John Piatt, Ph.D.
Seabirds, marine food webs and impact of climate change on marine ecosystems
My research has been conducted mostly in the north Pacific and Atlantic oceans, with a focus on studies of seabird biology at colonies and ecological factors that influence seabird populations and distribution at sea. Research topics also include feeding ecology of seabirds (especially Auks), forage fish (such as capelin and sand lance), groundfish, marine mammals, food webs, oceanography, marine ecosystems; and threats to seabirds from climate change, heatwaves, overfishing, net bycatch, and oil spills.
Professional Experience
1987-Present Sr Scientist, USGS Alaska Science Center, AK
1982-1987 Res. Assoc., Nfld. Inst. for Cold Ocean Sci., MUN, NL
1978-1981 Fish. Obs./Wildl. Biol., DFO Canada/MacLaren Marex, NL
1974-1977 Res. Asst., Chemistry & Biochemistry Departments, MUN, NL
Education and Certifications
Ph.D. 1987 Marine Biology, Memorial Univ. of Newfoundland (MUN), Canada
B.Sc. (Honours) 1977 Biochemistry, MUN, Canada
Affiliations and Memberships*
Member (2021): Am. Assoc. Adv. Sci., Am. Ornith. Soc., Pac. Seabird Grp., Am. Fish. Soc.
Editorial, Boards, Panels and Offices
Editor, Marine Ecology Progress Series (2007-2021)
Assoc. Editor, The Auk (2006-2013)
Chairman (1993-1994), Pacific Seabird Group (Research and Conservation)
Board or Science Panel service to North Pacific Research Board (2004-2011), Sound Experience (2014-2018), CA Fish & Game Commission (2003-2006), NMFS Alaska Fisheries Science Center (2000-2002)
Board or Science Panel service to Steller Sea Lion Recovery Team Advisory Panel (1999-2001), Cook Inlet Keepers (1996-2003), Alaska Sea Life Center (1995-1999)
Affiliate Professor – U. Washington (UW, 2004-2020); Oregon State U. (OSU, 2011-2015), MUN (1992-1996)
Visiting Scholar – UW (1997-1998)
Invited Scholar - Norwegian Inst. Nature Res., Norway (1991)
Supervisor for 3 PhD, 13 MSc students at 9 univ. in the UK (Glasgow, Durham), Canada (MUN, U.Vic), & the U.S. (UW, U.Alaska, UCSC, OSU)
Ext. examiner for 6 PhD. & 2 MSc theses (CAN, US, AUS)
Honors and Awards
Lifetime Achievement Award (2016), Pacific Seabird Group
US DOI, Secretary, Award for Exceptional Service (1990)
US DOI, Secretary, Award for Extraordinary Contributions (2011)
USGS, Director, Certificate of Appreciation (2011)
USGS, Certificate of Appreciation for Outstanding Contributions (2006)
USGS, Special Act Service Award (1997)
USFS, Certificate of Appreciation for Outstanding Service (1997)
USGS Quality (Step) Awards (2) for Exceptional Performance
USGS/NBS/FWS Performance/Star Awards (24 during 1987-2020) for Outstanding Achievement
USFWS, Regional Director, Special Action Award (1990)
Science and Products
Deposition and persistence of beachcast seabird carcasses
Water over the bridge
Increasing frequency of plastic particles ingested by seabirds in the subarctic North Pacific
Ecology and conservation of the Marbled Murrelet in North America: An overview
Abundance, distribution and population status of Marbled Murrelets in Alaska
Oceanic, shelf and coastal seabird assemblages at the mouth of a tidally-mixed estuary (Cook Inlet, Alaska)
Phylogeny and evolution of the auks (subfamily Alcinae) based on mitochondrial DNA sequences
Morphological and genetic divergence among Alaskan populations of Brachyramphus murrelets
Postbreeding dispersal and drift-net mortality of endangered Japanese Murrelets
Using stable isotopes to determine seabird trophic relationships
Foraging ecology as related to the distribution of planktivorous auklets in the Bering Sea
Science and Products
- Science
- Data
Filter Total Items: 14No Result Found
- Multimedia
- Publications
Filter Total Items: 197
Deposition and persistence of beachcast seabird carcasses
Following a massive wreck of guillemots (Uria aalge) in late winter and spring of 1993, we monitored the deposition and subsequent disappearance of 398 beachcast guillemot carcasses on two beaches in Resurrection Bay, Alaska, during a 100 day period. Deposition of carcasses declined logarithmically with time after the original event. Since fresh carcasses were more likely to be removed between couAuthorsThomas I. van Pelt, John F. PiattWater over the bridge
The March-April issue of American Scientist contains a commentary by Julia K. Parrish and P. Dee Boersma (Macroscope, "Muddy Waters") that purports to "assess the validity of the claims made concerning seabird mortality as a result of the [Exxon Valdez oil] spill." Parrish and Boersma would have us believe that estimates of seabird mortality made in 1990 by myself and colleagues were exaggerated aAuthorsJohn F. PiattIncreasing frequency of plastic particles ingested by seabirds in the subarctic North Pacific
