes, covering an area of about 378.15 and bounded by Kavalura and Gudigeri villages in Koppal taluk and district. It falls under Agro Ecological Region (AER)–3: (Deccan plateau, hot arid ecosubregion) Karnataka Plateau (Rayalseema as inclusion), hot arid ESR with deep loamy and clayey mixed red and black soils, low to medium AWC and LGP 60-90 days We used soil resource map as basis for sampling farm households to test the hypothesis that soil quality influence crop selection, and conservation investment of farm households. The level of technology adoption and productivity gaps and livelihood patterns were analyses. The cost of soil degradation and ecosystem services were quantified for each watershed. Results: We found that Social Indicators; Male and female ratio is 65 to 35 per cent to the total sample population. Younger age groups of population is around 55 per cent to the total population. Literacy population is around 70 per cent. Wood is the source of energy for a cooking among 80 per cent. Majority of farm households (100 %) are having MGNREGA card for rural employments. Dependence on ration cards through public distribution system is around 80 per cent Swach bharath program providing closed toilet facilities around 80 per cent of sample households. Institutional participation is only 10 per cent of sample households. Women participation is decision making is 20 % of sample households. Economic Indicators The average land holding is 3.06 ha indicates that majority of farm households are belong to marginal and small farmers. Agriculture is the main occupation only among 31 per cent and agricultural labours is predominant subsidiary occupation for 59 per cent of sample households. The average value of domestic assets is around Rs 15911 per household. Mobile and television are mass popular mass communication media. 2 The average farm assets values is around 1.6 lakhs, about 40 per cent of sample farmers are owing tractors. The average livestock value is around Rs 12695 per livestock, around 60 per cent of households having live stocks. The average milk produced is 245 litters per animal per year and about 1417 kg of average fodder is available per season for the livestock feeding. The average per capita food consumption is around 736 grams (1701 kilo calories) against national institute of nutrition recommendation at 827 gram. Around 75 per cent of sample farmers are consuming less than the NIN recommendation. The annual average income is around Rs 9353 per household. About 100 per cent of farm households are below poverty line. The per capita monthly expenditure is around Rs 823 per household. Environmental Indicators-Ecosystem services; The value of ecosystem service helps to support investment to decision on soil and water conservation and in promoting sustainable land use. The onsite cost of different soil nutrients lost due to soil erosion is around Rs 14565 per ha/year. The total cost of annual soil nutrients is around Rs 5303798 per year for the total area of 378.15 ha. The average value of ecosystem service for food production is around Rs 1602/ ha/year. Per ha food production services is maximum in sunflower (Rs 3055 /ha) followed by red gram (Rs 3926/ha), green gram (Rs 2115), ground nut (Rs 823), bengal gram (Rs 275). The average value of ecosystem service for fodder production is around Rs 1405/ ha/year. Per ha fodder production services is maximum in maize (Rs 3705 /ha) followed by sorghum (Rs 1482 /ha), bajra (Rs 889 /ha) and groundnut (Rs 659/ha). The data on water requirement for producing one quintal of grain is considered for estimating the total value of water required for crop production. The per hectare value of water used and value of water was maximum in green gram (Rs 34116) followed by bengal gram (Rs 29851), bajra (Rs 25705), red gram (Rs 21515), maize (Rs 15092), sorghum (Rs 15057) and ground nut (Rs 11453). Economic Land Evaluation; The major cropping pattern is bajra (27%) followed by green gram (19 %), sorghum (15 %), red gram (15 %), bengal gram (12%, groundnut (9 %)) and maize (3 %). In Gudigeri-3 micro watershed, major soils are Muttal (MTL) series are having shallow soil deep covers around 14 per cent of area. On this soil farmers are presently growing bajra (50 %), green gram (22 %) and red gram (28 %). Ravanki (RNK) soil series are having moderately shallow soil depth cover around 11 per cent of area; major crops grown are bengal gram (56 %) and sorghum (44 %). Gatarediahal (GRH) soil series are having deep soil depth covers around 18 % of area, the major crop grown is bengal gram and Murlapur (MLR) soil series are very deep soil deep cover 3 around 7 % of area, the crops grown are green gram (43 %), groundnut (43 %) and maize (14 %). The total cost of cultivation in the study area for green gram ranges between Rs.14919/ha in MTL soil (with BCR of 1.36) and Rs.13215/ha in MTL soil (with BCR of 1.16). In bengal gram the cost of cultivation range between Rs. 30525/ha in GRH soil (with BCR is 1.08) and Rs.15329/ha in RNK soil (with BCR of 1.18). In maize the cost of cultivation in MTL soil is Rs.10439/ha (with BCR of 1.07). In red gram the cost of cultivation in MTL soil is Rs.11354/ha (with BCR of 1.39). In sorghum cost of cultivation in RNK soil is Rs.10624/ha (with BCR of 1.07) and ground nut cost of cultivation in MLR soil is Rs.19760/ha (with BCR of 1.07). Suggestions; Involving farmers is watershed planning helps in strengthing institutional participation. The per capita food consumption and monthly income is very low. Diversifying income generation activities from crop and livestock production in order to reduce risk related to drought and market prices. Majority of farmers reported that they are not getting timely support/extension services from the concerned development departments. By strengthing agricultural extension for providing timely advice improved technology there is scope to increase in net income of farm households. By adopting recommended package of practices by following the soil test fertiliser recommendation, there is scope to increase yield in bajra (13.3 %), bengal gram (9.0 %), green gram (6.3 %), groundnut (9.0 %), maize (57.5 %), red gram (13.8 %) and sorghum (18.8 %). ; Watershed Development Department, Government of Karnataka (World Bank Funded) Sujala –III Project
Not Available ; The land resource inventory of Harve-1 microwatershed was conducted using village cadastral maps and IRS satellite imagery on 1:7920 scale. The false colour composites of IRS imagery were interpreted for physiography and these physiographic delineations were used as base for mapping soils. The soils were studied in several transects and a soil map was prepared with phases of soil series as mapping units. Random checks were made all over the area outside the transects to confirm and validate the soil map unit boundaries. The soil map shows the geographic distribution and extent, characteristics, classification, behaviour and use potentials of the soils in the microwatershed. The present study covers an area of 514 ha in Harve-1 microwatershed in Chamarajnagar taluk and district, Karnataka. The climate is semiarid and categorized as drought- prone with an average annual rainfall of 769 mm, of which about 316 mm is received during south –west monsoon, 252 mm during north-east and the remaining 201 mm during the rest of the year. An area of about 89 per cent area is covered by soils, 1 per cent is covered by rock-out crops, 150 cm) soils, an area of 20 per cent has moderately deep to deep (75-150 cm) soils. An area of about 32 per cent is under moderately shallow (50-75 cm) soils and shallow (25-50 cm) soils occupy 22 per cent area in the microwatershed. An area of about 14 per cent has clayey soils at the surface, 39 per cent has loamy soils at the surface and an area of about 37 per cent has sandy at the surface. An area of about 10 per cent has non-gravelly (0.75 ppm) in organic carbon. An area of about 6 per cent is low (57 kg/ha) in 43 per cent area in available phosphorus. An area of about 35 per cent has soils that are medium (145-337 kg/ha) and 54 per cent area has