SAES-422 Multistate Research Activity Accomplishments Report
Sections
Status: Approved
Basic Information
- Project No. and Title: NC_old1189 : Understanding the Ecological and Social Constraints to Achieving Sustainable Fisheries Resource Policy and Management
- Period Covered: 10/01/2011 to 09/30/2016
- Date of Report: 10/23/2018
- Annual Meeting Dates: 08/10/2016 to 08/12/2016
Participants
Taylor, William (taylorw@msu.edu) - Michigan State University; Buhler, Doug (buhler@msu.edu) - Michigan State University; Infante, Dana (infanted@msu.edu) - Michigan State University; Venturelli, Paul (paventurelli@bsu.edu) - Ball State University; Melstrom, Max (rmelstrom@luc.edu) - Loyola University Chicago; Hartman, Kyle (hartman@wvu.edu) - West Virginia University; Carlson, Andrew (carls422@msu.edu) - Michigan State University; Bertrand, Katie - formerly South Dakota State University; Wuellner, Melissa (wuellnermr@unk.edu) - University of Nebraska Kearney; Kinnison, Michael (mkinnison@maine.edu) - University of Maine; NC1189 partners not present at meeting: Sullivan, Mažeika (sullivan.191@osu.edu) - Ohio State University; Weber, Michael (mjw@iastate.edu) - Iowa State University; Newman, Raymond (newma004@umn.edu) -University of Minnesota; Zydlewski, Gayle (gayle.zydlewski@maine.edu) - University of Maine; DeVries, Dennis (devridr@auburn.edu) - Auburn University; Gray, Suzanne (gray.1030@osu.edu) - Ohio State University; Pegg, Mark (mpegg2@unl.edu) - University of Nebraska-Lincoln; Harrell, Reginal (rharrell@umd.edu) - University of Maryland; Todgham, Anne (todgham@ucdavis.edu) - University of California-Davis
See attached meeting minutes
Accomplishments
Short-term Outcomes: Described below in Outputs and Activities.
Outputs
Project activities have resulted in a variety of outputs, as described in the following bullet points.
- A collaborative, coupled human and natural systems research framework for investigating interactions between invasive species, climate change, and the productivity and sustainability of inland fisheries and aquatic resources.
- An assessment of the ecological and socioeconomic effects of climate change and invasive species on inland fisheries and aquatic resources. This assessment integrated data across disciplines to gain robust insights into climate change and invasive species problems, in order to make specific interdisciplinary management recommendations for mitigating detrimental effects on fisheries productivity.
- An assessment of data sets and syntheses of existing work that identify factors influencing individual and organizational responses to invasive species and climate change.
- An integrated model-building and data analysis framework for linking and merging biological and human dimensions databases.
- A prioritized list of data requirements for interdisciplinary questions that cannot be answered yet due to a lack of data.
- Meetings and workshops that conveyed information on how to influence individual behavior and organizational responses to invasive species and climate change in ways that benefit the management of inland fisheries and aquatic resources
- Peer-reviewed publications, research reports, and professional presentations communicating the results of this project (see below).
- Graduate student and postdoctoral fellow positions and undergraduate research internships.
In addition, outputs specific to particular subprojects are described below.
- Subproject 1 – TIPPING THE BALANCE: IDENTIFYING THRESHOLD CONDITIONS FOR OHIO’S FISHERIES: Outputs included undergraduate and graduate student training and educational outreach activities, including stream fish demonstrations to local youth groups and classes. We also created georeferenced fish assemblage and land-use data for all study sites.
- Subproject 5 – GENETIC, ECOLOGICAL, AND BEHAVIORAL DETERMINANTS OF LIFE HISTORY VARIATION IN BROOK TROUT (Salvelinus fontinalis): Outputs included an M.S. thesis focused on using air temperatures to predict stream temperatures and manage thermal habitats for Brook Trout. In addition, we developed regional models of climate change and its effect on growth and survival of Michigan stream trout, publishing this research in multiple peer-reviewed manuscripts. We also partnered with Michigan fisheries professionals to produce a decision-support tool that they can use to manage trout streams amid climatic changes.
- Subproject 6 – COMMUNITY CAPACITY FOR ECOSYSTEM-BASED MANAGEMENT IN NEW YORKS GREAT LAKES AND MARINE COASTAL AREAS: Outputs included oral presentations at regional and national fisheries/aquatic conferences, interviews with key staff of environmental agencies, and peer-reviewed publications.
- Subproject 7 - PRODUCTION DYNAMICS, GOVERNANCE, AND SUSTAINABILITY OF FISHERIES RESOURCES: Outputs included multiple linear regression models to predict Lake Whitefish recruitment based on environmental variables (i.e., temperature, wind speed, wave height, ice cover) and integration of fisheries-related datasets throughout the Great Lakes regions (e.g., distributions and abundances of stream fish assemblages, stocking locations for stream fishes, creel survey data).
Activities
Project activities were abundant and diverse across the various NC1189 subprojects, as described below.
