Abigail J. Lynch, Ph.D.
Abigail (Abby) J. Lynch is a Research Fish Biologist with the USGS National Climate Adaptation Science Center. Abby conducts science and science syntheses on the impacts of global change to inland fishes at local, national, and global scales. Her work aims to inform conservation and sustainable use and to help fishers, managers, and other practitioners adapt to change.
Collaborative Networks
Abby leads the National CASC's aquatics program and co-leads the CASC Fish Research Team. She is adjunct/affiliate faculty at Michigan State University, North Carolina State University, the University of Florida, and the University of Missouri.
She serves as the coordinator for the international 'InFish' research network, a steward for the Fish and Climate Change Database (FiCli), and an Associate Editor for Fisheries Management and Ecology.
Abby received her Ph.D. in Fisheries and Wildlife from Michigan State University on climate impacts to Great Lakes Lake Whitefish, M.S. in marine science on Atlantic Menhaden population genetics at the Virginia Institute of Marine Science, College of William & Mary, and B.S. in biology and B.A. in English literature from the University of Virginia. She also served as a Knauss Marine Policy Fellow with the U.S. Fish & Wildlife Service's Fisheries Program.
Education and Certifications
Ph.D. in Fisheries and Wildlife, Michigan State University
M.S. in Marine Science, College of William & Mary
B.S. in Biology, University of Virginia
B.A. in English, University of Virginia
Affiliations and Memberships*
IUCN Freshwater Fish Specialist Group; IUCN Fisheries Expert Group
IPBES Global and Nexus Assessments (Fellow, Author)
2024 World Fisheries Congress International Program Committee (Co-chair)
UN International Year of Artisanal Fisheries and Aquaculture 2022 (International Steering Committee)
FAO International Symposium on Fisheries Sustainability (Advisory Board Member)
American Fisheries Society International Fisheries Section (Past-President)
Honors and Awards
Outstanding Young Alumni Award, Michigan State University College of Agriculture & Natural Resources
Science and Products
One from Many: Combining State Creel Data to Estimate Regional Harvest
Quantifying the Impacts of Climate Change on Fish Growth and Production to Enable Sustainable Management of Diverse Inland Fisheries
Fish Habitat Restoration to Promote Adaptation: Resilience of Sport Fish in Lakes of the Upper Midwest
Assessing the State of Global Inland Fisheries
Developing Adaptation Strategies for Recreational and Tribal Fisheries in the Upper Midwest
Understanding Species' Range Shifts in Response to Climate Change: Results from a Systematic National Review
Estimating Global River Fisheries Harvest Potential
Understanding Climate Impacts on Native and Invasive Fish for Conservation, Management, and Economic Goals in the Northern Rockies
Examining Linguistic Diversity Metrics in Intergovernmental Ecosystem Assessments
The U.S. Inland Creel and Angler Survey Catalog (CreelCat): A Database and Interactive Tool for Inland Fisheries Management and Research
Susceptibility of Rio Grande Cutthroat Trout to Displacement by Non-Native Brown Trout and Implications for Future Management
State of the Science on Ecosystem Transformation
Preventing and controlling nonnative species invasions to bend the curve of global freshwater biodiversity loss
Towards vibrant fish populations and sustainable fisheries that benefit all: Learning from the last 30 years to inform the next 30 years
Socioeconomic resilience to climatic extremes in a freshwater fishery
Global dataset of species-specific inland recreational fisheries harvest for consumption
Asking nicely: Best practices for requesting data
Characterizing mauka-to-makai connections for aquatic ecosystem conservation on Maui, Hawaiʻi
Overturning stereotypes: The fuzzy boundary between recreational and subsistence inland fisheries
Reducing uncertainty in climate change responses of inland fishes: A decision-path approach
Societal values of inland fishes
A future for the inland fish and fisheries hidden within the sustainable development goals
Ecological and social strategies for managing fisheries using the Resist-Accept-Direct (RAD) framework
A Resist-Accept-Direct decision-support tool for walleye Sander vitreus (Mitchill) management in Wisconsin
Science and Products
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One from Many: Combining State Creel Data to Estimate Regional Harvest
Recreational angling in the U.S. represents a large group of people that catch and harvest fish for a variety of reasons, including for relaxation, adventure, social motivations, and consumption. Collectively, recreational anglers can exert pressures on both economies and fishery resources. Fish removals by anglers represent an important source of mortality data when trying to understand fish popQuantifying the Impacts of Climate Change on Fish Growth and Production to Enable Sustainable Management of Diverse Inland Fisheries
