Daniel Esler, Ph.D.
Dan is a Research Wildlife Biologist with the Alaska Science Center and leads the Nearshore Marine Ecosystem Research Program. His work focuses on nearshore marine monitoring, drivers of variation in nearshore systems, sea duck ecology and conservation, and program management.
Professional Experience
2013 - Present Research Wildlife Biologist, USGS Alaska Science Center
2001 - 2013 Research Scientist, Centre for Wildlife Ecology, Simon Fraser University, Delta, British Columbia
1990 - 2001 Research Wildlife Biologist, USGS/US Fish and Wildlife Service, Alaska Biological Science Center/Alaska Fish and Wildlife Research Center, Anchorage, Alaska
1989 - 1990 Biological Technician, US Fish and Wildlife Service, Alaska Fish and Wildlife Research Center, Anchorage, Alaska
1989 Wildlife Technician, Florida Game and Freshwater Fish Commission, Okeechobee, Florida
Education and Certifications
Ph.D. 2000 Oregon State University Wildlife Science
M.S. 1988 Texas A&M University Wildlife Ecology
B.S. 1985 Northland College Biology/Outdoor Education
Affiliations and Memberships*
Affiliate Faculty - University of Alaska Fairbanks, College of Fisheries and Ocean Sciences
Adjunct Professor - Simon Fraser University
The Wildlife Society
Pacific Seabird Group
Sea Duck Joint Venture Continental Technical Team
Science and Products
Data for Evaluating Efficacy of 1- versus 2-prong Radio Transmitter Attachment for Scoters in Alaska and Washington, 2008-2010
Data for Gene Transcription Patterns in Response to Low Level Petroleum Contaminants in Mytilus trossulus from Field Sites and Harbors in Southcentral Alaska
Black Oystercatcher Nest and Diet Data from Kachemak Bay, Katmai National Park and Preserve, Kenai Fjords National Park, and Prince William Sound
Harlequin duck capture and EROD activity data from Prince William Sound, Alaska, 2011, 2013, 2014
Ecosystem response persists after a prolonged marine heatwave
High site fidelity does not equate to population genetic structure for common goldeneye and Barrow's goldeneye in North America
Reliability of external characteristics to age Barrow’s goldeneye
A synthesis of ten years of chemical contaminant monitoring data in National Park Service - Southeast and southwest Alaska networks
Annual winter site fidelity of Barrow's goldeneyes in the Pacific
Wasting disease and static environmental variables drive sea star assemblages in the northern Gulf of Alaska
Attaching transmitters to waterbirds using one versus two subcutaneous anchors: Retention and survival trade-offs
Variation in abundance of Pacific Blue Mussel (Mytilus trossulus) in the Northern Gulf of Alaska, 2006–2015
Timelines and mechanisms of wildlife population recovery following the Exxon Valdez oil spill
Gene transcription patterns in response to low level petroleum contaminants in Mytilus trossulus from field sites and harbors in southcentral Alaska
Spatial variation in polycyclic aromatic hydrocarbon exposure in Barrow's goldeneye (Bucephala islandica) in coastal British Columbia
Cessation of oil exposure in harlequin ducks after the Exxon Valdez oil spill: Cytochrome P4501A biomarker evidence
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
- Science
- Data
Filter Total Items: 16
Data for Evaluating Efficacy of 1- versus 2-prong Radio Transmitter Attachment for Scoters in Alaska and Washington, 2008-2010
A major challenge of wildlife telemetry is choosing an attachment technique that maximizes transmitter retention while minimizing negative side effects. For waterbirds, attachment of transmitters with subcutaneous anchors has been an effective and well-established technique, having been used on >40 species. This method was recently modified to include a second subcutaneous anchor, presumably increData for Gene Transcription Patterns in Response to Low Level Petroleum Contaminants in Mytilus trossulus from Field Sites and Harbors in Southcentral Alaska
Marine mussels are a ubiquitous and crucial component of the nearshore environment, and new genomic technologies exist to quantify molecular responses of individual mussels to stimuli, including exposure to polycyclic aromatic hydrocarbons (PAHs). We used gene-based assays of exposure and physiological function to assess lingering oil damage from the 1989 Exxon Valdez oil spill using the Pacific bBlack Oystercatcher Nest and Diet Data from Kachemak Bay, Katmai National Park and Preserve, Kenai Fjords National Park, and Prince William Sound