Subproject 1 – TIPPING THE BALANCE: IDENTIFYING THRESHOLD CONDITIONS FOR OHIO’S FISHERIES: We worked within the Scioto River basin, a major Ohio tributary of the Ohio River, to investigate the distribution and composition of stream and river fish communities and their role in larger riverine food webs. Over the course of the project, this work involved three graduate students and multiple undergraduate students. Linkages with multiple stakeholders, including Ohio EPA and Ohio Department of Natural Resources (ODNR), strengthened the project throughout its duration. Educational outreach activities, including stream fish demonstrations to local youth groups and classes, linked the project to the community. For instance, we held a day in the field with a group of urban STEM students in the Olentangy River, Columbus, Ohio. Additional outputs included publications and presentations including at annual meetings of the Society for Freshwater Science and the Ohio Biodiversity Conservation Partnership. Indicators of progress include georeferenced fish assemblage and land-use data for all study sites as well as completed fish surveys. All of the above research and outreach efforts have direct implications for development of management strategies. Information from these projects has been presented to funding agencies, along with recommendations for potential application of these finding via management plans.
Subproject 4 - INTRINSIC AND EXTRINSIC INFLUENCES ON FISH GROWTH RATES:
A CASE EXAMPLE USING YELLOW PERCH: We formed a collaboration with Casey Schoenebeck (former professor at University of Nebraska at Kearney) to revise the preproposal (Wuellner, M., B. Graeb, and K. Bertrand. Preliminary Proposal: Prevalence and Persistence of Stunted Populations and the Effects of Directional Selection) that had been submitted to NSFs Population Biology panel for consideration. A revised pre-proposal was submitted as a small grant to the same NSF panel on January 23, 2013 (Wuellner, M., B. Graeb, K. Bertrand and C. Schoenebeck. Preliminary Proposal: SG: Understanding the Influence of Extrinsic Factors and Compensatory Growth Responses on Stunted Growth).
Subproject 5 – GENETIC, ECOLOGICAL, AND BEHAVIORAL DETERMINANTS OF LIFE HISTORY VARIATION IN BROOK TROUT (Salvelinus fontinalis): Our research on Brook Trout provides an effective tool for predicting the future suitability of stream thermal habitat for this species. A methodology for predicting these conditions was developed by Kelsey Schlee and her thesis committee members, in conjunction with Michigan State University employees, the United States Geological Survey, and students and faculty at the University of North Carolina. By using this methodology, resource managers will be able to assess the future viability of streams for Brook Trout, enabling them to take steps toward mitigating and preventing habitat loss due to changing air temperatures. This air temperature-based tool allows for stream temperature prediction even when stream-related data are limited. The outputs of this project are: a thesis report “The impact of climate change on Brook Trout (Salvelinus fontinalis) thermal habitat in the United States”, a public outreach factsheet, and a presentation of these results to the Michigan Natural Resources Commission.
We also developed regional models of climate change and its effect on growth and survival of ecologically, socioeconomically valuable Michigan stream trout, including Brook Trout, Brown Trout (Salmo trutta) and Rainbow Trout (Oncorhynchus mykiss). In particular, we measured the accuracy of stream-specific air-water temperature regression models by backcasting Michigan stream temperatures in 2006 and 2012, years with pre-existing air and stream temperature metrics. Then, we forecasted stream temperatures in 2036 and 2056 and projected impacts on the thermal habitat suitability of aquatic habitats for Brook Trout, Brown Trout, and Rainbow Trout growth and survival. We found that stream-specific models accurately projected temperature
and thermal habitat suitability status in streams containing these fishes in Michigan. Under multiple scenarios of projected climate change, stream-specific models predicted thermal habitat status with 93.0% percent overall accuracy. As baseflow index (i.e., relative groundwater input) increased, stream thermal sensitivity (i.e., relative susceptibility to temperature change) decreased. Thus, the magnitude of temperature warming and frequency of thermal habitat degradation were lowest in streams with the highest baseflow indices.
In addition, we compared the accuracy of stream-specific and generalized (region-specific) temperature models in groundwater-dominated to surface runoff-dominated streams in Michigan. Despite their lower accuracy in predicting exact stream temperatures, generalized models correctly projected trout thermal habitat suitability in 82% of groundwater-dominated
streams, including those with Brook Trout (80% accuracy), Brown Trout (89%), and Rainbow Trout (75%). In contrast, generalized models predicted thermal habitat suitability in runoff-dominated streams with much lower accuracy (54%). These results suggest that, amid climate change and constraints in resource availability (e.g., limited time, money, personnel), generalized models are useful for forecasting thermal conditions in groundwater-dominated streams and developing appropriate trout management strategies. We recommend fisheries professionals reserve resource-intensive stream-specific models for runoff-dominated systems containing high-priority fisheries resources (e.g. trophy individuals) that will be directly impacted by projected stream warming as opposed to those that will not be significantly affected. Overall, our
research provides a methodology for accurate stream temperature and thermal habitat suitability prediction and can thus be used to increase the thermal productivity and resilience of coldwater trout streams within and beyond Michigan. We used conference calls to consistently discuss stream temperature modeling methods, results, and conclusions as an NC1189 group, which allowed for cross-pollination of ideas across states and facilitated management-relevant research across the geographic area encompassed by our NC1189 partners.