high (>337 kg/ha) in available potassium. Available sulphur is low (20 ppm) in 26 per cent area of the microwatershed. Available boron is low (1.0 ppm) in 1 per cent area of the microwatershed. About 75 per cent area has soils that are deficient (4.5ppm) in the available iron. Available manganese and copper are sufficient in the entire cultivated area of the microwatershed. An area of about 76 per cent has soils that are deficient (<0.6 ppm) and 14 per cent has soils are sufficient in available zinc. The land suitability for 9 major crops (agricultural and horticultural) grown in the microwatershed were assessed and the areas that are highly suitable (S1) and moderately suitable (S2) are given below. It is however to be noted that a given soil may be suitable for various crops but what specific crop to be grown may be decided by the farmer looking to his capacity to invest on various inputs, marketing infrastructure, market price, and finally the demand and supply position. Land suitability for various crops in the microwatershed Crops Suitability area in ha (%) Highly Suitable (S1) Moderately Suitable (S2) Sorghum 39(8) 255(50) Maize 39(8) 255(50) Finger millet 39(8) 255(50) Red gram - 131(26) Groundnut 69(14) 224(44) Cotton - 275(54) Chilli 39(8) 255(50) Mango - 28(6) Sapota - 99(19) Apart from the individual crop suitability, a proposed crop plan has been prepared for the 9 identified LMUs by considering only the highly and moderately suitable lands for different crops and cropping systems with food, fodder, fibre and horticulture crops that helps in maintaining the ecological balance in the microwatershed. Maintaining soil-health is vital to crop production and conserve soil and land resource base for maintaining ecological balance and to mitigate climate change. For this, several ameliorative measures have been suggested to these problematic soils like saline/alkali, highly eroded, sandy soils etc., Soil and water conservation treatment plan has been prepared that would help in identifying the sites to be treated and also the type of structures required. As part of the greening programme, several tree species have been suggested to be planted in marginal and submarginal lands, field bunds and also in the hillocks, mounds and ridges. That would help in supplementing the farm income, provide fodder and fuel, generate lot of biomass, which in turn would help in maintaining the ecological balance and contribute to mitigating the climate change. Baseline socioeconomic characterisation is prerequisite to prepare action plan for program implementation and to assess the project performance before making any changes in the watershed development program. The baseline provides appropriate policy direction for enhancing productivity and sustainability in agriculture. Methodology: Harve 1 micro-watershed (Chamarajanagar taluk and district) is located in between 15018' – 15020' North latitudes and 7603' – 7605' East longitudes, covering an area of about 513.47 ha, bounded by Harve, Mundakudu, Kethanapura and Maliyur villages with length growing period (LGP) 120-150 days. We used soil resource map as basis for sampling farm households to test the hypothesis that soil quality influence crop selection, and conservation investment of farm households. The level of technology adoption and productivity gaps and livelihood patterns were analyses. The cost of soil degradation and ecosystem services were quantified. Results: The socio-economic outputs for the Harve 1 micro-watershed in Chamarajanagar taluk and district are presented here. Social Indicators; Male and female ratio is 53.8 to 46.2 per cent to the total sample population. Younger age 18 to 50 years group of population is around 61.4 per cent to the total population. Literacy population is around 74.7 per cent. Social groups belong to other backward caste is around 57 per cent. Liquefied petroleum gas (LPG) is the source of energy for a cooking among all households. About 36 per cent of households have a Bhima and Yashaswini health card. About 18 per cent of farm households are having MGNREGA card for rural employment. Dependence on ration cards for food grains through public distribution system is around 64.0 per cent Swach bharath program providing closed toilet facilities around 91.0 per cent of sample households. Institutional participation is only 10.0 per cent of sample households. Women participation in decisions making are around 55 per cent of households were found. 2 Economic Indicators; The average land holding is 0.81 ha indicates that majority of farm households are belong to small and medium farmers. The dry land of 41 % and irrigated land 59 % of total cultivated land area among the sample farmers. Agriculture is the main occupation among 75.7 per cent and agriculture is the main and agriculture labour is subsidiary occupation for 24.3 per cent of sample households. The average value of domestic assets is around Rs. 15472 per household. Mobile and television are popular media mass communication. The average value of farm assets is around Rs. 79781per household, about 54.5 per cent of sample farmers having plough and sprayer (18.2%). The average value of livestock is around Rs. 17962 per household; about 90 per cent of household are having livestock. The average per capita food consumption is around 721 grams (1515 kilo calories) against national institute of nutrition (NIN) recommendation at 827 gram. Around 91 per cent of sample households are consuming less than the NIN recommendation. The annual average income is around Rs. 57041 per cent of sample household. About 45.4 per cent of farm households are below poverty line. The per capita monthly average expenditure is around Rs.1102. Environmental Indicators-Ecosystem Services; The value of ecosystem service helps to support investment to decision on soil and water conservation and in promoting sustainable land use. The onsite cost of different soil nutrients lost due to soil erosion is around Rs. 452 per ha/year. The total cost of annual soil nutrients is around Rs. 207248 per year for the total area of 513.51 ha. The average value of ecosystem service for food grain production is around Rs. 20608/ ha/year. Per hectare food grain production services is maximum in coconut (Rs. 68775) followed by maize (Rs. 22547), sunflower (Rs. 9460), horse gram (Rs. 1348) and sorghum (Rs. 908). The average value of ecosystem service for fodder production is around Rs. 5938/ ha/year. Per hectare fodder production services is maximum in sorghum (Rs.19425) followed by horse gram (Rs.15695) and maize (Rs.1200). The data on water requirement for producing one quintal of grain is considered for estimating the total value of water required for crop production. The per hectare value of water used and value of water was maximum in coconut (Rs. 269700) followed by maize (Rs. 52820), sorghum (Rs. 32100), horse gram (Rs. 22355) and sunflower (Rs. 26604). 