We examined gut contents of 1799 seabirds comprising 24 species collected in 1988-1990 to assess the types and quantities of plastic particles ingested by seabirds in the subarctic waters of Alaska. Of the 15 species found to ingest plastic, most were surface-feeders (shearwaters, petrels, gulls) or plankton-feeding divers (auklets, puffins). Of 4417 plastic particles examined, 76% were industrialAuthorsMartin D. Robards, John F. Piatt, Kenton D. WohlEcology and conservation of the Marbled Murrelet in North America: An overview
Over the past decade, the Marbled Murrelet has become a focus of much controversy. It was listed as threatened in Washington, Oregon, and California by the U.S. Fish and Wildlife Service in February 1993. In order to aid the various agencies with management, the Marbled Murrelet Conservation Assessment was formed to bring together scientists, managers, and others to gather all the available data oAuthorsC. John Ralph, George L. Hunt, Martin G. Raphael, John F. PiattAbundance, distribution and population status of Marbled Murrelets in Alaska
Ship-based surveys conducted throughout Alaska during the 1970's and 1980's, and more recent small boat surveys conducted in the northern Gulf of Alaska, suggest that about 280,000 murrelets reside in Alaska during summer. Most Marbled Murrelets are concentrated offshore of large tracts of coastal coniferous forests in southeast Alaska, Prince William Sound, and the Kodiak Archipelago. About 1-3 pAuthorsJohn F. Piatt, Nancy L. NaslundOceanic, shelf and coastal seabird assemblages at the mouth of a tidally-mixed estuary (Cook Inlet, Alaska)
No abstract availableAuthorsJohn F. PiattPhylogeny and evolution of the auks (subfamily Alcinae) based on mitochondrial DNA sequences
The genetic divergence and phylogeny of the auks was assessed by mitochondrial DNA sequence comparisons in a study using 19 of the 22 auk species and two outgroup representatives. We compared more than 500 nucleotides from each of two mitochondrial genes encoding 12S rRNA and the NADH dehydrogenase subunit 6. Divergence times were estimated from transversional substitutions. The dovekie (Alle alleAuthorsTruls Moum, Steinar Johansen, Kjell Einar Erikstad, John F. PiattMorphological and genetic divergence among Alaskan populations of Brachyramphus murrelets
We studied morphological and mitochondrial DNA (mtDNA) divergence among three populations of Brachyramphus Murrelets: Kittlitz's Murrelets (B. brevirostris), and tree-nesting and ground-nesting Marbled Murrelets (B. marmoratus). We found little morphological divergence in external and skeletal measurements among Marbled Murrelets, but both populations were easily distinguished from Kittlitz's MurrAuthorsJay Pitocchelli, John F. Piatt, Matthew A. CroninPostbreeding dispersal and drift-net mortality of endangered Japanese Murrelets
The incidental catch of seabirds in high-seas drift nets was recorded in 1990-1991 by scientific observers on commercial squid and large-mesh fishery vessels operating in the North Pacific Transitional Zone. Twenty-six Synthliboramphus murrelet deaths were recorded in the months of August through December. All but one were from the Korean squid fishery in a small area bounded by 38°-44°N and 142°-AuthorsJohn F. Piatt, Patrick J. GouldUsing stable isotopes to determine seabird trophic relationships
1. The stable isotopes of nitrogen (δ15N) and carbon (δ13C) were analysed in 22 species of marine birds from coastal waters of the northeast Pacific Ocean. Analyses confirm that stable nitrogen isotopes can predict seabird trophic positions.2. Based on δ15N analyses, seabird trophic-level inferences generally agree with those of conventional dietary studies, but suggest that lower trophic-level orAuthorsKeith A. Hobson, John F. Piatt, Jay PitocchelliForaging ecology as related to the distribution of planktivorous auklets in the Bering Sea
We review recent accounts of the foraging ecologies of five species of small auklets found in the Bering Sea. These birds eat a wide variety of zooplankton and micronekton. Least Auklets Aethia pusilla and Whiskered Auklets A. pygmaea, as far as is known, primarily eat copepods, whereas Created Auklets A. cristatella appear to specialize on euphausiids, at least during the breeding season. The diAuthorsGeorge L. Hunt, Nancy M. Harrison, John F. Piatt - News
*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