Moreover, we also collaborated with Michigan fisheries professionals to produce a decision-support tool that they can use to manage trout streams amid climatic changes. To gather necessary information for the decision-support tool, we designed a 30-question survey instrument to evaluate the opinions and perspectives of Michigan fisheries professionals regarding the ecological, environmental, and socioeconomic aspects of trout production and management. The survey was sent to 40 Michigan Department of Natural Resources (MDNR) fisheries professionals (23% of fisheries staff) via SurveyMonkey, with reminder emails sent every three weeks during a 2.5-month time span in which the survey was open. The decision-support tool ranked trout streams based on manager-defined stream criteria (e.g., current and projected 2056 temperature, groundwater contribution, trout abundance, watershed land cover), enabling fisheries professionals to make ecologically, socioeconomically robust management decisions that promote thermally resilient and productive streams and trout populations. Stream ranking indicated that certain recreationally significant fisheries (e.g., Muskegon River) will experience warming that may cause them to become less important for trout management. However, lesser-known fisheries (e.g., Davenport Creek) were projected to become more thermally suitable for trout production and thus important for fisheries management. With this information available, managers can anticipate the future state of thermal, hydrological, and biological conditions in streams and thereby make informed, resilience-based management decisions to sustain trout fisheries in a changing climate.
Subproject 6 – COMMUNITY CAPACITY FOR ECOSYSTEM-BASED MANAGEMENT IN NEW YORKS GREAT LAKES AND MARINE COASTAL AREAS: Results from this project were presented at the annual meeting of the American Fisheries Society, the oikos Young Scholars Organization Academy, the Northeast Fish and Wildlife Conference, and the Managing Our Nations Fisheries 3 conference. Interviews with key staff were completed in New York State agencies charged with implementing an ecosystem-based approach to their activities. These included environment-related agencies such as Department of Environmental Conservation and Agriculture and Markets, and general agencies such as Department of State and Department of
Transportation.
Additional activities include work by NC1189 member Dr. Dennis DeVries and colleagues at Auburn University. A journal article was published that examines the impact on small scale shrimp farmers of certification systems for shrimp created in industrialized nations. A Working Paper was prepared for the Norwegian Research Council on genetic modification of key species used in aquaculture with a focus on transgenic salmon developed by AquaBounty Technologies. A separate manuscript was developed out of this Working Paper for submission to a peer-reviewed academic journal. A pre-proposal was submitted to the Louisiana Sea Grant program to compare oyster production in Louisiana and Alabama and likely receptivity to off-bottom production systems using hatchery-raised triploids. A book chapter was written examining the resiliency of coastal communities of Louisiana in the face of eustatic sea level rise. Projects were completed that quantified the movement of fish along the Alabama River as hindered by lock/dam structures, and the quantified the impacts of introduced yellow perch populations in two different reservoirs on the resident aquatic communities. Work was continued in freshwater/coastal areas relative to effects of the 2010 BP oil spill on the fish communities. Studies were conducted on freshwater pond communities via an assessment of the effects of pellet feeding on largemouth bass-bluegill pond communities, as well as the effects of threadfin shad presence on these pellet-feeding effects. Further research was conducted to quantify the respiration of non-game fishes that serve as mussel hosts across various temperatures and dissolved oxygen concentrations to determine the influence of impoundment presence on downstream fishes that serve as mussel hosts.
Subproject 7 - PRODUCTION DYNAMICS, GOVERNANCE, AND SUSTAINABILITY OF FISHERIES RESOURCES: To determine if key climate variables improve modeled recruitment estimates for Lake Whitefish (Coregonus clupeaformis), we examined the following variables for inclusion in multiple linear regressions: temperature, wind speed, wave height, and ice cover. To determine the best-fitting model for each management unit, we compared all possible combinations of models including climate variables to the standard stock-recruitment Ricker model (without the addition of any climate variables) using corrected Akaike’s Information Criterion (AICc). To project the relationships described by the best-fitting models of climate
and recruitment, we used the Coupled Hydrosphere-Atmosphere Research Model (CHARM), a simulation model of climate and water resources in the Great Lakes Region. We projected Lake Whitefish recruitment for each management unit using these CHARM outputs as inputs into the models identified through AICc selection for each management unit to generate projections of Lake Whitefish recruitment for 2050-2070. AICc comparisons indicated that the inclusion of selected climate variables significantly improved model fit in eight of the 13 management units evaluated. Isolating the climate-recruitment relationship and projecting recruitment using the
CHARM suggested increased Lake Whitefish recruitment in the majority of the 1836 Treaty Waters management units given projected changes in climate. Projected recruitment changes from the 2007 estimates to the 2050-2070 projections range from over a 250% increase to almost an 80% declines. As discussed above, these improved models may influence total allowable catches and designate harvest regulations for the Lake Whitefish fisheries in the Great Lakes. These results can inform adaptive management strategies to ensure a sustainable and prosperous Lake Whitefish fishery, now and in the future climate conditions.
