Responses of an arctic landscape to Lateglacial and early Holocene climatic changes: the importance of moisture

Publication Type  Journal Article
Year of Publication  2002
Authors  Mann, D. H.; Peteet, D. M.; Reanier, R. E.; Kunz, M. L.
Journal Title  Quaternary Science Reviews
Volume  21
Issue  8-9
Pages  997-1021
Journal Date  Apr
ISBN Number  0277-3791
Accession Number  ISI:000175566100012
Key Words  brooks-range-foothills; late-quaternary; northwestern alaska; environmental-change; vegetation history; northern alaska; time resolution; mammoth steppe; coastal-plain; younger dryas
Abstract  

Many of the physical and biological processes that characterize arctic ecosystems are unique to high latitudes, and their sensitivities to climate change are poorly understood. Stratigraphic records of land-surface processes and vegetation change in the Arctic Foothills of northern Alaska reveal how tundra landscapes responded to climatic changes between 13,000 and 8000 C-14 yr BP. Peat deposition began and shrub vegetation became widespread ca. 12,500 C-14 yr BP, probably in response to the advent of warmer and wetter climate. Increased slope erosion caused rapid alluviation in valleys, and Populus trees spread northward along braided floodplains before 11,000 C-14 yr BP. Lake levels fell and streams incised their floodplains during the Younger Dryas (YD) (11,000-10,000 C-14 yr BP). A hiatus in records of Populus suggest that its geographic range contracted, and pollen records of other species suggest a cooler and drier climate during this interval. Basal peats dating to the YD are rare, suggesting that rates of paludification slowed. Immediately after 10,000 C-14 yr BP, lake levels rose, streams aggraded rapidly again, intense solifluction occurred, and Populus re-invaded the area. Moist acidic tundra vegetation was widespread by 8500 C-14 yr BP along with wet, organic-rich soils. Most of these landscape-scale effects of climatic change involved changes in moisture. Although low temperature is the most conspicuous feature of arctic climate, shifts in effective moisture may be the proximate cause for many of the impacts that climate change has in arctic regions. (C) 2002 Elsevier Science Ltd. All rights reserved.

Notes  

551MUTimes Cited:21Cited References Count:128

URL  <Go to ISI>://000175566100012
DOI  Pii S0277-3791(01)00116-0