Tree height is one of the key parameters in forest plantations that plays a crucial role in estimation of above-ground biomass (AGB) of trees and stands. The parameter may be obtained by different methods from airborne remotely sensed datasets such shadow length of each tree individual or crown height models (CHMs). However, tree height estimation based on shadow length might be biased considering diverse topography of forest sites. Therefore, this study aims to develop a reliable method to estimate tree height in a plantation forest using shadow length on UAV imagery. First, heights of 151 pine (Pinus eldarica) trees were precisely measured in Pardisan Park, North Khorasan province, Iran. Additionally, a collection of images was captured by a Phantom 4Pro UAV in order to illustrate the study area. Then, two different approaches were considered to estimate the height of trees. In the first approach, tree heights were estimated based on shadow length on the UAV orthomosaic and correcting the effect of slope. The second approach considered the UAV-based CHM and height estimation using CHM segmentation and local maximum filtering. The results showed that tree heights estimated by the first approach were not significantly different from the insitu data (p=0.298). Furthermore, the heights estimated by the slope corrected shadow length showed higher precision compared to the heights estimated by the shadow length without slope correction (Relative root mean squared error, RRMSE 5.6% and 8.2% respectively). However, the heights obtained from the first approach were less precise than the second approach (RRMSE 5.6% and 4.2% respectively). In general, it was concluded that height estimation of pine trees based on shadow length after correction of slope effects can be considered as a reliable approach, although CHM is more efficient in estimating the tree heights. The findings of this study are applicable for height estimation of pine trees within plantation forests on UAV imagery.
Analysis of faeces deposited by common wombats (Vombatus ursinus) in native eucalypt [Eucalyptus spp.] forest and pine (Pinus radiata) plantations of various ages in New South Wales, shows that grasses are the dominant food eaten in both forest types regardless of the varying availability of this type of vegetation. Other vegetation, such as rushes, bark, roots and pine needles, are also eaten, particularly in areas where grasses are less common.
Populations of small mammals were examined in a 6 yr Pinus taeda plantation (extended to include similar age P. radiata) and adjacent native rain forest in north-east New South Wales, Australia. Of the 6 species trapped, Rattus fuscipes was the only one with viable populations in both vegetation types. R. lutreolus, R. rattus and Mus musculus were restricted to the plantation; Melomys cervinipes and Antechinus stuartii (except for a few individuals) were confined to the native forest.
[EN] Diplodia tip blight is the most ubiquitous and abundant disease in Spanish Pinus radiata plantations. The economic losses in forest stands can be very severe because of its abundance in cones and seeds together with the low genetic diversity of the host. Pinus resinosa is not genetically diverse in North America either, and Diplodia shoot blight is a common disease. Disease control may require management designs to be adapted for each region. The genetic diversity of the pathogen could be an indicator of its virulence and spreading capacity. Our objective was to understand the diversity of Diplodia spp. in Spanish plantations and to compare it with the structure of American populations to collaborate in future management guidelines. Genotypic diversity was investigated using microsatellite markers. Eight loci (SS9-SS16) were polymorphic for the 322 isolates genotyped. The results indicate that Diplodia sapinea is the most frequent Diplodia species present in plantations of the north of Spain and has high genetic diversity. The higher genetic diversity recorded in Spain in comparison to previous studies could be influenced by the intensity of the sampling and the evidence about the remarkable influence of the sample type. ; This research was funded by INIA, grant number: RTA 2017-00063-C04-03, LIFE programme, grant number: LIFE14 ENV/ES/000179 and by the Basque Government, grant number FUNGITRAP 19-00031. Red pine cone collection in New England and pathogen isolation was funded by USDA Forest Service. ; Aragonés, A.; Manzanos, T.; Stanosz, G.; Munck, IA.; Raposo, R.; Elvira-Recuenco, M.; Berbegal Martinez, M. (2021). Comparison of Diplodia Tip Blight Pathogens in Spanish and North American Pine Ecosystems. Microorganisms. 9(12):1-17. https://doi.org/10.3390/microorganisms9122565 ; S ; 1 ; 17 ; 9 ; 12