In support of the NC1189 research themes, we compiled a variety of datasets throughout the Great Lakes region. These efforts also support this subproject’s Objective 1 (Understanding of the causes underlying the changes in habitat, such as climate change, invasive species, and land use, and the associated effects on the production and resilience of fisheries and aquatic communities) and Objective 3 (Improve understanding of the factors underlying public awareness, engagement and public support for fisheries resources, aquatic ecosystems, and fisheries sustainability). We linked these data to a standardized spatial framework to map and conduct spatial analyses that may be broadly used to understand production potential and resilience of stream fisheries currently and into the future. Data sets included distributions and abundances of stream fish assemblages, stocking locations for stream fishes, and creel survey data. We also incorporated current stream habitat factors as well as projected changes in stream flow and thermal characteristics anticipated to occur under multiple future climate scenarios. A third type of data included natural and anthropogenic landscape changes known to influence fish distribution throughout the region (and influencing fisheries potential of waterbodies). These included factors such as geology, natural landscape covers like forest and wetlands, and human land uses such as urbanization, agriculture, and mines. By integrating these datasets into
a common spatial framework, we conducted analyses to 1) identify current limits to stream fish and fisheries productivity; and 2) identify changes in habitats that occur with climate change that may influence the potential and/or resilience of waterbodies to support fisheries into the future. Integration of datasets into a common spatial framework aided in decision-making on where and how to prioritize management of stream fishes into the future, can be used to better understand angler preferences, and may be useful in garnering future public support to ensure sustainable fisheries into the future.
Milestones
Milestones that encapsulate all of the project’s short-term outcomes, outputs, and activities were:
- Foster a collaborative, coupled human and natural systems research framework to assess the ecological and socioeconomic effects of climate change and invasive species on the productivity of inland fisheries and aquatic resources.
- Analyze the ecological, environmental and socioeconomic factors which mitigate or exacerbate the introduction, establishment, or effects of invasive species and climate change effects at multiple spatial and ecological scales.
- Determine the socioeconomic and environmental factors that influence the ways in which individuals and organizations respond to invasive species and climate change and the likely consequences of those responses for effective inland fisheries and aquatic resource management.
In addition to these broad targets, key milestones for specific subprojects are described below.
Subproject 1 – TIPPING THE BALANCE: IDENTIFYING THRESHOLD CONDITIONS FOR OHIO’S FISHERIES:
(2013): Collected field data related to fish-dominated food webs and aquatic habitat in representative Ohio drainages. Milestone Status: Complete
Subproject 3 – FACTORS INFLUENCING RECRUITMENT OF SPORT FISH POPULATIONS IN ILLINOIS:
(2013-17): Collect data on factors influencing recruitment in sportfish populations. Milestone Status: Complete
Subproject 4 – INTRINSIC AND EXTRINSIC INFLUENCES ON FISH GROWTH RATES: A CASE EXAMPLE USING YELLOW PERCH:
(2013): Collect extant data on yellow perch populations and categorize populations as exhibiting stunted body size or not. Milestone Status: Complete
Subproject 5 – GENETIC, ECOLOGICAL, AND BEHAVIORAL DETERMINANTS OF LIFE HISTORY VARIATION IN BROOK TROUT (Salvelinus fontinalis):
(2011-2013): Identification and study of populations of interest in the U.S. and Canada. Milestone Status: Complete
Subproject 6 – COMMUNITY CAPACITY FOR ECOSYSTEM-BASED MANAGEMENT IN NEW YORKS GREAT LAKES AND MARINE COASTAL AREAS:
(2012-2013): Implementation of surveys, data collection. Milestone Status: Complete
(2013): Data analysis, draft report and manuscript preparation. Milestone
Status: Complete
(2013): Sharing of draft reports with stakeholders in case study communities, and with key Council members. Milestone Status: Complete
Subproject 7 – PRODUCTION DYNAMICS, GOVERNANCE, AND SUSTAINABILITY OF FISHERIES RESOURCES:
(2011-2014): Collect field data evaluating environmental and social resilience in the face of changing demands on fish and fish habitats and analyze related fish population dynamics. Milestone Status: Complete
(2012-2015): Develop and evaluate feasibility of a decision support tool for fishery harvest management in a changing climate. Milestone Status: Complete
(2015-2016): Preparation of final project reports and manuscripts. Milestone Status: Complete
Impacts
- • All of the above research efforts have direct implications for development of management strategies. Information from these projects has been presented to the funding agencies, along with recommendations for potential application of these finding via management plans.
- • We hosted fishery managers and interdisciplinary researchers to discuss new approaches to fisheries challenges at the “Ecosystem services: Bridging natural and social sciences toward sustainable polices” symposium held August 20, 2014 during the American Fisheries Society Annual Conference in Quebec City. The session focused on communicating the value of inland fisheries, the ecosystem services framework, using interdisciplinary approaches to balance stakeholder demands, integrating new knowledge and technology, and more effective fisheries regulations enforcement.
- • Sub-project 1 involved research to improve understanding of how climate and land use affect aquatic ecosystems and fisheries resources in the Ohio River basin. We gathered information related to fish community structure and function in Ohio River drainages, land-use and land-cover, and climate. We developed predictive population and habitat models that allowed managers to quantify threshold levels of environmental change that trigger drastic losses in the quality and productivity of fisheries and aquatic resources.
- • Sub-project 6 identified barriers to Ecosystem-Based Fishery Management (EBFM), including economic impacts, lack of science, absence of definitive action plans, and the constraints of relevant laws. Steps for facilitating EBFM by Fisheries Management Councils include: creation of clear action plans, council decision-maker and stakeholder buy-in, legislation that requires and prioritizes EBFM, increased certainty in EBFM science, and additional information about the social impacts of transitioning from stock-specific fisheries management to EBFM.