These data are part of the Gulf Watch Alaska (GWA) long-term monitoring program, nearshore monitoring component. The dataset is comprised of six comma separated values (.csv) file exported from a relational database. The data consist of: 1) transect summary, 2) nest details, 3) egg float and stage data, 4) chicks diets, 5) chick diet taxonomy, and 6) Gulf Watch Alaska contributors.Harlequin duck capture and EROD activity data from Prince William Sound, Alaska, 2011, 2013, 2014
This data set includes capture information and ethoxyresorufin-O-deethylase (EROD) activity results for harlequin ducks sampled during March 2011, 2013, and 2014 in western Prince William Sound, Alaska. - Multimedia
- Publications
Filter Total Items: 85
Ecosystem response persists after a prolonged marine heatwave
Some of the longest and most comprehensive marine ecosystem monitoring programs were established in the Gulf of Alaska following the environmental disaster of the Exxon Valdez oil spill over 30 years ago. These monitoring programs have been successful in assessing recovery from oil spill impacts, and their continuation decades later has now provided an unparalleled assessment of ecosystem responseAuthorsRobert M. Suryan, Mayumi L. Arimitsu, Heather A. Coletti, Russell R. Hopcroft, Mandy Lindeberg, Steven J. Barbeaux, Sonia Batten, William J. Burt, Mary Anne Bishop, James L. Bodkin, R. Brenner, Robert W. Campbell, Daniel A. Cushing, Seth L. Danielson, Martin W. Dorn, Brie Drummond, Daniel Esler, Thomas S. Gelatt, Dana H. Hanselman, Katrin Iken, David B. Irons, Scott A. Hatch, Stormy Haught, Kris Holderied, David G. Kimmel, Brenda H. Konar, Kathy J. Kuletz, Arthur B. Kettle, Benjamin J. Laurel, John M. Maniscalco, Daniel Monson, Craig O. Matkin, Caitlin McKinstry, John Moran, D. Olsen, John F. Piatt, Wayne A. Palsson, W. Scott Pegau, Lauren A. Rogers, Nora A. Rojek, Anne Schaefer, Ingrid B. Spies, J.M. Straley, Suzanne L. Strom, Marysia Szymkowiak, Ben P. Weitzman, Kathryn L. Sweeney, Ellen M. Yasumiishi, Stephanie ZadorHigh site fidelity does not equate to population genetic structure for common goldeneye and Barrow's goldeneye in North America
Delineation of population structure provides valuable information for conservation and management of species, as levels of demographic and genetic connectivity not only affect population dynamics but also have important implications for adaptability and resiliency of populations and species. Here, we measure population genetic structure and connectivity across the ranges of two sister species of sAuthorsJoshua I. Brown, Philip Lavretsky, Robert E. Wilson, Christy Haughey, W. Sean Boyd, Daniel Esler, Sandra L. Talbot, Sarah A. SonsthagenReliability of external characteristics to age Barrow’s goldeneye
Accurate assignment of age class is critical for understanding most demographic processes. For waterfowl, most techniques for determining age class require birds in hand, reducing utility for quickly and efficiently sampling a large portion of the population. As an alternative, we sought to establish an observation‐based methodology, achievable in the field with standard optics, for determining agAuthorsTyler L. Lewis, Daniel Esler, Danica H. Hogan, W. Sean Boyd, Timothy D. Bowman, Jonathan ThompsonA synthesis of ten years of chemical contaminant monitoring data in National Park Service - Southeast and southwest Alaska networks
With the exception of PAHs and trace metals, which were detected at 100% of the sites, all of the other contaminants were detected at varying frequencies. PBBs, Mirex and Endosulfans were not detected in any of the samples and Chlorpyrifos was only detected in five samples across four sites. Chlordanes were present at 79% of the sites while Butyltins were only detected at 20% of the sites. OverallAuthorsMary Rider, Dennis Apeti, Annie Jacob, Kimani L. Kimbrough, Erik Davenport, Michael R. Bower, Heather A Colletti, Daniel EslerAnnual winter site fidelity of Barrow's goldeneyes in the Pacific
