Experimental warming across a tropical forest canopy height gradient reveals minimal photosynthetic and respiratory acclimation, Kelsey R. Carter, Tana E. Wood, Sasha C. Reed, Kaylie M. Butts, Molly A. Cavaleri
Michigan Tech Publications

Only sun-lit leaves of the uppermost canopy exceed both air temperature and photosynthetic thermal optima in a wet tropical forest, Benjamin D. Miller, Kelsey R. Carter, Sasha C. Reed, Tana E. Wood, Molly A. Cavaleri
Michigan Tech Publications

Photosynthetic and Respiratory Acclimation of Understory Shrubs in Response to in situ Experimental Warming of a Wet Tropical Forest, Kelsey R. Carter, Tana E. Wood, Sasha C. Reed, Elsa Schwartz, Madeline B. Reinsel, Xi Yang, Molly A. Cavaleri
Michigan Tech Publications

Predicting effects of climate change on productivity and persistence of forest trees, Russell D. Kramer, H. Roaki Ishii, Kelsey R. Carter, Yuko Miyazaki, Molly A. Cavaleri, Masatake G. Araki, Wakana A. Azuma, Yuta Inoue, Chinatsu Hara
Michigan Tech Publications

ECOPHYSIOLOGICAL RESPONSES OF TROPICAL WOODY SPECIES TO AMBIENT AND ELEVATED TEMPERATURES, Kelsey R. Carter
Dissertations, Master's Theses and Master's Reports

Within-canopy experimental leaf warming induces photosynthetic decline instead of acclimation in two northern hardwood species, Kelsey R. Carter, Molly A. Cavaleri
College of Forest Resources and Environmental Science Publications