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Chasing Lakes : Love, Science, and the Secrets of the Arctic. (2022)

Anthony, Katey Walter.

New York :HarperCollins Publishers,

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Keywords: Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (279 pages)

Edition: 1st ed.

ISBN: 9780063002012

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=29435310

DDC: 577.09 B

Language: English

Note: Intro -- Title Page -- Map -- Dedication -- Contents -- Prologue -- Part I: The Bubble Trouble -- One: An American Girl in Cherskii -- Two: The Trapper -- Three: War of Attrition -- Four: Cats in the Ice -- Five: Northern Lights -- Part II: Nomad -- Six: Childhood Broken -- Seven: A New Beginning -- Eight: Adventures of an Atheist -- Part III: Coming of Age -- Nine: A Scientific Author -- Ten: Truth Pursuit -- Eleven: Peat Cakes and Wedding Cakes -- Twelve: Gassy Lassie -- Thirteen: Brooks Range -- Fourteen: Dangerous Ice -- Part IV: A Piece of Clay -- Fifteen: Back to the Kolyma -- Sixteen: A Sleeping Giant -- Seventeen: Farm Wife -- Eighteen: Spying on Methane -- Nineteen: Love at Last -- Epilogue -- Acknowledgments -- Notes -- Photo Section -- About the Author -- Copyright -- About the Publisher.

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Carbon release through abrupt permafrost thaw (2020)

Turetsky, Merritt R. ; Abbott, Benjamin W. ; Jones, Miriam C. ; [et al.]

In: EPIC3Nature Geoscience, 13(2), pp. 138-143, ISSN: 1752-0894

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Publication Date: 2020-02-08

Description: The permafrost zone is expected to be a substantial carbon source to the atmosphere, yet large-scale models currently only simulate gradual changes in seasonally thawed soil. Abrupt thaw will probably occur in 〈20% of the permafrost zone but could affect half of permafrost carbon through collapsing ground, rapid erosion and landslides. Here, we synthesize the best available information and develop inventory models to simulate abrupt thaw impacts on permafrost carbon balance. Emissions across 2.5 million km2 of abrupt thaw could provide a similar climate feedback as gradual thaw emissions from the entire 18 million km2 permafrost region under the warming projection of Representative Concentration Pathway 8.5. While models forecast that gradual thaw may lead to net ecosystem carbon uptake under projections of Representative Concentration Pathway 4.5, abrupt thaw emissions are likely to offset this potential carbon sink. Active hillslope erosional features will occupy 3% of abrupt thaw terrain by 2300 but emit one-third of abrupt thaw carbon losses. Thaw lakes and wetlands are methane hot spots but their carbon release is partially offset by slowly regrowing vegetation. After considering abrupt thaw stabilization, lake drainage and soil carbon uptake by vegetation regrowth, we conclude that models considering only gradual permafrost thaw are substantially underestimating carbon emissions from thawing permafrost.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev , info:eu-repo/semantics/article

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Facies analysis of yedoma thermokarst lakes on the northern Seward Peninsula, Alaska (2016)

Farquharson, Louise ; Anthony, Katey Walter ; Bigelow, Nancy ; [et al.]

Elsevier

In: EPIC3Sedimentary Geology, Elsevier, 340, pp. 25-37, ISSN: 00370738

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Publication Date: 2016-09-23

Description: Thermokarst lakes develop as a result of the thaw and collapse of ice-rich, permanently frozen ground (permafrost). Of particular sedimentological importance are thermokarst lakes forming in late Pleistocene icy silt (yedoma),which dramatically alter the land surface by lowering surface elevation and redistributing upland sediment into lower basins. Our study provides the first description of yedoma thermokarst lake sedimentology based on the crossbasin sampling of an existing lake. We present lake sediment facies descriptions based on data from sediment cores from two thermokarst lakes of medium depth, Claudi and Jaeger (informal names), which formed in previously non thermokarst-affected upland yedoma on the northern Seward Peninsula, Alaska. We identify four prominent facies using sedimentological, biogeochemical, and macrofossil indicators: a massive silt lacking aquatic macrofossils and other aquatic indicators situated below a sub-lacustrine unconformity (Facies 1); two basal deposits: interbedded organic silt and chaotic silt (Facies 2–3); and a silt-rich mud (Facies 4). Facies 1 is interpreted as yedoma that has thawed during lake formation. Facies 3 formed adjacent to the margin due to thaw and collapse events from the lake shore. Material from Facies 3 was reworked by wave action to form Facies 2 in a medium energy margin environment. Facies 4 formed in a lower energy environment toward the lake basin center. This facies classification and description should enhance our ability (i) to interpret the spatial and temporal development of lakes and (ii) to reconstruct long-term patterns of landscape change.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Assessing the Potential for Mobilization of Old Soil Carbon After Permafrost Thaw: A Synthesis of 14C Measurements From the Northern Permafrost Region (2021)

