David A. Lytle, Ph.D.
Affiliations: | Oregon State University, Corvallis, OR |
Area:
evolutionary ecology of aquatic organismsWebsite:
http://www.science.oregonstate.edu/lytlelab/Google:
""David Allen OR A. Lytle Oregon""Bio:
Parents
Sign in to add mentor| Barbara L. Peckarsky | grad student | 2000 | Cornell | |
| (Disturbance Regimes and Life History Evolution) | ||||
Children
Sign in to add trainee| Asako M. Yamamuro | grad student | 2010 | Oregon State |
| Laura E. McMullen | grad student | 2011 | Oregon State |
| Michael T. Bogan | grad student | 2013 | Oregon State |
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Publications
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| Tonkin JD, Poff NL, Bond NR, et al. (2019) Prepare river ecosystems for an uncertain future. Nature. 570: 301-303 |
| Ohms HA, Gitelman AI, Jordan CE, et al. (2019) Quantifying partial migration with sex-ratio balancing Canadian Journal of Zoology. 97: 352-361 |
| Ohms HA, Mohapatra A, Lytle DA, et al. (2019) The evolutionary stability of partial migration under different forms of competition Theoretical Ecology. 12: 347-363 |
| Schriever TA, Lytle DA. (2019) Food chain length and trophic niche of a key predator in montane desert streams Hydrobiologia. 847: 983-997 |
| Rogosch JS, Tonkin JD, Lytle DA, et al. (2019) Increasing drought favors nonnative fishes in a dryland river: evidence from a multispecies demographic model Ecosphere. 10: e02681 |
| Tonkin JD, Death RG, Muotka T, et al. (2018) Do latitudinal gradients exist in New Zealand stream invertebrate metacommunities? Peerj. 6: e4898 |
| Tonkin JD, Merritt DM, Olden JD, et al. (2018) Flow regime alteration degrades ecological networks in riparian ecosystems. Nature Ecology & Evolution. 2: 86-93 |
| Tonkin JD, Merritt DM, Olden JD, et al. (2018) Flow regime alteration degrades ecological networks in riparian ecosystems. Nature Ecology & Evolution. 2: 86-93 |
| Mims MC, Kirk EEH, Lytle DA, et al. (2018) Traits-based approaches support the conservation relevance of landscape genetics Conservation Genetics. 19: 17-26 |
| McMullen LE, De Leenheer P, Tonkin JD, et al. (2017) High mortality and enhanced recovery: modelling the countervailing effects of disturbance on population dynamics. Ecology Letters |