3 Economic Land Evaluation; The major cropping pattern is coconut (28.4%) followed by sunflower (26.7 %), maize (26.2%), horse gram (11.3%) and sorghum (7.2 %). In Harve 1 micro-watershed, major soil Kutegoudanahundi (KGH) soil series having moderately shallow soil depth cover around 9.49 % of area, crops are sorghum. Gollarahatti (GHT) soil series are having moderately deep soil depth covers around 7.62 % of area, the major crop grown is sorghum. Honnenahalli (HNH) soil series having moderately shallow soil depth cover 3.48 % of areas; crops are coconut. Kengaki (KGK) soil series having very deep soil depth cover 9.99 % of areas respectively; crops are coconut (24.3 %), sunflower (54.1 %) and maize (21.6 %), Kethanapura (KTP) soil series having moderately shallow soil depth cover 3.65 % of areas; crops are coconut (47.8 %), horse gram (4.2%) and sorghum (48.0 %). Lakkur (LKR) soil series having moderately shallow soil depth cover around 13.19 % of area the major crop coconut (47.8 %), horse gram (4.2 %) and sorghum (48 %). The total cost of cultivation and benefit cost ratio (BCR) in study area for horse gram ranges between Rs. 43872/ha in HDH soil (with BCR of 3.96) and Rs.11259/ha in KGH soil (with BCR of 1.93). In sorghum the cost of cultivation range between Rs. 118931/ha in KGH soil (with of 1.06) and Rs. 23522/ha in HDH soil (with BCR of 1.35). In sunflower the cost of cultivation range between Rs. 26605/ha in KGH soil (with BCR of 1.41) and Rs. 16307/ha in KTP soil (with BCR of 2.99). In coconut the cost of cultivation range between is Rs.51014/ha in HNH soil (with BCR of 2.48) and Rs 34147 in LKR soil (with BCR of 2.82). In maize the cost of cultivation in KTP soil is Rs.27473/ha (with BCR of 2.27). The land management practices reported by the farmers are crop rotation, tillage practices, fertilizer application and use of farm yard manure (FYM). Due to higher wages farmer are following labour saving strategies is not prating soil and water conservation measures. Less ownership of livestock limiting application of FYM. It was observed soil quality influences on the type and intensity of land use. More fertilizer applications in deeper soils to maximize returns. Suggestions; Involving farmers is watershed planning helps in strengthing institutional participation. The per capita food consumption and monthly income is very low. Diversifying income generation activities from crop and livestock production in order to reduce risk related to drought and market prices. 4 Majority of farmers reported that they are not getting timely support/extension services from the concerned development departments. By strengthing agricultural extension for providing timely advice improved technology there is scope to increase in net income of farm households. By adopting recommended package of practices by following the soil test fertiliser recommendation, there is scope to increase yield in horsegram (13.2 to 52.0%), sorghum (15.7 to 73.6%), sunflower (39.3 to 47.9%), coconut (63.6 to 69.0 %) and maize (45.8 %). ; Watershed Development Department, Government of Karnataka (World Bank Funded) Sujala –III Project
The very name of this journal, Frontiers in Education, begs the questions of where the "frontiers" should be at present in education research, and how we can ensure that breakthroughs at these frontiers be rapidly put into practice. In this context, this short opinion article argues that in order to answer these two questions adequately, we, educators, should stop zeroing in on the content or skills we want students to have acquired right at the end of a cycle of studies, be it elementary, high school, or university. Instead, we should not be afraid to ask people who are many years, even decades, past formal education what they think we should focus on, where our teaching can be most effective. My own experience with two eye-opening events suggests that from this lifelong perspective, teaching activities that are likely to be most influential over the course of a person's life do not necessarily follow traditional formats. In terms of facilitating implementation of innovative teaching activities, since it seems very arduous to convince schools to add anything to already overloaded curricula, perhaps this is not where we should concentrate our efforts. I argue that the easiest way to implement change may be to first demonstrate practically to future teachers, enrolled in teacher education programs, that even brief learning activities can have enormous merit. Input from the "real world"If one considers that the objective of high-school and university education is to eventually equip students, at the age of 22 or 23, with the "body of knowledge" and skills that are relevant in their field of specialty, then the frontier one needs to consider in research encompasses all the novel approaches currently under development to better achieve this specific objective. Alternatively, one might adopt the perspective that what happens at the end of undergraduate studies is not necessarily that meaningful, given the fact that graduates will generally work for 42 or 43 years afterwards, change jobs a number of times, and end up doing things for which the content and skills acquired during their undergraduate studies may not be relevant at all. In that lifelong context, one could assume that the "frontier" on which our research in education should focus relates to novel activities that would prepare individuals for the constantly changing landscape that they will face all along their life, including, but not exclusively, during their professional career. One way to get ideas about novel teaching activities we should develop in that latter context consists of simply asking individuals who were in school or at the university 20, 30, or even 40 years ago, to identify the part of their education, taken broadly, that was most valuable to them. The idea is not entirely new, of course, since it was adopted 60 years ago already in the pioneering work of Bertrand Schwartz, in preparation for his landmark reform of the School of Mines in Nancy (France) during the late 1950s (Lambrichs, 2009). Nevertheless, given the strong emphasis in education research on psychometric tests and the application of statistical methods to surveys of large cohorts, a perspective centered on individuals' opinions is likely to be criticized as "anecdotalist", potentially biased, and not sufficiently rigorous. Fortunately, it is not necessary to simply rely on individuals' perceptions, which may indeed be occasionally off if questions are not asked appropriately. Over the last few decades, various educational theorists (e.g., Dominicé, 2000; Dhunpath and Samuel, 2009) have proposed and perfected several techniques to indirectly derive meaningful information about the education of individuals by carefully analyzing biographical stories they may have written. Perhaps, as in the field of self-directed learning (Baveye, 2003), this "life history" approach could help us establish on a firm foundation the expanding frontier(s) in education. This message is clearly conveyed by Goodson and Gill (2014), who argue that "life narratives" can help educators shift from a disenfranchised tradition to one of empowerment.Of course, clearly, this incorporation of the experience of people "in the real world" into school and university curricula needs to be carried out cautiously. It would not be appropriate for economic and competitive interests of groups outside the school community to sway the educational process in a direction that is not ultimately in the best interest of students. One also needs to be careful not to disenfranchise teachers or weaken their agency and collaboration. Because they are intimately involved in the educational process, any discussion about its evolution in the future absolutely needs to involve them directly. Anyway, in this context of input "from the real world", the question of which activities were most influential in my education has intrigued me a lot over the last two or three decades. Clearly, the answer is not to be found in the formal lectures I attended, since I promptly forgot just about everything I learned from them, except in a few rare instances where I had a strong prior motivation to learn the material, on my own if need be. Even in these few cases, most of the content and skills I learned back then turned out to be obsolete after a decade, and had little influence on my later career in science. Careful reflection suggests that by far the most significant learning experiences of my entire schooling were associated with two very short, active learning events, which perhaps paradoxically, had nothing at all to do with the training I got at the university.Short teachable moments…The first of these two influential events took place when I was 17, in 1974, many years before Internet or Facebook existed. One of the teachers in my junior year in high school asked our class to attend a politically-motivated street demonstration held during the week end in the nearest big city. The protest was against an exhibition that was organized to promote tourism in a foreign country, which at that time was under a brutal dictatorship. Many non-governmental organizations and citizens' groups were staunchly opposed to the exhibition. The