Edward F Roseman, PhD
Edward Roseman is a Research Fisheries Biologist based in Ann Arbor, MI.
The emphasis of my research program as Research Fish Biologist centers on aquatic habitat restoration and aquatic science to evaluate and inform management decisions. A substantial portion of my research takes place in Great Lakes Areas of Concern and addresses ecological issues of exceptional interest to the scientific and professional community. I am frequently sought for my expertise in fish early life history (eggs and larvae) sampling and identification and routinely approach my work from an early life history perspective. Results of my research are used to inform management decisions regarding restoration of aquatic habitat and populations that will improve resiliency, ecosystem services, and add value to our natural resources.
Great Lakes aquatic ecosystems are complex, and my research frequently involves development of innovative research tools or unique adaptations of existing methods to accomplish research and management objectives. The scope of my research spans from river and lake-specific research within the Great Lakes basin including connecting waters to global fish population and habitat issues related to restoring Coregonines (e.g., whitefishes and ciscos) in the Baltic Sea and large rivers of the world. The complexity of my research is exacerbated by a multi-jurisdictional international management environment and the frequent need to replace team members lost to attrition. I routinely provide technical assistance related to habitat restoration, serve on Lake Huron and Lake Erie technical committees, supervise the Early Life History and Connecting Waters research laboratory, serve on the Center’s safety and small boats committees, and I supervise several contracted employees.
Professional Experience
Research Fisheries Biologist (0482- GS-14), U.S. Geological Survey, Great Lakes Science Center, 1451 Green Road, Ann Arbor, MI; November 2004 - present.
Fisheries Biologist II, Ohio Department of Natural Resources, Division of Wildlife, Sandusky Fisheries Station, 305 E. Shoreline Drive, Sandusky, OH; 20 October 2003 – 8 October 2004.
Fisheries Biologist II, Ohio Department of Natural Resources, Division of Wildlife, Sandusky Fisheries Station, 305 E. Shoreline Drive, Sandusky, OH; 20 October 2003 – 8 October 2004.
Lecturer, Fisheries Biology (5434), United States Coast Guard Academy, Department of Science, 215 Smith Hall, New London, CT; 12 August - 20 December 2002.
Education and Certifications
Certified Ecological Restoration Practitioner accredited by the Society for Ecological Restoration, 2018 - present.
Certified Fisheries Professional accredited by the American Fisheries Society, 1999 - present.
Department of the Interior Motorboat Operator Certification Instructor; March 2011 - present.
Ph.D.; Fisheries Science; May 2000; Michigan State University, East Lansing, MI 48824. Dissertation title: Physical and biological processes influencing year-class strength of walleye in Lake Erie.
M.S.; Fisheries Science; August 1997; Michigan State University, East Lansing, MI 48824 Thesis title: Factors influencing the year-class strength of walleye in western Lake Erie.
B.S.; Natural Resources; May 1992; Cornell University, Ithaca, NY 14853.
A.A.S. with High Honors; Fisheries and Wildlife Technology; May 1989; State University of New York Agricultural and Technical College (SUNY), Cobleskill, NY.
Regent’s High School Diploma; June 1979; Camden Central High School, Rt. 13, Camden, NY.
Affiliations and Memberships*
American Fisheries Society
American Institute of Fisheries Research Biologists
Aquatic Ecosystem Health and Management Society
International Association for Great Lakes Research
North American Sturgeon and Paddlefish Society
Honors and Awards
Stevan Phelps Memorial Award 2021 for best genetics paper published in an American Fisheries Society Journal.
Grayling Award 2020 Michigan Chapter of the American Fisheries Society.
St. Clair River Partnership Award, 2020.
Outstanding Friend of the Lake Erie Center, December 2019.
James W. Moffett Award 2019.
Partners in Conservation Award, U.S. Department of Interior.
Skinner Memorial Award, American Fisheries Society.
Albert S. Hazzard Award of Excellence, MI Chapter American Fisheries Society, 1997.
Abstracts and Presentations
Roseman, E.F., T. Yang, C.M. Mayer, R.L. DeBruyne, and M.R. Dufour. 2022. Diets of Age-0 Walleye Reflection of Food Web Changes in Western Lake Erie. INVITED Oral presentation at the 2022 Joint Aquatic Science Meeting, Grand Rapids, MI.