Pine wilt disease (PWD) is perhaps the most serious threat to pine forests worldwide. Since it´s discovery in the early XXth century by Japanese forest researchers, and the relationship with its causative agent, the pinewood nematode (PWN) Bursaphelenchus xylophilus, in the 1970s, PWD has wreaked havoc wherever it appears. Firstly in the Far East (Japan, China and Korea) and now, more recently in 1999, in the EU (Portugal). The forest sector in Portugal plays a major role in the Portuguese economy with a 12% contribution to the industrial gross domestic product, 3.2% of the gross domestic product, 10% of foreign trade and 5% of national employment. Maritime pine (Pinus pinaster) is one of the most important pine productions, and industrial activity, such as the production of wood and resin, as well as coastal protection associated with sand dunes. Also, stone pine (Pinus pinea) plays an important role in the economy with a share derived from the exports of high-quality pineon seed. Thus, the tremendous economical and ecological impact of the introduction of a pest and pathogen such as the PWN, although as far as is known, the only species susceptible to the nematode is maritime pine. Immediately following detection, the research team involved (Univ. Évora, INIAP) informed the national plant quarantine and forest authorities, which relayed the information to Brussels and the appropriate EU authorities. A task force (GANP), followed by a national program (PROLUNP) was established. Since then, national surveys have been taking place, involving MADRP (Ministry of Agriculture), the University of Évora and several private corporations (e.g. UNAC). Forest growers in the area are particularly interested and involved since the area owned by the growers organizations totals 700 000 ha, largely affected by PWD. Detection of the disease has led to serious consequences and restrictions regarding exploration and commercialization of wood. A precautionary phytosanitary strip, 3 km-wide, has been recently (2007) established surrounding the affected area. The Portuguese government, through its national program PROLUNP, has been deeply involved since 1999, and in conjunction with the EU (Permanent Phytosanitary Committee, and FVO) and committed to controlling this nematode and the potential spread to the rest of the country and to the rest of the EU. The global impact of the presence of Bursaphelenchus xylophilus or the threat of its introduction and the resulting pine wilt disease in forested areas in different parts of the world is of increasing concern economically. The concern is exacerbated by the prevailing debate on climate change and the putative impact this could have on the vulnerability of the world's pine forests to this disease. The scientific and regulatory approach taken in different jurisdictions to the threat of pine wilt disease varies from country to country depending on the perceived vulnerability of their pine forests to the disease and/or to the economic cost due to lost trade in wood products. Much of the research surrounding pine wilt disease has been located in the northern hemisphere, especially in southern Europe and in the warmer, coastal, Asian countries. However, there is an increased focus on this problem also in those countries in the southern hemisphere where plantations of susceptible pine have been established over the years. The forestry sector in Australia and New Zealand are on "high alert" for this disease and are practicing strict quarantine procedures at all ports of entry for wood products. As well, there is heightened awareness, as there is worldwide, for the need to monitor wood packaging materials for all imported goods. In carrying out the necessary monitoring and assessment of products for B. xylophilus and its vectors substantial costs are incurred especially when decisions have to be made rapidly and regardless of whether the outcome is positive or negative. Australia's response recently to the appearance of some dying pines in a plantation illustrated the high sensitivity of some countries to this disease. Some $200,000 was spent on the assessment in order to save a potential loss of millions of dollars to the disease. This rapid, co-ordinated response to the report was for naught, because once identified it was found not to be B. xylophilus. This illustrates the particular importance of taking the responsibility at all levels of management to secure the site and the need of a rapid, reliable diagnostic method for small nematode samples for use in the field. Australia is particularly concerned about the vulnerability of its 1million hectares of planted forests, 80% of which are Pinus species, to attack from incursions of one or more species of the insect vector. Monochamus alternatus incursions in wood pallets have been reported from Brisbane, Queensland. The climate of this part of Australia is such that the Pinus plantations are particularly vulnerable to the potential outcome of such incursions, and the state of Queensland is developing a risk management strategy and a proactive breeding programme in response to this putative threat. New Zealand has 1.6 million hectares of planted forests and 89% of the commercial forest is Pinus radiata. Although the climate where these forests are located tends to be somewhat cooler than that in Australia the potential for establishment and development of the disease in that country is believed to be high. The passage alone of 200,000 m³/year of wood packaging through New Zealand ports is itself sufficient to require response. The potential incursion of insect vectors of