experience of attending the peaceful demonstration, among a crowd we estimated to be around 250,000 to 300,000 people, was eye-opening in itself, but what made it unique was what happened in school the following Monday. In the early morning, the teacher had purchased all the local newspapers he could find. He assigned us to read and analyze the different accounts these newspapers provided of the street demonstration. Whereas left-leaning newspapers reported that upwards of 500,000 people had marched peacefully through the streets, right-wing journals described the demonstration as a small gathering of merely 50,000 people, and commented incorrectly that some of them had become violent. Several newspapers did not report the protest at all. Meanwhile, the police account of the demonstration mentioned an intermediate number of approximately 200,000 people. After less than an hour of reviewing the different articles, many of us admitted in the ensuing discussion that we were stunned by what we had found. Even though nowadays "alternate facts" have become common place, at the time none of us anticipated disparities to be so blatant between different newspapers. In hindsight, I feel that in one hour of hands-on, discovery-based exposure to a variety of perspectives on the same event, I learned more about the need for a critical analysis of texts, and for a proper account of the socio-economic and historical context in which texts are written, than in any of the formal courses I took on the subject later on in college. Undoubtedly, my upbringing in a family of intellectuals made me particularly receptive to this kind of teachable moment, and individuals reared in very different environments may not as fertile ground as I was, but the fact is that I have never looked at the written word after this single exercise as I did before, nor for that matter at anything that lecturers would talk about in the courses I took afterwards (some of which turned out after a little scrutiny to deliver information that was obsolete or even erroneous). The second event occurred during the Summer just before I started attending the university. My high school had made it possible for a group of students to help with development activities in what was still commonly referred to at the time as the "Third World". Specifically, we were supposed to help missionaries in Rwanda with various practical, mostly agricultural, projects. In the evenings, in the tiny village where we were staying, there was very little to do, except play card- and board games. A favorite activity of the missionaries was to play Scrabble. On one of the first nights I was there, we started a game with them, and basically I played the way my mother had shown me, to try to win by placing words that would earn me more points than what the other players could do with their letters. After a couple of moves, the missionaries stopped the game and told me that this was not how they played it at all. They proceeded to show me how each of them was trying to place words in such a way that all players together would eventually make the most points possible. So instead of proudly putting "taxes" in one move, someone would only put down "ax", then another would add a "t", to obtain "tax", then a third could make it "taxes", and finally, someone could add "sur" to come up with "surtaxes". All in all, that means that the points of the very valuable letter "x" would count five times instead of one, increasing the combined score of all the players at the end of the game. The details of the Scrabble strategy do not matter that much, but what was really a revelation in what the missionaries showed me is that rules can easily be changed to maximize the benefits, in this case the enjoyment, for all involved. The original rules of Scrabble require individual competition among players, and they invariably lead to one player being happy at the end while all the others are less so, to put it mildly. The lesson I got was that it is easy to transform the game into something that is eminently collaborative, such that everyone feels pretty much the same way at the end, depending on how well the group did. As a result, what could be a divisive pastime, especially if one of the players happens to be unreasonably competitive, becomes an activity that strengthens the cohesion of the group and enhances team spirit.Long-lasting lessons learned…Over the years, during my subsequent career as a researcher, I have had many occasions to reminisce about these two events. The older I get, the more I realize how extremely significant they were in my education, overshadowing many other aspects of it. As short as it was, the newspapers-related activity singlehandedly shaped my attitude toward the written word. Every single time I now read an article or a book, I remember the fateful Monday when my classmates and I compared multiple newspaper clippings. As a result, I never take any text (or, for that matter, lecture notes) for granted any more, and I am compelled to systematically look for alternative perspectives on the same topics before I formulate my own opinion. This critical attitude toward texts has played a key role in my work, as it has stimulated me not only to keep learning efficiently on my own, as a self-directed learner, from a variety of sources, but also to try to foster self-directed learning in my students (Baveye, 1994). This capacity is particularly crucial in fields in which phenomenal technological breakthroughs occur at very regular intervals, and the need to renew one's knowledge base is constant.
The very name of this journal, Frontiers in Education, begs the questions of where the "frontiers" should be at present in education research, and how we can ensure that breakthroughs at these frontiers be rapidly put into practice. In this context, this short opinion article argues that in order to answer these two questions adequately, we, educators, should stop zeroing in on the content or skills we want students to have acquired right at the end of a cycle of studies, be it elementary, high school, or university. Instead, we should not be afraid to ask people who are many years, even decades, past formal education what they think we should focus on, where our teaching can be most effective. My own experience with two eye-opening events suggests that from this lifelong perspective, teaching activities that are likely to be most influential over the course of a person's life do not necessarily follow traditional formats. In terms of facilitating implementation of innovative teaching activities, since it seems very arduous to convince schools to add anything to already overloaded curricula, perhaps this is not where we should concentrate our efforts. I argue that the easiest way to implement change may be to first demonstrate practically to future teachers, enrolled in teacher education programs, that even brief learning activities can have enormous merit. Input from the "real world"If one considers that the objective of high-school and university education is to eventually equip students, at the age of 22 or 23, with the "body of knowledge" and skills that are relevant in their field of specialty, then the frontier one needs to consider in research encompasses all the novel approaches currently under development to better achieve this specific objective. Alternatively, one might adopt the perspective that what happens at the end of undergraduate studies is not necessarily that meaningful, given the fact that graduates will generally work for 42 or 43 years afterwards, change jobs a number of times, and end up doing things for which the content and skills acquired during their undergraduate studies may not be relevant at all. In that lifelong context, one could assume that the "frontier" on which our research in education should focus relates to novel activities that would prepare individuals for the constantly changing landscape that they will face all along their life, including, but not exclusively, during their professional career. One way to get ideas about novel teaching activities we should develop