Differentiating Climatic And Successional Influences On Long-Term Development Of A Marsh
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Keyword
Climate ChangeHydrological Change
Indiana
Lake Michigan
Paleoecology
Plant Macrofossils
Pollen
Succession
Vegetation Dynamics
Wetland Vegetation And Dynamics
SWRA
Journal title
EcologyDate Published
1996-01-01Publication Volume
77Publication Issue
6
Metadata
Show full item recordAbstract
Comparison of long-term records of local wetland vegetation dynamics with regional, climate-forced terrestrial vegetation changes can be used to differentiate the rates and effects of autogenic successional processes and allogenic environmental change on wetland vegetation dynamics. We studied Holocene plant macrofossil and pollen sequences from Portage Marsh, a shallow, 18-ha marsh in northeastern Indiana. Between 10 000 and 5700 yr BP the basin was occupied by a shallow, open lake, while upland vegetation consisted of mesic forests of Pinus, Quercus, Ulmus, and Carya. At 5700 yr BP the open lake was replaced rapidly by a shallow marsh, while simultaneously Quercus savanna developed on the surrounding uplands. The marsh was characterized by periodic drawdowns, and the uplands by periodic fires. Species composition of the marsh underwent further changes between 3000 and 2000 yr BP. Upland pollen spectra at Portage Marsh and other sites in the region shifted towards more mesic vegetation during that period. The consistency and temporal correspondence between the changes in upland vegetation and marsh vegetation indicate that the major vegetational changes in the marsh during the Holocene resulted from hydrologic changes forced by regional climate change. Progressive shallowing of the basin by autogenic accumulation of organic sediment constrained vegetational responses to climate change but did not serve as the direct mechanism of change.Description
Copyright by the Ecological Society of America, Ecology, 77 ( 6 ) ,1996, pp. 1765-1778 Q 1996 by the Ecological Society of America --- Published while authors Madsen and Wilcox were employed by: National Biological Service, Great Lakes Science Center, Ann Arbor; Michigan 48105 USA