Coastal regions on the Pacific north coast of North America provide important wintering habitat for many species of sea ducks. Although winter range and habitat preferences are well described for most species, fidelity to coastal wintering sites is generally undocumented. Fidelity is an important factor necessary for understanding interactions with coastal developments and activities and corresponAuthorsMegan Willie, Daniel Esler, W. Sean Boyd, Timothy D. Bowman, Jason Schamber, Jonathan ThompsonWasting disease and static environmental variables drive sea star assemblages in the northern Gulf of Alaska
Sea stars are ecologically important in rocky intertidal habitats where they can play an apex predator role, completely restructuring communities. The recent sea star die-off throughout the eastern Pacific, known as Sea Star Wasting Disease, has prompted a need to understand spatial and temporal patterns of sea star assemblages and the environmental variables that structure these assemblages. We eAuthorsBrenda Konar, Timothy J. Mitchell, K. Iken, Thomas Dean, Daniel Esler, Mandy Lindeberg, Benjamin Pister, Ben P. WeitzmanAttaching transmitters to waterbirds using one versus two subcutaneous anchors: Retention and survival trade-offs
A major challenge of wildlife telemetry is choosing an attachment technique that maximizes transmitter retention while minimizing negative side effects. For waterbirds, attachment of transmitters with subcutaneous anchors has been an effective and well-established technique, having been used on >40 species. This method was recently modified to include a second subcutaneous anchor, presumably increAuthorsTyler Lewis, Daniel Esler, Brian D. Uher-Koch, Rian D. Dickson, Eric M. Anderson, Joseph R. Evenson, Jerry W. Hupp, Paul L. FlintVariation in abundance of Pacific Blue Mussel (Mytilus trossulus) in the Northern Gulf of Alaska, 2006–2015
Mussels are conspicuous and ecologically important components of nearshore marine communities around the globe. Pacific blue mussels (Mytilus trossulus) are common residents of intertidal habitats in protected waters of the North Pacific, serving as a conduit of primary production to a wide range of nearshore consumers including predatory invertebrates, sea ducks, shorebirds, sea otters, humans, aAuthorsJames L. Bodkin, Heather A. Coletti, Brenda E. Ballachey, Daniel Monson, Daniel Esler, Thomas A. DeanTimelines and mechanisms of wildlife population recovery following the Exxon Valdez oil spill
Research and monitoring activities over the 28 years since the T/V Exxon Valdez ran aground and spilled oil into Prince William Sound, Alaska have led to an improved understanding of how wildlife populations were damaged, as well as the mechanisms and timelines of recovery. A key finding was that for some species, such as harlequin ducks and sea otters, chronic oil spill effects persisted for at lAuthorsDaniel Esler, Brenda E. Ballachey, Craig O. Matkin, Daniel Cushing, Robert Kaler, James L. Bodkin, Daniel Monson, George G. Esslinger, Kimberly A. KloeckerGene transcription patterns in response to low level petroleum contaminants in Mytilus trossulus from field sites and harbors in southcentral Alaska
The 1989 Exxon Valdez oil spill damaged a wide range of natural resources, including intertidal communities, and post-spill studies demonstrated acute and chronic exposure and injury to an array of species. Standard toxicological methods to evaluate petroleum contaminants have assessed tissue burdens, with fewer assays providing indicators of health or physiology, particularly when contaminant levAuthorsLizabeth Bowen, A. Keith Miles, Brenda E. Ballachey, Shannon C. Waters, James L. Bodkin, Mandy Lindeberg, Daniel EslerSpatial variation in polycyclic aromatic hydrocarbon exposure in Barrow's goldeneye (Bucephala islandica) in coastal British Columbia
Barrow's goldeneyes are sea ducks that winter throughout coastal British Columbia (BC). Their diet consists primarily of intertidal blue mussels, which can accumulate PAHs; accordingly, goldeneyes may be susceptible to exposure through contaminated prey. In 2014/15, we examined total PAH concentrations in mussels from undeveloped and developed coastal areas of BC. At those same sites, we used ERODAuthorsMegan Willie, Daniel Esler, W. Sean Boyd, Philip Molloy, Ronald C. YdenbergCessation of oil exposure in harlequin ducks after the Exxon Valdez oil spill: Cytochrome P4501A biomarker evidence
The authors quantified hepatic hydrocarbon-inducible cytochrome P4501A (CYP1A) expression, as ethoxyresorufin-O-deethylase (EROD) activity, in wintering harlequin ducks (Histrionicus histrionicus) captured in Prince William Sound, Alaska (USA), during 2011, 2013, and 2014 (22–25 yr following the 1989 Exxon Valdez oil spill). Average EROD activity was compared between birds from areas oiled by theAuthorsDaniel Esler, Brenda E. Ballachey, Lizabeth Bowen, A. Keith Miles, Rian D. Dickson, John D. HendersonNon-USGS Publications**
Agüero, M. L., P. G. Borboroglu, and D. Esler. 2014. Trophic ecology of breeding white-headed steamerduck (Tachyeres leucocephalus). Waterbirds 37:88-93.Hogan, D., D. Esler, and J. E. Thompson. 2013. Duration and Phenology of Remigial Molt of Barrow's Goldeneye. Condor 115 (4):762-768Palm, E. C., D. Esler, E. M. Anderson, T. D. Williams, and M. T. Wilson. 2013. Variation in physiology and energy management of wintering white-winged scoters in relation to local habitat conditions. Condor 115 (4) :750-761.Hogan, D., D. Esler, and J. E. Thompson. 2013. Variation in body mass and foraging effort of Barrow’s goldeneyes (Bucephala islandica) during remigial molt. Auk 130 (2):313-322.Palm, E. C., D. Esler, E. M. Anderson, T. D. Williams, O. P. Love, and M. T. Wilson. 2013. Baseline corticosterone in wintering marine birds: methodological considerations and ecological patterns. Physiological and Biochemical. Zoology 86 (3):346-353.Hogan, D., J. E. Thompson, and D. Esler. 2013. Survival of Barrow’s goldeneyes during remigial molt and fall staging. Journal of Wildlife Management 77:701-706.Heath, J. P., W. A. Montevecchi, and D. Esler. 2012. A method for quantifying consistency in animal distributions using survey data. PLoS One 7(9): e44353.Palm, E. C., D. Esler, E. M. Anderson, and M. T. Wilson. 2012. Geographic and temporal variation in diet of wintering white-winged scoters. Waterbirds 35 (4):577-589.Federer, R., T. Hollmén, D. Esler, and M. J. Wooller. 2012. Stable carbon and nitrogen isotope discrimination factors for quantifying spectacled eider nutrient allocation to egg production. Condor 114:726-732.Agüero, M. L., P. G. Borboroglu, and D. Esler. 2012. Distribution and abundance of Chubut steamerducks: an endemic species to central Patagonia, Argentina. Bird Conservation International 22:307-315.Hogan, D., J. E. Thompson, D. Esler, and W. S. Boyd. 2011. Discovery of important postbreeding sites for Barrow’s goldeneye in the boreal transition zone of Alberta. Waterbirds 34(3):261-268.Takekawa, J. Y., S. W. De La Cruz, M. T. Wilson, E. C. Palm, J. Yee, D. R. Nyeswander, J. R. Evenson, J. M. Eadie, D. Esler, W. S. Boyd, and D. H. Ward. 2011. Breeding distribution and ecology of Pacific coast surf scoters. Pages 41-64 in J.V. Wells, editor. Boreal Birds of North America: a hemispheric view of their conservation links and significance. Studies in Avian Biology (Number 41). University of California Press, Berkeley.Agüero, M. L., P. G. Borboroglu, and D. Esler. 2010. Breeding habitat attributes and nest site selection of Chubut steamerducks in Patagonia, Argentina. Emu 110:302-306.Federer, R., T. Hollmén, D. Esler, M. J. Wooller, and S. W. Wang. 2010. Stable carbon and nitrogen isotope discrimination factors from diet to blood plasma, cellular blood, feathers, and adipose fatty acids in spectacled eiders (Somateria fischeri). Canadian Journal of Zoology 88(9): 866-874.Esler, D., and J. C. Bond. 2010. Cross-seasonal dynamics in body mass of male harlequin ducks: a strategy for meeting costs of reproduction. Canadian Journal of Zoology 88:224-230.Iverson, S. A., and D. Esler. 2010. Harlequin duck population dynamics following the 1989 Exxon Valdez oil spill: assessing injury and projecting a timeline to recovery. Ecological Applications 20:1993-2006.Esler, D., and S. A. Iverson. 2010. Female harlequin duck winter survival 11 to 14 years after the Exxon Valdez oil spill. Journal of Wildlife Management 74(3):471-478.Anderson, E. M., J. R. Lovvorn, D. Esler, W. S. Boyd, and K. C. Stick. 2009. Using predator distributions, diet, and condition to evaluate seasonal foraging sites: sea ducks and herring spawn. Marine Ecology Progress Series 386:287-302.Bond, J. C., S. A. Iverson, N. B. MacCallum, C. M. Smith, H. J. Bruner, and D. Esler. 2009. Variation in breeding season survival of female harlequin ducks. Journal of Wildlife Management 73: 965-972.De La Cruz, S. W., J. Y. Takekawa, M. T. Wilson, D. R. Nysewander, J. R. Evenson, D. Esler, W. S. Boyd, and D. H. Ward. 2009. Surf Scoter (Melanitta perspicillata) spring migration routes and chronology: A synthesis of Pacific coast studies. Canadian Journal of Zoology 87:1069-1086.LeBourdais, S. V., R. C. Ydenberg, and D. Esler. 