全部文献期刊学位论文会议报纸专利标准年鉴图书|学者科研项目
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作者:Daniela F. Cusack , Michael J. Castellano
来源:[J].Geoderma(IF 2.345), 2019, Vol.353, pp.104-115Elsevier
摘要:Abstract(#br)Nitrogen (N) input rapidly increases available N in natural and managed ecosystems, potentially altering key ecosystem processes like decomposition. The effect of N enrichment on decomposition rates may be affected by the chemical quality of organic matter (OM),...
作者:Daniela F. Cusack , Daniel Ashdown ...
来源:[J].Biogeochemistry(IF 3.531), 2019, Vol.145 (3), pp.235-254Springer
摘要:Abstract(#br)Humid tropical forests contain some of the largest soil carbon (C) stocks on Earth, yet there is uncertainty about how carbon dioxide (CO 2 ) fluxes will respond to climate change in this biome. The magnitude of change in soil respiration over seasonal wetting a...
作者:Daniela F. Cusack , Taylor L. McCleery
来源:[J].Forest Ecology and Management(IF 2.766), 2014, Vol.318, pp.34-43Elsevier
摘要:Abstract(#br)Urban expansion is accelerating in the tropics, and may promote the spread of introduced plant species into urban-proximate forests. For example, soil disturbance can deplete the naturally high soil nitrogen pools in wet tropical soils, favoring introduced species wi...
作者:Daniela F. Cusack , Jordan Macy , William H. McDowell
来源:[J].Biogeochemistry(IF 3.531), 2016, Vol.128 (1-2), pp.67-88Springer
摘要:Abstract(#br)Rates of atmospheric nitrogen (N) deposition are increasing rapidly in tropical regions, which are projected to receive some of the greatest deposition levels globally in the coming decades. Tropical forests on highly weathered soils generally have high N availa...
作者:Daniela F. Cusack , Lars Markesteijn ...
来源:[J].Biogeochemistry(IF 3.531), 2018, Vol.137 (1-2), pp.253-266Springer
摘要:Abstract(#br)Tropical forests are the most carbon (C)-rich ecosystems on Earth, containing 25–40% of global terrestrial C stocks. While large-scale quantification of aboveground biomass in tropical forests has improved recently, soil C dynamics remain one of the largest sour...
作者:Daniela F. Cusack , Lubos Halada ...
来源:[J].AMBIO(IF 2.295), 2015, Vol.44 (3), pp.178-193Springer
摘要:Abstract(#br)Anthropogenically derived nitrogen (N) has a central role in global environmental changes, including climate change, biodiversity loss, air pollution, greenhouse gas emission, water pollution, as well as food production and human health. Current understanding of...
作者:Daniela F. Cusack
来源:[J].Soil Biology and Biochemistry(IF 3.654), 2013, Vol.57, pp.192-203Elsevier
摘要:Abstract(#br)Urban areas in tropical regions are expanding rapidly, with significant potential to affect local ecosystem dynamics. In particular, nitrogen (N) availability may increase in urban-proximate forests because of atmospheric N deposition. Unlike temperate forests, ...
作者:Daniela F. Cusack , Oliver A. Chadwick ...
来源:[J].Biogeochemistry(IF 3.531), 2013, Vol.112 (1-3), pp.229-243Springer
摘要:Abstract(#br)Intensive agriculture has the potential to reduce soil carbon stocks in the years following initial cultivation, although the magnitude and direction of the effect can vary with ecosystem and management factors. Agriculture can also shift the carbon chemistry of soil...

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