- • Research on the response to eustatic sea level rise among coastal residents of Louisiana was commissioned by three major environmental groups (Nature Conservancy, National Audubon Society, and the Environmental Defense Fund), who are using this research in policy dialogue with the U.S. Army Corps of Engineers, the U.S. Geologic Survey, and the State of Louisiana.
- • Research on certification systems affecting shrimp produced by small-scale farmers in the tropics alerted certification bodies that their well-intended governance system may have unintended consequences.
- • Sub-project 7 quantified the relationship between Lake Whitefish recruitment and climate variables such as temperature, wind, and ice cover in the 1836 Treaty Waters of the Great Lakes. Projecting the relationship between these climate variables and recruitment forward with climate change has helped fishery managers anticipate changes in recruitment and prepare adaptive management strategies to maintain fish production and sustainable harvest into the future.
Publications
Bailey, Conner. 2013. Remaking Fish for Aquaculture in the United States: From Selective Breeding to Genetic Engineering. Working Paper. The Research Council of Norway (Project number 202374/I10) Governing Food in a Globalising Environment. Oslo: Research Council of Norway.
Bailey, C. Aquaculture, Ecology, and International Public Health. Invited Guest Lecture. Johns Hopkins University Bloomberg School of Public Health. January 29, 2014.
Bailey, C., and N. V. Tran. 2014. Deltaic Systems, Sea Level Rise, and Disruption of Coastal Aquaculture in the Tropics. 2014. Paper presented at the 2014 meetings of the Rural Sociological Society, New Orleans, July 31 – August 3, 2014.
Bailey, Conner, Bob Gramling, and Shirley Laska. 2014. Complexities of Resilience: Adaptation and Change within Human Communities of Coastal Louisiana. In The Once and Future Delta. Editors, J. Day, P. Kemp, A. Freeman, and David Muth. Springer.
Bartley, D. M. N. J. Leonard, S. Youn, W. W. Taylor, C. Baigún, C. Barlow, J. Fazio, C. Fuentevilla, J. Johnson, B. Kone, K. Meira, R. Metzner, P. Onyango, D. Pavlov, B. Riley, J. Ruff, P. Terbasket, and J. Valbo-JørgensenMoving towards effective governance of fisheries and freshwater resources. In: Taylor, W. W., D. M. Bartley, C. I. Goddard, N. J. Leonard, and R. Welcomme (eds.) Freshwater, Fish and the Future: Proceedings of the Global Cross-Sectoral Conference. American Fisheries Society, Food and Agriculture Organization of the United Nations, and Michigan State University.
Beard, Jr., T. D., E. H. Allison, D. M. Bartley, I. G. Cowx, S. J. Cooke, C. Fuentevilla, A. J. Lynch, and W. W. Taylor. Inland fish and fisheries: a call to action. In: Taylor, W. W., D. M. Bartley, C. I. Goddard, N. J. Leonard, and R. Welcomme (eds.) Freshwater, Fish and the Future: Proceedings of the Global Cross-Sectoral Conference. American Fisheries Society, Food and Agriculture Organization of the United Nations, and Michigan State University.
Biedron, I. S. 2014. Ecosystem-Based Fisheries Management: Perspectives of fishery management councils and stakeholders in the New England and Mid-Atlantic regions. (Unpublished doctoral dissertation). Cornell University, Ithaca, NY.
Biedron, I. S. and Knuth, B. A. 2014. Stakeholder perspectives and social factors: Driving factors in the Mid-Atlantic and New England fishery management council transition to Ecosystem-Based Fisheries management. Poster at the Regional Association for Research on the Gulf of Maine (RARGOM) Annual Science meeting,Boston, MA, September 30.
Biedron, I. S. and Knuth, B. A. 2014. Stakeholder perspectives and social factors: the Mid-Atlantic and New England Fishery Management Council transition to Ecosystem-Based Fisheries Management. Presentation at the American Fisheries Society (AFS) Meeting, Quebec City, QC, August 19.
Biedron, I. S. and Knuth, B. A. 2014. Ecosystem-Based Fisheries Management: Perspectives of fishery management councils and stakeholders in New England and the Mid-Atlantic. Presentation at New England Fishery Management Council (NEFMC) EBFM Oversight Committee meeting, Danvers, MA, July 31.
Biedron, I. S. 2014. Ecosystem-Based Fisheries Management: Perspectives of fishery management councils and stakeholders in New England and the Mid-Atlantic. Doctoral Presentation for the Natural Resources Departmental Seminar, Cornell University, Ithaca, NY, June 10.
Biedron, I. S. and Knuth, B. A. 2014. Stakeholder communication and the transition to Ecosystem-Based Fisheries Management for the Mid-Atlantic and New England fishery management councils. Presentation for the Northeast Association of Fish and Wildlife Agencies (NEAFWA) Conference, Portland, ME, April 15.
Biedron, I. S. and Knuth, B. A. 2013. A survey of stakeholder perspectives about Ecosystem Based Fisheries Management and the Mid-Atlantic and New England Fishery Management Councils. Presentation at the Mid-Atlantic Fishery Management Council MAFMC Meeting, Annapolis, MD. December 12, 2013.