pinewood nematode through the port system is regarded as high and is monitored carefully. The enormous expansion of global trade and the continued use of unprocessed/inadequately-processed wood for packaging purposes is a challenge for all trading nations as such wood packaging material often harbours disease or pest species. The extent of this problem is readily illustrated by the expanding economies and exports of countries in south-east Asia. China. Japan and Korea have significant areas of forestland infested with B. xylophilus. These countries too are among the largest exporting countries of manufactured goods. Despite the attempts of authorities to ensure that only properly treated wood is used in the crating and packaging of goods B. xylophilus and/or its insect vector infested materials is being recorded at ports worldwide. This reminds us, therefore, of the ease with which this nematode pest can gain access to forest lands in new geographic locations through inappropriate use, treatment or monitoring of wood products. It especially highlights the necessity to find an alternative to using low-grade lumber for packaging purposes. Lest we should believe that all wood products are always carriers of B. xylophilus and its vectors, it should be remembered that international trade of all kinds has occurred for thousands of years and that lumber-born pests and diseases do not have worldwide distribution. Other physico-biological factors have a significant role in the occurrence, establishment and sustainability of a disease. The question is often raised as to why the whole of southern Europe doesn't already have B. xylophilus and pine wilt disease. European countries have traded with countries that are infested with B. xylophilus for hundreds of years. Turkey is an example of a country that appears to be highly vulnerable to pine wilt disease due to its extensive forests in the warm, southern region where the vector, Monochamus galloprovincialis, occurs. However, there is no record of the presence of B. xylophilus occurring there despite the importation of substantial quantities of wood from several countries In many respects, Portugal illustrates both the challenge and the dilemma. In recent times B. xylophilus was discovered there in the warm coastal region. The research, administrative and quarantine authorities responded rapidly and B. xylophilus appears to have been confined to the region in which it was found. The rapid response would seem to have "saved the day" for Portugal. Nevertheless, it raises again the long-standing questions, how long had B. xylophilus been in Portugal before it was found? If Lisbon was the port of entry, which seems very likely, why had B. xylophilus not entered Lisbon many years earlier and established populations and the pine wilt disease? Will the infestation in Portugal be sustainable and will it spread or will it die out within a few years? We still do not have sufficient understanding of the biology of this pest to know the answers to these questions.
Several management actions are applied to restore ecosystem services in degraded Mediterranean rangelands, which range from adjusting the grazing pressure to the removal of grazers and pine plantations. Four such actions were assessed in Quercus coccifera L. shrublands in northern Greece: (i) moderate grazing by goats and sheep; (ii) no grazing; (iii) no grazing plus pine (Pinus pinaster Aiton) plantation in forest gaps (gap reforestation); and (iv) no grazing plus full reforestation of shrubland areas, also with P. pinaster. In addition, heavy grazing was also assessed to serve as a control action. We comparatively assessed the impact of these actions on key provisioning, regulating and supporting ecosystem services by using ground-based indicators. Depending on the ecosystem service considered, the management actions were ranked differently. However, the overall provision of services was particularly favoured under moderate and no grazing management options, with moderate grazing outranking any other action in provisioning services and the no grazing action presenting the most balanced provision of services. Pine reforestations largely contributed to water and soil conservation and C sequestration but had a negative impact on plant diversity when implemented at the expense of removing natural vegetation in the area. Heavy grazing had the lowest provision of ecosystem services. It is concluded that degraded rangelands can be restored by moderating the grazing pressure rather than completely banning livestock grazing or converting them into pine plantations. ; This research is part of the European Union's Seventh Framework Programme (FP7/2007-2013) and Support Action PRACTICE (Prevention and Restoration Actions to Combat Desertification: An Integrative assessment—grant agreement no. 226828). The research of S. B., A. G. M. and V. R. V. has received funding from the projects CASCADE (funded by EU-FP7; grant agreement no. 283068), GRACCIE (CSD2007-00067, funded by the Spanish Ministry of Innovation and Science, Consolider-Ingenio 2010 Program) and SFUN (CGL2011-30515-C02-00, funded by the Spanish Ministry of Economy and Competitiveness).
