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Predicting breeding bird occurrence by stand- and microhabitat-scale features in even-aged stands in the Central Appalachians
Authors:Molly E. McDermott  Petra Bohall Wood
Affiliation:a West Virginia Cooperative Fish and Wildlife Research Unit, Division of Forestry and Natural Resources, West Virginia University, PO Box 6125, 322 Percival Hall, Morgantown, WV, USA
b U.S. Geological Survey, West Virginia Cooperative Fish and Wildlife Research Unit, West Virginia University, PO Box 6125, 322 Percival Hall, Morgantown, WV, USA
c USDA Forest Service, Northern Research Station, Forestry Sciences Laboratory, 180 Canfield Street, Morgantown, WV, 26505 USA
Abstract:Spatial scale is an important consideration when managing forest wildlife habitat, and models can be used to improve our understanding of these habitats at relevant scales. Our objectives were to determine whether stand- or microhabitat-scale variables better predicted bird metrics (diversity, species presence, and abundance) and to examine breeding bird response to clearcut size and age in a highly forested landscape. In 2004-2007, vegetation data were collected from 62 even-aged stands that were 3.6-34.6 ha in size and harvested in 1963-1990 on the Monongahela National Forest, WV, USA. In 2005-2007, we also surveyed birds at vegetation plots. We used classification and regression trees to model breeding bird habitat use with a suite of stand and microhabitat variables. Among stand variables, elevation, stand age, and stand size were most commonly retained as important variables in guild and species models. Among microhabitat variables, medium-sized tree density and tree species diversity most commonly predicted bird presence or abundance. Early successional and generalist bird presence, abundance, and diversity were better predicted by microhabitat variables than stand variables. Thus, more intensive field sampling may be required to predict habitat use for these species, and management may be needed at a finer scale. Conversely, stand-level variables had greater utility in predicting late-successional species occurrence and abundance; thus management decisions and modeling at this scale may be suitable in areas with a uniform landscape, such as our study area. Our study suggests that late-successional breeding bird diversity can be maximized long-term by including harvests >10 ha in size into our study area and by increasing tree diversity. Some harvesting will need to be incorporated regularly, because after 15 years, the study stands did not provide habitat for most early successional breeding specialists.
Keywords:Bird-habitat modeling   Early successional birds   Even-age   Forest birds   Multiscale   West Virginia
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