Estop‐Aragonés, Cristian ; Olefeldt, David ; Abbott, Benjamin W. ; [et al.]

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Publication Date: 2021-07-05

Description: The magnitude of future emissions of greenhouse gases from the northern permafrost region depends crucially on the mineralization of soil organic carbon (SOC) that has accumulated over millennia in these perennially frozen soils. Many recent studies have used radiocarbon (14C) to quantify the release of this “old” SOC as CO2 or CH4 to the atmosphere or as dissolved and particulate organic carbon (DOC and POC) to surface waters. We compiled ~1,900 14C measurements from 51 sites in the northern permafrost region to assess the vulnerability of thawing SOC in tundra, forest, peatland, lake, and river ecosystems. We found that growing season soil 14C‐CO2 emissions generally had a modern (post‐1950s) signature, but that well‐drained, oxic soils had increased CO2 emissions derived from older sources following recent thaw. The age of CO2 and CH4 emitted from lakes depended primarily on the age and quantity of SOC in sediments and on the mode of emission, and indicated substantial losses of previously frozen SOC from actively expanding thermokarst lakes. Increased fluvial export of aged DOC and POC occurred from sites where permafrost thaw caused soil thermal erosion. There was limited evidence supporting release of previously frozen SOC as CO2, CH4, and DOC from thawing peatlands with anoxic soils. This synthesis thus suggests widespread but not universal release of permafrost SOC following thaw. We show that different definitions of “old” sources among studies hamper the comparison of vulnerability of permafrost SOC across ecosystems and disturbances. We also highlight opportunities for future 14C studies in the permafrost region.

Description: Key Points: We compiled ~1,900 14C measurements of CO2, CH4, DOC, and POC from the northern permafrost region. Old carbon release increases in thawed oxic soils (CO2), thermokarst lakes (CH4 and CO2), and headwaters with thermal erosion (DOC and POC). Simultaneous and year‐long 14C analyses of CO2, CH4, DOC, and POC are needed to assess the vulnerability of permafrost carbon across ecosystems.

Description: EC | H2020 | H2020 Priority Excellent Science | H2020 European Research Council (ERC) http://dx.doi.org/10.13039/100010663

Description: Gouvernement du Canada | Natural Sciences and Engineering Research Council of Canada (NSERC) http://dx.doi.org/10.13039/501100000038

Description: National Science Foundation (NSF) http://dx.doi.org/10.13039/100000001

Keywords: 551.9 ; permafrost thaw ; radiocarbon ; carbon dioxide ; methane ; dissolved organic carbon ; particulate organic carbon

Type: article

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Past permafrost dynamics can inform future permafrost carbon-climate feedbacks (2023)

Jones, Miriam C ; Grosse, Guido ; Treat, Claire ; [et al.]

Nature Research

In: EPIC3Communications Earth and Environment, Nature Research, 4(1), pp. 272-272, ISSN: 2662-4435

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Publication Date: 2024-01-30

Description: Climate warming threatens to destabilize vast northern permafrost areas, potentially releasing large quantities of organic carbon that could further disrupt the climate. Here we synthesize paleorecords of past permafrost-carbon dynamics to contextualize future permafrost stability and carbon feedbacks. We identify key landscape differences between the last deglaciation and today that influence the response of permafrost to atmospheric warming, as well as landscape-level differences that limit subsequent carbon uptake. We show that the current magnitude of thaw has not yet exceeded that of previous deglaciations, but that permafrost carbon release has the potential to exert a strong feedback on future Arctic climate as temperatures exceed those of the Pleistocene. Better constraints on the extent of subsea permafrost and its carbon pool, and on carbon dynamics from a range of permafrost thaw processes, including blowout craters and megaslumps, are needed to help quantify the future permafrost-carbon-climate feedbacks.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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