Fisheries managers in Midwestern lakes and reservoirs are tasked with balancing multiple management objectives to help maintain healthy fish populations across a landscape of diverse lakes. As part of this, managers monitor fish growth and survival. Growth rates in particular are indicators of population health, and directly influence the effectiveness of regulations designed to protect spawning fFish Habitat Restoration to Promote Adaptation: Resilience of Sport Fish in Lakes of the Upper Midwest
Many Midwestern lakes are experiencing warming water temperatures as a result of climate change. In general, this change is causing coldwater fish species such as cisco and coolwater species such as walleye to decline. Meanwhile, warmer water species such as largemouth and smallmouth bass are increasing as temperatures warm. However, some fish populations are more vulnerable to these changes thanAssessing the State of Global Inland Fisheries
The Food and Agriculture Organization of the United Nations (FAO) documents the status and trends of marine fish stocks that represent approximately 80% of global marine catch. These stocks are routinely monitored, and the FAO assessment describes the extent of exploitation against different reference points - such as underfished, sustainable fished, or overfished. Although inland fisheries, whichDeveloping Adaptation Strategies for Recreational and Tribal Fisheries in the Upper Midwest
Fisheries in the glacial lakes region of the upper Midwest are culturally, economically, and recreationally beneficial. Walleye, for instance, represent an important subsistence food source for some Wisconsin tribal nations and are also popular among recreational anglers. However, predicted ecological changes to these aquatic communities, such as an increase in invasive fish species, a decrease inUnderstanding Species' Range Shifts in Response to Climate Change: Results from a Systematic National Review
Climate change represents one of the foremost drivers of ecological change, yet its documented impacts on biodiversity remain uncertain and complex. Although there have been many published studies on species shifting their geographic ranges in response to climate change, it is still challenging to identify the specific mechanisms and conditions that facilitate range shifts in some species and notEstimating Global River Fisheries Harvest Potential
Fish that are harvested from rivers and lakes play an important role in ensuring global food security. However, data on river fisheries is not collected in any standardized format globally. Although targeted analyses have been conducted on certain river systems, the approaches used, such as intensive field sampling, are not feasible at a global scale. Most river fish are harvested by small-scale oUnderstanding Climate Impacts on Native and Invasive Fish for Conservation, Management, and Economic Goals in the Northern Rockies
As the origin of three major basins that drain the Columbia, Missouri, and Saskatchewan rivers, Montana is the hydrologic apex for North America. The Northern Rocky Mountain region is home to some of the last remaining interconnected habitats for many native fishes, including the threatened bull trout and native westslope cutthroat trout. The Northern Rockies are also experiencing rapidly changingExamining Linguistic Diversity Metrics in Intergovernmental Ecosystem Assessments
Multicultural representation is a stated goal of many global scientific assessment processes. These processes aim to mobilize a broader, more diverse knowledge base and increase legitimacy and inclusiveness of these assessment processes. Often, enhancing cultural diversity is encouraged through involvement of diverse expert teams and sources of knowledge in different languages. This project examinThe U.S. Inland Creel and Angler Survey Catalog (CreelCat): A Database and Interactive Tool for Inland Fisheries Management and Research
Inland recreational fishing, defined as primarily leisure-driven fishing in freshwaters, is a popular past-time in the USA. State natural resource agencies endeavor to provide high-quality and sustainable fishing opportunities for anglers. Managers often use creel and other angler-survey data to inform state- and waterbody-level management efforts. Despite the broad implementation of angler surveySusceptibility of Rio Grande Cutthroat Trout to Displacement by Non-Native Brown Trout and Implications for Future Management
