61 research outputs found

    Zackenberg-An Arctic Pearl in the North East Greenland National Park, by Thomas Bjorneboe Berg

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    Ecology of vegetation change in upland landscapes. Draft summary

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    Soil and crop residue CO2-C emission under tillage systems in sugarcane-producing areas of southern Brazil

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    Appropriate management of agricultural crop residues could result in increases on soil organic carbon (SOC) and help to mitigate gas effect. To distinguish the contributions of SOC and sugarcane (Saccharum spp.) residues to the short-term CO2-C loss, we studied the influence of several tillage systems: heavy offset disk harrow (HO), chisel plow (CP), rotary tiller (RT), and sugarcane mill tiller (SM) in 2008, and CP, RT, SM, moldboard (MP), and subsoiler (SUB) in 2009, with and without sugarcane residues relative to no-till (NT) in the sugarcane producing region of Brazil. Soil CO2-C emissions were measured daily for two weeks after tillage using portable soil respiration systems. Daily CO2-C emissions declined after tillage regardless of tillage system. In 2008, total CO2-C from SOC and/or residue decomposition was greater for RT and lowest for CP. In 2009, emission was greatest for MP and CP with residues, and smallest for NT. SOC and residue contributed 47 % and 41 %, respectively, to total CO2-C emissions. Regarding the estimated emissions from sugarcane residue and SOC decomposition within the measurement period, CO2-C factor was similar to sugarcane residue and soil organic carbon decomposition, depending on the tillage system applied. Our approach may define new emission factors that are associated to tillage operations on bare or sugarcane-residue-covered soils to estimate the total carbon loss

    Upland Land Use. A desk study. Interim report on Cumbria section

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    Summary report on Upland Land Use. A desk study

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    Methods of study of soil protozoa

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    Introduction. Environmental controls over ecosystem processes

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    Soil biological processes in the North - and South

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    Soil biological processes which have been studied in the north are extended and compared with those of the south polar region. Much can be learned from exploiting the biological similarities and differences of the Arctic and the Antarctic. Firstly, the environmental conditions which control these biological processes are identified, and secondly, the ecology and physiology of the soil organisms are examined as a basis for understanding the functional processes. Soil processes can then be placed in the natural context of the terrestrial ecosystem from their interaction with other components of the system
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