in that latter context consists of simply asking individuals who were in school or at the university 20, 30, or even 40 years ago, to identify the part of their education, taken broadly, that was most valuable to them. The idea is not entirely new, of course, since it was adopted 60 years ago already in the pioneering work of Bertrand Schwartz, in preparation for his landmark reform of the School of Mines in Nancy (France) during the late 1950s (Lambrichs, 2009). Nevertheless, given the strong emphasis in education research on psychometric tests and the application of statistical methods to surveys of large cohorts, a perspective centered on individuals' opinions is likely to be criticized as "anecdotalist", potentially biased, and not sufficiently rigorous. Fortunately, it is not necessary to simply rely on individuals' perceptions, which may indeed be occasionally off if questions are not asked appropriately. Over the last few decades, various educational theorists (e.g., Dominicé, 2000; Dhunpath and Samuel, 2009) have proposed and perfected several techniques to indirectly derive meaningful information about the education of individuals by carefully analyzing biographical stories they may have written. Perhaps, as in the field of self-directed learning (Baveye, 2003), this "life history" approach could help us establish on a firm foundation the expanding frontier(s) in education. This message is clearly conveyed by Goodson and Gill (2014), who argue that "life narratives" can help educators shift from a disenfranchised tradition to one of empowerment.Of course, clearly, this incorporation of the experience of people "in the real world" into school and university curricula needs to be carried out cautiously. It would not be appropriate for economic and competitive interests of groups outside the school community to sway the educational process in a direction that is not ultimately in the best interest of students. One also needs to be careful not to disenfranchise teachers or weaken their agency and collaboration. Because they are intimately involved in the educational process, any discussion about its evolution in the future absolutely needs to involve them directly. Anyway, in this context of input "from the real world", the question of which activities were most influential in my education has intrigued me a lot over the last two or three decades. Clearly, the answer is not to be found in the formal lectures I attended, since I promptly forgot just about everything I learned from them, except in a few rare instances where I had a strong prior motivation to learn the material, on my own if need be. Even in these few cases, most of the content and skills I learned back then turned out to be obsolete after a decade, and had little influence on my later career in science. Careful reflection suggests that by far the most significant learning experiences of my entire schooling were associated with two very short, active learning events, which perhaps paradoxically, had nothing at all to do with the training I got at the university.Short teachable moments…The first of these two influential events took place when I was 17, in 1974, many years before Internet or Facebook existed. One of the teachers in my junior year in high school asked our class to attend a politically-motivated street demonstration held during the week end in the nearest big city. The protest was against an exhibition that was organized to promote tourism in a foreign country, which at that time was under a brutal dictatorship. Many non-governmental organizations and citizens' groups were staunchly opposed to the exhibition. The experience of attending the peaceful demonstration, among a crowd we estimated to be around 250,000 to 300,000 people, was eye-opening in itself, but what made it unique was what happened in school the following Monday. In the early morning, the teacher had purchased all the local newspapers he could find. He assigned us to read and analyze the different accounts these newspapers provided of the street demonstration. Whereas left-leaning newspapers reported that upwards of 500,000 people had marched peacefully through the streets, right-wing journals described the demonstration as a small gathering of merely 50,000 people, and commented incorrectly that some of them had become violent. Several newspapers did not report the protest at all. Meanwhile, the police account of the demonstration mentioned an intermediate number of approximately 200,000 people. After less than an hour of reviewing the different articles, many of us admitted in the ensuing discussion that we were stunned by what we had found. Even though nowadays "alternate facts" have become common place, at the time none of us anticipated disparities to be so blatant between different newspapers. In hindsight, I feel that in one hour of hands-on, discovery-based exposure to a variety of perspectives on the same event, I learned more about the need for a critical analysis of texts, and for a proper account of the socio-economic and historical context in which texts are written, than in any of the formal courses I took on the subject later on in college. Undoubtedly, my upbringing in a family of intellectuals made me particularly receptive to this kind of teachable moment, and individuals reared in very different environments may not as fertile ground as I was, but the fact is that I have never looked at the written word after this single exercise as I did before, nor for that matter at anything that lecturers would talk about in the courses I took afterwards (some of which turned out after a little scrutiny to deliver information that was obsolete or even erroneous). The second event occurred during the Summer just before I started attending the university. My high school had made it possible for a group of students to help with development activities in what was still commonly referred to at the time as the "Third World". Specifically, we were supposed to help missionaries in Rwanda with various practical, mostly agricultural, projects. In the evenings, in the tiny village where we were staying, there was very little to do, except play card- and board games. A favorite activity of the missionaries was to play Scrabble. On one of the first nights I was there, we started a game with them, and basically I played the way my mother had shown me, to try to win by placing words that would earn me more points than what the other players could do with their letters. After a couple of moves, the missionaries stopped the game and told me that this was not how they played it at all. They proceeded to show me how each of them was trying to place words in such a way that all players together would eventually make the most points possible. So instead of proudly putting "taxes" in one move, someone would only put down "ax", then another would add a "t", to obtain "tax", then a third could make it "taxes", and finally, someone could add "sur" to come up with "surtaxes". All in all, that means that the points of the very valuable letter "x" would count five times instead of one, increasing the combined score of all the players at the end of the game. The details of the Scrabble strategy do not matter that much, but what was really a revelation in what the missionaries showed me is that rules can easily be changed to maximize the benefits, in this case the enjoyment, for all involved. The original rules of Scrabble require individual competition among players, and they invariably lead to one player being happy at the end while all the others are less so, to put it mildly. The lesson I got was that it is easy to transform the game into something that is eminently collaborative, such that everyone feels pretty much the same way at the end, depending on how well the group did. As a result, what could be a divisive pastime, especially if one of the players happens to be unreasonably competitive, becomes an activity that strengthens the cohesion of the group and enhances team spirit.Long-lasting lessons learned…Over the years, during my subsequent career as a researcher, I have had many occasions to reminisce about these two events. The older I get, the more I realize how extremely significant they were in my education, overshadowing many other aspects of it. As short as it was, the newspapers-related activity singlehandedly shaped my attitude toward the written word. Every single time I now read an article or a book, I remember the fateful Monday when my classmates and I compared multiple newspaper clippings. As a result, I never take any text (or, for that matter, lecture notes) for granted any more, and I am compelled to systematically look for alternative perspectives on the same topics before I formulate my own opinion. This critical attitude toward texts has played a key role in my work, as it has stimulated me not only to keep learning efficiently on my own, as a self-directed learner, from a variety of sources, but also to try to foster self-directed learning in my students (Baveye, 1994). This capacity is particularly crucial in fields in which phenomenal technological breakthroughs occur at very regular intervals, and the need to renew one's knowledge base is constant.
