Vickie Bakker
Education
Ph.D. Ecology, 2003.
Post-baccalaureate
coursework, 1990 -1994.
B.A. English and
environmental studies, 1989.
Research interests
·
Movement and territorial
behavior of animals in fragmented landscapes
·
Demography and habitat relations of rare and
endangered species
Movement and
territorial behavior of animals in fragmented landscapes
I am interested in understanding how animals
perceive habitat and in testing key assumptions of conservation biology theory
linked to behavior. I pursued these
questions in several ways through my dissertation research on red squirrels (Tamiasciurus hudsonicus) in fragmented
forests of southeastern
On a fine scale, I performed a correlative study of path selection to
determine microhabitat features squirrels favored when on unfamiliar ground,
then corroborated my results experimentally by releasing squirrels in
manipulated test plots (Bakker in revision).
Manipulations altered movements, suggesting microhabitat restoration
could enhance travel in certain areas.
Working at a larger spatial scale, I identified determinants of
gap-crossing (Bakker and Van Vuren 2004) by red squirrels and found that
squirrels were more likely to cross clearcut gaps if the detour efficiency
(distance across clearcut/distance via forested detour) was low. Detour efficiency has recently been shown to
influence the movements of forest passerines, but my research is the first
demonstration of its importance to a mammal, hinting at a potentially more
general pattern among forest vertebrates.
These animals appear able to compare both the relative risk or cost of travel in different habitats
and the length of alternate routes.
Consequently, they may cross risky habitats in favor of safer routes
such as corridors if long detours are required.
To further investigate how red squirrels perceive habitat, I examined seeds remaining on cones
foraged upon by red squirrels in clearcuts.
I found that giving-up
densities (GUDS) increased with distance from the forest edge, indicating that
squirrels perceived predation risk as higher in the center of clearcuts. I also studied whether habitat differences
explained variation in territorial behavior.
Sitka spruce (Picea sitchensis),
an uncommon food resource, predicted territorial behaviors such as calling
rate, midden presence and excursions, while mean tree size, which may serve as
an indicator of overall food resources, predicted home range size.
Demography and habitat relationships of rare and endangered species
A second research interest is identifying scientifically based measures
for protecting rare species, acting in partnership with government agencies or
non-profit organizations responsible for species and land management. I am currently working with The Nature
Conservancy (TNC) to perform demographic analyses and design monitoring
protocols for the Santa Cruz Island fox (Urocyon
littoralis santacruzae), which has declined precipitously in the last
decade and is currently one of the most endangered carnivores in North
America. My work on behalf of this
species is intended to help TNC monitor the effectiveness of its intensive
efforts to protect the species.
Similarly, I researched, along with colleague Kim Hastings, the habitats
and den trees used by northern flying squirrels (Glaucomys sabrinus) in the Tongass National Forest (TNF) in
southeastern
Evolution of body size
A third research focus is macroecological investigations of patterns in
body sizes at different spatial scales and in different regions to gain
insights into the processes driving the evolution of communities and
species. I investigated, along with
colleague Doug Kelt, the body size distributions of South American mammals from
the continental scale to the local scale (Bakker and Kelt 2000). We found that, unlike the patterns reported
for North America, body size distributions of mammals did not become uniform at
local scales in tropical rainforest areas of South America, although they did
in temperate regions of the continent.
We concluded that this scaling pattern likely arose because rainforest
mammals partitioned resources both horizontally and vertically due to the
productivity of the tropical rainforest canopy, underscoring habitat complexity
as a factor contributing to the latitudinal gradient in species richness.
I am currently performing two tests of the island rule, which states
that large mammals tend toward dwarfism and small mammals toward gigantism when
isolated on islands, apparently due to a reduction in resources, predation, and
competition. I am evaluating changes in
body size and wool traits in feral sheep released from domestication on
Data
Gap-crossing decisions and potential predictors,
supplemental data for Bakker and Van Vuren 2004.
Publications
Bakker, V. J and D. H. Van Vuren. 2004. Gap-crossing
decisions by the red squirrel (Tamiasciurus
hudsonicus), a forest-dependent small mammal. Conservation Biology 18: 689-697.
Bakker, V. J. The influence of micro-habitat features on
the movements of red squirrels (Tamiasciurus
hudsonicus) on unfamiliar ground. In
revision.
Bakker, V. J., D. K. Garcelon, E. T. Aschehoug, K. R. Crooks,
C. Newman, G. Schmidt, D. H. Van Vuren, and R. Woodroffe. Current status of the
Santa Cruz Island Fox (Urocyon littoralis
santacruzae). In press. Proceedings of the
Bakker, V. J. and K. Hastings. 2002. Den trees used by
northern flying squirrels (Glaucomys
sabrinus) in southeastern Alaska.
Canadian Journal of Zoology 80:
1623-633.
Bakker, V. J. and D. A. Kelt. 2000.
Scale-dependent patterns in body size distributions of Neotropical
mammals. Ecology 81: 3530-3547.
Last revised: