Josh T Ackerman
Dr. Ackerman is a Principal Investigator with USGS and an Associate in the Department of Wildlife, Fish, and Conservation Biology at the University of California-Davis.
His research expertise is in wildlife ecology and ecotoxicology, and his research program focuses on bird ecology, wetland management and restoration, contaminant bioaccumulation in fish and wildlife, and effects of contaminants on animal health and populations.
Education
- Ph.D. 2002, Ecology, University of California-Davis
- B.S. 1997 (Magna Cum Laude), Wildlife, Fish, and Conservation Biology, University of California-Davis
Professional Experience
- Research Wildlife Biologist, U.S. Geological Survey, Western Ecological Research Center, Dixon Field Station, California (2006-present)
- Wildlife Biologist, U.S. Geological Survey, Western Ecological Research Center, San Francisco Bay Estuary Field Station, Vallejo, California (2004-2006)
- Post-doctoral Researcher, John Muir Institute of the Environment, University of California-Davis (2003-2004)
- Post-doctoral Researcher, Dept. of Wildlife, Fish, and Conservation Biology, University of California-Davis (2002-2003)
- Teaching Assistant, Ecology and Management of Waterfowl and Game Birds (Spring 2002) and Field Methods in Wildlife, Fish, and Conservation Biology (Summer 2001), Dept. of Wildlife, Fish, and Conservation Biology, University of California-Davis
- Waterfowl Researcher (1999-2000), Crew Leader (Spring 1998, 1999, 2000), and Technician (Spring 1997), California Waterfowl Association, Sacramento, California
- Doctoral Research, Dept. of Wildlife, Fish, and Conservation Biology, University of California-Davis (1997-2002)
- Biological Technician (Summer 1995) and Biological Aid (Summer 1994), U.S. Forest Service, Tahoe National Forest, Nevada City, California
Selected Publications
2020 Ackerman, JT, MP Herzog, DC Evers, DA Cristol, KP Kenow, GH Heinz, RA Lavoie, RL Brasso, ML Mallory, JF Provencher, BM Braune, A Matz, JA Schmutz, CA Eagles-Smith, LJ Savoy, MW Meyer, and CA Hartman. Synthesis of maternal transfer of mercury in birds: implications for altered toxicity risk. Environmental Science and Technology 54:2878-2891.
2016 Ackerman, JT, CA Eagles-Smith, MP Herzog, CA Hartman, SH Peterson, DC Evers, AK Jackson, JE Elliott, SS Vander Pol, and CE Bryan. Avian mercury exposure and toxicological risk across western North America: a synthesis. Science of the Total Environment 568:749-769.
2014 Ackerman, JT, MP Herzog, GS Yarris, ML Casazza, E Burns, and JM Eadie. Chapter 5: Waterfowl ecology and management in Suisun Marsh: Ecological History and Possible Futures. University of California Press: Berkeley, California.
Science and Products
Mercury bioaccumulation in estuarine wetland fishes: Evaluating habitats and risk to coastal wildlife
Forster's tern chick survival in response to a managed relocation of predatory California gulls
Adaptive nest clustering and density-dependent nest survival in dabbling ducks
Vocal activity as a low cost and scalable index of seabird colony size
Mercury cycling in agricultural and managed wetlands: a synthesis of methylmercury production, hydrologic export, and bioaccumulation from an integrated field study
Waterfowl ecology and management
Mercury cycling in agricultural and managed wetlands of California: seasonal influences of vegetation on mercury methylation, storage, and transport
Landscape factors and hydrology influence mercury concentrations in wading birds breeding in the Florida Everglades, USA
Marsh wrens as bioindicators of mercury in wetlands of Great Salt Lake: do blood and feathers reflect site-specific exposure risk to bird reproduction?
Methylmercury is the predominant form of mercury in bird eggs: a synthesis
American Avocet (Recurvirostra americana)
Waterbird nest monitoring program in San Francisco Bay (2005-10)
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Mercury bioaccumulation in estuarine wetland fishes: Evaluating habitats and risk to coastal wildlife
Estuaries are globally important areas for methylmercury bioaccumulation because of high methylmercury production rates and use by fish and wildlife. We measured total mercury (THg) concentrations in ten fish species from 32 wetland and open bay sites in San Francisco Bay Estuary (2005–2008). Fish THg concentrations (μg/g dry weight ± standard error) differed by up to 7.4× among estuary habitats.AuthorsCollin A. Eagles-Smith, Joshua T. AckermanForster's tern chick survival in response to a managed relocation of predatory California gulls
Gull populations can severely limit the productivity of waterbirds. Relocating gull colonies may reduce their effects on nearby breeding waterbirds, but there are few examples of this management strategy. We examined gull predation and survival of Forster's tern (Sterna forsteri) chicks before (2010) and after (2011) the managed relocation of the largest California gull (Larus californicus) colonyAuthorsJoshua T. Ackerman, Mark P. Herzog, C. Alex Hartman, Garth HerringAdaptive nest clustering and density-dependent nest survival in dabbling ducks
Density-dependent population regulation is observed in many taxa, and understanding the mechanisms that generate density dependence is especially important for the conservation of heavily-managed species. In one such system, North American waterfowl, density dependence is often observed at continental scales, and nest predation has long been implicated as a key factor driving this pattern. HoweverAuthorsKevin M. Ringelman, John M. Eadie, Joshua T. AckermanVocal activity as a low cost and scalable index of seabird colony size
Although wildlife conservation actions have increased globally in number and complexity, the lack of scalable, cost-effective monitoring methods limits adaptive management and the evaluation of conservation efficacy. Automated sensors and computer-aided analyses provide a scalable and increasingly cost-effective tool for conservation monitoring. A key assumption of automated acoustic monitoring ofAuthorsAbraham L. Borker, Matthew W. McKown, Joshua T. Ackerman, Collin A. Eagles-Smith, Bernie R. Tershy, Donald A. CrollMercury cycling in agricultural and managed wetlands: a synthesis of methylmercury production, hydrologic export, and bioaccumulation from an integrated field study
With seasonal wetting and drying, and high biological productivity, agricultural wetlands (rice paddies) may enhance the conversion of inorganic mercury (Hg(II)) to methylmercury (MeHg), the more toxic, organic form that biomagnifies through food webs. Yet, the net balance of MeHg sources and sinks in seasonal wetland environments is poorly understood because it requires an annual, integrated asseAuthorsLisamarie Windham-Myers, Jacob A. Fleck, Joshua T. Ackerman, Mark C. Marvin-DiPasquale, Craig A. Stricker, Wesley A. Heim, Philip A.M. Bachand, Collin A. Eagles-Smith, Gary Gill, Mark Stephenson, Charles N. AlpersWaterfowl ecology and management
No abstract available.AuthorsJoshua T. Ackerman, Mark P. Herzog, Gregory S. Yarris, Michael L. Casazza, E. Burns, John M. EadieMercury cycling in agricultural and managed wetlands of California: seasonal influences of vegetation on mercury methylation, storage, and transport
Plants are a dominant biologic and physical component of many wetland capable of influencing the internal pools and fluxes of methylmercury (MeHg). To investigate their role with respect to the latter, we examined the changing seasonal roles of vegetation biomass and Hg, C and N composition from May 2007-February 2008 in 3 types of agricultural wetlands (domesticated or white rice, wild rice, andAuthorsLisamarie Windham-Myers, Mark C. Marvin-DiPasquale, Evangelos Kakouros, Jennifer L. Agee, Le H. Kieu, Craig A. Stricker, Jacob A. Fleck, Joshua T. AckermanLandscape factors and hydrology influence mercury concentrations in wading birds breeding in the Florida Everglades, USA
The hydrology of wetland ecosystems is a key driver of both mercury (Hg) methylation and waterbird foraging ecology, and hence may play a fundamental role in waterbird exposure and risk to Hg contamination. However, few studies have investigated hydrological factors that influence waterbird Hg exposure. We examined how several landscape-level hydrological variables influenced Hg concentrations inAuthorsGarth Herring, Collin A. Eagles-Smith, Joshua T. Ackerman, Dale E. Gawlik, James M. BeerensMarsh wrens as bioindicators of mercury in wetlands of Great Salt Lake: do blood and feathers reflect site-specific exposure risk to bird reproduction?
Nonlethal sampling of bird blood and feathers are among the more common ways of estimating the risk of mercury exposure to songbird reproduction. The implicit assumption is that mercury concentrations in blood or feathers of individuals captured in a given area are correlated with mercury concentrations in eggs from the same area. Yet, this assumption is rarely tested. We evaluated mercury concentAuthorsC. Alex Hartman, Joshua T. Ackerman, Garth Herring, John Isanhart, Mark P. HerzogMethylmercury is the predominant form of mercury in bird eggs: a synthesis
Bird eggs are commonly used in mercury monitoring programs to assess methylmercury contamination and toxicity to birds. However, only 6% of >200 studies investigating mercury in bird eggs have actually measured methylmercury concentrations in eggs. Instead, studies typically measure total mercury in eggs (both organic and inorganic forms of mercury), with the explicit assumption that total mercuryAuthorsJoshua T. Ackerman, Mark P. Herzog, Steven E. SchwarzbachAmerican Avocet (Recurvirostra americana)
This large, striking shorebird with long bluish-gray legs, a long recurved bill, and a black-and-white chevron pattern on its back and wings is one of four Avocet species in the world, the only one with distinct breeding and non-breeding plumages -- its grayish-white head and neck feathers become cinnamon in early spring as birds begin to form pairs and migrate to breeding areas.AuthorsJoshua T. Ackerman, C. Alex Hartman, Mark P. Herzog, John Y. Takekawa, Julie A. Robinson, Lewis W. Oring, Joseph P. Skorupa, Ruth BoettcherWaterbird nest monitoring program in San Francisco Bay (2005-10)
Historically, Forster’s Terns (Sterna forsteri), American Avocets (Recurvirostra americana), and Black-necked Stilts (Himantopus mexicanus) were uncommon residents of San Francisco Bay, California (Grinnell and others, 1918; Grinnell and Wythe, 1927; Sibley, 1952). Presently, however, avocets and stilts are the two most abundant breeding shorebirds in San Francisco Bay (Stenzel and others, 2002; RAuthorsJoshua T. Ackerman, Mark P. Herzog - Web Tools
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