Burrowing organisms assist in shaping earth surfaces and are simultaneously affected by the environment they inhabit; however, a conceptual framework is not yet available to describe this feedback. We introduce a model that connects the population density of soil-burrowing animals to sediment transport via energy. The model, combined with avail-able data from California hillslopes where soil erosion is driven by pocket gophers (Thom-omys bottae), suggests that a gopher annually expends;9 kJ of energy, or;1 % of re-ported burrowing energy expenditure, in generating sediment transport. The model is used to evaluate the case that gophers prefer to populate thicker soils. The results suggest that this behavior may drastically dampen the spatial...
Student paper, EEB 4839, 2008The fossorial plains pocket gopher, Geomys bursarius, creates mounds of...
We present a computer model which simulates population processes and spatial patterning in response ...
Factors affecting soil-contact and -manipulation behaviors of pocket gophers (Thomomys and Geomys sp...
Species ranges are mediated by physiology, environmental factors, and competition with other organis...
Species ranges are mediated by physiology, environmental factors, and competition with other organis...
Distinctive Mima mound topography, found on all continents except Antarctica, has long inspired inte...
<div><p>Species ranges are mediated by physiology, environmental factors, and competition with other...
<p>Burrowing mammals can be ecosystem engineers by increasing soil aeration and erosion and altering...
To continue bridging the gap between biology and geomorphology, I documented activity of the norther...
In this paper, I mathematically model the energy cost-benefit relationships for gophers burrowing in...
It has generally been assumed that diffusive sediment transport on soil-mantled hillslopes is linear...
While many animals respond to seasonal variation in their environment, animals such as pocket gopher...
Mounds of soil created by pocket gophers during the process of construction of burrows represent sma...
The effects of pocket gophers (Geomyidae) on soils and vegetation were studied on Chihuahuan Desert ...
Pocket gophers (Geomys bursarius: Geomyidae Rodentia) are shown to affect soil resources and thus, i...
Student paper, EEB 4839, 2008The fossorial plains pocket gopher, Geomys bursarius, creates mounds of...
We present a computer model which simulates population processes and spatial patterning in response ...
Factors affecting soil-contact and -manipulation behaviors of pocket gophers (Thomomys and Geomys sp...
Species ranges are mediated by physiology, environmental factors, and competition with other organis...
Species ranges are mediated by physiology, environmental factors, and competition with other organis...
Distinctive Mima mound topography, found on all continents except Antarctica, has long inspired inte...
<div><p>Species ranges are mediated by physiology, environmental factors, and competition with other...
<p>Burrowing mammals can be ecosystem engineers by increasing soil aeration and erosion and altering...
To continue bridging the gap between biology and geomorphology, I documented activity of the norther...
In this paper, I mathematically model the energy cost-benefit relationships for gophers burrowing in...
It has generally been assumed that diffusive sediment transport on soil-mantled hillslopes is linear...
While many animals respond to seasonal variation in their environment, animals such as pocket gopher...
Mounds of soil created by pocket gophers during the process of construction of burrows represent sma...
The effects of pocket gophers (Geomyidae) on soils and vegetation were studied on Chihuahuan Desert ...
Pocket gophers (Geomys bursarius: Geomyidae Rodentia) are shown to affect soil resources and thus, i...
Student paper, EEB 4839, 2008The fossorial plains pocket gopher, Geomys bursarius, creates mounds of...
We present a computer model which simulates population processes and spatial patterning in response ...
Factors affecting soil-contact and -manipulation behaviors of pocket gophers (Thomomys and Geomys sp...
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