Boyer, T. A., R. T. Melstrom, L. D. Sanders. 2017. Effects of climate variation and water levels on reservoir recreation. Lake and Reservoir Management 33:223-233.
Carlson, A. K. 2016. In the footsteps of a heroine: honoring Janice Lee Fenske. Fisheries 41:574-575.
Carlson, A. K., T. G. Zorn. 2018. Values, opinions, and behavior of inland trout anglers in Michigan. Michigan Department of Natural Resources. Fisheries Report No. 29. Lansing, Michigan.
Carlson, A. K., W. W. Taylor. In the footsteps of a heroine: honoring Janice Lee Fenske’s fisheries legacy. Annual Meeting of the Michigan Chapter of the American Fisheries Society. Mackinaw City, Michigan. (Best Student Paper)
Carlson, A. K., W. W. Taylor, D. M. Infante. 2017. Accounting for groundwater and precipitation dynamics in stream temperature modeling to achieve resilient salmonid management in a changing climate. 147th Annual AFS Meeting, Tampa, Florida.
Carlson, A. K., W. W. Taylor, D. M. Infante. 2017. Going against the flow: modeling coldwater stream temperatures from above and below. 77th Annual Midwest Fish and Wildlife Conference. Lincoln, NE.
Carlson, A. K., W. W. Taylor, D. M. Infante. 2018. Impact of changes in precipitation and groundwater on brook charr thermal habitat in Michigan streams. 9th Annual International Charr Symposium. Duluth, Minnesota.
Carlson, A. K., W. W. Taylor, D. M. Infante. In review. Applying precipitation- and groundwater-corrected stream models to brook charr management in a changing climate.
Carlson, A. K., W. W. Taylor, J. Liu. 2018. Using the metacoupling framework to enhance fisheries management and governance. 148th Annual AFS Meeting, Atlantic City, New Jersey.
Carlson, A. K., W. W. Taylor, J. Liu, I. Orlic. 2017. The telecoupling framework: an integrative tool for enhanced fisheries management. Fisheries 42:395-397.
Carlson, A. K., W. W. Taylor, J. Liu, I. Orlic. 2018. Peruvian anchoveta as a telecoupled fisheries system. Ecology and Society 23(1):35.
Carlson, A. K., W. W. Taylor, J. Liu, I. Orlic. 2018. Telecoupled fisheries: insights and applications for sustainability. Annual Meeting of the United States Regional Association of the International Association for Landscape Ecology. Chicago, Illinois.
Carlson, A. K., W. W. Taylor, K. M. Hartikainen, D. M. Infante, T. D. Beard, Jr., A. J. Lynch. 2017. Comparing stream-specific to generalized temperature models to guide coldwater salmonid management in a changing climate. Reviews in Fish Biology and Fisheries 27:443-462.
Carlson, A. K., W. W. Taylor, K. M. Schlee, T. G. Zorn, D. M. Infante. 2017. Projected impacts of climate change on stream salmonids with implications for resilience-based management. Ecology of Freshwater Fish 26:190-204.
Carlson, A. K., W. W. Taylor, K. M. Schlee, T. G. Zorn, D. M. Infante. 2016. Projected impacts of climate change on stream salmonids with implications for resilience-based management. 76th Annual Midwest Fish and Wildlife Conference. January 24-26, 2016. Grand Rapids, Michigan.
Carlson, A. K., W. W. Taylor, K. M. Schlee, T. G. Zorn, D. M. Infante. 2016. Resilience-based management of coldwater streams and their salmonid populations in a changing climate. 7th World Fisheries Congress. May 23-27, 2016. Busan, South Korea.
Carlson, A. K., W. W. Taylor, T. Douglas Beard, Jr., D. M. Infante. 2017. Stream science to action: a decision-support tool for salmonid thermal habitat management amidst climate change. 77th Annual Midwest Fish and Wildlife Conference. Lincoln, NE.
Carlson, A. K., W. W. Taylor, Z. Basher, T. D. Beard, Jr., D. M. Infante. 2017. Linking stream temperature modeling with decision-support tools for resilience-based salmonid management in a changing climate. 147th Annual AFS Meeting, Tampa, Florida.
Carlson, A. K., W. W. Taylor, Z. Basher, T. D. Beard, Jr., D. M. Infante, T. G. Zorn. 2017. Integrating decision-support and stream temperature modeling for resilience-based salmonid management in a changing climate. Wild Trout Symposium XII. West Yellowstone, Montana.
Carlson, A. K., W. W. Taylor, Z. Basher, T. D, Beard, Jr., and D. M. Infante. 2018. Resilient trout management in a changing climate: integrating stream temperature modeling and decision-support. 78th Annual Midwest Fish and Wildlife Conference. Milwaukee, Wisconsin.
Carlson, A. K., W. W. Taylor, Z. Basher, T. D. Beard, Jr., D. M. Infante. 2018. Science to action: decision-support to advance stream trout management in a changing climate. Proceedings of the Wild Trout XII Symposium 12:85-92.
