scholarly article | Q13442814 |
review article | Q7318358 |
P819 | ADS bibcode | 2015Natur.520..171S |
P356 | DOI | 10.1038/NATURE14338 |
P698 | PubMed publication ID | 25855454 |
P5875 | ResearchGate publication ID | 274698738 |
P50 | author | Guido Grosse | Q42657013 |
David Olefeldt | Q47741761 | ||
Edward A. G. Schuur | Q62990951 | ||
Daniel J. Hayes | Q88181657 | ||
Merritt R. Turetsky | Q89109865 | ||
Jorien E. Vonk | Q91474464 | ||
Jennifer W. Harden | Q56458680 | ||
David M Lawrence | Q56756111 | ||
Claire C. Treat | Q56808041 | ||
Charles Koven | Q57299102 | ||
Anthony D. McGuire | Q57414958 | ||
Christina Schädel | Q58102806 | ||
Susan M. Natali | Q58923954 | ||
P2093 | author name string | K Schaefer | |
V E Romanovsky | |||
G Hugelius | |||
P Kuhry | |||
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P433 | issue | 7546 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | climate change | Q125928 |
permafrost | Q179918 | ||
climate change feedback | Q952151 | ||
P304 | page(s) | 171-179 | |
P577 | publication date | 2015-04-01 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | Climate change and the permafrost carbon feedback | |
P478 | volume | 520 |
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Q31153583 | A multi-year estimate of methane fluxes in Alaska from CARVE atmospheric observations |
Q28611158 | A simplified, data-constrained approach to estimate the permafrost carbon-climate feedback |
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Q57879385 | Active-layer thickness estimation from X-band SAR backscatter intensity |
Q58653371 | Adding Depth to Our Understanding of Nitrogen Dynamics in Permafrost Soils |
Q33731893 | Aged dissolved organic carbon exported from rivers of the Tibetan Plateau |
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Q58403141 | An observation-based constraint on permafrost loss as a function of global warming |
Q48190578 | Anaerobic methanotrophic communities thrive in deep submarine permafrost. |
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Q96135320 | Anthropogenic alteration of nutrient supply increases the global freshwater carbon sink |
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Q58192201 | Arctic permafrost landscapes in transition: towards an integrated Earth system approach |
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Q56394959 | Biogenic volatile release from permafrost thaw is determined by the soil microbial sink |
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Q92724051 | Biogeographical patterns in soil bacterial communities across the Arctic region |
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Q64952080 | Carbon assimilation and transfer through kelp forests in the NE Atlantic is diminished under a warmer ocean climate. |
Q58245681 | Carbon budgets for 1.5 and 2 °C targets lowered by natural wetland and permafrost feedbacks |
Q38686256 | Carbon dioxide sources from Alaska driven by increasing early winter respiration from Arctic tundra. |
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Q91702689 | Carbon sequestration and biodiversity co-benefits of preserving forests in the western United States |
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Q28597079 | Climate change and the loss of organic archaeological deposits in the Arctic |
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Q91344797 | Climate-induced changes in carbon flows across the plant-consumer interface in a small subarctic lake |
Q58227318 | Climatic, geomorphologic and hydrologic perturbations as drivers for mid- to late Holocene development of ice-wedge polygons in the western Canadian Arctic |
Q28602628 | Cold season emissions dominate the Arctic tundra methane budget |
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Q58412781 | Comparison of plant litter and peat decomposition changes with permafrost thaw in a subarctic peatland |
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Q58724376 | Effects of permafrost collapse on soil bacterial communities in a wet meadow on the northern Qinghai-Tibetan Plateau |
Q60300783 | Emerging negative impact of warming on summer carbon uptake in northern ecosystems |
Q92753331 | Emissions of CO2, CH4, and N2O Fluxes from Forest Soil in Permafrost Region of Daxing'an Mountains, Northeast China |
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Q57175858 | Enhancement of non-CO2 radiative forcing via intensified carbon cycle feedbacks |
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Q114107343 | Estimated effect of the permafrost carbon feedback on the zero emissions commitment to climate change |
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Q57235196 | Estimation and Sensitivity of Carbon Storage in Permafrost of North-Eastern Yakutia |
Q62580122 | Evidence for non-steady-state carbon emissions from snow-scoured alpine tundra |
Q57410841 | Evidence for nonuniform permafrost degradation after fire in boreal landscapes |
Q46340879 | Experimentally increased nutrient availability at the permafrost thaw front selectively enhances biomass production of deep-rooting subarctic peatland species |
Q92622296 | Extensive fires in southeastern Siberian permafrost linked to preceding Arctic Oscillation |
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Q64086347 | Extremes of summer climate trigger thousands of thermokarst landslides in a High Arctic environment |
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Q98164483 | Factors controlling the spatial distribution of soil organic carbon in Daxing'anling Mountain |
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Q90544272 | Groundwater as a major source of dissolved organic matter to Arctic coastal waters |
Q92685463 | Heat and Salt Flow in Subsea Permafrost Modeled with CryoGRID2 |
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Q59356803 | Host-linked soil viral ecology along a permafrost thaw gradient |
Q59788798 | Hydrologic Impacts of Thawing Permafrost—A Review |
Q64085017 | Impact of Warming on Greenhouse Gas Production and Microbial Diversity in Anoxic Peat From a -Dominated Bog (Grand Rapids, Minnesota, United States) |
Q64996773 | Importance of active layer freeze-thaw cycles on the riverine dissolved carbon export on the Qinghai-Tibet Plateau permafrost region. |
Q57410834 | In situ nuclear magnetic resonance response of permafrost and active layer soil in boreal and tundra ecosystems |
Q57950257 | Inconsistent response of Arctic permafrost peatland carbon accumulation to warm climate phases |
Q33810347 | Increased nitrous oxide emissions from Arctic peatlands after permafrost thaw |
Q62389527 | Increases in temperature and nutrient availability positively affect methane-cycling microorganisms in Arctic thermokarst lake sediments |
Q92758058 | Increasing wildfires threaten historic carbon sink of boreal forest soils |
Q58650640 | Influence of Holocene permafrost aggradation and thaw on the paleoecology and carbon storage of a peatland complex in northwestern Canada |
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Q57242147 | Long-Term Drainage Reduces CO2 Uptake and CH4 Emissions in a Siberian Permafrost Ecosystem |
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Q59129092 | Nitrogen availability regulates topsoil carbon dynamics after permafrost thaw by altering microbial metabolic efficiency |
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