In 2005 the Federal Government of Germany has started to transfer valuable areas for nature conservation purposes to the German Federal Environmental Foundation (DBU) and others as National Heritage Sites (NHS). These areas are characterized by being large, relatively undisturbed landscapes with a mixture of forests and open habitats. They are known to host a high share of endangered biotopes and species. The DBU National Heritage aims at sustaining the biological diversity on the sites with the long-term goal, to leave all of the forested area to natural development. Although most of the sites are embedded in relatively natural forest, coastal and water landscapes, a large share of forests still consists of mono-layered scots pine plantations. In order to accelerate forest development towards a more structured and species-rich habitat, it might be advisable to implement forest restoration measures. The DBU NHS "Rüthnicker Heide" close to Berlin, was chosen to conduct a large scale experiment simulating small-scale disturbance events in approximately 70-year old scots pine stands to investigate short- and long-term effects on structural, functional and species diversity. The experiment encompasses a design of four sample alternatives in four replications, each on a five hectare sample plot. The alternatives are meant to depict an increased structural complexity from 1. small scale to middle scale gaps with timber removal to 2. active deadwood accumulation where timber remains as "fallen deadwood" (downed by harvester) and "standing deadwood" (trees ringbarked by harvester) and 3. active deadwood accumulation with additional planting of deciduous tree saplings. Plots with no active intervention have been left untouched as an example for "passive restoration" (4.). All of the plots were fenced on half of their size to account for deer browsing. Inventories of structural, functional and species diversity were carried out before and after the forest restoration measures. The study aims to reveal if the increase in structural diversity, i.e. generation of dead wood, gaps and planting of saplings, results in an increased species diversity or a shift in community composition of beetles, fungi and herbaceous plants, as well as an increased density of microhabitats. Preliminary results show no significant effects on plant and fungal diversity, however, a trend towards a higher mean number of plant species can be seen. The most promising short term effects are to be expected for beetles, but results are not available, yet. The restoration measures were able to increase the number of microhabitats (mainly root plates and bark fissures) in alternative 2 and 3 by 730 and 500%, respectively, whereas in passive restoration the increase was about 25%. Natural regeneration showed a significant increase for alternatives 1 to 3 as response towards canopy opening. The outcomes can serve as a blueprint for the treatment of similar forests in protected areas. ; peerReviewed
This book examines how extractivism transforms territories and affects the well-being of rural people, drawing on in-depth fieldwork conducted on tree plantations in Chile. The book argues that pine and eucalyptus monoculture plantations in southern Chile are a form of extractivism representing a mode of nature appropriation that captures large amounts of natural resources to produce wooden-based raw materials with little processing and an export-oriented focus. The book discusses the nexus of extractivism, territorial transformations, well-being, and emerging resistances using a participatory action research methodological approach in the Region of Los Ros, southern Chile. The findings show how the configuration of an extractivist logging enclave generated a substantial and irrevocable reordering of human-nature relations, resulting in the territorial and ontological occupation of rural places that disrupted the fundamental human needs of peasants and indigenous people. The book maintains that Chile's green growth development approach does not challenge the consolidated tree plantation enclave controlled by large multinationals. Instead, green growth legitimises the extractivist logic. The book draws parallels with other countries and regions to contribute to wider debates surrounding these topics. This book will be of great interest to students and scholars of the extractive industries, development studies, political ecology, and natural resource governance.
In Gippsland, Victoria, in pine plantations and the adjacent native eucalyptus forest, mammal population was estimated by the usual methods and by analysis of ffaeces of predators. Predators were fox (Vulpes vulpes), feral cat (Felis catus), dog and dingo. Prey species found in faeces included 1 monotreme, 18 marsupial and 10 placental mammals, including the predators. Remains of cattle and sheep were found, presumably eaten as carrion. Remains of plants, or of animals other than the groups noted, were not required to be identified for the purpose of the study, nor were prey species attributed to each species of predator.