Not Available ; The land resource inventory of Turk Madhawar-3Microwatershed was conducted using village cadastral maps and IRS satellite imagery on 1:7920 scale. The false colour composites of IRS imagery were interpreted for physiography and the physiographic delineations were used as base for mapping soils. The soils were studied in several transects and a soil map was prepared with phases of soil series as mapping units. Random checks were made all over the area outside the transects to confirm and validate the soil map unit boundaries. The soil map shows the geographic distribution and extent, characteristics, classification, behavior and use potentials of the soils in the microwatershed. The present study covers an area of 411 ha in Yadgir taluk & district, Karnataka. The climate is semiarid and categorized as drought-prone with an average annual rainfall of 866 mm, of which about 652 mm is received during south-west monsoon, 138 mm during north-east and the remaining 76 mm during the rest of the year. An area of 392 ha in the microwatershed is covered by soils and 19 ha area is covered by others (habitation and water body). The salient findings from the land resource inventory are summarized briefly below. The soils belong to 7 soil series and 9 soil phases (management units) and 6 land management units. The length of crop growing period is about 120-150 days starting from 1st week of June to 4th week of October. From the master soil map, several interpretative and thematic maps like land capability, soil depth, surface soil texture, soil gravelliness, available water capacity, soil slope and soil erosion were generated. Soil fertility status maps for macro and micronutrients were generated based on the surface soil samples collected at every 320 m grid interval. Land suitability for growing 29 major agricultural and horticultural crops was assessed and maps showing the degree of suitability along with constraints were generated. About 392 ha area in the microwatershed is suitable for agriculture. About 28 per cent of area is shallow (25-50 cm), 22 per cent of area is moderately shallow (50-75 cm), 28 per cent of area is moderately deep (75-100 cm), 8 per cent of area is deep (100 - 150 cm) and 9 per cent of area is very deep (>150 cm). About 4 per cent area in the microwatershed has sandy soils, 72 per cent loamy soils and 19 per cent clayey soils at the surface. Entire area in the microwatershed is non gravelly (200 mm/m) in available water capacity, 28 per cent area is medium (101-150 mm/m) and 4 per cent of area is low (51-100 mm/m) and 46 per cent of area is very low (0.75%), 47 per cent area is medium (0.5-0.75%) and 37 per cent area is low (1 ppm) in an area of 1 per cent of the microwatershed. Available iron is sufficient (>4.5 ppm) in an area of 53 per cent and deficient (<4.5 ppm) in an area of 42 per cent of the microwatershed. Available manganese and copper are sufficient in all the soils of the microwatershed. Available zinc is deficient (<0.6 ppm) in the entire area of the microwatershed. The land suitability for 29 major crops grown in the microwatershed were assessed and the areas that are highly suitable (S1) and moderately suitable (S2) are given below. It is however to be noted that a given soil may be suitable for various crops but what specific crop to be grown may be decided by the farmer looking to his capacity to invest on various inputs, marketing infrastructure, market price and finally the demand and supply position. Land suitability for various crops in the Microwatershed Crop Suitability Area in ha (%) Crop Suitability Area in ha (%) Highly suitable (S1) Moderately suitable (S2) Highly suitable (S1) Moderately suitable (S2) Sorghum 114 (28) 86 (21) Guava - 114 (28) Maize 114 (28) 86 (21) Sapota - 114 (28) Bajra 114 (28) 86 (21) Pomegranate - 114 (28) Groundnut - 114 (28) Musambi - 114 (28) Sunflower - 114 (28) Lime - 114 (28) Redgram - 183 (45) Amla - 114 (28) Bengal gram - 34 (8) Cashew - - Cotton - 131 (32) Jackfruit - 114 (28) Chilli 114 (28) 17 (4) Jamun - - Tomato 114 (28) 17 (4) Custard apple - 131 (32) Brinjal 114 (28) 17 (4) Tamarind - - Onion 114 (28) 17 (4) Mulberry - 114 (28) Bhendi 114 (28) 17 (4) Marigold 114 (28) 17 (4) Drumstick - 114 (28) Chrysanthemum 114 (28) 17 (4) Mango - - Apart from the individual crop suitability, a proposed crop plan has been prepared for the identified LMUs by considering only the highly and moderately suitable lands for different crops and cropping systems with food, fodder, fibre and other horticulture crops. Maintaining soil-health is vital for crop production and conserve soil and land resource base for maintaining ecological balance and to mitigate climate change. For this, several ameliorative measures have been suggested for these problematic soils like saline/alkali, highly eroded, sandy soils etc., Soil and water conservation treatment plan has been prepared that would help in identifying the sites to be treated and also the type of structures required. As part of the greening programme, several tree species have been suggested to be planted in marginal and submarginal lands, field bunds and also in the hillocks, mounds and ridges. This would help in not only supplementing the farm income but also provide fodder and fuel and generate lot of biomass which would help in maintaining an ecological balance and also contribute to mitigating the climate change. FINDINGS OF THE SOCIO-ECONOMIC SURVEY The survey was conducted in Turk Madhawar-3 is located at North latitude 160 40' 45.259" and 160 39' 18.32" and East longitude 770 20' 39.786'' and 770 19' 24.974" covering an area of about 420.22 ha coming unde Madhwara, Yalasatti and Thotalura villages of Yadagiri taluk. Socio-economic analysis of Turk Madhawar-3 micro watersheds of Turk Madhawar sub-watershed, Yadgiri taluk & District indicated that, out of the total sample of 35 farmers were sampled in Turk Madhawar-3 micro-watershed among households surveyed 11 (31.43%) were marginal, 15 (42.86%) were small, 4 (11.43 %) were semi medium and 3 (8.57 %) were medium farmers. 2 landless farmers were also interviewed for the survey. The population characteristics of households indicated that, there were 110 (55.84%) men and 87 (44.16 %) were women. The average population of landless was 3, marginal farmers were 5.4, small farmers were 6.7, semi medium farmers were 4.3 and medium farmers were 5. Majority of the respondents (49.75%) were in the age group of 16-35 years. Education level of the sample households indicated that, there were 62.94 per cent illiterates, 2.03 percent were functional literates, 37.06 per cent pre university education and 1.02 per cent attained graduation. About, 100.00 per cent of household heads practicing agriculture. Agriculture was the major occupation for 75.13 per cent of the household members. In the study area, 80.00 per cent of the households possess katcha house and 14.29 per cent possess pucca house. The durable assets owned by the households showed that, 88.57 per cent possess TV, 25.71 per cent possess mixer grinder, 100.00 per cent possess mobile phones and 11.43 per cent possess motor cycles. Farm implements owned by the households indicated that, 28.57 per cent of the households possess plough, and 22.86 per cent possess bullock cart. Regarding livestock possession by the households, 5.71 per cent possess local cow and 2.86 per cent possess buffalo. The average labour availability in the study area showed that, own labour men available in the micro watershed was 2.03, women available in the micro watershed was 1.80, hired labour (men) available was 6.57 and hired labour (women) available was 6.57. Further, 5.71 per cent of the households opined that hired labour was inadequate during the agricultural season. 