Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
about
Tree species traits influence soil physical, chemical, and biological properties in high elevation forestsNitrogen Addition Altered the Effect of Belowground C Allocation on Soil Respiration in a Subtropical ForestThe role of soil microbes in the global carbon cycle: tracking the below-ground microbial processing of plant-derived carbon for manipulating carbon dynamics in agricultural systemsA glossary for biometeorologyThe phylogenetic composition and structure of soil microbial communities shifts in response to elevated carbon dioxide.Phylogenetic molecular ecological network of soil microbial communities in response to elevated CO2The priming effect of soluble carbon inputs in organic and mineral soils from a temperate forest.Mycorrhizal association as a primary control of the CO₂ fertilization effect.The invasive grass Agropyron cristatum doubles belowground productivity but not soil carbon.Plant-soil interactions in a changing world.Common bacterial responses in six ecosystems exposed to 10 years of elevated atmospheric carbon dioxide.Elevated carbon dioxide alters the structure of soil microbial communities.Faster turnover of new soil carbon inputs under increased atmospheric CO2.Simple additive effects are rare: a quantitative review of plant biomass and soil process responses to combined manipulations of CO2 and temperature.Interactions between soil and tree roots accelerate long-term soil carbon decomposition.Tree species diversity interacts with elevated CO2 to induce a greater root system response.Elevated atmospheric CO2 affects soil microbial diversity associated with trembling aspen.Forest soil respiration reflects plant productivity across a temperature gradient in the Alps.Nutrients and defoliation increase soil carbon inputs in grassland.Increased belowground biomass and soil CO2 fluxes after a decade of carbon dioxide enrichment in a warm-temperate forest.Nutrient subsidies to belowground microbes impact aboveground food web interactions.Roots and fungi accelerate carbon and nitrogen cycling in forests exposed to elevated CO2Nonlinear root-derived carbon sequestration across a gradient of nitrogen and phosphorous deposition in experimental mesocosmsBiodiversity, Nitrogen Deposition, and CO2 Affect Grassland Soil Carbon Cycling but not StorageImpact of elevated CO2 on root traits of a sapling community of three birches and an oak: a free-air-CO2 enrichment (FACE) in northern JapanFine root dynamics in a loblolly pine forest are influenced by free-air-CO2-enrichment: a six-year-minirhizotron studyTrends and methodological impacts in soil CO2 efflux partitioning: A metaanalytical reviewFurther Readings in GeomicrobiologyIdentification of General Patterns of Nutrient and Labile Carbon Control on Soil Carbon Dynamics Across a Successional Gradient
P2860
Q28475616-57735E7B-65A8-4416-9F32-75F59705FA3AQ28602348-7E66E93F-AC0E-4C97-ACB4-9F3C9C1F90CDQ28652755-0B9A7368-BB7F-4F5F-9060-015AD8D65A60Q28658562-F83E7904-75DC-4361-AF28-F5CB4878F6F6Q28732745-667AFA64-24BE-47DC-BF6C-B9CDCE8BBD84Q28742134-392F343F-9573-41FF-83FF-5B87B08177F3Q30912562-BE0A142C-354A-47DB-A96D-00BABA754467Q31111711-91D31913-EF43-461D-B4E3-F4BB778E8361Q33910252-42F7BF18-78AF-4944-910F-32400E48EA78Q34005360-AC0827F0-3B29-4529-9033-7E4D496387CAQ34134399-AD9B8F90-BD74-4217-A8E2-A137BDC0A7ABQ34151269-947A1F33-D1FE-43A6-8351-D109AEE6ABC1Q36365462-55B2889E-5D7B-4691-AC72-7FB3936E6651Q38185627-31958C4D-DC56-4F03-837C-09367C588F3AQ46144698-A9D533FE-4246-496E-AD89-A51206FC2A64Q47775417-67E6AD3B-A7D1-4CAE-8EF6-CC2E9B60CF8BQ48075356-B8817575-9FBD-4B5B-A5EA-39678625FE1AQ51186262-59BCD69C-9324-44B4-8202-4C798984476AQ51532381-4B6DB810-5167-4494-8665-B0043425A74AQ51638797-D1EB6B25-7176-4958-8847-85C34EB185FFQ51723770-C14ED7F6-1D39-45F4-9ACD-6CC2CB142553Q56113977-D37D1C01-9619-4684-92AF-487E54748441Q56942803-450981D0-6F62-4F7C-96D7-E693817E6BD6Q56965499-B44B434F-7E03-4C0D-B94D-52A8DB6E8A44Q57639769-7CAE63AB-7066-4845-99FD-E5BE2311ABDDQ58076463-0ED91D94-042F-45E9-BF30-5999D438605DQ58264804-AE50D214-81AF-4277-9C3B-17500D0EFA6CQ58382140-070A7958-6F56-4FFF-9F76-77CDDC9655F3Q58648824-323D6A00-C70D-4AF2-825F-B3A5A0841343
P2860
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
description
2005 nî lūn-bûn
@nan
2005 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
@ast
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
@en
type
label
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
@ast
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
@en
prefLabel
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
@ast
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
@en
P2093
P50
P356
P1433
P1476
Rising atmospheric CO2 reduces sequestration of root-derived soil carbon.
@en
P2093
Helaina I J Black
Helen Grant
James Heath
Malcolm Possell
Phil Ineson
P304
P356
10.1126/SCIENCE.1110700
P407
P577
2005-09-01T00:00:00Z