Roseman, E., DeBruyne, R., Hilling, C., Boase, J., Chiotti, J., Fischer, J., Drouin, R., Wills, T. 2022. Science and Monitoring Guide Recovery of Fisheries Habitat and Populations in the St. Clair-Detroit River System. INVITED State of Lake Erie Conference, Cleveland OH.
Roseman, E.F., A. BaetzM, R.L. DeBruyneM, J.FischerS, A. GatchS, and T. Höök. 2019. Restoration and maintenance of spawning reefs. INVITED PLENARY ADDRESS at the 2019 Great Lakes Areas of Concern Conference, Cleveland OH.
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Publications by this scientist
Use of main channel and two backwater habitats by larval fishes in the Detroit River
Diet and habitat use by age-0 deepwater sculpins in northern Lake Huron, Michigan and the Detroit River
Conservation and management of fisheries and aquatic communities in Great Lakes connecting channels
Mechanisms driving recruitment variability in fish: comparisons between the Laurentian Great Lakes and marine systems
An ecological basis for future fish habitat restoration efforts in the Huron-Erie Corridor
Succeeding as a non-traditional graduate student: Building the right support network
Spatial and temporal genetic diversity of lake whitefish (Coregonus clupeaformis (Mitchill)) from Lake Huron and Lake Erie
Trophic shift, not collapse
Spatial distribution of pelagic fish larvae in the northern main basin of Lake Huron
Feeding ecology of pelagic larval Burbot in Northern Lake Huron, Michigan
Managing inherent complexity for sustainable Walleye fisheries in Lake Erie
A description of the nearshore fish communities in the Huron-Erie Corridor using multiple gear types
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.
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Filter Total Items: 109Use of main channel and two backwater habitats by larval fishes in the Detroit River
Recent investigations in the Detroit River have revealed renewed spawning activity by several important fishes, but little is known about their early life history requirements. We surveyed two main channel and two backwater areas in the lower Detroit River weekly from May to July 2007 to assess habitat use by larval fishes. Backwater areas included a soft-sediment embayment (FI) and a hard-sedimenAuthorsErik A. McDonald, A. Scott McNaught, Edward F. RosemanDiet and habitat use by age-0 deepwater sculpins in northern Lake Huron, Michigan and the Detroit River
Deepwater sculpins (Myoxocephalus thompsonii) are an important link in deepwater benthic foodwebs of the Great Lakes. Little information exists about deepwater sculpin spawning habits and early life history ecology due to difficulty in sampling deep offshore habitats. Larval and age-0 deepwater sculpins collected in northern Lake Huron and the Detroit River during 2007 were used to improve our undAuthorsEdward F. RosemanConservation and management of fisheries and aquatic communities in Great Lakes connecting channels
The North American Laurentian Great Lakes are linked by a unique series of riverine and lacustrine waters known as the Great Lakes connecting channels that are as integral to the basin's ecology and economies as the lakes themselves. The St. Marys River (SMR) is the northernmost channel and flows from Lake Superior to Lake Huron. Waters from the upper Great Lakes (Lakes Superior, Michigan, and HurAuthorsEdward F. Roseman, Patricia A. Thompson, John M. Farrell, Nicholas E. Mandrak, Carol A. StepienMechanisms driving recruitment variability in fish: comparisons between the Laurentian Great Lakes and marine systems
In his seminal work, Hjort (in Fluctuations in the great fisheries of Northern Europe. Conseil Parmanent International Pour L'Exploration De La Mar. Rapports et Proces-Verbaux, 20: 1–228, 1914) observed that fish population levels fluctuated widely, year-class strength was set early in life, and egg production by adults could not alone explain variability in year-class strength. These observationsAuthorsJeremy J. Pritt, Edward F. Roseman, Timothy P. O'BrienAn ecological basis for future fish habitat restoration efforts in the Huron-Erie Corridor
