The source of microbial C has little impact on soil organic matter stabilisation in forest ecosystems.
about
Tradeoffs in microbial carbon allocation may mediate soil carbon storage in future climates.Unprecedented carbon accumulation in mined soils: the synergistic effect of resource input and plant species invasion.Resource effects on denitrification are mediated by community composition in tidal freshwater wetlands soils.Direct evidence for microbial-derived soil organic matter formation and its ecophysiological controlsModelling the dynamic physical protection of soil organic carbon: Insights into carbon predictions and explanation of the priming effect.Rhizosphere bacterial carbon turnover is higher in nucleic acids than membrane lipids: implications for understanding soil carbon cyclingLand-use and soil depth affect resource and microbial stoichiometry in a tropical mountain rainforest region of southern Ecuador.Soil carbon cycling proxies: Understanding their critical role in predicting climate change feedbacks.Integrating plant litter quality, soil organic matter stabilization, and the carbon saturation concept.A long-term nitrogen fertilizer gradient has little effect on soil organic matter in a high-intensity maize production system.Disentangling the mechanisms underlying functional differences among decomposer communitiesInteractions among roots, mycorrhizas and free-living microbial communities differentially impact soil carbon processesAbove- and belowground linkages of a nitrogen and phosphorus co-limited tropical mountain pasture system – responses to nutrient enrichmentDecrease in heathland soil labile organic carbon under future atmospheric and climatic conditionsSoil Carbon Sequestration Resulting from Biosolids Application
P2860
Q30666399-F14C44E3-A678-4CD7-91ED-88A5C71A8E4DQ35023749-C044B5AC-6B4E-495A-AA46-275CF26C8ED4Q35211207-C7CC9EA9-FD23-4D48-BD8D-2D3441597B24Q37465073-E8AB1497-E217-4906-9808-0CA50218BE4BQ38670675-EFE29E22-A057-4BA5-9776-45C74AECA3E7Q39440643-2B02372F-B08A-4D85-B91F-26D1AE0C1F31Q39525956-8E68FB58-DD51-4DD8-9BA5-E9EF01C8BA06Q46291065-8ABC4DD6-A261-4D06-8846-9B85A0F17AABQ46726695-EC201658-BAF8-4FE8-B9FB-AB76E2DBEA47Q46950348-1B4D1F45-D581-4939-A9B6-EC8A0F07762BQ56942536-19507004-B83E-4A14-9B14-BE1827ADB203Q56977572-3D04A0DB-8F12-4B20-B402-011CE7B3718EQ57012841-FB801725-1731-4C78-A709-B3B4068E0116Q57263731-A98B64ED-7DD9-4638-8D9B-538C8D870956Q59044023-18C3531E-9BFE-44C9-89D2-8E6004D2C41B
P2860
The source of microbial C has little impact on soil organic matter stabilisation in forest ecosystems.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
The source of microbial C has ...... lisation in forest ecosystems.
@en
The source of microbial C has ...... lisation in forest ecosystems.
@nl
type
label
The source of microbial C has ...... lisation in forest ecosystems.
@en
The source of microbial C has ...... lisation in forest ecosystems.
@nl
prefLabel
The source of microbial C has ...... lisation in forest ecosystems.
@en
The source of microbial C has ...... lisation in forest ecosystems.
@nl
P2093
P1433
P1476
The source of microbial C has ...... ilisation in forest ecosystems
@en
P2093
Heather M Throckmorton
Laura Dane
Mary K Firestone
William R Horwath
P304
P356
10.1111/J.1461-0248.2012.01848.X
P407
P577
2012-08-16T00:00:00Z