Environmental science. Peatland response to global change.
about
Sulfate-reducing microorganisms in wetlands - fameless actors in carbon cycling and climate changeHabitat heterogeneity and connectivity shape microbial communities in South American peatlandsThresholds for boreal biome transitions.Climate change drives a shift in peatland ecosystem plant community: implications for ecosystem function and stability.Vegetation exerts a greater control on litter decomposition than climate warming in peatlands.Vascular plants promote ancient peatland carbon loss with climate warmingMolecular mechanisms of water table lowering and nitrogen deposition in affecting greenhouse gas emissions from a Tibetan alpine wetland.Microbial metabolic potential for carbon degradation and nutrient (nitrogen and phosphorus) acquisition in an ombrotrophic peatlandMicroorganisms with novel dissimilatory (bi)sulfite reductase genes are widespread and part of the core microbiota in low-sulfate peatlandsIron-mediated soil carbon response to water-table decline in an alpine wetland.Response of two dominant boreal freshwater wetland plants to manipulated warming and altered precipitation.Similar diversity of alphaproteobacteria and nitrogenase gene amplicons on two related sphagnum mosses.Insights into functional bacterial diversity and its effects on Alpine bog ecosystem functioning.Vertical transmission explains the specific Burkholderia pattern in Sphagnum mosses at multi-geographic scaleThe Sphagnum microbiome supports bog ecosystem functioning under extreme conditions.Increase in carbon accumulation in a boreal peatland following a period of wetter climate and long-term decrease in nitrogen deposition.Contrasting growth responses of dominant peatland plants to warming and vegetation composition.The peatlands developing history in the Sanjiang Plain, NE China, and its response to East Asian monsoon variationSphagnum mosses harbour highly specific bacterial diversity during their whole lifecycle.Water table drawdown shapes the depth-dependent variations in prokaryotic diversity and structure in Zoige peatlands.Protected area as an indicator of ecological sustainability? A century of development in Europe's boreal forestDetecting peatland drains with Object Based Image Analysis and Geoeye-1 imageryRemote sensing of seasonal light use efficiency in temperate bog ecosystems.The Sphagnum microbiome: new insights from an ancient plant lineage.Persistent versus transient tree encroachment of temperate peat bogs: effects of climate warming and drought events.Climatic modifiers of the response to nitrogen deposition in peat-forming Sphagnum mosses: a meta-analysis.How to make complexity look simple? Conveying ecosystems restoration complexity for socio-economic research and public engagement.Above- and belowground linkages in Sphagnum peatland: climate warming affects plant-microbial interactions.Tipping point in plant-fungal interactions under severe drought causes abrupt rise in peatland ecosystem respiration.Warming effects on greenhouse gas fluxes in peatlands are modulated by vegetation composition.Glasshouse vs field experiments: do they yield ecologically similar results for assessing N impacts on peat mosses?Peatland vegetation composition and phenology drive the seasonal trajectory of maximum gross primary production.Predator-prey mass ratio drives microbial activity under dry conditions in Sphagnum peatlands.What Is the Role of Archaea in Plants? New Insights from the Vegetation of Alpine Bogs.Vulnerability of mires under climate change: implications for nature conservation and climate change adaptationSimulation of CO2 and Attribution Analysis at Six European Peatland Sites Using the ECOSSE ModelDual controls on carbon loss during drought in peatlandsA multi-proxy record of Holocene environmental change, peatland development and carbon accumulation from Staroselsky Moch peatland, RussiaWater Quality Analysis of Agriculturally Impacted Tidal Blackbird Creek, DelawareCO2fluxes at northern fens and bogs have opposite responses to inter-annual fluctuations in water table
P2860
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P2860
Environmental science. Peatland response to global change.
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Environmental science. Peatland response to global change.
@ast
Environmental science. Peatland response to global change.
@en
Environmental science. Peatland response to global change.
@nl
type
label
Environmental science. Peatland response to global change.
@ast
Environmental science. Peatland response to global change.
@en
Environmental science. Peatland response to global change.
@nl
prefLabel
Environmental science. Peatland response to global change.
@ast
Environmental science. Peatland response to global change.
@en
Environmental science. Peatland response to global change.
@nl
P2860
P356
P1433
P1476
Environmental science. Peatland response to global change.
@en
P2093
Nancy B Dise
P2860
P304
P356
10.1126/SCIENCE.1174268
P407
P577
2009-11-01T00:00:00Z