This perspective describes the major natural and anthropogenic forces driving change in the abundance and quality of fish habitats in the Huron-Erie Corridor (HEC), the Great Lakes connecting channel comprised of the St. Clair River, the Lake St. Clair, and the Detroit River. Channels connecting the Laurentian Great Lakes discharge large volumes of water equal to or greater than most other large rAuthorsDarryl W. Hondorp, Edward F. Roseman, Bruce A. MannySucceeding as a non-traditional graduate student: Building the right support network
No abstract available.AuthorsRobin L. DeBruyne, Edward F. RosemanSpatial and temporal genetic diversity of lake whitefish (Coregonus clupeaformis (Mitchill)) from Lake Huron and Lake Erie
Lake whitefish (Coregonus clupeaformis (Mitchill)) are important commercially, culturally, and ecologically in the Laurentian Great Lakes. Stocks of lake whitefish in the Great Lakes have recovered from low levels of abundance in the 1960s. Reductions in abundance, loss of habitat and environmental degradation can be accompanied by losses of genetic diversity and overall fitness that may persist eAuthorsWendylee Stott, Mark P. Ebener, Lloyd Mohr, Travis Hartman, Jim Johnson, Edward F. RosemanTrophic shift, not collapse
Jerald Schnoor’s editorial describes the recent changes in Lake Huron’s aquatic ecosystem as a trophic collapse and attributes this collapse to invasive species dominating energy and nutrient flows in the food web. As state and federal scientists who are closely monitoring Lake Huron’s food web, we believe that the ongoing changes are more accurately characterized as a trophic shift in which benthiAuthorsCharles P. Madenjian, Edward S. Rutherford, Craig A. Stow, Edward F. Roseman, Ji X. HeSpatial distribution of pelagic fish larvae in the northern main basin of Lake Huron
Larval fish occurrence in inshore and offshore zones in the northern main basin of Lake Huron was assessed during 2007 as part of a larger ecological examination of Lake Huron foodwebs and habitats. Day and night collections using neuston and conical nets at inshore (1.5–15 m depths) and offshore (37 and 91 m depths) locations at De Tour and Hammond Bay to assess the abundance, phenology, and spatAuthorsEdward F. Roseman, Timothy P. O'BrienFeeding ecology of pelagic larval Burbot in Northern Lake Huron, Michigan
Burbot Lota lota are a key demersal piscivore across the Laurentian Great Lakes whose populations have declined by about 90% in recent decades. Larval Burbot typically hatch in the early spring and rely on abundant crustacean zooplankton prey. We examined the stomach contents of larval Burbot from inshore (≤15 m) and offshore sites (37 and 91 m) in northern Lake Huron, Michigan. Concurrent zooplanAuthorsEllen M. George, Edward F. Roseman, Bruce M. Davis, Timothy P. O'BrienManaging inherent complexity for sustainable Walleye fisheries in Lake Erie
No abstract available.AuthorsEdward F. Roseman, Richard Drouin, Marc Gaden, Roger L. Knight, Jeffrey Tyson, Zhao YingmingA description of the nearshore fish communities in the Huron-Erie Corridor using multiple gear types
Great Lakes coastal wetlands provide a critical habitat for many fish species throughout their life cycles. Once home to one of the largest wetland complexes in the Great Lakes, coastal wetlands in the Huron–Erie Corridor (HEC) have decreased dramatically since the early 1900s. We characterized the nearshore fish communities at three different wetland complexes in the HEC using electrofishing, seiAuthorsJames T. Francis, Justin A. Chiotti, James C. Boase, Mike V. Thomas, Bruce A. Manny, Edward F. RosemanNon-USGS Publications**
Mills, E. L., E. F. Roseman, M. Rutzke, W. H. Gutenmann, and D. J. Lisk. 1993. Contaminant and nutrient element concentrations in soft tissues of zebra and quagga mussels from southern Lake Ontario. Chemosphere 27(8):1465-1473.Mills, E.L., R.M. Dermott, E.F. Roseman, D. Dustin, E. Mellina, D.B. Conn, and A. Spidle. 1993. Colonization, ecology, and population structure of the "quagga" mussel (Bivalvia: Dreissenidae) in the lower Great Lakes. Canadian Journal of Fisheries and Aquatic Sciences 50(11):2305-2314.
