110 results on '"Tomas O. Höök"'
Search Results
2. Nearshore fish assemblage dynamics in southern Lake Michigan: 1984–2016
- Author
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Christopher R. Malinowski, Jason C. Doll, and Tomas O. Höök
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Ecology ,Aquatic Science ,Ecology, Evolution, Behavior and Systematics - Published
- 2022
3. An evaluation of fish spawning on degraded and remnant reefs in Saginaw Bay, Lake Huron
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Nicholas I. Kalejs, Mitchell T. Zischke, Jayson S. Beugly, Paris D. Collingsworth, Edward F. Roseman, Robert D. Hunter, David G. Fielder, and Tomas O. Höök
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Ecology ,Aquatic Science ,Ecology, Evolution, Behavior and Systematics - Published
- 2022
4. Temporal variation in the niche partitioning of Lake Michigan salmonines as it relates to alewife abundance and size structure
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Matthew S. Kornis, Benjamin A. Turschak, Bryan G. Matthias, Tomas O. Höök, Jacques Rinchard, Sergiusz J. Czesny, Charles R. Bronte, Austin Happel, Brandon S. Gerig, Benjamin S. Leonhardt, and Harvey A. Bootsma
- Subjects
Ecological niche ,Community ,Stable isotope ratio ,Abundance (ecology) ,Ecology ,Niche differentiation ,Environmental science ,Alewife ,Aquatic Science ,Ecology, Evolution, Behavior and Systematics - Abstract
Stable isotope analyses offer a useful means for quantifying ecological niche dimensions, though few studies have examined isotopic response of an ecological community with respect to resource gradients such as fluctuations in prey availability. Stable carbon and nitrogen isotopes were measured for Lake Michigan salmonines and their prey collected from 2014 to 2016. Bayesian ellipse and mixing model analyses were used to quantify isotopic niche characteristics and diets, respectively, among species and years. During the 3-year study period, abundance and size structure of preferred alewife (Alosa pseudoharengus) prey changed substantially and offered an opportunity to explore predator isotopic niche response and diet shifts along a prey resource gradient. Results suggested increased reliance on alewives, especially small alewives, over the study period and were consistent with greater availability of this prey. However, differential use of alewife size classes and alternative prey sources by salmonine predators was apparent, which suggested possible resource partitioning. Characterization of ecological niche overlap using stable isotopes likely requires consideration of shared resource availability as well as specific prey and habitat preferences.
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- 2022
5. Nutrient loading effects on fish habitat quality: Trade‐offs between enhanced production and hypoxia in Lake Erie, North America
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L. Zoe Almeida, Timothy M. Sesterhenn, Daniel K. Rucinski, and Tomas O. Höök
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Aquatic Science - Published
- 2022
6. Microplastics Impact Simple Aquatic Food Web Dynamics Through Reduced Zooplankton Feeding and Potentially Releasing Algae from Consumer Control
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Christopher Robert Malinowski, Catherine L. Searle, James Schaber, and Tomas O. Höök
- Published
- 2023
7. Consequences of changing water clarity on the fish and fisheries of the Laurentian Great Lakes
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Lars G. Rudstam, Edward S. Rutherford, Paris D. Collingsworth, Stuart A. Ludsin, Tomas O. Höök, Richard P. Barbiero, Anne E. Scofield, Henry A. Vanderploeg, David B. Bunnell, Layne Gaynor, Craig E. Williamson, Marten A. Koops, Barry M. Lesht, and Roger L. Knight
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Fishery ,Water clarity ,Geography ,Environmental change ,%22">Fish ,Aquatic Science ,Ecology, Evolution, Behavior and Systematics - Abstract
Human-driven environmental change underlies recent changes in water clarity in many of the world’s great lakes, yet our understanding of the consequences of these changes on the fish and fisheries they support remains incomplete. Herein, we offer a framework to organize current knowledge, guide future research, and help fisheries managers understand how water clarity can affect their valued populations. Emphasizing Laurentian Great Lakes findings where possible, we describe how changing water clarity can directly affect fish populations and communities by altering exposure to ultraviolet radiation, foraging success, predation risk, reproductive behavior, or territoriality. We also discuss how changing water clarity can affect fisheries harvest and assessment through effects on fisher behavior and sampling efficiency (i.e., catchability). Finally, we discuss whether changing water clarity can affect understudied aspects of fishery performance, including economic and community benefits. We conclude by identifying generalized predictions and discuss their implications for priority research questions for the Laurentian Great Lakes. Even though the motivation for this work was regional, the breadth of the review and generality of the framework are readily transferable to other freshwater and marine habitats.
- Published
- 2021
8. Dispersive currents from narrow windows of time explain patterns of population connectivity in an ecologically and economically important fish
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Claire Schraidt, Amanda S. Ackiss, Wesley A. Larson, Mark D. Rowe, Tomas O. Höök, and Mark R. Christie
- Abstract
Identifying the drivers of population connectivity remains a fundamental question in ecology and evolution. Answering this question can be challenging in aquatic environments where dynamic lake and ocean currents, high variance in reproductive success, and above average rates of dispersal and gene flow can increase noise. We developed a novel, integrative approach that couples detailed biophysical models with eco-genetic individual-based models to generate ‘predictive’ values of genetic differentiation. We also used RAD-Seq to genotype 960 yellow perch (Perca flavescens), a species with an ∼30-day pelagic larval duration (PLD), collected from 20 sites circumscribing Lake Michigan. By comparing predictive and empirical values of genetic differentiation, we estimated the relative contributions for known drivers of population connectivity (e.g., currents, behavior, PLD). For the main basin populations (i.e., the largest contiguous portion of the lake), we found that high gene flow led to low overall levels of genetic differentiation among populations (FST= 0.003). By far the best predictors of genetic differentiation were connectivity matrices that1.came from a specific week and year, and2.resulted in high population connectivity. Thus, these narrow windows of time during which highly dispersive currents occur are driving the patterns of population connectivity in this system. We also found that populations from the northern and southern main basin are slightly divergent from one another, while those from Green Bay and the main basin are highly divergent (FST= 0.11). By integrating biophysical and eco-genetic models with genome-wide data, we illustrate that the drivers of population connectivity can be identified in high gene flow systems.
