In Review
18. McGlothlin, J. W., A. J. Moore, J. B. Wolf, and E. D. Brodie III. Submitted. Interacting phenotypes and the evolutionary process. III. Social evolution.
Evolution.17. McGlothlin, J. W., D. J. Whittaker, S. E. Schrock, N. M. Gerlach, J. M. Jawor, E. A. Snajdr, and E. D. Ketterson. In revision. Natural selection on testosterone production in a wild songbird population. American Naturalist.
In Press
16. McGlothlin, J.W. Combining selective episodes to estimate lifetime nonlinear selection. Evolution.
2009
15. Ketterson, E. D., J. W. Atwell, and J. W. McGlothlin. Phenotypic integration and independence: hormones, performance, and response to environmental change. Integrative and Comparative Biology 49: 365-379.
14. Galloway, L. F., J. R. Etterson, and J. W. McGlothlin. The contribution of direct and maternal genetic effects to life-history evolution. New Phytologist 183: 826-838.
13. McGlothlin, J. W. and E. D. Brodie III. How to measure indirect genetic effects: the congruence of trait-based and variance-partitioning approaches. Evolution 63: 1785-1795.
2008
12.
McGlothlin, J. W. and E. D. Ketterson. Hormone-mediated
suites as adaptations
and evolutionary constraints.
Philosophical
Transactions of the Royal Society B
363: 1161-1620.
11. McGlothlin, J. W., J. M. Jawor, T. J. Greives, J. M. Casto, J. L. Phillips, and E. D. Ketterson. Hormones and honest signals: males with larger ornaments elevate testosterone more when challenged. Journal of Evolutionary Biology 21: 39-48.
2007
10.
McGlothlin, J. W., J. M. Jawor, and E.
D. Ketterson. Natural variation in a testosterone-mediated trade-off
between mating effort and parental effort.
American Naturalist
170:
864-875.
Coverage: Indiana University (Press Release), Inside UVa, Science Central "Science Sensei" (Video), LiveScience.com, Edmonton Sun
9. Jawor, J. M.,
J. W. McGlothlin, J.
M. Casto, T. J. Greives, E. A. Snajdr, G. E. Bentley, and E. D.
Ketterson. Testosterone response to GnRH in a female songbird varies
with stage of reproduction: implications for adult behaviour and
maternal effects. Functional Ecology
21: 767-775.
8. McGlothlin, J. W., D. L. Duffy, J. L. Henry, and E.
D. Ketterson. Diet quality affects feather growth rate and an attractive
white plumage pattern in dark-eyed juncos (Junco hyemalis).
Behavioral
Ecology and Sociobiology 61: 1391-1399.
7. Brodie, E. D., III, and
J. W. McGlothlin.
A cautionary tale of two matrices: the duality of multivariate
abstraction. Journal of Evolutionary Biology
20: 9-14. (Commentary on a
Target Review by M. Blows)
2006
6. Jawor, J. M.,
J. W. McGlothlin, J.
M. Casto, T. J. Greives, E. A. Snajdr, G. E. Bentley, and E. D.
Ketterson. Seasonal and individual variation in response to GnRH
challenge in male dark-eyed juncos (Junco hyemalis).
General and
Comparative Endocrinology 149: 182-189.
5. Greives, T. J.,
J. W. McGlothlin,
J. M. Jawor, G. E. Demas, and E. D. Ketterson. Testosterone and immune
function inversely co-vary in a wild population of breeding Dark-eyed
Juncos (Junco hyemalis).
Functional Ecology
20: 812-818.
2005
4. McGlothlin, J. W., P. G. Parker, V. Nolan Jr., and E. D. Ketterson. Correlational selection leads to genetic integration of body size and an attractive plumage trait in dark-eyed juncos. Evolution 59: 658-671.
Coverage: Birding Magazine
2004
3.
McGlothlin, J. W., D. L. H. Neudorf,
V. Nolan Jr., and E. D. Ketterson. Elevated testosterone reduces
choosiness in female dark-eyed juncos (Junco hyemalis): evidence for a
hormonal constraint on sexual selection? Proceedings of the Royal
Society of London B 271: 1377-1384.
2001
2. Brooks, M. A., B. C. Harrigan, K. M. Johnson, D. E.
Lowe, J. P. Lowery, J. W. McGlothlin, M. M. Sasso, S.
A. Smith, and D. A. Cristol. Revisit schedule does not affect results of
point counts. Journal of Field Ornithology
72: 404-411.
1. McCauley, D. E., C. M. Richards, S. N. Emery, R. A.
Smith, and J. W. McGlothlin. The interaction of genetic
and demographic processes in plant metapopulations: A case study of
Silene alba in J. Silvertown and J. Antonovics, eds.
Integrating ecology
and evolution in a spatial context. Blackwell Science, Oxford.