Soil nutrients affect spatial patterns of aboveground biomass and emergent tree density in southwestern Borneo.
about
Aboveground carbon in Quebec forests: stock quantification at the provincial scale and assessment of temperature, precipitation and edaphic properties effects on the potential stand-level stockingBiodiversity Conservation in the REDDThe current refugial rainforests of Sundaland are unrepresentative of their biogeographic past and highly vulnerable to disturbanceAnalysis of biophysical and anthropogenic variables and their relation to the regional spatial variation of aboveground biomass illustrated for North and East Kalimantan, Borneo.Coupling genetic and species distribution models to examine the response of the Hainan Partridge (Arborophila ardens) to late quaternary climate.Using LiDAR data to measure the 3D green biomass of Beijing urban forest in China.A large-scale field assessment of carbon stocks in human-modified tropical forests.Strong neutral spatial effects shape tree species distributions across life stages at multiple scalesTopographic variation in aboveground biomass in a subtropical evergreen broad-leaved forest in China.Hyperdominance in Amazonian forest carbon cycling.Quantifying above- and belowground biomass carbon loss with forest conversion in tropical lowlands of Sumatra (Indonesia).Effects of soil chemistry on tropical forest biomass and productivity at different elevations in the equatorial AndesTemperature and rainfall interact to control carbon cycling in tropical forests.Nutrient-cycling mechanisms other than the direct absorption from soil may control forest structure and dynamics in poor Amazonian soils.Vertical variations in wood CO2 efflux for live emergent trees in a Bornean tropical rainforest.Characterizing forest structure variations across an intact tropical peat dome using field samplings and airborne LiDAR.The relative importance of vertical soil nutrient heterogeneity, and mean and depth-specific soil nutrient availabilities for tree species richness in tropical forests and woodlands.Pleistocene rainforests: barriers or attractive environments for early human foragers?Soil physical conditions limit palm and tree basal area in Amazonian forestsClimatic, vegetation and edaphic influences on the probability of fire across mediterranean woodlands of south-eastern AustraliaCarbon storage in tropical forests correlates with taxonomic diversity and functional dominance on a global scaleLarge trees drive forest aboveground biomass variation in moist lowland forests across the tropicsEnvironmental correlates of tree biomass, basal area, wood specific gravity and stem density gradients in Borneo's tropical forestsDisentangling stand and environmental correlates of aboveground biomass in Amazonian forestsForest structure along a 600 km transect of natural disturbances and seasonality gradients in central-southern AmazoniaEnvironmental filtering of dense-wooded species controls above-ground biomass stored in African moist forestsEvaluating the potential to monitor aboveground biomass in forest and oil palm in Sabah, Malaysia, for 2000–2008 with Landsat ETM+ and ALOS-PALSARRelationships among net primary productivity, nutrients and climate in tropical rain forest: a pan-tropical analysisConversion of tropical moist forest into cacao agroforest: consequences for carbon pools and annual C sequestration
P2860
Q28603127-744A3C23-25E8-4447-83E9-8261D99AA41CQ28744188-57620B71-BB59-4D5A-9C1D-B02E5304DDF9Q28752292-1335A5CC-1BDF-4D88-90B0-5FBC3E41AFDFQ30390738-83A3FF2A-5B87-4C14-9EE8-6F7494582EE1Q30578646-96EC80B8-B1F8-42CA-908A-A0E71CA98C9CQ30681819-FA13A103-E7D7-4D19-95F2-65F160709868Q30827071-B1410E9D-9D28-427E-8138-6CE7BF0E659AQ34292973-2186A034-43EB-4A6D-9435-CE620D7D4EFDQ34464869-76983EE7-5CA0-48FA-9AAF-B471B3105F16Q35579381-32ABB192-761F-4AAB-BC19-9B2005BFADE5Q35633279-F98BDE14-133E-45EE-BC35-FD674F2055F7Q36173985-06E3B117-2EC6-4A4E-A97C-65344D4662BCQ36348648-8100F5B6-B37E-4A00-9F2F-B2F8D77E99F5Q38884248-4B91425A-CB73-474D-B5F2-699F22A93141Q39123351-21076FAA-5EA8-46A6-BF81-2500E95A2A5CQ39302275-8110E52F-A075-4127-A625-908848D7C12BQ39458634-67705062-D8B9-4C88-B90B-427EB138115DQ56428717-E6D06F10-6FD4-463F-B241-2FF980391395Q56556786-6C96872B-DA65-4201-ADC5-EF3769407FD5Q56983886-00208440-9651-47EF-9105-E1BCE5230C1FQ57023754-23070DAA-3319-4997-BA43-D3835A28ACF8Q57023871-18BDD0D3-5E3A-48AF-83E3-06CF9C7BDC6CQ57024043-05A5A6CA-1582-45E2-ABCE-A27CD34D8C25Q57140439-A7800B6A-54D0-4D26-87B2-C6B572C56220Q57261786-9576E2E7-4685-4D77-9230-69D1116B7BF0Q57834823-1AA45097-551E-4DE3-85CF-1E9DA78FE45AQ58053533-0DF62173-6A9B-4012-887F-F81BB322F7FCQ58085877-4F9E61CB-D774-402C-82A8-A520A9C55CD0Q58290479-7C9ACEBA-9223-4317-AFBD-5406499CC443
P2860
Soil nutrients affect spatial patterns of aboveground biomass and emergent tree density in southwestern Borneo.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Soil nutrients affect spatial ...... ensity in southwestern Borneo.
@en
Soil nutrients affect spatial ...... ensity in southwestern Borneo.
@nl
type
label
Soil nutrients affect spatial ...... ensity in southwestern Borneo.
@en
Soil nutrients affect spatial ...... ensity in southwestern Borneo.
@nl
prefLabel
Soil nutrients affect spatial ...... ensity in southwestern Borneo.
@en
Soil nutrients affect spatial ...... ensity in southwestern Borneo.
@nl
P1433
P1476
Soil nutrients affect spatial ...... ensity in southwestern Borneo.
@en
P2093
Gary D Paoli
J W F Slik
P2888
P304
P356
10.1007/S00442-007-0906-9
P407
P577
2007-11-24T00:00:00Z