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- 2022
9. Assessment of Two Techniques for Remediation of Lacustrine Rocky Reef Spawning Habitat
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Alexander J. Gatch, Edward F. Roseman, Scott T. Koenigbauer, and Tomas O. Höök
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Fishery ,geography ,geography.geographical_feature_category ,Ecology ,Spawning habitat ,Environmental remediation ,Environmental science ,Management, Monitoring, Policy and Law ,Aquatic Science ,Reef ,Ecology, Evolution, Behavior and Systematics - Published
- 2021
10. Sex-specific plasticity in a trophic polymorphic aquatic predator: a modeling approach
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Peter Eklöv, Tomas O. Höök, and Richard Svanbäck
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Male ,0106 biological sciences ,Sex Characteristics ,Phenotypic plasticity ,Perch ,010604 marine biology & hydrobiology ,Nutritional Status ,Biology ,Plasticity ,biology.organism_classification ,Adaptation, Physiological ,010603 evolutionary biology ,01 natural sciences ,Sex specific ,Sexual dimorphism ,Taxon ,Perches ,Evolutionary biology ,Animals ,Humans ,Female ,Predator ,Ecosystem ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
Phenotypic plasticity is common among animal taxa. While there are clearly limits and likely costs to plasticity, these costs are unknown for most organisms. Further, as plasticity is partially genetically determined, the potential magnitude of exhibited plasticity may vary among individuals. In addition to phenotypic plasticity, various animal taxa also display sexual size dimorphism, a feature ultimately thought to arise due to differential size-dependent fitness costs and benefits between sexes. We hypothesized that differential selection acting on males and females can indirectly select for unequal genetically defined plasticity potential between the sexes. We evaluate this possibility for Eurasian perch (Perca fluviatilis), a species that displays modest sexual size dimorphism and habitat-related morphological plasticity. Using 500-year simulations of an ecogenetic agent-based model, we demonstrate that genetically determined morphological plasticity potential may evolve differently for males and females, leading to greater realized morphological variation between habitats for one sex over the other. Genetically determined potential for plasticity evolved differently between sexes across (a) various sex-specific life-history differences and (b) a variety of assumed costs of plasticity acting on both growth and survival. Morphological analyses of Eurasian perch collected in situ were consistent with model predictions: realized morphological variation between habitats was greater for females than males. We suggest that due to sex-specific selective pressures, differences in male and female genetically defined potential for plasticity may be a common feature across organisms.
- Published
- 2021
11. Fatty acids reveal salmonine – prey relationships in Lake Michigan
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Benjamin S. Leonhardt, Tomas O. Höök, Jacques Rinchard, Charles R. Bronte, Matthew S. Kornis, Benjamin A. Turschak, Christopher Maier, Harvey A. Bootsma, Austin Happel, and Sergiusz J. Czesny
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0106 biological sciences ,Ecology ,010604 marine biology & hydrobiology ,Foraging ,Pelagic zone ,010501 environmental sciences ,Aquatic Science ,Biology ,biology.organism_classification ,01 natural sciences ,Predation ,Rainbow smelt ,Fishery ,Brown trout ,Trout ,Forage fish ,Rainbow trout ,Ecology, Evolution, Behavior and Systematics ,0105 earth and related environmental sciences - Abstract
Lake Michigan salmon and trout populations are important species for recreational fisheries and food web management, and are largely supported through stocking efforts, with varying degrees of natural recruitment. Ongoing fisheries management of these salmonine populations is dictated by relationships between predator and prey abundance as well as community structure within the lake. However, while prey fish biomass has declined, and species composition has changed in recent decades, knowledge of prey consumption by the salmonine community has lagged. Herein, we explore trophic relationships using fatty acids profiles, which offer insights into the foraging habits and energy pathways relied on over weeks to months prior to collection. Fatty acids of the prey base for salmonines in Lake Michigan indicate a gradient of foraging habits that range from pelagic (typified by alewife and rainbow smelt) versus benthic (i.e., slimy sculpin and round goby) resource use. Fatty acids implied that there was more variation in foraging habits among individual lake trout and brown trout compared to Chinook salmon, coho salmon and rainbow trout, which appeared to all rely almost exclusively on pelagic prey. Fatty acid profiles also indicated size-based shifts in foraging habits; for example, larger lake trout consuming a greater proportion of benthic prey than smaller individuals. Data herein suggest that Chinook and coho salmon, as well as rainbow trout, are more likely to experience competitive interactions during times of low pelagic prey-fish abundance in Lake Michigan, whereas brown and lake trout are able to utilize benthic resources to a greater degree.
- Published
- 2020
12. Differential habitat use patterns of yellow perch Perca flavescens in eastern Lake Michigan and connected drowned river mouth lakes
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Carl R. Ruetz, Taylor J. Senegal, Tomas O. Höök, Gregory M. Chorak, David J. Janetski, Gabriel J. Bowen, and David F. Clapp
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0106 biological sciences ,Perch ,geography ,geography.geographical_feature_category ,Ecology ,biology ,δ13C ,010604 marine biology & hydrobiology ,Fishing ,δ15N ,010501 environmental sciences ,Aquatic Science ,biology.organism_classification ,01 natural sciences ,Fishery ,medicine.anatomical_structure ,Habitat ,parasitic diseases ,medicine ,River mouth ,Profundal zone ,Ecology, Evolution, Behavior and Systematics ,0105 earth and related environmental sciences ,Otolith - Abstract
Understanding stock structure and habitat use is important for sustainable fisheries management and conservation of genetic and phenotypic diversity. In eastern Lake Michigan, yellow perch Perca flavescens is found in both the nearshore region of Lake Michigan proper and drowned river mouth (DRM) lakes, small estuary-like systems directly connected to Lake Michigan. Recent genetic analyses suggest complex stock structure between these habitats and the potential migration of Lake Michigan yellow perch into the profundal zone of DRM lakes. We quantified carbon (δ13C) and oxygen (δ18O) stable isotope ratios of yellow perch otolith cores to index natal origins, and measured muscle δ13C, nitrogen (δ15N), δ18O, and hydrogen (δ2H) isotope ratios to reflect recent diet and habitat use. Stable isotope ratios of otolith cores and muscle samples support the existence of resident populations in nearshore Lake Michigan and DRM lakes, as well as Lake Michigan migrants using DRM lakes. Most fish caught in DRM lakes that had natal and recent stable isotope values similar to Lake Michigan fish were collected during fall in DRM lake profundal zones. Comparison of otolith core and muscle stable isotope ratios of individual yellow perch suggest that individuals that recently migrated to DRM lakes also spent early life in Lake Michigan. Differential habitat use patterns of yellow perch in eastern Lake Michigan may have important implications for harvest estimates and fishing regulations. Migration by Lake Michigan fish into DRM lakes does not appear to be related to reproduction, and the underlying benefits of these migrations remain unclear.
