Energetics of hibernating yellow-bellied marmots (<i>Marmota flaviventris</i>)
Pollen transfer by hummingbirds and bumblebees, and divergence of pollination modes in <i>Penstemon</i>
Heavy metals in soils from old mine area: a biological field station site versus a disturbance comparison
Undergraduate research 495 final report
The future of plant-fungal symbioses along elevational gradients
Plant-fungal symbioses affect the growth and fitness of most plants on earth. Moreover, they can structure plant community composition and feedback to affect ecosystem-level properties such as carbon storage. As climate change drives species distribution shifts in plants, the fungi may or may not co
The Ecology of Place
Rocky Mountain Bombus pathogen survey: Are invasive plants affecting pathogen prevalence and intensity?
Parasites have the potential to alter population dynamics by decreasing fitness and increasing mortality of their hosts. Changes in ecosystems may also create scenarios that are more conducive to higher infection or parasitism. This survey examined parasitism of Bombus by Crithidia bombi, Nosema bom
A study of the nesting behavior of the Lincoln sparrow (<i>Melospiza lincolnii lincolnii</i>)
Blooming seasons of dandelions
Mosquitoes of the gunnison river drainage, colorado; emphasis: ohio creek valley
Specificity of pollinating butterflies
The effects of climate change on subalpine fir (<i></i>Abies lasiocarpa<i></i>) sapling growth and establishment success across an elevational gradient
With the current climate changes occurring globally, it is important to learn about how species distributions will react in the future. Questions have arisen as to whether species, including conifers, exist in a single or multiple climate envelopes which are described by their current distributions.