B.A., 1992, Dartmouth College; M.S., 1997, Ph.D., 2000, U Washington (Seattle). (2006)
- Geog 141: The Natural Environment
- Geog 323: Biogeography
- Geog 423: Advanced Biogeography (recent topics: Biodiversity crisis; Global-change biogeography; dendrochronology)
- Geog 430/530: Long Term Environmental Change
- Geog 433/533: Fire and Natural Disturbances
- Geog 607: Quantitative Methods in Paleoecology
Gavin, D.G., J.E. Kusler, and B.P. Finney. Millennial-scale decline in coho salmon abundance since the middle Holocene in a coastal Oregon watershed. Quaternary Research. In press.
Herring, E.M., D.G. Gavin, M. Fernandez, and F.S. Hu. 2018. Ecological history of a long-lived conifer in a disjunct population. Journal of Ecology 106: 319-332. doi:10.1111/1365-2745.12826
Schwörer, C., D.G. Gavin, I.R. Walker, and F.S. Hu. 2016. Holocene treeline changes in the Canadian Cordillera are controlled by climate and local topography. Journal of Biogeography 44:1148-1159. doi:10.1111/jbi.12904
Gavin, D.G., and L.B. Brubaker. 2015. Late Pleistocene and Holocene Environmental Change on the Olympic Peninsula. Ecological Studies Vol. 222. Springer. 144 p.
Gavin, D.G., M.C. Fitzpatrick, P.F. Gugger, K.D. Heath, F. Rodríguez-Sánchez, S.Z. Dobrowski, A. Hampe, F.S. Hu, M.B. Ashcroft, P.J. Bartlein, J.L. Blois, B. C. Carstens, E.B. Davis, G. de Lafontaine, M.E. Edwards, M. Fernandez, P.D. Henne, E.M. Herring, Z.A. Holden, W. Kong, J. Liu, D. Magri, N.J. Matzke, M.S. McGlone, F. Saltré, A.L. Stigall, Y.-H.E. Tsai, and J.W. Williams. 2014. Climate refugia: joint inference from fossil records, species distribution models and phylogeography. New Phytologist 204:37–54.
McLauchlan, K , P. E. Higuera, D.G. Gavin, S. S. Perakis, M. C. Mack, and 19 others. 2014. Reconstructing disturbances and their biogeochemical consequences over multiple timescales. BioScience 64:105–116.
Dawson, M.N., A.C. Algar, A. Antonelli, L.M. Davalos, E. Davis, R. Early, A. Guisan, R. Jansson, J.-P. Lessard, K.A. Marske, J.L. McGuire, A.L. Stigall, N.G. Swenson, N.E. Zimmermann, and D.G. Gavin. 2013. An horizon scan of biogeography. Frontiers of Biogeography 5:130-158.
Gavin, D.G., L.B. Brubaker, and D.N. Greenwald. 2013. Postglacial climate and fire-mediated vegetation change on the western Olympic Peninsula, Washington. Ecological Monographs 83:471–489.
Marlon, J.R., P.J. Bartlein, D.G. Gavin, C.J. Long, R.S. Anderson, C.E. Briles, K.J. Brown, D. Colombaroli, D.J. Hallett, M.J. Power, E.A. Scharf, and M.K. Walsh. 2012. Long-term perspective on wildfires in the western USA. Proceedings of the National Academy of Sciences of the United States of America 109:E535–E543.
Gavin, D.G., A.C.G. Henderson, K.S. Westover, S.C. Fritz, I.R. Walker, M. Leng and F.S.Hu. 2011. Abrupt Holocene climate change and potential response to solar forcing in western Canada. Quaternary Science Reviews 30:1243-1255.
Colombaroli, D. and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2000 years in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the United States of America 107: 18909-18914.
I am a biogeographer interested in understanding present and past responses of Earth's biota to climate change. The overarching theme of my research is the influence of climate change and climate-mediated natural disturbances on the composition and structure of forests, at several scales in space and time. My specific interest lies in reconstructing forest composition and natural disturbances over recent history (hundreds of years) and more distant history (thousands of years) using interdisciplinary research designs. For example, sediment records extending back to the last Ice Age (18,000 years ago) or earlier allows us to address how populations and communities reorganize through periods of fast and slow climate change. Shorter sediment records of only the past 2000 years provide context for human-induced impacts of the last 200 years. And tree-ring records of the past 400 years can be used to address tree population dynamics at annual resolution. While most of my graduate training was in sediment-based paleoecology, I have subsequently branched into other subfields of biogeography.