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- 2020
13. Stable isotopes and morphology reveal spatial and annual patterns in trophic reliance of an invertivorous juvenile fish
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Timothy M. Sesterhenn, Steven A. Pothoven, Charles R. Roswell, Tomas O. Höök, and Taylor J. Senegal
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Ecology ,Stable isotope ratio ,Environmental science ,Morphology (biology) ,Juvenile fish ,Aquatic Science ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Published
- 2020
14. Diet complexity of Lake Michigan salmonines: 2015–2016
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Benjamin S. Leonhardt, Matthew S. Kornis, Harvey A. Bootsma, Sergiusz J. Czesny, Tomas O. Höök, Zachary S. Feiner, Jacques Rinchard, Benjamin A. Turschak, Austin Happel, and Charles R. Bronte
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0106 biological sciences ,Ecology ,biology ,Quagga mussel ,010604 marine biology & hydrobiology ,Alosa pseudoharengus ,Zoology ,Alewife ,010501 environmental sciences ,Aquatic Science ,biology.organism_classification ,01 natural sciences ,Trout ,Oncorhynchus ,Rainbow trout ,Salmo ,Ecology, Evolution, Behavior and Systematics ,0105 earth and related environmental sciences ,Salvelinus - Abstract
In Lake Michigan, the unintended introduction of invasive species (e.g., zebra mussel, Dreissena polymorpha; quagga mussel, D. rostriformis bugensis; round goby, Neogobius melanostomus) and reduced nutrient loading has altered nutrient dynamics, system productivity, and community composition over the past two decades. These factors, together with sustained predation pressure, have contributed to declines of several forage fish species, including alewife (Alosa pseudoharengus), which has dominated diets of the five primary salmonine species of Lake Michigan for the last 50 years. Salmonines that have inflexible, less complex diets may struggle if alewife declines continue. We analyzed stomach contents of salmonines collected throughout the main basin of Lake Michigan in 2015 and 2016 to investigate diet composition, diet diversity, and individual variation of alewife lengths consumed. Chinook salmon (Oncorhynchus tshawytscha) almost exclusively consumed alewife and had lower diet diversities compared to the other four species, which consumed relatively high frequencies of round goby (brown trout, Salmo trutta; lake trout, Salvelinus namaycush), aquatic invertebrates (coho salmon, Oncorhynchus kisutch) and terrestrial invertebrates (rainbow trout, Oncorhynchus mykiss) along with alewife. Although clear spatio-temporal feeding patterns existed, much of the variation in diet composition and diet diversity was expressed at the individual level. Salmonine populations consumed the entire size range of alewife that were available, whereas individual stomachs tended to contain a narrow range of alewife sizes. Due to their reliance on alewife, it is likely that Chinook salmon will be more negatively impacted than other salmonine species if alewife abundance continues to decline in Lake Michigan.
- Published
- 2020
15. Hypoxia’s impact on pelagic fish populations in Lake Erie: a tale of two planktivores
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Steven A. Pothoven, Stephen B. Brandt, Stuart A. Ludsin, Joshua P. Stone, Henry A. Vanderploeg, Kevin L. Pangle, Tomas O. Höök, and Thomas H. Johengen
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0106 biological sciences ,Ocean surface topography ,Oceanography ,010604 marine biology & hydrobiology ,Hypoxia (environmental) ,Environmental science ,Pelagic zone ,Ecosystem ,Aquatic Science ,010603 evolutionary biology ,01 natural sciences ,Planktivore ,Ecology, Evolution, Behavior and Systematics - Abstract
Whether bottom hypoxia has long-lasting consequences for pelagic fish populations remains speculative for most ecosystems. We explored hypoxia’s influence on two pelagic zooplanktivores in Lake Erie that have different thermal preferences: cold-water rainbow smelt (Osmerus mordax) and warm-water emerald shiners (Notropis atherinoides). To assess acute effects, we combined predictive bioenergetics-based modeling with field collections made across the hypoxic season in central Lake Erie during 2005 and 2007. To assess chronic effects, we related fishery-independent and fishery-dependent catches with hypoxia severity and top predator (walleye, Sander vitreus) abundance during 1986–2014. As our modeling predicted, hypoxia altered rainbow smelt movement and distributions, leading to avoidance of cold, hypoxic bottom waters. In response, diets shifted from benthic to pelagic organisms, and consumption and energetic condition declined. These changes were lacking in emerald shiners. Our long-term analyses showed rainbow smelt abundance and hypoxia to be negatively related and suggested that hypoxia avoidance increases susceptibility to commercial fishing and walleye predation. Collectively, our findings indicate that hypoxia can negatively affect pelagic fish populations over the long term, especially those requiring cold water.
