Eric S. Klein
University of Alaska Anchorage
28 Papers
80 Citations
Eric S. Klein is an academic researcher from University of Alaska Anchorage. The author has contributed to research in topics: Arctic & Peat. The author has an hindex of 13, co-authored 24 publications. Previous affiliations of Eric S. Klein include United States Fish and Wildlife Service & Lehigh University.
Chat about Author
Papers
A Database and Synthesis of Northern Peatland Soil Properties and Holocene Carbon and Nitrogen Accumulation
Julie Loisel,Zicheng Yu,David W. Beilman,Philip Camill,Jukka Alm,Matthew J. Amesbury,David E. Anderson,Sofia Andersson,Christopher Bochicchio,Keith Barber,Lisa R. Belyea,Joan Bunbury,Frank M. Chambers,Dan J. Charman,François De Vleeschouwer,Barbara Fiałkiewicz-Kozieł,Sarah A. Finkelstein,Mariusz Gałka,Michelle Garneau,Dan Hammarlund,William Hinchcliffe,James R. Holmquist,Paul D.M. Hughes,Miriam C. Jones,Eric S. Klein,Ulla Kokfelt,Atte Korhola,Peter Kuhry,Alexandre Lamarre,Mariusz Lamentowicz,David Large,Martin Lavoie,Glen M. MacDonald,Gabriel Magnan,Markku Mäkilä,Gunnar Mallon,Paul Mathijssen,Dmitri Mauquoy,Julia McCarroll,Tim R. Moore,Jonathan E. Nichols,Benjamin C. O'Reilly,Pirita Oksanen,Maara S. Packalen,Dorothy M. Peteet,Pierre J. H. Richard,Stephen Robinson,Tiina Ronkainen,Mats Rundgren,A. Britta K. Sannel,Charles Tarnocai,Tim Thom,Eeva-Stiina Tuittila,Merritt R. Turetsky,Minna Väliranta,Marjolein van der Linden,Bas van Geel,Simon van Bellen,Dale H. Vitt,Yan Zhao,Weijian Zhou +60 more
TL;DR: In this paper, the authors present results from the most comprehensive compilation of Holocene peat soil properties with associated carbon and nitrogen accumulation rates for northern peatlands, which consists of 268 peat cores from 215 sites located north of 45°N.
Latitudinal limits to the predicted increase of the peatland carbon sink with warming
Angela V. Gallego-Sala,Dan J. Charman,Simon Brewer,Susan Page,I. Colin Prentice,Pierre Friedlingstein,Steve Moreton,Matthew J. Amesbury,David W. Beilman,Svante Björck,Tatiana Blyakharchuk,Christopher Bochicchio,Robert K. Booth,Joan Bunbury,Philip Camill,Donna Carless,Rodney A. Chimner,Michael J. Clifford,Elizabeth L. Cressey,Colin J Courtney-Mustaphi,Colin J Courtney-Mustaphi,François De Vleeschouwer,Rixt de Jong,Barbara Fiałkiewicz-Kozieł,Sarah A. Finkelstein,Michelle Garneau,Esther Githumbi,John Hribjlan,James R. Holmquist,Paul D.M. Hughes,Chris D. Jones,Miriam C. Jones,Edgar Karofeld,Eric S. Klein,Ulla Kokfelt,Atte Korhola,Terri Lacourse,Gaël Le Roux,Mariusz Lamentowicz,David Large,Martin Lavoie,Julie Loisel,Helen Mackay,Glen M. MacDonald,Markku Mäkilä,Gabriel Magnan,Rob Marchant,Katarzyna Marcisz,Katarzyna Marcisz,Antonio Martínez Cortizas,Charly Massa,Paul Mathijssen,D. Mauquoy,Tim Mighall,Fraser J.G. Mitchell,Patrick Moss,Jonathan E. Nichols,Pirita Oksanen,Lisa C. Orme,Lisa C. Orme,Maara S. Packalen,Stephen Robinson,Thomas P. Roland,Nicole K. Sanderson,A. Britta K. Sannel,Noemí Silva-Sánchez,Natascha Steinberg,Graeme T. Swindles,T. Edward Turner,T. Edward Turner,Joanna Uglow,Minna Väliranta,Simon van Bellen,Marjolein van der Linden,Bas van Geel,Guoping Wang,Zicheng Yu,Zicheng Yu,Joana Zaragoza-Castells,Yan Zhao +79 more
TL;DR: This article examined the global relationship between peatland carbon accumulation rates during the last millennium and planetary-scale climate space and found a positive relationship between carbon accumulation and cumulative photosynthetically active radiation during the growing season for mid-to high-latitude peatlands in both hemispheres.
Arctic sea-ice loss fuels extreme European snowfall
Hannah Bailey,Alun Hubbard,Eric S. Klein,Kaisa-Riikka Mustonen,Pete D. Akers,Hannu Marttila,Jeffrey M. Welker,Jeffrey M. Welker +7 more
TL;DR: In this paper, the authors present atmospheric water vapour isotope measurements from Arctic Finland during a severe anticyclonic outbreak that brought heavy snowfall and freezing across Europe in February 2018, and demonstrate that approximately 140 gigatonnes of water was evaporated from the Barents Sea during the event.
76
Coupled long-term summer warming and deeper snow alters species composition and stimulates gross primary productivity in tussock tundra
TL;DR: It is suggested that deeper snow has a cascading set of biophysical consequences that include a deeper active layer that leads to altered species composition, greater leaf nitrogen concentration, and higher ecosystem-level carbon uptake.
72
Recent climate change has driven divergent hydrological shifts in high-latitude peatlands
Hui Zhang,Minna Väliranta,Graeme T. Swindles,Marco A. Aquino-López,Donal Mullan,Ning Tan,Matthew J. Amesbury,Kirill V. Babeshko,Kunshan Bao,Anatoly A Bobrov,Viktor A. Chernyshov,M. A. Davies,Andrei Diaconu,Angelica Feurdean,Sarah A. Finkelstein,Michelle Garneau,Zhengtang Guo,Miriam C. Jones,Martin Kay,Eric S. Klein,Mariusz Lamentowicz,Gabriel Magnan,Katarzyna Marcisz,Natalia G. Mazei,Yuri Mazei,Richard Payne,Nicolas Pelletier,Sanna Piilo,Steve Pratte,Thomas P. Roland,D. Saldaev,William Shotyk,Thomas G. Sim,Thomas J. Sloan,Michał Słowiński,Julie Talbot,Liam S. Taylor,Andrey N. Tsyganov,Sebastian Wetterich,Wei Xing,Yan Zhao +40 more
TL;DR: In this article , the authors reconstruct hydrological conditions since the seventeenth century using testate amoeba data from 103 high-latitude peat archives, showing that 54% of the peatlands have been drying and 32% have been wetting over this period.