You are here

Biblio

Found 114 results
Filters: First Letter Of Title is E  [Clear All Filters]
Journal Article
Hansen, T. F. , C. Pélabon, W. S. Armbruster, and M. Carlson. 2003. Evolvability and genetic constraint in Dalechampia blossoms: components of variance and measures of evolvability 16:754 - 766.
Hansen, T. F. , W. S. Armbruster, M. L. Carlson, and C. Pélabon. 2003. Evolvability and genetic constraint in Dalechampia blossoms: genetic correlations and conditional evolvability 296b:23 - 29.
Staaland, H. , D. F. Holleman, J. R. Luick, and R. G. White. 1982. Exchangeable sodium pool size and turnover in relation to diet in reindeer 60:603 - 610.
Kuhn, D. E. , K. M. O'Brien, and E. L. Crockett. 2016. Expansion of capacities for iron transport and sequestration reflects plasma volumes and heart mass among white-blooded notothenioids fishes. Am J Physiol Regul Integr Comp Physiol 311.
Joyce, W. , S. Egginton, A. P. Farrell, E. L. Crockett, K. M. O'Brien, and M. Axelsson. 2018. Exploring nature's natural knockouts: cardiorespiratory performance of Antarctic fishes during acute warming.. J Exp Biol.
Dirmeier, R. , K. M. O'Brien, M. Engle, A. Dodd, E. Spears, and R. O. Poyton. 2002. Exposure of yeast cells to anoxia induces transient oxidative stress. Implications for the induction of hypoxic genes.. J Biol Chem 277:34773-84.
Mueller, I. A. , D. P. Devor, J. M. Grim, J. M. Beers, E. L. Crockett, and K. M. O'Brien. 2012. Exposure to critical thermal maxima increases oxidative stress in hearts of white- but not red-blooded Antarctic notothenioid fishes.. J Exp Biol 215:3655-64.
Rotella, J. , M. Taper, S. Stephens, and M. Lindberg. 2007. Extending methods for modeling heterogeneity in nest-survival data using generalized mixed models. Studies in Avian Biology 34:34–44.

Pages