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- 2020
16. The Effect of Sediment Cover and Female Characteristics on the Hatching Success of Walleye
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Tomas O. Höök, Edward F. Roseman, Scott T. Koenigbauer, and Alexander J. Gatch
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Hydrology ,Ecology ,Hatching ,Environmental science ,Sediment ,Cover (algebra) ,Management, Monitoring, Policy and Law ,Aquatic Science ,Ecology, Evolution, Behavior and Systematics - Published
- 2020
17. Spatially heterogeneous trends in nearshore and offshore chlorophyll a concentrations in lakes Michigan and Huron (1998–2013)
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Paris D. Collingsworth, Margaret H. Stadig, Barry M. Lesht, and Tomas O. Höök
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0106 biological sciences ,Shore ,Chlorophyll a ,geography ,geography.geographical_feature_category ,010604 marine biology & hydrobiology ,Aquatic ecosystem ,Pelagic zone ,Aquatic Science ,010603 evolutionary biology ,01 natural sciences ,chemistry.chemical_compound ,Oceanography ,Nutrient ,chemistry ,Chlorophyll ,Tributary ,Environmental science ,Surface water - Abstract
Nutrient abatement programmes have been successfully implemented around the globe to reduce nutrient loading into aquatic ecosystems. Concurrently, the worldwide spread of invasive filter feeders, such as dreissenid mussels, may alter nutrient dynamics in invaded systems by sequestering nutrients away from pelagic zones and reducing primary production in offshore areas. Such is the case in the Laurentian Great Lakes of North America, where decades of nutrient abatement and the establishment of dreissenid mussels have seemingly resulted in more oligotrophic conditions and altered spatial patterns of nutrient availability and primary production. Recent studies have focused on whole lake trends in primary production despite spatial differences in tributary inputs, bathymetry, and other environmental conditions that can affect primary production in nearshore areas. Thus, we hypothesised that trends in nearshore chlorophyll concentrations in different areas may diverge in a manner consistent with spatial differences in nutrient input. To evaluate these differences in surface chlorophyll responses, we assessed temporal trends in four different areas of Lake Michigan and three different areas of Lake Huron. We hypothesised that in lakes Huron and Michigan, nearshore zones have experienced slower declines of chlorophyll concentrations relative to offshore zones. To assess this hypothesis, we estimated temporal trends of surface water chlorophyll concentrations (a proxy for primary production) from satellite imagery from 1998 to 2013. We calculated average surface chlorophyll concentrations for 10‐m depth intervals ranging from the shore (0–10 m) to offshore (>90 m) during representative months of May, July, and September. We then analysed these data to determine if long‐term trends in surface chlorophyll varied by season, proximity to the shoreline, and water depth. The rates of annual change in chlorophyll concentrations in nearshore areas were markedly different to offshore trends in both lakes. Chlorophyll concentrations declined overtime in offshore areas, but nearshore chlorophyll concentrations were either stable (in May) or increased (in July and September) throughout the time series. Differences in chlorophyll concentrations among areas were prominent in Lake Michigan. While differences between the northern and southern basin have been previously documented, trends in chlorophyll concentrations also differed between the eastern and western sides of Lake Michigan. Despite similar bathymetry and geographic features to Lake Michigan, regional trends were not observed in Lake Huron. The results of this study are generally consistent with the nearshore shunt hypothesis, which predicts that dreissenid filtering, nutrient re‐suspension, and continued nutrient loading from tributaries can cause an increase in primary production in nearshore areas during periods of offshore oligotrophication. Thus, the localised effects of nutrient abatement programmes in a given lake will be influenced by complex interactions between lake bathymetry and the presence of non‐native filter feeding organisms.
- Published
- 2019
18. An assessment of the potential impacts of climate change on freshwater habitats and biota of Indiana, USA
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Tomas O. Höök, Brant E. Fisher, Leslie Dorworth, Jennifer L. Tank, Mark Pyron, Carolyn J. Foley, Paris D. Collingsworth, Elizabeth A. LaRue, and Jason T. Hoverman
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Atmospheric Science ,Global and Planetary Change ,geography ,River ecosystem ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,Ecology ,Aquatic ecosystem ,0208 environmental biotechnology ,Climate change ,Species diversity ,Biota ,Wetland ,02 engineering and technology ,01 natural sciences ,020801 environmental engineering ,Habitat ,Temperate climate ,Environmental science ,0105 earth and related environmental sciences - Abstract
Recent climate-driven, physico-chemical changes documented in aquatic systems throughout the world are expected to intensify in the future. Specifically, changes in key environmental attributes of aquatic systems, such as water quantity, clarity, temperatures, ice cover, seasonal flow regimes, external loading, and oxygen content, will undoubtedly have a broad set of direct and indirect ecological consequences. Some anticipated impacts may be similar across different aquatic ecosystems, while others may be system-specific. Here, we review the potential effects of climatic changes for different freshwater habitats within the state of Indiana, USA, a Midwestern state with diverse land and water features. Given this heterogeneity and that the state is among the southernmost states of the US Midwest, evaluation of freshwater habitats of Indiana provides a useful perspective on potential impacts of climate change. In our study, we first review expected or anticipated changes to physico-chemical and habitat conditions in wetlands, lotic systems, small glacial lakes and Lake Michigan. We then highlight anticipated responses of select aquatic biota to these changes. We describe how climatic changes may interact with other anthropogenic stressors affecting freshwater habitats and consider the potential for evolutionary adaptation of freshwater aquatic organisms to mediate any responses. Given anticipated changes, we suggest aquatic ecosystem managers take a precautionary approach broadly applicable in temperate regions to (a) conserve a diversity of aquatic habitats, (b) enhance species diversity and both inter- and intra-population genetic variation, and (c) limit stressors which may exacerbate the risk of decline for aquatic biota.
- Published
- 2019
19. A question of scale: Weak evidence for broad regional synchrony in fish year-class strength within or among species in inland lakes
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David P. Coulter, Zachary S. Feiner, Matthew D. Linn, and Tomas O. Höök
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0106 biological sciences ,Abiotic component ,Perch ,biology ,Ecology ,010604 marine biology & hydrobiology ,Black crappie ,Redear sunfish ,Micropterus ,04 agricultural and veterinary sciences ,Aquatic Science ,biology.organism_classification ,01 natural sciences ,Habitat ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,Temporal scales ,Microlophus - Abstract
Spatially-correlated abiotic and biotic conditions can potentially induce synchrony in the dynamics of disparate populations or species. However, such potential synchrony among species or populations may be tempered by dynamics operating at finer temporal and spatial scales, as well as species-specific responses to environmental conditions. We examined within- and among-species synchrony in year-class strength across 130 lakes in northern Indiana over 30 years to evaluate the relative scale of potential synchrony and its possible ecological mechanisms in five recreationally important fish species: black crappie (Pomoxis nigromaculatus), bluegill (Lepomis macrochirus), largemouth bass (Micropterus salmoides), redear sunfish (L. microlophus), and yellow perch (Perca flavescens). Bluegill and black crappie recruitment was significantly positively correlated when the species coexisted, and relative year-class strength of both species was positively related to mean annual wind speed. However, there were few other instances of recruitment synchrony between or within species, regardless of whether synchrony was assessed within or among lake systems. In addition, habitat similarity and regional weather patterns also played a limited and inconsistent role in shaping recruitment strength or synchrony in these small inland systems. These results suggest that fish recruitment dynamics in small, inland systems are most often a function of system-specific biotic interactions that mask limited input from broader climatological influences, and that understanding recruitment in small lakes will require examinations on appropriately fine spatial and temporal scales.