Cooke, S. J., D. M. Bartley, T. D. Beard, I. G. Cowx, C. I. Goddard, C. Fuentevilla, N. J. Leonard, A. J. Lynch, K. Lorenzen, and W. W. Taylor. From ideas to action: ten steps to responsible inland fisheries that support livelihoods, food security, and healthy aquatic ecosystems. In: Taylor, W. W., D. M. Bartley, C. I. Goddard, N. J. Leonard, and R. Welcomme (eds.) Freshwater, Fish and the Future: Proceedings of the Global Cross-Sectoral Conference. American Fisheries Society, Food and Agriculture Organization of the United Nations, and Michigan State University.
DeVries, D.R. 2013. A tale of two animals: the importance of aquatic habitat and flow. Pages 136-139 in Auburn Speaks: On Water. Auburn University, Auburn, Alabama.
DeVries, D.R., R.A. Wright, D.C. Glover, T.M. Farmer, M R. Lowe, A.J. Norris, and A.C. Peer. 2015. Largemouth Bass in coastal estuaries: A comprehensive study from the Mobile-Tensaw River Delta, Alabama. In Black Bass Diversity: Multidisciplinary Science for Conservation. American Fisheries Society Special Publication. (30 MS pages, 1 figure).
Farmer, T.M, D.R. DeVries, R.A. Wright, and J.E. Gagnon. 2013. Using seasonal variation in otolith microchemical composition to indicate Largemouth Bass and Southern Flounder residency patterns across an estuarine salinity gradient. Transactions of the American Fisheries Society 142: 1415-1429.
Glover, D.G., D.R. DeVries, and R.A. Wright. 2013. Growth of largemouth bass in a dynamic estuarine environment: an evaluation of the relative effects of salinity, diet, and temperature. Canadian Journal of Fisheries and Aquatic Sciences 70:485-501.
Good, M. 2015. Law Enforcement: A Critical Management Tool for Ensuring Fisheries Sustainability. Presentation to the American Fisheries Society. Portland, Oregon.
Good, M. 2015. Legally Licensed - the Conservation Benefits of Buying a Fishing License. Presentation to the American Fisheries Society. Portland, Oregon.
Guthrie, A., C. Zuccarino-Crowe, R. Brock, and A. Mabrouk. 2015. Evaluating Protected Area Approaches to Fisheries Conservation in Marine and Freshwater Systems. Presentation to the American Fisheries Society. Portland, Oregon.
Hamel, M.J., K.D. Steffensen, J.J. Hammen, and M.A. Pegg. 2013. Evaluation of passive integrated transponder tag retention from two tagging locations in juvenile pallid sturgeon. Journal of Applied Ichthyology 29:41-43.
Hartman, K.J. 2017. Bioenergetics of brown bullhead in a changing climate. Transactions of the American Fisheries Society 146:634-644.
Hartman, K. J., O. Jensen. 2017. Anticipating climate change impacts on Mongolian salmonids: bioenergetics models for lenok and Baikal grayling. Ecology of Freshwater Fish 26:383-396.
Infante, D. M., W. M. Daniel, K. Herreman, J. Nohner, and W. W. Taylor. Invited.Enhancing assessments of river condition for improved conservation and management of fluvial fish habitat. 144th Annual Meeting of the American Fisheries Society, August 17-21, 2014, Quebec City, Quebec.
Kinnison, M. T, S. A. Carlson. 2017. An introduction to redefining Darwinian Fisheries. 147th Annual Meeting of the American Fisheries Society, Tampa, FL.
Lima, J. S.G. and C. Bailey. 2014. Shrimp Farming as a Coastal Zone Challenge in Sergipe State, Brazil: Balancing Goals of Conservation and Social Justice. Forthcoming in C.W. Finkl and C. Makowski (eds.), Environmental Management and Governance: Advances in Coastal and Marine Resources. Coastal Research Library 8. London: Springer International Publishing. DOI: 10.1007/978-3-319-06305-8_9.
Lynch, A. J. 2013. One Fish, Two Fish, Where Fish for Whitefish? Fisheries 38(8):356.
Lynch, A.J. 2013. Designing a Climate Change Decision-Support Tool for Great Lakes Whitefish. Online decision support tool available at: http://www.miseagrant.umich.edu/explore/fisheries/climate-change-whitefish.
Lynch, A.J. and W.W. Taylor. 2013. The Four Fs of Fish: Communication of Public Value of Fish and Fisheries. Fisheries 38(1): 43-33.
Lynch, A. J., T. D. Beard, Jr., A. Cox, Z. Zarnic, S. C. Phang, C. C. Arantes, R. Brummett, J. f. Cramwinckel, L. J. Gordon, Md. A. Husen, J. Liu, P. H. Nguyen, and P. K. Safari. Drivers and synergies in the management of inland fisheries: searching for sustainable solutions. In: Taylor, W. W., D. M. Bartley, C. I. Goddard, N. J. Leonard, and R. Welcomme (eds.) Freshwater, Fish and the Future: Proceedings of the Global Cross-Sectoral Conference. American Fisheries Society, Food and Agriculture Organization of the United Nations, and Michigan State University.
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Nohner, J. K. and W. W. Taylor. 2015. Effects of Macrophytes on Growth of Age-0 Largemouth Bass in Experimental Enclosures. Presentation to the American Fisheries Society. Portland, Oregon.