The Rio Grande cutthroat trout is New Mexico’s state fish; but habitat loss and non-native trout invasions threaten the persistence of this fish throughout the remaining 12% of its historic range. Stakeholders, including state agencies, federal agencies, Tribal nations, Pueblos, and private groups are particularly concerned about the impact that non-native brown trout have on native cutthroat trouState of the Science on Ecosystem Transformation
Recent changes in climate are having profound effects on many fish and wildlife species, and projections suggest that those trends are likely to continue. Changing climate conditions have the potential to transform ecosystems, which impacts not only fish and wildlife but also human communities, which rely on ecosystems for important goods and services such as food and water filtration. Strategies - Data
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Preventing and controlling nonnative species invasions to bend the curve of global freshwater biodiversity loss
The Emergency Recovery Plan for freshwater biodiversity recognizes that addressing nonnative species is one of six principal actions needed to bend the curve in freshwater biodiversity loss. This is because introduction rates of nonnative species continue to accelerate globally and where these species develop invasive populations, they can have severe impacts on freshwater biodiversity. The most eAuthorsJ. Robert Britton, Abigail Lynch, Helge Bardal, Stephanie J. Bradbeer, Julie A. Coetzee, Neil E. Coughlan, Tatenda Dalu, Elena Tricarico, Belinda Gallardo, Mark Lintermans, Frances Lucy, Chunlong Liu, Julian D. Olden, Rajeev Raghavan, Eleri PritchardTowards vibrant fish populations and sustainable fisheries that benefit all: Learning from the last 30 years to inform the next 30 years
A common goal among fisheries science professionals, stakeholders, and rights holders is to ensure the persistence and resilience of vibrant fish populations and sustainable, equitable fisheries in diverse aquatic ecosystems, from small headwater streams to offshore pelagic waters. Achieving this goal requires a complex intersection of science and management, and a recognition of the interconnectiAuthorsSteven J. Cooke, Elizabeth A. Fulton, Warwick H. H. Sauer, Abigail Lynch, Jason S. Link, Aaron A. Koning, Joykrushna Jena, Luiz G. M. Silva, Alison J. King, Rachel Kelly, Matthew Osborne, Julia Nakamura, Ann L. Preece, Atsushi Hagiwara, Kerstin Forsberg, Julie B. Kellner, Ilaria Coscia, Sarah Helyar, Manuel Barange, Elizabeth A. Nyboer, Meryl J. Williams, Ratana Chuenpagdee, Gavin A. Begg, Bronwyn M. GillandersSocioeconomic resilience to climatic extremes in a freshwater fishery
Heterogeneity is a central feature of ecosystem resilience, but how this translates to socioeconomic resilience depends on people’s ability to track shifting resources in space and time. Here, we quantify how climatic extremes have influenced how people (fishers) track economically valuable ecosystem services (fishing opportunities) across a range of spatial scales in rivers of the northern RockyAuthorsTimothy Joseph Cline, Clint C. Muhlfeld, Ryan P. Kovach, Robert Al-Chokhachy, David Schmetterling, Diane Whited, Abigail LynchGlobal dataset of species-specific inland recreational fisheries harvest for consumption
Inland recreational fisheries, found in lakes, rivers, and other landlocked waters, are important to livelihoods, nutrition, leisure, and other societal ecosystem services worldwide. Although recreationally-caught fish are frequently harvested and consumed by fishers, their contribution to food and nutrition has not been adequately quantified due to lack of data, poor monitoring, and under-reportiAuthorsHolly Susan Embke, Elizabeth A. Nyboer, Ashley M. Robertson, Robert Arlinghaus, Shehu L. Akintola, Tuncay Atessahin, Laamiri Mohamed Badr, Claudio Baigun, Zeenatul Basher, Douglas Beard, Gergely Boros, Shannon D. Bower, Steven J. Cooke, Ian G. Cowx, Adolfo Franco, Ma. Teresa Gaspar-Dillanes, Vladimir Puentes Granada, Robert John Hart, Carlos Heinsohn, Vincent Jalabert, Andrzej Kapusta, Tibor Krajč, John D. Koehn, Gonçalo Lopes, Roman Lyach, Terence Magqina, Marco Milardi, Juliet Nattabi, Hilda Nyaboke, Sui C. Phang, Warren M. Potts, Filipe Ribeiro, Norman Mercado-Silva, Naren Sreenivasan, Andy Thorpe, Tomislav Treer, Didzis Ustups, Olaf L.F. Weyl, Louisa E. Wood, Mustafa Zengin, Abigail LynchAsking nicely: Best practices for requesting data
Compiling disparate datasets into publicly available composite databases helps natural resource communities explore ecological trends and effectively manage across spatiotemporal scales. Though some studies have reported on the database construction phase, fewer have evaluated the data acquisition and distribution process. To facilitate future data sharing collaborations, Louisiana State UniversitAuthorsSteve R. Midway, Nicholas A. Sievert, Abigail Lynch, Joanna B. Whittier, Kevin L. PopeCharacterizing mauka-to-makai connections for aquatic ecosystem conservation on Maui, Hawaiʻi