- Published
- 2019
20. Spatial variation in trophic structure of nearshore fishes in Lake Michigan as it relates to water clarity
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Tomas O. Höök, Brice K. Grunert, Jason C. Doll, Benjamin A. Turschak, John Janssen, Harvey A. Bootsma, and Sergiusz J. Czesny
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0106 biological sciences ,biology ,δ13C ,010604 marine biology & hydrobiology ,Aquatic Science ,Structural basin ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Water clarity ,Oceanography ,Round goby ,Environmental science ,Spatial variability ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
Nearshore water clarity, as measured by remotely sensed Kd(490), and stable C and N isotopes of several nearshore fishes differed across the Lake Michigan basin. Values of δ13C of round goby (Neogobius melanstomus), yellow perch (Perca flavescens), and spottail shiner (Notropis hudsonis) were depleted in the southeast where water clarity was low relative to the southwest where water clarity was greater. Bayesian analyses were used to evaluate spatial variation in diet composition and quantify the relationship between water clarity and the proportional importance of pelagic energy in fish diets. Water clarity in nearshore areas is likely related to variable riverine inputs, resuspension, and upwelling processes. While these processes may not directly impact δ13C or δ15N of nearshore fishes, we hypothesize that water clarity differentially affects benthic and pelagic algal production. Lower water clarity in the benthos and subsequently lower benthic productivity may be related to regional diet differences and increased reliance on pelagic energy sources. Mobile fishes such as alewife (Alosa pseudoharengus) may not be in isotopic equilibrium with regional prey sources and depart from spatial patterns observed in other nearshore fishes.
- Published
- 2019
21. Individual and spatial variation are as important as species‐level variation to the trophic complexity of a lentic food web
- Author
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Robert K. Swihart, John Janssen, Zachary S. Feiner, Tomas O. Höök, Jacques Rinchard, Harvey A. Bootsma, Sergiusz J. Czesny, and Carolyn J. Foley
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0106 biological sciences ,Ecological niche ,education.field_of_study ,Ecology ,010604 marine biology & hydrobiology ,Population ,Lake ecosystem ,Interspecific competition ,Aquatic Science ,Biology ,010603 evolutionary biology ,01 natural sciences ,Food web ,Intraspecific competition ,Ecosystem ,education ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
Ecological complexity may improve ecosystem function, stability and adaptability to natural and anthropogenic disturbances. Intraspecific trophic variation can represent a significant component of total community variation and can influence food web structure and function. Thus, understanding how trophic niches are partitioned between intraspecific and interspecific processes could improve our understanding of food web dynamics. We examined gut contents, fatty acids and stable isotope ratios in round goby (Neogobius melanostomus) and yellow perch (Perca flavescens) across six sites in Lake Michigan, USA, to determine patterns in intra‐ and interspecific trophic composition (i.e., mean gut or fatty acid composition) and diversity (i.e., the diversity of gut items or fatty acids). We also examined relationships between fatty acid diversity and gut content characteristics to understand potential mechanisms shaping individual trophic phenotypes. There was significant variation in both trophic composition and diversity among sites, and individual and spatial variation was as important to total trophic variation as species identity. Round goby that consumed dreissenid mussels had more diverse fatty acid profiles than those that consumed other benthic invertebrates, whereas yellow perch fatty acid diversity was not related to gut content composition. Our results confirm that intraspecific variation in resource use can be as important to trophic dynamics as interspecific variation, and that spatial variation in lower level food web processes or habitat may strongly structure local food web dynamics. Individual‐level examination of trophic diversity, in concert with trophic composition, could provide additional information about the resilience, function and adaptability of local food webs.
- Published
- 2019
22. No evidence of microplastic impacts on consumption or growth of larval Pimephales promelas
- Author
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Maria S. Sepúlveda, Timothy D. Malinich, Nathan Chou, and Tomas O. Höök
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Pollutant ,021110 strategic, defence & security studies ,Larva ,Microplastics ,Health, Toxicology and Mutagenesis ,Aquatic ecosystem ,Foraging ,Cyprinidae ,0211 other engineering and technologies ,Zoology ,Feeding Behavior ,02 engineering and technology ,010501 environmental sciences ,Biology ,Ichthyoplankton ,01 natural sciences ,Microsphere ,Animals ,Environmental Chemistry ,Artemia ,Pimephales promelas ,Plastics ,Water Pollutants, Chemical ,0105 earth and related environmental sciences - Abstract
Microplastics are an abundant pollutant in aquatic systems, but little is known regarding their effects on larval fish. We conducted foraging and growth experiments to observe how increasing densities of microplastics (polyethylene microspheres) impact the foraging and growth of Pimephales promelas larvae. We found minimal impacts on larval consumption of Artemia nauplii in the consumption study, as well as little impact on total length after 30 d of the growth experiment. Environ Toxicol Chem 2018;37:2912-2918. © 2018 SETAC.
- Published
- 2018
23. Potential for fisheries-induced evolution in the Laurentian Great Lakes
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Erin S. Dunlop, Zachary S. Feiner, and Tomas O. Höök
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0106 biological sciences ,Perch ,Coregonus clupeaformis ,Ecology ,biology ,010604 marine biology & hydrobiology ,Ecology (disciplines) ,Subsistence agriculture ,Aquatic Science ,Fish stock ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Invasive species ,Fishery ,Population bottleneck ,Stocking ,Geography ,Ecology, Evolution, Behavior and Systematics - Abstract
Fisheries are selective, capturing fish based on their body size, behaviour, life stage, or location. Over time, if harvest pressure is strong enough and variation in traits heritable, evolution can occur that affects key aspects of the ecology of fish stocks. Most compelling examples of rapid evolution in response to harvest have come from marine systems. Here, we review the state of knowledge on fisheries-induced evolution (FIE) in the Laurentian Great Lakes where subsistence, commercial, and recreational fisheries have operated for centuries. We conclude that stocks experienced harvest rates high enough and for long enough to undergo evolution. While historical fisheries exploited more juveniles, some contemporary Great Lakes fisheries target primarily adult size-classes thus reducing current selection for earlier maturation; however, other traits and behaviours could evolve (e.g., growth, timing of spawning, boldness). While commercial harvest previously dominated, recreational fishing is now expected to be a strong contributor to harvest selection in the Great Lakes. Environmental variation, density-dependence, invasive species, and the genetic legacy of population bottlenecks and stocking interact with, and make it more challenging to detect, FIE in the Great Lakes than in marine systems. Case studies are presented for Great Lakes stocks of yellow perch Perca flavescens and lake whitefish Coregonus clupeaformis for which FIE has been investigated. The evidence for FIE in the Great Lakes is currently sparse, potentially because of the low research focus on this topic or because of the interacting influence of environmental variation and anthropogenic stressors.
