about
Coupling of carbon and silicon geochemical cycles in rivers and lakesWarming alters coupled carbon and nutrient cycles in experimental streams.Increasing aridity, temperature and soil pH induce soil C-N-P imbalance in grasslands.Stoichiometric flexibility in diverse aquatic heterotrophic bacteria is coupled to differences in cellular phosphorus quotas.Selective stabilization of aliphatic organic carbon by iron oxide.An integrated insight into the response of sedimentary microbial communities to heavy metal contamination.Comparison of microbial taxonomic and functional shift pattern along contamination gradient.Increasing temperature reduces the coupling between available nitrogen and phosphorus in soils of Chinese grasslands.Effects of nitrogen and water addition on trace element stoichiometry in five grassland species.Carbon and nitrogen allocation shifts in plants and soils along aridity and fertility gradients in grasslands of ChinaThe relative importance of exogenous and substrate-derived nitrogen for microbial growth during leaf decomposition.Net greenhouse gas balance in response to nitrogen enrichment: perspectives from a coupled biogeochemical model.Detrital stoichiometry as a critical nexus for the effects of streamwater nutrients on leaf litter breakdown rates.Microbial stoichiometry overrides biomass as a regulator of soil carbon and nitrogen cycling.Research frontiers in the analysis of coupled biogeochemical cyclesThe soil and plant biogeochemistry sampling design for The National Ecological Observatory NetworkDisturbance Decouples Biogeochemical Cycles Across Forests of the Southeastern USLong-term carbon and nitrogen dynamics at SPRUCE revealed through stable isotopes in peat profilesFrontiers in Ecosystem Ecology from a Community Perspective: The Future is Boundless and BrightNitrogen and Phosphorus Uptake Dynamics in Tropical Cerrado Woodland StreamsImpacts of human alteration of the nitrogen cycle in the US on radiative forcingExperimental removal and addition of leaf litter inputs reduces nitrate production and loss in a lowland tropical forest
P2860
Q28821287-71BF9C95-7789-4683-BB24-C7ECD8558D03Q31034557-DABD45FB-B358-4159-94F9-564134DFDEC1Q31038581-0D615A49-9E84-4855-B061-9FBFB1297E64Q35128516-45C9703B-C28A-4FEB-9FA4-F3AE367E1F09Q35659709-C5543802-5CAC-4C54-9404-4E6632066D84Q35782595-4E795E61-7BFF-4304-A481-F191899ABEA3Q36052157-E6DE7571-C789-40E6-815D-CFCDFE7494CEQ37684064-13C77283-0556-42FC-AB3F-97102E588019Q38744484-A85087C9-E8E8-4E34-88EB-CB9AF5C62906Q41636228-DBB2550C-69AE-4FC7-84A5-1DDFC35DED95Q44987716-3AAFA59F-AE16-4110-A5A0-516F03D7B5B6Q45176180-3A67F68E-73AF-41A2-A41B-F91CF82277E4Q46664278-B31C2F64-D2D4-4C28-99EB-FC8FA6888069Q46692182-350C238B-51DD-40C9-AE5F-A6D1FBFFA08BQ54997047-26251965-EE31-4341-8504-FBB155EFA57FQ56417439-DEE182A1-DF89-4AEB-B0D4-8670F16BFB38Q56942428-F3495B79-9E1B-446C-989F-7F3619900AFDQ57014477-CD4192BB-210A-45DB-8C46-0453F0DE2702Q57052533-A09A7630-E862-42A3-B154-7D5E5F03B089Q57517503-e8f0a66c-4d00-8a92-c88d-264f950f25deQ58255080-74EE54A0-753A-40A3-9112-BBF24751DEC2Q58403651-697FA7D9-F512-4986-A7BC-62AFFFFE5AAD
P2860
description
article
@en
im Februar 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 2011
@uk
name
Introduction to coupled biogeochemical cycles
@en
Introduction to coupled biogeochemical cycles
@nl
type
label
Introduction to coupled biogeochemical cycles
@en
Introduction to coupled biogeochemical cycles
@nl
prefLabel
Introduction to coupled biogeochemical cycles
@en
Introduction to coupled biogeochemical cycles
@nl
P2093
P2860
P356
P1476
Introduction to coupled biogeochemical cycles
@en
P2093
Elisabeth A Holland
Jonathan J Cole
William H Schlesinger
P2860
P356
10.1890/090235
P577
2011-02-01T00:00:00Z