State governments' capacity: Continuing to improve
In: National civic review: promoting civic engagement and effective local governance for more than 100 years, Band 71, Heft 5, S. 234-258
ISSN: 1542-7811
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In: National civic review: promoting civic engagement and effective local governance for more than 100 years, Band 71, Heft 5, S. 234-258
ISSN: 1542-7811
In: National civic review: publ. by the National Municipal League, Band 71, S. 234-239
ISSN: 0027-9013
In: Land use policy: the international journal covering all aspects of land use, Band 27, Heft 2, S. 204-213
ISSN: 0264-8377
In: Public administration review: PAR, Band 41, Heft 3, S. 381
ISSN: 1540-6210
Scotland is at the heart of modern, sustainable upland management. Large estates cover vast areas of the uplands, with a long, complex and emotive history of ownership and use. In recent decades, the Scottish uplands have increasingly been the arena for passionate debates over large-scale land management issues. Crucially, what kinds of ownership and management will best deliver sustainable futures for upland environments and communities? Although the globally unique dominance of private ownership remains a distinctive characteristic of Scotland's uplands, increasing numbers of estates are now
Mesophyll diffusion conductance to CO 2 is a key photosynthetic trait that has been studied intensively in the past years. The intention of the present review is to update knowledge of g m, and highlight the important unknown and controversial aspects that require future work. The photosynthetic limitation imposed by mesophyll conductance is large, and under certain conditions can be the most significant photosynthetic limitation. New evidence shows that anatomical traits, such as cell wall thickness and chloroplast distribution are amongst the stronger determinants of mesophyll conductance, although rapid variations in response to environmental changes might be regulated by other factors such as aquaporin conductance.Gaps in knowledge that should be research priorities for the near future include: how different is mesophyll conductance among phylogenetically distant groups and how has it evolved? Can mesophyll conductance be uncoupled from regulation of the water path? What are the main drivers of mesophyll conductance? The need for mechanistic and phenomenological models of mesophyll conductance and its incorporation in process-based photosynthesis models is also highlighted. ; The study was financially supported by the Estonian Ministry of Science and Education (grant SF1090065s07), the Spanish Ministry of Science and Innovation through projects BFU2008-01072 (MEFORE), AGL2009-11310/AGR, BFU2011-23294 (MECOME) and CGL2009-13079-C02-01 (PALEOISOTREE), and the European Commission through European Regional Fund (the Estonian Center of Excellence in Environmental Adaptation), and the Marie Curie project MC-ERG-246725 (FP7). J.P.F. is supported by the Ramón y Cajal program (RYC-2008-02050). A.G. had a Swiss National Science Fellowship (PA00P3_126259). M.M.B. and C.R.W are supported by Future Fellowships from the Australian Research Council (FT0992063 and FT100100024). C.D. was supported by a grant from the French government and by the cooperation project Tranzfor (Transferring Research between EU and Australia–New Zealand on Forestry and Climate Change, PIRSES-GA-2008-230793) funded by the European Union.
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