- Published
- 2018
24. Fatty acids in an iteroparous fish: variable complexity, identity, and phenotypic correlates
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David P. Coulter, Tomas O. Höök, Robert K. Swihart, and Zachary S. Feiner
- Subjects
0106 biological sciences ,Evolutionary biology ,010604 marine biology & hydrobiology ,%22">Fish ,Animal Science and Zoology ,Fatty acid composition ,Biology ,010603 evolutionary biology ,01 natural sciences ,Phenotype ,Ecology, Evolution, Behavior and Systematics ,Semelparity and iteroparity - Abstract
Ecologists often focus on summarized composition when assessing complex, multivariate phenotypes such as fatty acids. Increasing complexity in fatty acid composition may offer benefits to individuals that may not be recognized by assessing mean fatty acid identity. We quantified fatty acid identity and complexity in the egg and muscle of spawning female yellow perch (Perca flavescens (Mitchill, 1814)) exposed to three overwinter thermal regimes (4, 8, and 13 °C) to evaluate (i) thermal regulation of fatty acid complexity, (ii) fatty acid complexity and identity differences between female muscle and eggs, and (iii) relationships between fatty acid complexity and egg traits. Temperature did not alter fatty acid complexity in either tissue. Muscle contained an even distribution of 12 abundant polyunsaturated fatty acids (PUFA), while eggs exhibited a simpler phenotype of eight compounds. Fatty acid complexity in female muscle was positively correlated with potential indicators of egg quality, including size and lipid content. Preferential allocation of fatty acids to eggs by females likely contributed to a simple phenotype dominated by PUFA precursors and energy sources, while muscle represented a more complex fatty acid phenotype. Recognizing complexity could elucidate variation in reproductive condition among individuals, while identifying patterns in fatty acid allocation among populations.
- Published
- 2018
25. Physicochemical characteristics of a southern Lake Michigan river plume
- Author
-
Cary D. Troy, Sarah R. Stein, Charles R. Roswell, Tomas O. Höök, Emily Grimm, Alan E. Wilson, Gabriel J. Bowen, and Yusuf Jameel
- Subjects
0106 biological sciences ,Hydrology ,010504 meteorology & atmospheric sciences ,Ecology ,Stable isotope ratio ,010604 marine biology & hydrobiology ,Biogeochemistry ,Sampling (statistics) ,River plume ,Aquatic Science ,Particulates ,01 natural sciences ,Plume ,Nutrient ,Settling ,Environmental science ,Ecology, Evolution, Behavior and Systematics ,0105 earth and related environmental sciences - Abstract
Riverine inputs are a major source of nutrients to the Laurentian Great Lakes and have important effects on nearshore biological processes, where mixing between river and lake water leads to formation of heterogeneous river plumes. We examined the physical and chemical characteristics of the St. Joseph River plume in southern Lake Michigan between May and October 2011, and in October 2012, June 2013 and April 2014. Specific electric conductivity and stable isotopes of water were used to quantify the fraction of river water (FRW) at sampling sites in Lake Michigan. Both tracers predicted similar patterns of FRW among sites; however, there was a systematic offset between the two methods, and specific electric conductivity method under-predicted the FRW by ~5%. We observed a distinct, seasonally varying river plume, with plume size correlated with flow rate of St. Joseph River. Within the plume, sediments and nutrients were non-conservative and exhibited significant and seasonally varying losses that we attribute to settling of particle-bound nutrients and/or nutrients in particulate phase below the plume. The characteristics and the spatiotemporal heterogeneity of the river plume documented here may have important implications for the nearshore biogeochemistry of the Great Lakes and for understanding the roles of these features in ecological processes in nearshore areas.
- Published
- 2018
26. Sex-based trade-offs among growth, mortality, and maturation in Great Lakes yellow perch stocks
- Author
-
Tomas O. Höök, Thomas E. Lauer, Carey T. Knight, James A. Hoyle, Michael V. Thomas, Jeffrey T. Tyson, Zachary S. Feiner, Stephen C. Chong, and David G. Fielder
- Subjects
0106 biological sciences ,Perch ,biology ,Ecology ,010604 marine biology & hydrobiology ,media_common.quotation_subject ,Zoology ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Life history theory ,Reproduction ,Life history ,Ecology, Evolution, Behavior and Systematics ,media_common - Abstract
Trade-offs among growth, mortality, and reproduction form the basis of life history theory but may vary among populations owing to local ecological conditions. We examined life history trade-offs driving variation in maturation among 13 yellow perch (Perca flavescens) stocks in the Great Lakes using sex-specific age and length at 50% maturity (A50 and L50, respectively) and probabilistic maturation reaction norm midpoints (Lp50,a). Both sexes exhibited positive correlations between growth and mortality, and faster-growing stocks were mature at younger ages but larger sizes. Male and female A50 and L50 were positively correlated among stocks, but Lp50,a estimates were negatively correlated among stocks, indicating stocks that matured at large sizes for a given age in females matured at smaller age-specific sizes in males. Female Lp50,a estimates were negatively related to growth and mortality, while male Lp50,a estimates were positively related to growth. These results suggest that (i) sex-based life history trade-offs sometimes act to differentially structure maturation schedules in males and females and (ii) males may be less responsive to changes in mortality than females.
