about
Returning forests analyzed with the forest identityWhy abundant tropical tree species are phylogenetically oldRapid loss of lakes on the Mongolian Plateau.The stage-classified matrix models project a significant increase in biomass carbon stocks in China's forests between 2005 and 2050.The changes in China's forests: an analysis using the Forest Identity.Spatio-temporal changes in biomass carbon sinks in China's forests from 1977 to 2008.Soil respiration and organic carbon dynamics with grassland conversions to woodlands in temperate china.Increased topsoil carbon stock across China's forests.Evidence for environmentally enhanced forest growthLinking belowground and aboveground phenology in two boreal forests in Northeast China.The 7-decade degradation of a large freshwater lake in central Yangtze River, China.Land-cover changes in an urban lake watershed in a mega-city, Central China.The carbon balance of terrestrial ecosystems in China.Temperature dependence, spatial scale, and tree species diversity in eastern Asia and North America.Climate change alters interannual variation of grassland aboveground productivity: evidence from a 22-year measurement series in the Inner Mongolian grassland.The impacts of climate change on water resources and agriculture in China.An invariability-area relationship sheds new light on the spatial scaling of ecological stability.Effectiveness of protected areas in maintaining plant production.Species richness patterns and water-energy dynamics in the drylands of Northwest China.Relationship between the relative limitation and resorption efficiency of nitrogen vs phosphorus in woody plantsBiogeographic patterns of structural traits and C:N:P stoichiometry of tree twigs in China's forests.Density-dependent speciation alters the structure and dynamics of neutral communities.Effects of Nitrogen Addition on Nitrogen Resorption in Temperate Shrublands in Northern China.Different Effects of Regional Species Pool on Plant Diversity between Forest and Grassland Biomes in Arid Northwest ChinaNutrient allocation strategies of woody plants: an approach from the scaling of nitrogen and phosphorus between twig stems and leaves.Global patterns and determinants of forest canopy height.Evidence for a significant urbanization effect on climate in China.Reproductive organ and young tissues show constrained elemental composition in Arabidopsis thalianaEffects of shrub encroachment on soil organic carbon in global grasslandsSatellite-based studies on large-scale vegetation changes in China.Impact of impoldering and lake restoration on land-cover changes in Dongting Lake area, Central Yangtze.Increasing terrestrial vegetation activity in China, 1982-1999.Formation of carbonaceous and nitrogenous disinfection by-products from the chlorination of Microcystis aeruginosa.Forest annual carbon cost: a global-scale analysis of autotrophic respiration.Characterization of algal organic matter and formation of DBPs from chlor(am)ination.Strong enhancement on fenton oxidation by addition of hydroxylamine to accelerate the ferric and ferrous iron cycles.Efficient reductive dechlorination of monochloroacetic acid by sulfite/UV process.Speciation rates decline through time in individual-based models of speciation and extinction.Net carbon dioxide losses of northern ecosystems in response to autumn warming.Comparison of permanganate preoxidation and preozonation on algae containing water: cell integrity, characteristics, and chlorinated disinfection byproduct formation.
P50
Q24673275-EB706546-7E90-4038-9ECF-B2D7305F4397Q28676792-30537903-6A03-424D-B04D-5C80C545910FQ28972553-86DB5D7F-81CA-4D8A-94D6-57AE22BF98E3Q30388388-A3BD5519-BC0E-48CF-9B06-DEB4F0BD276EQ30396149-29CCE943-869F-441D-84E6-4DB6D7A1FE1FQ30636542-0FF10E7D-CB20-43A8-AD81-7CF3CD8BCC4BQ30668943-5F466447-2584-4CDF-A75C-798F0D8DFEA9Q30739968-77FB7907-5B98-485A-8C53-0A86367A3C0EQ30834125-06AE508D-FA1A-4299-858E-1E23BF8775B7Q30845451-AAD2912D-70E9-4E85-B351-4BE733D0F769Q33211800-B07EC3BE-D411-4DBA-B866-9EA924611DA9Q33239906-5DD7D2F5-0E28-4188-9BF4-00BD8E0D85C8Q33435280-D3890004-D739-4694-8953-62DB0685D5F2Q33486409-896ACDBB-493C-4600-946A-8713CE6E8171Q33529401-B0A2DAE4-6FB2-4C74-94FC-8EE19F36656FQ33681957-42477100-543D-4B4E-964F-323B6ADD39E5Q33754093-4AFB2B35-144D-4D10-8637-29E9A10CEA02Q33892656-6D69894B-88F1-4B02-A4DD-D202D3FED414Q34805462-32AB6978-B8A2-40AC-B240-4906DB34409AQ35078057-55697D53-7E2A-4A49-8047-2535A8984003Q35558237-F564E226-ECCE-47DD-99D8-29BF1352D1B9Q35564837-19FDEA37-A15C-4BC1-8108-8F125E27216AQ35667235-05711334-217D-4E8F-A8C6-6EB858B0CA9DQ35680490-6240A341-FDD4-42FC-BBE5-FFD127825E54Q35915234-1D732E23-C17A-4D0B-870C-AB43D8445C79Q36212106-1B6CEE5F-F9F6-4AAB-8451-3482361D7DF1Q36447659-52663854-B36D-4740-ABB8-61533C1D3EE2Q36613134-2F0A1B87-81AA-4B11-8CBD-DCF9C41BEE5EQ37076587-9A5B7186-B003-4D6E-AAD2-D7274C9FAB27Q38043099-734D224A-A9DC-4C87-97D2-659AB26B65D1Q39695628-45AC2DE2-6CF6-4B79-A521-65F370877E19Q39699524-E3EA05D1-7806-4026-B9BB-A7C15E2EF7EAQ39914289-2E53F578-1F99-462A-8914-D5CEBEBA7E97Q39930563-6B69A539-62B0-4EEF-90F3-8E7044ACD02BQ39947988-669D07A8-89A7-4CA5-81B8-66631C996A3BQ39978070-7C652582-F21E-414E-9E78-AC9D11607702Q40040164-01C553B8-8393-4128-94E8-14DC233E4A07Q40130231-AD99761C-B72F-452F-8A53-45382FB78F11Q40137504-C6FDB9EC-B156-4203-83A3-EE74F87251E8Q40150771-CF693D1F-BEEA-4882-9EA8-023E75B204E4
P50
name
Jingyun Fang
@ast
Jingyun Fang
@en
Jingyun Fang
@nl
type
label
Jingyun Fang
@ast
Jingyun Fang
@en
Jingyun Fang
@nl
prefLabel
Jingyun Fang
@ast
Jingyun Fang
@en
Jingyun Fang
@nl