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
Distribution and abundance of Marbled Murrelets in Alaska
Threshold foraging behavior of baleen whales
The distribution of seabirds and fish in relation to ocean currents in the southeastern Chukchi Sea
How do foraging seabirds sample their environment?
A comparison of aerial and boat-based surveys for marbled murrelets in southeast Alaska, July 23-28, 1991
Effects of oil pollution on marine bird populations
Body size and foraging behavior in birds
The ecological and evolutionary consequences of body size: Introductory remarks
Seasonal abundance and vertical distribution of capelin (Mallotus villosus) in relation to water temperature at a coastal site off eastern Newfoundland
Monitoring St. Lawrence Island and Cape Thompson seabird populations
Immediate impact of the 'Exxon Valdez' oil spill on marine birds
Science and Products
- Science
- Data
Filter Total Items: 14No Result Found
- Multimedia
- Publications
Filter Total Items: 198
Distribution and abundance of Marbled Murrelets in Alaska
Most seabirds breed in colonies on offshore islands, but throughout most of their range from California to Alaska Marbled Murrelets (Brachyramphus marmoratus) fly inland to nest on trees in old-growth coniferous forests. Some fraction of the murrelet population nests on the ground in Alaska. The relative distribution and abundance of murrelets in forested and treeless areas of Alaska is poorly knoAuthorsJohn F. Piatt, R. Glenn FordThreshold foraging behavior of baleen whales
We conducted hydroacoustic surveys for capelin Mallotus villosus in Witless Bay, Newfoundland, Canada, on 61 days during the summers of 1983 to 1985. On 32 of those days in whlch capelin surveys were conducted, we observed a total of 129 baleen whales - Including 93 humpback Megaptera novaeangliae, 31 minke Balaenoptera acutorostrata and 5 fin whales B. phvsalus. Although a few whales were observeAuthorsJohn F. Piatt, David A. MethvenThe distribution of seabirds and fish in relation to ocean currents in the southeastern Chukchi Sea
In late August 1988, we studied the distribution of seabirds in the southeastern Chukchi Sea, particularly in waters near a major seabird colony at Cape Thompson. Foraging areas were characterized using hydrographic data obtained from hydroacoustic surveys for fish. Murres (Uria spp.) and Black-legged Kitttiwakes Rissa tridactyla breeding at Cape Thompson fed mostly on Arctic cod, which are knownAuthorsJohn F. Piatt, John L. Wells, Andrea MacCharles, Brian S. FadelyHow do foraging seabirds sample their environment?
No abstract available.AuthorsG.L. Hunt, John F. Piatt, Kjell Einar ErikstadA comparison of aerial and boat-based surveys for marbled murrelets in southeast Alaska, July 23-28, 1991
Aerial and boat-based surveys for Marbled Murrelets (Brachyramphus marmoratus) were conducted simultaneously over short transect distances (ca. 2 km) in three different areas of the Alexander Archipelago to assess the accuracy and variability of aerial counts compared to boat-based counts. Additional aerial surveys were conducted over a wider geographic area to assess temporal and spatial variabilAuthorsJohn F. Piatt, Bruce Conant, Chris IversonEffects of oil pollution on marine bird populations
Worldwide oil pollution has killed millions of marine birds in this century but it has been difficult to directly link these losses to population declines. Estimated bird losses from acute spills and chronic pollution are not precise because we usually do not know the proportion of birds killed at sea that are detected on beach surveys or the origin of those birds. Data required to assess effectsAuthorsJohn F. Piatt, Harry R. Carter, David N. NettleshipBody size and foraging behavior in birds
No abstract available.AuthorsR. Ian Goudie, John F. PiattThe ecological and evolutionary consequences of body size: Introductory remarks
No abstract available.AuthorsJohn F. PiattSeasonal abundance and vertical distribution of capelin (Mallotus villosus) in relation to water temperature at a coastal site off eastern Newfoundland
The seasonal abundance and vertical distribution of capelin in relation to water temperature have been investigated by conducting repeated hydroacoustic surveys at a coastal site off eastern Newfoundland. Water temperatures were warmer in 1983 than in 1984 as indicated by the earlier appearance and greater depth of the seasonal thermocline. Correspondingly, schools of capelin appeared earlier, werAuthorsDavid A. Methven, John F. PiattMonitoring St. Lawrence Island and Cape Thompson seabird populations
About 1.8 million seabirds of 12 species breed on St. Lawrence Island (Figure 1) - one of the largest aggregations of breeding seabirds in the subarctic Pacific. Colonies of least and crested auklets alone, totaling 1.5 million birds, contain a substantial proportion (perhaps 20%) of these species’ world populations. Large seabird colonies occur also at Cape Thompson (Figure 2), where thick-billedAuthorsScott A. Hatch, John F. Piatt, Brian S. Fadely, Bay D. RobertsImmediate impact of the 'Exxon Valdez' oil spill on marine birds
On 24 March 1989, the oil tanker 'Exxon Valdez' spilled 260,000 barrels of crude oil in Prince William Sound, Alaska. Oil eventually drifted over $30,000\ {\rm km}^{2}$ of coastal and offshore waters occupied by approximately one million marine birds. More than 30,000 dead birds of 90 species were retrieved from polluted areas by 1 August 1989. Of those identified, murres (74%), other alcids (7.0%AuthorsJohn F. Piatt, Calvin J. Lensink, William Butler, Marshal Kendziorek, David R. Nysewander - 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