- Published
- 2017
27. Size-mediated control of perch–midge coupling in Lake Erie transient dead zones
- Author
-
Stuart A. Ludsin, Henry A. Vanderploeg, James J. Roberts, Tomas O. Höök, Steven A. Pothoven, Stephen B. Brandt, and Daisuke Goto
- Subjects
0106 biological sciences ,Perch ,biology ,Ecology ,010604 marine biology & hydrobiology ,Hypoxia (environmental) ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Food web ,Predation ,Mesopredator release hypothesis ,Benthic zone ,Midge ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
Transient ecosystem-level disturbances such as oxygen depletion (hypoxia) in aquatic systems modulate species distributions and interactions. In highly eutrophic systems, hypoxic areas (“dead zones”) have expanded around the world, temporarily preventing many demersal predators from accessing their food resources. Here, we investigate how yellow perch (Perca flavescens), an exploited, cool-water mesopredator, interact with their dominant invertebrate prey in benthic habitat–non-biting midge (chironomid) larvae–as bottom-water hypoxia develops in central Lake Erie (United States–Canada) during summer. We apply linear mixed-effects models to individual-level data from basin-wide field surveys on size-based interactions between perch and midge larvae under varying habitat conditions and resource attributes. We test if 1) midge populations (larval body size and density) differ among habitat states (unstratified normoxia, stratified normoxia, and stratified hypoxia); and 2) size-based perch–midge interactions (predator–prey mass ratio or PPMR) differ among habitat states with varying temperature and midge density. Midge populations remained highly abundant after bottom-water oxygen depletion. Despite their high densities, midge larvae also maintained their body size in hypoxic water. In contrast, perch on average consumed relatively smaller (by up to ~64%) midges (higher PPMR) in warmer and hypoxic water, while prey size ingested by perch shrunk less in areas with higher midge density. Our analysis shows that hypoxia-tolerant midges largely allow perch to maintain their consumer–resource relationships in contracted habitats through modified size-mediated interactions in dead zones during summer, revealing plasticity of their trophic coupling in the chronically perturbed ecosystem.
- Published
- 2017
28. Behavioral and physiological responses of yellow perch (Perca flavescens) to moderate hypoxia
- Author
-
Samuel C. Guffey, L. Zoe Almeida, Tomas O. Höök, and Maria S. Sepúlveda
- Subjects
Gills ,0106 biological sciences ,Chronic exposure ,Physiology ,Foraging ,Zoology ,01 natural sciences ,Biochemistry ,Predation ,medicine ,Animals ,14. Life underwater ,Hypoxia ,Molecular Biology ,Perch ,Behavior, Animal ,biology ,Ecology ,010604 marine biology & hydrobiology ,04 agricultural and veterinary sciences ,Hypoxia (medical) ,biology.organism_classification ,Physiological responses ,Hatchery ,Oxygen ,Perches ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,Moderate hypoxia ,medicine.symptom - Abstract
While severe hypoxia can be lethal and is usually avoided by mobile aquatic organisms, moderate hypoxic conditions are likely more prevalent and may affect organisms, such as fishes, in a variety of systems. However, fishes have the potential to adjust physiologically and behaviorally and thus reduce the negative effects of hypoxia. Quantifying such physiological responses may shed light on the ability of fishes to tolerate reduced oxygen concentrations. This study assessed how two different hatchery populations of yellow perch Perca flavescens, a fish that is likely to encounter moderate hypoxic conditions in a variety of systems, responded to moderate hypoxic exposure through three experiments: 1) a behavioral foraging experiment, 2) an acute exposure experiment, and 3) a chronic exposure experiment. No marked behavioral or physiological adjustments were observed in response to hypoxia (e.g., hemoglobin, feeding rate, movement frequency, gene expression did not change to a significant degree), possibly indicating a high tolerance level in this species. This may allow yellow perch to utilize areas of moderate hypoxia to continue foraging while avoiding predators that may be more sensitive to moderately low oxygen.
- Published
- 2017
29. Diets and growth of age-0 walleye in a recently recovered population
- Author
-
Tomas O. Höök, Charles R. Roswell, Steven A. Pothoven, and Sarah R. Stein
- Subjects
0106 biological sciences ,education.field_of_study ,Perch ,Osmerus ,Ecology ,biology ,010604 marine biology & hydrobiology ,Population ,Alewife ,Aquatic Science ,Ichthyoplankton ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Predation ,Rainbow smelt ,Fishery ,Predatory fish ,education ,Ecology, Evolution, Behavior and Systematics - Abstract
Most fishes undergo ontogenetic diet shifts, progressing from small to larger prey as they grow. The availability of suitable prey throughout early ontogeny can influence growth, survival and ultimately, year-class strength. Simultaneously, due to their numeric abundance and high mass-specific consumption rates, young fish can serve as influential consumers and thereby affect abundance of various prey. The walleye Sander vitreus population in Saginaw Bay, Lake Huron, recently recovered and is now entirely supported by natural reproduction. Recovery coincided with a dramatic decline of alewife Alosa pseudoharengus, a preferred prey of walleye. Thus, we are uncertain what primary prey now support production of young life stages of this recovered walleye population. To this end, we collected young (larval and later-stage young of year) walleye in Saginaw Bay and characterized their growth, diets and cumulative consumption using bioenergetics models. Young walleye progressed from feeding entirely on zooplankton as larvae in April to feeding almost entirely on fish by September. Based on bioenergetics analyses, fish were the most important prey for young walleye cohorts. Shiners Notropis spp., along with invasive rainbow smelt Osmerus mordax and round goby Neogobius melanostomus, were the primary fish prey. In contrast, yellow perch Perca flavescens, an important prey for adult walleye in Saginaw Bay, were largely absent in young walleye diets. Young walleye growth rates were similar to rates observed in other systems, but lower than growth rates previously observed in Saginaw Bay when alewife were abundant and the density of walleye was low.