2 In the study area, about 0.51 per cent of the respondents migrated from the micro watershed in search of jobs with an average distance of 800.00 kms for about 4.00 months. Out of the total land holding of the sample respondents 91.34 per cent (52.84 ha) of the area is under dry condition and the remaining 8.66 per cent area is irrigated land. There were 4.00 live bore wells and 4.00 dry bore wells among the sampled households. Bore well was the major source of irrigation for 11.43 per cent of the households. The major crops grown by sample farmers are Red gram, Cotton, Groundnut, Sugarcane and Jowar and cropping intensity was recorded as 94.68 per cent. Out of the sample households 100.00 percent possessed bank account and 100.00 per cent of them have savings in the account. About 25.71 per cent of the respondents borrowed credit from various sources. Among the credit borrowed by households, 50.00 per cent have borrowed loan from commercial banks and 137.50 per cent from co-operative/Grameena bank. Majority of the respondents (100.00%) have borrowed loan for agriculture purpose. Regarding the opinion on institutional sources of credit, 100.00 per cent of the households opined that credit helped to perform timely agricultural operations. The per hectare cost of cultivation for Red gram, Cotton, Groundnut, Sugarcane and Jowar was Rs.26712.06, 34854.65, 51940.42, 83049.00 and 36461.10 with benefit cost ratio of 1:1.40, 1: 1.20, 1: 2.60, 1: 3.10 and 1:0.80 respectively. Further, 48.57 per cent of the households opined that dry fodder was adequate. The average annual gross income of the farmers was Rs. 77585.71 in microwatershed, of which Rs. 60842.86 comes from agriculture. Sampled households have grown 3 horticulture trees and 112 forestry trees together in the fields and back yards. About 8.57 per cent of the households shown interest to cultivate horticultural crops. Households have an average investment capacity of Rs. 10257.14 for land development. Source of funds for additional investment is concerned, 94.29 per cent depends on bank loan for land development activities. Regarding marketing channels, 88.57 per cent of the households have sold agricultural produce to the local/village merchants, while, 2.86 per cent have sold in regulated markets. Further, 31.43 per cent of the households have used tractor for the transport of agriculture commodity. 3 Majority of the farmers (97.14%) have experienced soil and water erosion problems in the watershed and 94.29 per cent of the households were interested towards soil testing. About, 57.14 per cent of farmers practicing summer ploughing as soil and water conservation practice. Fire was the major source of fuel for domestic use for 97.14 per cent of the households and 5.71 per cent households has LPG connection. Piped supply was the major source for drinking water for 88.57 per cent of the households. Electricity was the major source of light for 100.00 per cent of the households. In the study area, 51.43 per cent of the households possess toilet facility. Regarding possession of PDS card, 100.00 per cent of the households possessed BPL card. Households opined that, the requirement of cereals (94.29%), pulses (77.14%) and oilseeds (60.00%) are adequate for consumption. Farming constraints experienced by households in the micro watersheds were lower fertility status of the soil (88.57%) wild animal menace on farm field (77.14%), frequent incidence of pest and diseases (88.57%), inadequacy of irrigation water (88.57%), high cost of fertilizers and plant protection chemicals (91.43%), high rate of interest on credit (85.71%), low price for the agricultural commodities (88.57%), lack of marketing facilities in the area (80.00%), inadequate extension services (57.14%), lack of transport for safe transport of the agricultural produce to the market (71.43%), Less rainfall (80.00%) and Source of Agri-technology information (Newspaper/ TV/Mobile) (40.00%). ; Watershed Development Department, Government of Karnataka (World Bank Funded) Sujala –III Project.
Not Available ; The land resource inventory of Malkapalli Microwatershed was conducted using village cadastral maps and IRS satellite imagery on 1:7920 scale. The false colour composites of IRS imagery were interpreted for physiography and the physiographic delineations were used as base for mapping soils. The soils were studied in several transects and a soil map was prepared with phases of soil series as mapping units. Random checks were made all over the area outside the transects to confirm and validate the soil map unit boundaries. The soil map shows the geographic distribution and extent, characteristics, classification, behavior and use potentials of the soils in the microwatershed. The present study covers an area of 836 ha in Yadgir taluk & district, Karnataka. The climate is semiarid and categorized as drought-prone with an average annual rainfall of 866 mm, of which about 652 mm is received during south-west monsoon, 138 mm during north-east and the remaining 76 mm during the rest of the year. An area of 801 ha in the microwatershed is covered by soils, 16 ha by rock outcrops and about 19 ha by others (habitation and water bodies). The salient findings from the land resource inventory are summarized briefly below. The soils belong to 9 soil series and 11 soil phases (management units) and 3 land management units. The length of crop growing period is about 120-150 days starting from 1st week of June to 4th week of October. From the master soil map, several interpretative and thematic maps like land capability, soil depth, surface soil texture, soil gravelliness, available water capacity, soil slope and soil erosion were generated. Soil fertility status maps for macro and micronutrients were generated based on the surface soil samples collected at every 320 m grid interval. Land suitability for growing 29 major agricultural and horticultural crops was assessed and maps showing the degree of suitability along with constraints were generated. Entire area in the microwatershed is suitable for agriculture. About 46 per cent area of the microwatershed has soils that are moderately deep to deep (75 - 150 cm) and 50 per cent soils are very shallow to shallow (200 mm/m) in available water capacity, 15 per cent medium (101-150 mm/m), 3 per cent area low (51-100 mm/m) and 50 per cent area very low (0.75%) in organic carbon content. About 2 per cent area is low ( 57 kg/ha) in available phosphorus. An area 86 per cent is medium (145-337 kg/ha) and 10 per cent is high (>337 kg/ha) in available potassium in the microwatershed. Available sulphur is low (20 ppm) in less than 1 per cent of the microwatershed. Available boron is low (4.5 ppm) 93 per cent and deficient (0.6 ppm) in 87 per cent area of the microwatershed. The land suitability for 29 major crops grown in the microwatershed were assessed and the areas that are highly suitable (S1) and moderately suitable (S2) are given below. It is however to be noted that a given soil may be suitable for various crops but what specific crop to be grown may be decided by the farmer looking to his capacity to invest on various inputs, marketing infrastructure, market price and finally the demand and supply position. Land suitability for various crops in the Microwatershed Crop Suitability Area in ha (%) Crop Suitability Area in ha (%) Highly