Leaf area is an important forest structural variable which serves as the primary means of mass and energy exchange within vegetated ecosystems. The objective of the current study was to determine if leaf area index (LAI) could be estimated accurately and consistently in five intensively managed pine plantation forests using two multiple-return airborne LiDAR datasets. Field measurements of LAI were made using the LiCOR LAI2000 and LAI2200 instruments within 116 plots were established of varying size and within a variety of stand conditions (i.e. stand age, nutrient regime and stem density) in North Carolina and Virginia in 2008 and 2013. A number of common LiDAR return height and intensity distribution metrics were calculated (e.g. average return height), in addition to ten indices, with two additional variants, utilized in the surrounding literature which have been used to estimate LAI and fractional cover, were calculated from return heights and intensity, for each plot extent. Each of the indices was assessed for correlation with each other, and was used as independent variables in linear regression analysis with field LAI as the dependent variable. All LiDAR derived metrics were also entered into a forward stepwise linear regression. The results from each of the indices varied from an R-2 of 0.33 (S.E. 0.87) to 0.89 (S.E. 0.36). Those indices calculated using ratios of all returns produced the strongest correlations, such as the Above and Below Ratio Index (ABRI) and Laser Penetration Index 1 ( LPI1). The regression model produced from a combination of three metrics did not improve correlations greatly (R-2 0.90; S.E. 0.35). The results indicate that LAI can be predicted over a range of intensively managed pine plantation forest environments accurately when using different LiDAR sensor designs. Those indices which incorporated counts of specific return numbers (e.g. first returns) or return intensity correlated poorly with field measurements. There were disparities between the number of different types of returns and intensity values when comparing the results from two LiDAR sensors, indicating that predictive models developed using such metrics are not transferable between datasets with different acquisition parameters. Each of the indices were significantly correlated with one another, with one exception (LAI proxy), in particular those indices calculated from all returns, which indicates similarities in information content for those indices. It can then be argued that LiDAR indices have reached a similar stage in development to those calculated from optical-spectral sensors, but which offer a number of advantages, such as the reduction or removal of saturation issues in areas of high biomass. ; Virginia Agricultural Experiment Station [VA-136623]; Program McIntire Stennis of the National Institute of Food and Agriculture, U.S. Department of Agriculture; Forest Productivity Cooperative; NASANational Aeronautics & Space Administration (NASA) ; This research was possible thanks to the support from the Forest Productivity Cooperative, the help in field data collection provided by Beth Stein and the assistance Alica Peduzzi, who provided the field data for validation of the 2008 LiDAR acquisition assessed in the project. We gratefully acknowledge the support and LiDAR data supplied by NASA, in addition to the support of the staff members of the Duke Forest teaching and research laboratory, the Northern Research Station Strategic Foresight Group of the North Carolina Forest service and the landowner Weyerhaeuser. Funding for this work was provided in part by the Virginia Agricultural Experiment Station (Project Number VA-136623) and the Program McIntire Stennis of the National Institute of Food and Agriculture, U.S. Department of Agriculture. ; Public domain authored by a U.S. government employee
Context Sus scrofa is a species that easily adapts to diverse environments and climatic zones. In urban and suburban spaces, its presence negatively impacts soil, crops, and animal production, posing health risks for other animals and even humans. Declared a national pest in Uruguay, it is one of the main predators of sheep. A deeper knowledge of its habitat, current distribution, and the environmental factors that influence its locations is required to develop an adequate programme to control its population. Aims To determine the spatial distribution of wild boars in Uruguay and its association with environmental factors concerning livestock production, on the basis of a survey administered to farmers. Methods The survey was completed by 2360 farmers, gathering information on the presence of wild boars and other wildlife animals on their farms, methods used for wild boar control, economic damages caused by the species, number of sheep, and types of land-cover besides pastures (native woodlands, shelter forests, pine plantations, and eucalyptus plantations). Key results Farms located in the Northeast region, with native woodlands and/or pine plantations, and larger than 500 ha were more likely to report the presence of wild boars. The presence of eucalyptus plantations did not affect the presence of wild boars in any region of the country. While the presence of sheep, free- ranging dogs, or wild boars on neighbouring farms affected the presence of wild boars, the existence of eucalyptus plantations showed no effect across any region of the country. On the other hand, the presence of wild boars increased in association with the presence of pampas foxes (Lycalopex gymnocercus). Conclusions These results provide valuable information regarding the current distribution of an invasive exotic ungulate, and factors influencing the probability of reporting its presence. Implications This information will serve as a starting point for future research analysing additional ecological and farm characteristics, as well as management strategies in sheep farms aimed at detecting, evading, dissuading and/or controlling this predatory species on the basis of its behaviour and environmental preferences.