Nohner, J. K., F. Lupi, and W. W. Taylor. 2018. Lakefront property owners' willingness to accept easements for conservation of water quality and habitat. Water Resources Research 54:1-16.
Nohner, J. K., W. W. Taylor, D. B. Hayes, and B. M. Roth. 2018. Influence of aquatic macrophytes on age-0 Largemouth Bass growth and diets. Transactions of the American Fisheries Society. DOI:10.1002/tafs.10067
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Pope, K. L., L. A. Powell, B. S. Harmon, M. A. Pegg, C.J. Chizinski. 2017. Estimating the number of recreational anglers for a given waterbody. Fisheries Research 191:69-75.
Purcell, T.R., D.R. DeVries, and R.A. Wright. 2013. The relationship between shoreline development and resident fish communities in a Southeastern U.S. reservoir. Lake and Reservoir Management 29:270-278.
Rasmussen, J., H.A. Regier, R.E. Sparks and W.W. Taylor 2013. Aquatic Invasive Species Risks to the Great Lakes and Mississippi River Basins: Asian Carp as a Case for Serious Consideration of Hydrologic Separation. In: Taylor, W.W., A.J. Lynch, N.J. Leonard, (eds.) Great Lakes Fisheries Policy and Management: A Binational Perspective (Second Edition). MSU Press: East Lansing, MI. pp 767-786.
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Riley, B., J. Martin, and W. W. Taylor. Politics of change: what fisheries scientists and professionals can learn from political campaigns. Fisheries 41:271-273.
Siddons, S. F., Klein, G., N. P. Hogberg, M. A. Pegg. 2017. Borders and Barriers: Challenges of Fisheries Management and Conservation in Open Systems. River Research and Applications 33:578-585.
Simon, C. 2014. Understanding ecosystem based management: A content analysis of publications in select environmental and natural resource journals 1993-2013. The Department of Natural Resources Graduate Student Symposium, Cornell University, January 2014.
Spurgeon, J. J., M. A. Pegg. 2017. Fish growth and river flows: response of a non-fluvial specialist and applicability of current river production models. Freshwater Biology 62:291-302.
Steffensen, K.D., B.L. Eder, and M.A. Pegg. 2013. Trotline efficiencies and catch dynamics in a large river system. Fisheries Ecology and Management.
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Stewart, J. S., and D. M. Infante. Invited. 2014. Enhancing decision making for managing fluvial habitats: Current status and future opportunities with FishVis. Great Lakes Fishery Trust Aquatic Connectivity Workshop, September 4-5, 2014, Lansing, Michigan.
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Taylor, W. W., D. M. Bartley, N. J. Leonard, A. J. Lynch, S. Youn, E. Allison, F. Marttin, T. D. Beard Jr., S. Cooke, I. G. Cowx, and R. M. Entsua-Mensah. Global Conference on Inland Fisheries. 7th World Fisheries Congress. May 23 – 27, 2016. Busan, South Korea.
Taylor, W.W., K.B. Mueller and J.T. Martin 2013. Epilogue: Fisheries sustainability and water policy: The need to think beyond the basin boundaries. In: Taylor, W.W., A.J. Lynch, N.J. Leonard, (eds.) Great Lakes Fisheries Policy and Management: A Binational Perspective (Second Edition). MSU Press: East Lansing, MI. pp. 787-792.
Taylor, W. W., M. Good, T. Scholze, A. K. Carlson, H. Triezenberg, B. Lambe. 2017. The changing face of recreational fisheries in the Laurentian Great Lakes and its ecological and socio-economic consequences. 8th World Recreational Fishing Conference. Victoria, British Columbia.
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Unver, O., L. Pluschke, B. Riley, and S. Youn. Water governance and management for sustainable development. In: Taylor, W. W., D. M. Bartley, C. I. Goddard, N. J. Leonard, and R. Welcomme (eds.) Freshwater, Fish and the Future: Proceedings of the Global Cross-Sectoral Conference. American Fisheries Society, Food and Agriculture Organization of the United Nations, and Michigan State University.
Youn, S., E. H. Allison, C. Fuentevilla, S. Funge-Smith, H. Triezenberg, M. Parker, S. Thilsted, P.Onyango, W. Akpalu, G. Holtgrieve, M. J. Good, and S. Muise. The underappreciated livelihood contributions of inland fisheries and the societal consequences of their neglect. In: Taylor, W. W., D. M. Bartley, C. I. Goddard, N. J. Leonard, and R. Welcomme (eds.) Freshwater, Fish and the Future: Proceedings of the Global Cross-Sectoral Conference. American Fisheries Society, Food and Agriculture Organization of the United Nations, and Michigan State University.
Youn, S., W. W. Taylor, S. Funge-Smith, and R. Welcomme. Using fish consumption data to estimate inland fisheries harvest. 146th Annual Meeting of the American Fisheries Society. August 21 – 26, 2016. Kansas City, Missouri.
Youn, S. J., W. W. Taylor, T. D. Beard Jr., R. Welcomme. 2015. Use of Household Dynamics to Estimate Inland Fisheries Harvest. Presentation to the American Fisheries Society. Portland, Oregon.