suitable (S1) Moderately suitable (S2) Highly suitable (S1) Moderately suitable (S2) Sorghum 162(19) 224(27) Guava - 146(17) Maize 123(15) 263(31) Sapota - 146(17) Bajra 146(17) 240(29) Pomegranate - 386(46) Groundnut 23(3) 123(15) Musambi 39(5) 347(42) Sunflower 39(5) 347(42) Lime 39(5) 347(42) Redgram - 386(46) Amla 146(17) 39(5) Bengal gram 39(5) 201(24) Cashew - 23(3) Cotton 39(5) 324(39) Jackfruit - 146(17) Chilli 123(15) 263(31) Jamun - 39(5) Tomato 123(15) 23(3) Custard apple 61(7) 324(39) Brinjal 123(15) 23(3) Tamarind - 39(5) Onion 123(15) 23(3) Mulberry - 146(17) Bhendi 123(15) 263(31) Marigold 123(15) 263(31) Drumstick - 185 (22) Chrysanthemum 123(15) 263(31) Mango - - Apart from the individual crop suitability, a proposed crop plan has been prepared for the identified LMUs by considering only the highly and moderately suitable lands for different crops and cropping systems with food, fodder, fibre and horticulture crops. Maintaining soil-health is vital for crop production and conserve soil and land resource base for maintaining ecological balance and to mitigate climate change. For this, several ameliorative measures have been suggested to these problematic soils like saline/alkali, highly eroded, sandy soils etc., Soil and water conservation treatment plan has been prepared that would help in identifying the sites to be treated and also the type of structures required. As part of the greening programme, several tree species have been suggested to be planted in marginal and sub marginal lands, field bunds and also in the hillocks, mounds and ridges. This would help in not only supplementing the farm income but also provide fodder and fuel and generate lot of biomass which would help in maintaining an ecological balance and also contribute to mitigating the climate change. FINDINGS OF THE SOCIO-ECONOMIC SURVEY The survey was conducted in Malkapalli is located at North latitude 160 56' 3.172" and 160 54' 55.689" and East longitude 770 20' 50.652'' and 770 19' 45.408" covering an area of about 183.35 ha coming under Mitathapadamapalli and Siddapura. B villages of Yadagiri taluk. Socio-economic analysis of Malkapalli micro watersheds of Mothakapalli subwatershed, Yadgiri taluk & District indicated that, out of the total sample of 35 farmers were sampled in Malkapalli micro-watershed among households surveyed 15 (42.86%) were marginal, 8 (22.86%) were small, 8 (22.86 %) were semi medium and 2 (5.71 %) were medium farmers. 2 landless farmers were also interviewed for the survey. The population characteristics of households indicated that, there were 75 (52.82%) men and 67 (47.18 %) were women. The average population of landless was 3.5, marginal farmers were 4.1, small farmers were 3.9, semi medium farmers were 4.3 and medium farmers were 4.5. Majority of the respondents (39.44%) were in the age group of 16-35 years. Education level of the sample households indicated that, there were 66.20 per cent of illiterates, 21.83 per cent of them had primary school education, 2.11 per cent middle school education, 4.93 per cent high school education, 0.70 per cent of them had PUC education, 1.41 per cent of them had Diploma, 1.41 per cent attained graduation and 1.41 them had other education. About, 97.14 per cent of household heads practicing agriculture and 5.71 per cent of the household heads were engaged as agricultural labourers. Agriculture was the major occupation for 68.31 per cent of the household members. In the study area, 97.14 per cent of the households possess katcha house and 2.86 per cent possess pucca house. The durable assets owned by the households showed that, 82.86 per cent possess TV, 62.86 per cent possess mixer grinder, 94.29 per cent possess mobile phones and 8.57 per cent possess motor cycles. Farm implements owned by the households indicated that, 17.14 per cent of the households possess Bullock Cart, 31.43 per cent possess plough, 2.86 per cent possess Sprayer, 14.29 per cent possess Weeder and 2.86 per cent possess Sprinkler. Regarding livestock possession by the households, 11.43 per cent possess local cow and 8.57 per cent possess buffalo. The average labour availability in the study area showed that, own labour men available in the micro watershed was 1.71, women available in the micro 2 watershed was 1.63, hired labour (men) available was 6.6 and hired labour (women) available was 6.60. Further, 2.86 per cent of the households opined that hired labour was inadequate during the agricultural season. Out of the total land holding of the sample respondents 60.08 per cent (42.93 ha) of the area is under dry condition and the remaining 34.26 per cent area is irrigated land. There were 12.00 live bore wells and 8.00 dry bore wells among the sampled households. Bore well was the major source of irrigation for 34.29 per cent of the households. The major crops grown by sample farmers are Red gram, Cotton, Groundnut, Paddy and Jowar and cropping intensity was recorded as 99.49 per cent. Out of the sample households 91.43 percent possessed bank account and 20.00 per cent of them have savings in the account. About 71.43 per cent of the respondents borrowed credit from various sources. Among the credit borrowed by households, 100.00 per cent have borrowed loan from commercial banks. Majority of the respondents (100.00%) have borrowed loan for agriculture purpose. Regarding the opinion on institutional sources of credit, 100.00 per cent of the households opined that credit helped to perform timely agricultural operations. The per hectare cost of cultivation for Red gram, Cotton, Groundnut, Paddy and Jowar was Rs.28862.38 , 23932.90, 59387.59, 63260.36, and 11566.09 with benefit cost ratio of 1:1.70, 1: 2.40, 1: 1.10, 1: 1.60, and 1:1.10 , respectively. Further, 42.86 per cent of the households opined that dry fodder was adequate and 20.00 per cent of the households have opined that the green fodder was adequate. The average annual gross income of the farmers was Rs. 81257.14 in microwatershed, of which Rs. 45414.29 comes from agriculture. Sampled households have grown 39 forestry trees together in the fields and back yards. Households have an average investment capacity of Rs. 1285.71 for land development. Source of funds for additional investment is concerned, 22.22 per cent depends on own funds and 2.78 per cent depends on bank loan for land development activities. Regarding marketing channels, 82.86 per cent of the households have sold agricultural produce to the local/village merchants, while, 11.43 per cent have sold in regulated markets. 3 Further, 65.71 per cent of the households have used tractor for the transport of agriculture commodity. Majority of the farmers (85.71%) have experienced soil and water erosion problems in the watershed and 91.43 per cent of the households were interested towards soil testing. Fire was the major source of fuel for domestic use for 102.86 per cent of the households and 8.57 per cent households has LPG connection. Piped supply was the major source for drinking water for 85.71 per cent of the households. Electricity was the major source of light for 100.00 per cent of the households. In the study area, 34.29 per cent of the households possess toilet facility. Regarding possession of PDS card, 100.00 per cent of the households possessed BPL card. Households opined that, the requirement of cereals (108.57%), pulses (100.00%) and oilseeds (91.43%) are adequate for consumption. Farming constraints experienced by households in the micro watersheds were lower fertility status of the soil (100.00%) wild animal menace on farm field (80.00%), frequent incidence of pest and diseases (91.43%), inadequacy of irrigation water (91.43%), high cost of fertilizers and plant protection chemicals (91.43%), high rate of interest on credit (91.43%), low price for the agricultural commodities (94.29%), lack of marketing facilities in the area (88.57%), inadequate extension services (62.86%) and lack of transport for safe transport of the agricultural produce to the market (91.43%). ; Watershed Development Department, Government of Karnataka (World Bank Funded) Sujala –III Project