In: Smith , R L , Rebergen , K , Payne , C , Megapanos , E & Lusseau , D 2022 , ' Dietary plasticity of a understudied primate ( Sapajus cay ) in a biodiversity hotspot: Applying ecological traits to habitat conservation in the Upper Paraná Atlantic Forest ' , Folia Primatologica , vol. 93 , pp. 53-68 . https://doi.org/10.1163/14219980-20210407
One of the main threats to wild primates is habitat alteration, fragmentation and destruction. Therefore it is crucial to understand the ability of those species to adapt to human-induced habitat changes to prevent extirpation. Key to this is a species diet plasticity. In Paraguay over 91% of the Upper Paraná Atlantic Forest has been destroyed to expand agricultural land. We determined the diet composition of three Sapajus cay groups in degraded and near-pristine Atlantic Forest in eastern Paraguay to assess whether the diet composition of this species changes with habitat degradation. We accounted for diet variability associated with demographic traits and forest characteristics using multinomial linear models. Once the effect of age, sex, and season were accounted for, we found that the diet of capuchins was plastic and shifted to adapt to studied degraded forest conditions. The results showed that (as expected) the capuchins have a generalist and flexible diet, including opportunistically taking advantage of crop plants, particularly Slash Pine plantations, when the risks were lower. The capuchins ability to adjust their diet in different habitat fragments demonstrates that small islands of Paraguayan Atlantic Forest are valuable for their persistence. This insight can be used to create applied conservation strategies, such as using the existing Payment for Ecosystem Services (PES) legislation to provide an opportunity to begin reconnecting fragments using native trees bordered by Slash Pine plantations. Using the capuchins as an umbrella species would increase public support of the program, while compensation through the PES scheme and profiting from the timber would encourage landowner participation.
Les services de développement impliqués en sylviculture paysanne adoptent souvent des paradigmes tels que : " la plupart des paysans n'envisagent que des productions à court terme, leurs systèmes traditionnels agroforestiers sont immuables ou en voie d'abandon et il n'est possible que de leur proposer des techniques bien rodées, simples et normalisées incluant la plantation d'espèces exotiques à croissance rapide pour la production de bois de service ". En fait, l'étude des pratiques sylvicoles dans l'Ouest Cameroun montre qu'il existe une grande diversité de comportements vis-àvis de l'arbre et que des paysans-sylviculteurs font preuve d'ingéniosité pour adapter les systèmes traditionnels et aussi pour intégrer des technologies extérieures selon leurs besoins. Pour les plantations d'eucalyptus, ils ont su intégrer les techniques utilisées par les services de développement rural et de recherche, en innovant en ce qui concerne la production de plants, le semis direct, l'association avec des cultures, la coupe en taillis ou la diversité des produits. Quant aux boisements de pins, encouragés par l'État et les projets, peu de plantations paysannes ont été réalisées, faute de débouchés ou d'utilisations pratiques des produits. Pour ce qui est du système traditionnel de bocage, les espèces n'ayant plus d'usage courant sont éliminées au profit de nouvelles espèces qui sont choisies en fonction des besoins familiaux ou locaux et des opportunités du marché. En outre, il est surprenant de constater que, contrairement aux projets étatiques, certains paysans plantent dans leurs haies des espèces de forêt naturelle productrices de bois d'oeuvre à longue révolution, tels que le kosipo, Entandrophragma candollei. Par ailleurs, les boisements d'État ou communaux brûlent dans une indifférence quasi générale, malgré les efforts des gestionnaires soulevant la question de savoir si les crédits d'aide au reboisement public ne seraient pas mieux utilisés sous forme d'aide au reboisement privé.