2009. Fish and harlequin ducks compete on breeding streams. Canadian Journal of Zoology 87(1): 31-40.Gorman, K. B., D. Esler, R. L. Walzem, and T. D. Williams. 2009. Plasma yolk precursor dynamics during egg production by female greater scaup (Aythya marila): characterization and indices of reproductive state. Physiological and Biochemical Zoology 82(4): 372-381.Žydelis, R., D. Esler, M. Kirk, and W. S. Boyd. 2009. Effects of off-bottom shellfish aquaculture on winter habitat use by molluscivorous sea ducks. Aquatic Conservation: Marine and Freshwater Ecosystems 19:34-42.Bond, J. C., D. Esler, and T. D. Williams. 2008. Breeding propensity of female harlequin ducks. Journal of Wildlife Management 72(6):1388-1393.Lok, E. K., M. Kirk, D. Esler, and W. S. Boyd. 2008. Movements of pre-migratory surf and white-winged scoters in response to Pacific herring spawn. Waterbirds 31:385-393.Bond, J.C., and D. Esler. 2008. Bill entanglement in subcutaneously-anchored radio transmitters on harlequin ducks. Wilson Journal of Ornithology 120(3): 599-602.Gorman, K. B., D. Esler, P. L. Flint, and T. D. Williams. 2008. Nutrient reserve dynamics during egg production by female greater scaup (Aythya marila): relationships with timing of reproduction. Auk 125:384-394.Lewis, T. L., D. Esler, and W. S. Boyd. 2008. Foraging behaviors of surf and white-winged scoters in relation to clam density: inferring food availability and habitat quality. Auk 125:149-157.Kirk, M., D. Esler, and W. S. Boyd. 2007. Foraging effort of surf scoters (Melanitta perspicillata) wintering in a spatially and temporally variable prey landscape. Canadian Journal of Zoology 85(12): 1207-1215.Kirk, M., D. Esler, and W. S. Boyd. 2007. Morphology and density of mussels on natural and aquaculture structure habitats: implications for sea duck predators. Marine Ecology Progress Series 346:179-187.Bond, J. C., D. Esler, and K. A. Hobson. 2007. Isotopic evidence for sources of nutrients allocated to clutch formation by harlequin ducks. Condor 109:698-704.Iverson, S. A., and D. Esler. 2007. Survival of female harlequin ducks during wing molt. Journal of Wildlife Management 71:1220-1224.Bond, J. C., and D. Esler. 2006. Nutrient acquisition by female harlequin ducks prior to migration and reproduction: evidence for body mass optimization. Canadian Journal of Zoology 84: 1223-1229.Žydelis, R., D. Esler, W. S. Boyd, D. Lacroix, and M. Kirk. 2006. Habitat use by wintering surf and white-winged scoters: effects of environmental attributes and shellfish aquaculture. Journal of Wildlife Management 70(6):1754-1762.Iverson, S. A., and D. Esler. 2006. Site fidelity and the demographic implications of winter movements by a migratory bird, the harlequin duck. Journal of Avian Biology 37:219-228.Lewis, T. L., D. Esler, W. S. Boyd, and R. Žydelis. 2005. Nocturnal foraging behavior of wintering surf scoters and white-winged scoters. Condor 107:636-646.Lacroix, D. L., W. S. Boyd, D. Esler, M. Kirk, T. L. Lewis, and S. Lipovsky. 2005. Surf scoters aggregate in association with ephemerally abundant polychaetes. Marine Ornithology 33:61-63.Žydelis, R., and D. Esler. 2005. Response of wintering Steller’s eiders to herring spawn. Waterbirds 28:344-350.Iverson, S. A., D. Esler, and W. S. Boyd. 2003. Plumage characteristics as an indicator of age class in the surf scoter. Waterbirds 26:56-61.Weller, M. W., K. C. Jensen, E. J. Taylor, M. Miller, K. S. Bollinger, D. V. Derksen, D. Esler, and C. Markon. 1994. Assessment of shoreline vegetation in relation to use by molting black brant on the Alaska coastal plain. Biological Conservation 70:219 225.Esler, D. 1992. Habitat use by piscivorous birds on a power plant cooling reservoir. Journal of Field Ornithology 63:241 249.Esler, D. 1990. Avian community responses to hydrilla invasion. Wilson Bulletin 102:427 440.Esler, D. 1990. Waterfowl habitat use on a Texas reservoir with hydrilla. Proceedings of the Annual Conference of the Southeastern Association of Fish and Wildlife Agencies. 44:390 400.Esler, D. 1989. An assessment of American coot herbivory of hydrilla. Journal of Wildlife Management 53:1147 1149.**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government