TY - JOUR
T1 - Hydrogeomorphology, environment, and vegetation associations across a latitudinal gradient in highland wetlands of the northeastern USA
AU - Peterson-Smith, Jessica
AU - Wardrop, Denice Heller
AU - Cole, Charles Andrew
AU - Cirmo, Christopher P.
AU - Brooks, Robert P.
N1 - Funding Information:
Acknowledgements The authors thank the U.S. Environmental Protection Agency, Grant # R-82949701-0, for funding this research; Stacey Hoeltje, Zaneta Hough, Pat Ryan, and Lauren McChesney for their contributions to field work and project support; Ryan Orndorff, Tim McSheffery, Steve Torgerson and the technical staff at SUNY Cortland for their help in the field; and Sarah Miller, Joe Bishop, and Hannah Ingram of the Penn State Cooperative Wetlands Center for technical expertise with plant identification, calculations of land cover statistics, and the creation of Fig. 1, respectively. We also thank the Huntington Wildlife Forest in Newcomb, NY, the staff of the Adirondack Ecological Center, Laurie Machung and the New York City Department of Environmental Protection, and Jim Smalls of the USDA Forest Service in Virginia for assistance and access to our sampling locations.
PY - 2009
Y1 - 2009
N2 - Undisturbed, highland wetlands in the northeastern USA are unique habitats which maintain ecological integrity in this region. These ecosystems may be threatened by a changing environment. To protect, restore, and create these wetlands, an understanding of the relationship between vegetation composition, environmental regime, and the underlying hydrogeomorphology is needed. Using a hydrogeomorphic (HGM) classification scheme, we analyzed the environmental regime and vegetation in groundwater and small-order, stream-fed wetlands in the Adirondacks and Catskills of New York, the Appalachians of Pennsylvania and of Virginia and West Virginia. The similarity of environmental regime and then species composition between wetlands across and within regions were analyzed using ordination and cluster analysis. Plant associations and distinguishing factors were determined. Within a region, wetlands with similar environmental regime or species composition were often grouped by HGM subclass. Beaver influence and groundwater sources may account for discrepancies between HGM and community composition. Similarly structured plant associations across regions included Acer/herbaceous wetlands, Acer/Fraxinus slopes, and Acer/Tsuga/herbaceous wetlands. Plant associations were primarily distinguished by soils in the Adirondacks, soils and hydrology in the Catskills, spatial location and disturbance in Pennsylvania, and spatial location in Virginia. Regional differences and non-environmental drivers of species composition will modify generalized relationships between hydrogeomorphology, environmental regime, and species composition and should be accounted for in wetland design and management activities.
AB - Undisturbed, highland wetlands in the northeastern USA are unique habitats which maintain ecological integrity in this region. These ecosystems may be threatened by a changing environment. To protect, restore, and create these wetlands, an understanding of the relationship between vegetation composition, environmental regime, and the underlying hydrogeomorphology is needed. Using a hydrogeomorphic (HGM) classification scheme, we analyzed the environmental regime and vegetation in groundwater and small-order, stream-fed wetlands in the Adirondacks and Catskills of New York, the Appalachians of Pennsylvania and of Virginia and West Virginia. The similarity of environmental regime and then species composition between wetlands across and within regions were analyzed using ordination and cluster analysis. Plant associations and distinguishing factors were determined. Within a region, wetlands with similar environmental regime or species composition were often grouped by HGM subclass. Beaver influence and groundwater sources may account for discrepancies between HGM and community composition. Similarly structured plant associations across regions included Acer/herbaceous wetlands, Acer/Fraxinus slopes, and Acer/Tsuga/herbaceous wetlands. Plant associations were primarily distinguished by soils in the Adirondacks, soils and hydrology in the Catskills, spatial location and disturbance in Pennsylvania, and spatial location in Virginia. Regional differences and non-environmental drivers of species composition will modify generalized relationships between hydrogeomorphology, environmental regime, and species composition and should be accounted for in wetland design and management activities.
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U2 - 10.1007/s11258-008-9523-x
DO - 10.1007/s11258-008-9523-x
M3 - Article
AN - SCOPUS:70349696656
SN - 1385-0237
VL - 203
SP - 155
EP - 172
JO - Plant Ecology
JF - Plant Ecology
IS - 2
ER -