Mauka-to-makai (mountain to sea in the Hawaiian language) hydrologic connectivity – commonly referred to as ridge-to-reef – directly affects biogeochemical processes and socioecological functions across terrestrial, freshwater, and marine systems. The supply of freshwater to estuarine and nearshore environments in a ridge-to-reef system supports the food, water, and habitats utilized by marine fauAuthorsElla Wilmot, Jesse P. Wong, Yinphan Tsang, Abigail Lynch, Dana M. Infante, Kirsten L. L. Oleson, Ayron Strauch, Hannah ClilverdOverturning stereotypes: The fuzzy boundary between recreational and subsistence inland fisheries
Inland recreational fisheries provide numerous socio- economic benefits to fishers, families and communities. Recreationally harvested fish are also frequently consumed and may provide affordable and sustainable but undervalued contributions to human nutrition. Quantifying the degree to which recreationally harvested fish contribute to food security and subsistence is impeded by lack of data on haAuthorsElizabeth A. Nyboer, Holly Susan Embke, Ashley Robertson, Robert Arlinghaus, Shannon D. Bower, Claudio Baigun, Douglas Beard, Steve J. Cooke, Ian. G. Cowx, John D. Koehn, Roman Lyach, Marco Milardi, Warren M. Potts, Abigail LynchReducing uncertainty in climate change responses of inland fishes: A decision-path approach
Climate change will continue to be an important consideration for conservation practitioners. However, uncertainty in identifying appropriate management strategies, particularly for understudied species and regions, constrains the implementation of science-based solutions and adaptation strategies. Here, we share a decision-path approach to reduce uncertainty in climate change responses of inlandAuthorsAbigail Lynch, Bonnie Myers, Jesse P. Wong, Cindy Chu, Ralph W. Tingley, Jeffrey A. Falke, Thomas J. Kwak, Craig Paukert, Trevor J. KrabbenhoftSocietal values of inland fishes
a.Aim: To demonstrate the societal values of inland fishes through nine services provided by inland fishes. Each service is defined, key stakeholders identified, and threats enumerated. Diverse case studies (geography, taxonomy, fishery-type) provide examples to highlight the societal values around the world.b.Main concepts: Nine societal services of inland fishes – 1. Livelihoods and subsistenceAuthorsAbigail Lynch, Robert I. Arthur, Claudio Baigun, Julie E. Claussen, Külli Kangur, Aaron A. Koning, Karen J. Murchie, Bonnie Myers, Gretchen L. Stokes, Ralph William Tingley, So-Jung YounA future for the inland fish and fisheries hidden within the sustainable development goals
The United Nations Sustainable Development Goals (SDGs) are a unifying call for change - guiding global actions at multiple levels of governance for a better planet and better lives. Consequently, achieving the “future we want” may be hindered by overlooking valuable natural resources and services that are not explicitly included in the SDGs. Not recognizing the direct, intrinsic value of some natAuthorsVittoria Elliott, Abigail Lynch, Sui C. Phang, Steve J. Cooke, Ian. G. Cowx, Julie E. Claussen, James Dalton, William Darwall, Ian Harrison, Karen J. Murchie, E. Ashley Steel, Gretchen L. StokesEcological and social strategies for managing fisheries using the Resist-Accept-Direct (RAD) framework
Fisheries management is a complex task made even more challenging by rapid and unprecedented socioecological transformations associated with climate change. The Resist-Accept-Direct (RAD) framework can be a useful tool to support fisheries management in facing the high uncertainty and variability associated with aquatic ecosystem transformations. Here, RAD strategies are presented to address ecoloAuthorsAbigail Lynch, Frank J. Rahel, Douglas Limpinsel, Suresh Sethi, Agustin C. Engman, David J. Lawrence, Katherine E. Mills, Wendy Morrison, Jay O. Peterson, Mark T. PorathA Resist-Accept-Direct decision-support tool for walleye Sander vitreus (Mitchill) management in Wisconsin
Large-scale modelling and prediction provide insight into general influences of climate change on inland recreational fisheries; however, small-scale dynamics and local expertise will be key in developing explicit goals for managing recreational fisheries as the climate changes. The resist-accept-direct (RAD) framework encompasses the entire decision space managers consider when addressing climateAuthorsColin J. Dassow, Alex W. Latzka, Abigail Lynch, Greg G. Sass, Ralph W. Tingley, Craig Paukert - Web Tools
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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