Megan Hughes

 
 


My primary research interests revolve around factors that influence habitat quality, in particular food availability, and songbird response to such variation. Since migration represents a period of heightened energetic demand, studies conducted during migratory passage provide an ideal setting in which to examine constraints placed on food resource acquisition by migrant passerines. At each stopover site, migrants may encounter varying factors influencing food resource use, including a forager’s fat reserves, predator activity, and competition. Theoretical models on the consequences of environmental unpredictability conclude that disparate behaviors during periods when expected fitness is highly variable are most advantageous, minimizing the uncertainty associated with changing external conditions, like those encountered from one stopover site to the next (Real 1980). Thus, the migratory period may select for behavioral plasticity, defined here as the ability of individuals of the same genotype to vary in phenotype in accordance with environmental change (Greenberg 1990). Shifts in foraging behavior and diet may reflect compensatory mechanisms for satisfying the elevated energetic demands of migration in the face of a specific set of constraints.

Grand Bay NERR

My research seeks to examine constraints on resource acquisition and migrant response to such restrictions along the northern coast of the Gulf of Mexico at three spatial scales: landscape (across habitat types), patch (coarse features within a habitat patch), and microhabitat (fine features within a habitat patch). Using both observational and experimental approaches, I hope to address questions like the following:

  • Do migrants diversify their foraging behavior to compensate for declines in food resource availability?
  • Does a migrant’s energetic condition (subcutaneous fat deposits) influence its response to changes in prey availability?
  • Do migrants alter their foraging behavior with changes in habitat structure?
  • Does migrant density influence the rate of decline in prey abundance?
  • Does predation by migrants influence arthropod community composition through shifts in overall insect behavior, activity patterns, and level of crypsis?
  • Does temperature influence the activity, and thus availability, of insect prey?
  • What factors influence the incidence of frugivory during migratory passage?

Effects of Local- and Landscape-scale Variation on the Distribution of Three Area-sensitive Forest Songbirds in Vermont (University of Vermont 2003)

As a landscape becomes increasingly fragmented, average forest tract size decreases, leaving area-sensitive bird species vulnerable to loss of suitable habitat because they avoid small patches and edge habitat. Landscape-level fragmentation may further influence the amount of quality habitat through alteration of patch-level processes and community composition. It is, therefore, important to understand the multiple factors, at both the local- and landscape-scale, that may influence habitat quality. I examined distribution and abundance of three area-sensitive songbirds, Black-throated Blue Warbler (Dendroica caerulescens), Ovenbird (Seiurus aurocapillus), and Red-eyed Vireo (Vireo olivaceus), across a gradient from edge to interior habitat in forest patches located in landscapes with three different levels of fragmentation. Relative abundance of all three species increased with distance from the edge, a response that appeared to be magnified by decreases in forest cover in the surrounding landscape. I also quantified habitat quality at the patch level through measures of vegetation characteristics and prey abundance and biomass. Biomass of both ground arthropods and Lepidoptera larvae was higher in edge habitat, and larval abundance and individual biomass was greater in the most fragmented landscape type. Of the vegetation characteristics, understory woody stem density and canopy cover decreased and ground cover increased with distance from the edge, while understory woody stem density increased with landscape-level fragmentation at distances closest to the forest edge. I, therefore, recommend consideration of both local- and landscape-scale habitat variables when determining appropriate conservation strategies for area-sensitive forest songbirds in the region.


Greenberg, R. 1990. Ecological plasticity, neophobia, and resource use in birds. Studies in Avian Biology 13: 431-437.

Real, L. A. 1980. Fitness, uncertainty, and the role of diversification in evolution and behavior. American Naturalist 115: 623-638.


Department of Biological Sciences
The University of Southern Mississippi
118 College Drive # 5018
Hattiesburg, MS 39406-0001
(601)266-4394
megan.e.hughes@usm.edu

 

The University of Southern Mississippi. Last modified: 11 June, 2009 . Questions and Comments?
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