Dustin, D.L., E.L. Mills, E.F. Roseman, E. Mellina, and D.B. Conn. 1993. Demography of the quagga ssel in the Lower Great Lakes Basin. Bulletin of the North American Benthological Society 10:197-198.Roseman, E.F., E.L. Mills, M. Rutzke, W.H. Gutenmann, and D.J. Lisk. 1994. Absorption of Cadmium from water by zebra and quagga mussels (Bivalvia: Dreissenidae). Chemosphere 28(4):737-743.Roseman, E.F., E.L. Mills, J.L. Forney, and L.G. Rudstam. 1995. Competition between age-0 yellow perch (Perca flavescens) and gizzard shad (Dorosoma cepedianum) in Oneida Lake, New York. Canadian Journal of Fisheries and Aquatic Sciences 53(4):865-874.Mills, E.L., R. O'Gorman, E.F. Roseman, C. Adams, and R.W. Owens. 1995. Planktivory by alewife (Alosa pseudoharengus) and rainbow smelt (Osmerus mordax) on microcrustacean zooplankton and dreissenid (Bivalvia: Dreissenidae) veligers in southern Lake Ontario. Canadian Journal of Fisheries and Aquatic Sciences 52(5):925-935.Roseman, E.F. 1996. Stress and student life. Fisheries 21(5):29.Roseman, E.F., W.W. Taylor, D.B. Hayes, R.C. Haas, R.L. Knight, and K.O. Paxton. 1996. Walleye egg deposition and survival on reefs in western Lake Erie. Proceedings of the Second International Percid Fishes Symposium. Annales Zoologici Fennici 33:341-351.Neumann, E., E.F. Roseman, and H. Lehtonen. 1996. Report of the working group on determination of year-class strength. Proceedings of the Second International Percid Fishes Symposium. Annales Zoologici Fennici 33:315-320.Roseman, E.F., D.J. Jude, T.G. Coon, M.K. Raths, and W.W. Taylor. 1998. Occurrence of deepwater sculpin (Myoxocephalus thompsoni) in western Lake Erie. Journal of Great Lakes Research 24(2):479-483.Roseman, E.F., W.W. Taylor, D.B. Hayes, R.C. Haas, D.H. Davies, and S.D. Mackey. 1999. The influence of physical processes on the early life history stages of walleye, Stizostedion vitreum, in western Lake Erie. Ecosystem Considerations in Fisheries Management: Proc. of the 16th Lowell Wakefield Symposium, Anchorage, AK. AK-SG-99-01:43-55.Mills, E.L., J.R. Chrisman, B. Baldwin, R.W. Owens, R. O'Gorman, T. Howell, E.F. Roseman, and M.K. Raths. 1999. Changes in the dreissenid community in the lower Great Lakes with emphasis on Lake Ontario. Journal of Great Lakes Research 25(1):187-197.Roseman, E.F., W.W. Taylor, D.B. Hayes, R.L. Knight, and R.C. Haas. 1999. The demise and rehabilitation of walleye in Lake Erie. Sustainable Lake Management: Proceedings of the Eighth International Conference on the Conservation and Management of Lakes, Volume 2:S15B-11.Roseman, E.F., W.W. Taylor, D.B. Hayes, R.L. Knight, and R.C. Haas. 2001. Removal of walleye eggs from reefs in western Lake Erie by a catastrophic storm. Transactions of the American Fisheries Society 130(2):341-346.Roseman, E.F., W.W. Taylor, D.B. Hayes, J. Fofrich, Sr., and R.L. Knight. 2002. Evidence of walleye spawning in Maumee Bay, Lake Erie. Ohio Journal of Science 102:51-55.Taylor, W.W., D.B. Hayes, C.P. Ferreri, K.D. Lynch, K.R. Newman, and E.F. Roseman. 2002. Integrating landscape ecology into fisheries management: a rationale and practical considerations. Pages 366-389. In: Integrating Landscape Ecology into Natural Resource Management, J. Liu and W. W. Taylor, editors. Cambridge University Press, Cambridge, England.Roseman, E.F., and C.A. Tomichek. 2002. Trends in abundance of eggs, larvae, juvenile and adult fish collected from 1976 through 2001 in eastern Long Island Sound. Proceedings of the Northeast Estuarine Ecology Research Symposium. December 1, 2002.Crivello, J.F., D. Danila, E.Lorda, S. Saila, M. Keser, and E.F. Roseman. 2004. The genetic stock structure of larval and juvenile winter flounder in Connecticut waters of eastern Long Island Sound and estimations of entrainment. Journal of Fish Biology 64(1):1-15.Stepien, C., and E.F. Roseman. 2004. Percid ecology: Current status and future research needs. Pages 5-6. In T.P. Barry and J. A. Malison (editors) Proceedings of Percis III: The Third International Percid Fish Symposium. University of Wisconsin Sea Grant, WISCU-W-03-001.Roseman, E.F. 2004. Percid management: Current status and future research needs. Pages 7-8. In T.P. Barry and J. A. Malison (editors) Proceedings of Percis III: The Third International Percid Fish Symposium. University of Wisconsin Sea Grant, WISCU-W-03-001**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