%0 Journal Article %J Environmental Research Letters %D 2020 %T We cannot shrug off the shoulder seasons: addressing knowledge and data gaps in an Arctic headwater %A Arial J Shogren %A Jay P Zarnetske %A Benjamin W Abbott %A Frances Iannucci %A William B Bowden %B Environmental Research Letters %V 15 %P 104027 %8 09/2020 %G eng %U https://doi.org/10.1088/1748-9326/ab9d3c %R 10.1088/1748-9326/ab9d3c %0 Journal Article %J Proceedings of the National Academy of Sciences %D 2018 %T Warming reverses top-down effects of predators on belowground ecosystem function in Arctic tundra %A Amanda M. Koltz %A Aimée T. Classen %A Justin P. Wright %K aboveground–belowground %K Arctic %K decomposition %K predator %K trophic interactions %B Proceedings of the National Academy of Sciences %P 201808754 %8 07/2018 %G eng %U http://www.pnas.org/lookup/doi/10.1073/pnas.1808754115 %! Proc Natl Acad Sci USA %R 10.1073/pnas.1808754115 %0 Journal Article %J General and Comparative Endocrinology %D 2018 %T Weathering the storm: Do arctic blizzards cause repeatable changes in stress physiology and body condition in breeding songbirds? %A Jesse S. Krause %A Jonathan H. Perez %A Helen E. Chmura %A Simone L. Meddle %A Kathleen Hunt %A Laura Gough %A Natalie T. Boelman %A John C. Wingfield %B General and Comparative Endocrinology %V 267 %P 183 - 192 %8 10/2018 %G eng %! General and Comparative Endocrinology %R 10.1016/j.ygcen.2018.07.004 %0 Journal Article %J Earth and Planetary Science Letters %D 2018 %T Widespread occurrence of distinct alkenones from Group I haptophytes in freshwater lakes: Implications for paleotemperature and paleoenvironmental reconstructions %A William M. Longo %A Yongsong Huang %A Yao, Yuan %A Jiaju Zhao %A Anne E. Giblin %A Xian Wang %A Roland Zech %A Torsten Haberzettl %A Ludwig Jardillier %A Jaime Toney %A Zhonghui Liu %A Sergey Krivonogov %A Marina Kolpakova %A Guoqiang Chu %A William J. D'Andrea %A Naomi Harada %A Kana Nagashima %A Miyako Sato %A Hitoshi Yonenobu %A Kazuyoshi Yamada %A Katsuya Gotanda %A Yoshitsugu Shinozuka %B Earth and Planetary Science Letters %V 492 %P 239 - 250 %8 06/2018 %G eng %! Earth and Planetary Science Letters %R 10.1016/j.epsl.2018.04.002 %0 Newspaper Article %D 2015 %T Wilkes coordinator to lead research group studying climate in Alaska %A Michael P. Buffer %I CitizensVoice.com %8 January 4, 2015 %G eng %U http://citizensvoice.com/news/wilkes-coordinator-to-lead-research-group-studying-climate-in-alaska-1.1812159 %M ARC835 %! Wilkes coordinator to lead research group studying climate in Alaska %& News %0 Online Multimedia %D 2015 %T Will warming surge as arctic microbes feast on defrosting carbon? %A Charlie Heck %B Live Science %I Purch.com %8 February 13, 2015 %G eng %U http://www.livescience.com/49431-impact-from-arctic-microbes-feasting-on-thawing-tundra.html %9 Video and interview article %M ARC890 %0 Book Section %B Standard methods for sampling North American fishes. %D 2009 %T Warmwater and coldwater fish in two-story standing waters %A Phaedra Budy %A G. P. Thiede %A Chris Luecke %A R. Schneidervin %E S. A. Bonar %E W. A. Hubert %E D. W. Willis %B Standard methods for sampling North American fishes. %I American Fisheries Society. %C Bethesda, Maryland %G eng %M ARC525 %! Warmwater and coldwater fish in two-story standing waters %0 Thesis %D 2008 %T Winter Conditions and Spring Convection in Toolik Lake, Alaska %A A. B. Parsons-Field %I University of California at Santa Barbara %C Santa Barbara, CA %V MS %G eng %9 M.S. Thesis %M ARC581 %! Winter Conditions and Spring Convection in Toolik Lake, Alaska %0 Journal Article %J Journal of Ecology %D 2007 %T What is the relationship between changes in canopy leaf area and changes in photosynthetic CO2 flux in Arctic ecosystems? %A L. E. Street %A Gaius R Shaver %A Mathew W. Williams %A M. T. van Wijk %B Journal of Ecology %V 95 %P 139-150 %G eng %N 1 %M ARC595 %2 72 %! What is the relationship between changes in leaf area and changes in photosynthetic CO2 flux in Arctic ecosystems? %R 10.1111/j.1365-2745.2006.01187.x %0 Journal Article %J Journal of Hydrometeorology %D 2005 %T The water budget of the Kuparuk Basin, Alaska %A Stephen J. Déry %A M. Stieglitz %A A. K. Rennermalm %A Eric F. Wood %B Journal of Hydrometeorology %V 6 %P 633-655 %G eng %N 5 %M ARC433 %! The water budget of the Kuparuk Basin, Alaska %R 10.1175/JHM434.1 %0 Journal Article %J Ecology %D 1999 %T Within-stand nutrient cycling in arctic and boreal wetlands %A Sven Jonasson %A Gaius R Shaver %K use efficiency %B Ecology %V 80 %P 2139-2150 %8 Oct %@ 0012-9658 %G English %U ://WOS:000083009400002 %N 7 %M ARC621 %! Within-stand nutrient cycling in arctic and boreal wetlands %R 10.1890/0012-9658%281999%29080%5B2139%3AWSNCIA%5D2.0.CO%3B2 %0 Journal Article %J Hydrobiologia %D 1992 %T Water and sediment export of the upper Kuparuk River drainage of the North Slope of Alaska %A K. Kriet %A Bruce J. Peterson %A T. L. Corliss %K ARC %B Hydrobiologia %V 240 %P 71-81 %G eng %M ARC51 %! Water and sediment export of the upper Kuparuk River drainage of the North Slope of Alaska %R 10.1007/BF00013453 %0 Journal Article %J Canadian Journal of Fisheries and Aquatic Sciences %D 1992 %T Whole river fertilization stimulates fish production in an arctic tundra river %A Linda A. Deegan %A Bruce J. Peterson %K ARC %B Canadian Journal of Fisheries and Aquatic Sciences %V 49 %P 1890-1901 %G eng %N 9 %M ARC15 %! Whole river fertilization stimulates fish production in an arctic tundra river %R 10.1139/F92-209 %0 Journal Article %J Ecology %D 1986 %T Woody stem production in Alaskan tundra shrubs %A Gaius R Shaver %K D 04140 Taiga/tundra %B Ecology %V 67 %P 660-669 %G eng %N 3 %M ARC331 %! Woody stem production in Alaskan tundra shrubs %R 10.2307/1937690