- Published
- 2017
30. Climate change as a long-term stressor for the fisheries of the Laurentian Great Lakes of North America
- Author
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Stuart A. Ludsin, David B. Bunnell, Tomas O. Höök, Paris D. Collingsworth, Randall M. Claramunt, Yu-Chun Kao, Zachary S. Feiner, Brent M. Lofgren, and Michael Murray
- Subjects
0106 biological sciences ,education.field_of_study ,Overfishing ,Ecology ,010604 marine biology & hydrobiology ,Population ,Lake ecosystem ,Hypoxia (environmental) ,Climate change ,Aquatic Science ,Biology ,010603 evolutionary biology ,01 natural sciences ,Ecosystem services ,Fishery ,Habitat ,Fisheries management ,education - Abstract
The Laurentian Great Lakes of North America provide valuable ecosystem services, including fisheries, to the surrounding population. Given the prevalence of other anthropogenic stressors that have historically affected the fisheries of the Great Lakes (e.g., eutrophication, invasive species, overfishing), climate change is often viewed as a long-term stressor and, subsequently, may not always be prioritized by managers and researchers. However, climate change has the potential to negatively affect fish and fisheries in the Great Lakes through its influence on habitat. In this paper, we (1) summarize projected changes in climate and fish habitat in the Great Lakes; (2) summarize fish responses to climate change in the Great Lakes; (3) describe key interactions between climate change and other stressors relevant to Great Lakes fish, and (4) summarize how climate change can be incorporated into fisheries management. In general, fish habitat is projected to be characterized by warmer temperatures throughout the water column, less ice cover, longer periods of stratification, and more frequent and widespread periods of bottom hypoxia in productive areas of the Great Lakes. Based solely on thermal habitat, fish populations theoretically could experience prolonged optimal growth environment within a changing climate, however, models that assess physical habitat influences at specific life stages convey a more complex picture. Looking at specific interactions with other stressors, climate change may exacerbate the negative impacts of both eutrophication and invasive species for fish habitat in the Great Lakes. Although expanding monitoring and research to consider climate change interactions with currently studied stressors, may offer managers the best opportunity to keep the valuable Great Lakes fisheries sustainable, this expansion is globally applicable for large lake ecosystem dealing with multiple stressors in the face of continued human-driven changes.
- Published
- 2017
31. Influence of diet and ambient water on hydrogen and oxygen stable isotope ratios in fish tissue: patterns within and among tissues and relationships with growth rates
- Author
-
Gabriel J. Bowen, David P. Coulter, and Tomas O. Höök
- Subjects
0106 biological sciences ,food.ingredient ,Isotope ,biology ,δ18O ,Ecology ,Stable isotope ratio ,010604 marine biology & hydrobiology ,Micropterus ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Bass (fish) ,food ,Animal science ,Composition (visual arts) ,Sample collection ,Isotope analysis - Abstract
The influence of food and ambient water on 2H and 18O isotopic composition in fish soft tissues, how growth affects tissue-specific composition, and relationships of isotope values within and among tissues are poorly known. We exposed age-0 largemouth bass (Micropterus salmoides) to ambient water and food with known δ2H and δ18O values for 65 days and analyzed liver and muscle for δ2H and δ18O levels. Liver δ2H but not δ18O was influenced by water isotopic concentrations and neither ratio was influenced by the isotopic composition of food. In contrast, water and food affected muscle δ2H, whereas muscle δ18O was only influenced by water isotopic values. We observed relationships between fish growth and muscle δ2H and δ18O, where increased growth led muscle to come closer into equilibrium with food and water isotope values, but found no relationships with growth and either liver δ2H or δ18O. Ratios of 2H and 18O were positively related within muscle and within liver of individuals, as were δ2H values between liver and muscle and δ18O values between tissues. Studies assessing 2H and 18O in temperate fishes should account for isotopic contributions from water and food and consider consequences of fish growth and timing of sample collection.
- Published
- 2017
32. Asynchrony in the inter-annual recruitment of lake whitefish Coregonus clupeaformis in the Great Lakes region
- Author
-
David B. Bunnell, Eric K. Berglund, Ji X. He, Mitchell T. Zischke, Mark P. Ebener, David C. Caroffino, Tomas O. Höök, Shawn P. Sitar, and Cary D. Troy
- Subjects
0106 biological sciences ,Abiotic component ,Coregonus clupeaformis ,Ecology ,biology ,010604 marine biology & hydrobiology ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Fishery ,Multiple sampling ,Spatial ecology ,%22">Fish ,Coregonus ,Temporal scales ,Independent data ,Ecology, Evolution, Behavior and Systematics - Abstract
Spatially separated fish populations may display synchrony in annual recruitment if the factors that drive recruitment success, particularly abiotic factors such as temperature, are synchronised across broad spatial scales. We examined inter-annual variation in recruitment among lake whitefish ( Coregonus clupeaformis ) populations in lakes Huron, Michigan and Superior using fishery-dependent and -independent data from 1971 to 2014. Relative year-class strength (RYCS) was calculated from catch-curve residuals for each year class across multiple sampling years. Pairwise comparison of RYCS among datasets revealed no significant associations either within or between lakes, suggesting that recruitment of lake whitefish is spatially asynchronous. There was no consistent correlation between pairwise agreement and the distance between datasets, and models to estimate the spatial scale of recruitment synchrony did not fit well to these data. This suggests that inter-annual recruitment variation of lake whitefish is asynchronous across broad spatial scales in the Great Lakes. While our method primarily evaluated year-to-year recruitment variation, it is plausible that recruitment of lake whitefish varies at coarser temporal scales (e.g. decadal). Nonetheless, our findings differ from research on some other Coregonus species and suggest that local biotic or density-dependent factors may contribute strongly to lake whitefish recruitment rather than inter-annual variability in broad-scale abiotic factors.
- Published
- 2017
33. Influences of multilocus heterozygosity on size during early life
- Author
-
Zachary S. Feiner, James E. Breck, Tomas O. Höök, and J. Andrew DeWoody
- Subjects
0106 biological sciences ,0301 basic medicine ,education.field_of_study ,Genetic diversity ,Ecology ,Offspring ,Population ,Zoology ,Heritability ,Biology ,010603 evolutionary biology ,01 natural sciences ,Loss of heterozygosity ,03 medical and health sciences ,030104 developmental biology ,Genetic structure ,Species richness ,Allele ,education ,Ecology, Evolution, Behavior and Systematics ,Nature and Landscape Conservation - Abstract
Genetic diversity has been hypothesized to promote fitness of individuals and populations, but few studies have examined how genetic diversity varies with ontogeny. We examined patterns in population and individual genetic diversity and the effect of genetic diversity on individual fitness among life stages (adults and juveniles) and populations of captive yellow perch (Perca flavescens) stocked into two ponds and allowed to spawn naturally. Significant genetic structure developed between adults and offspring in a single generation, even as heterozygosity and allelic richness remained relatively constant. Heterozygosity had no effect on adult growth or survival, but was significantly and consistently positively related to offspring length throughout the first year of life in one pond but not the other. The largest individuals in the pond exhibiting this positive relationship were more outbred than averaged size individuals and also more closely related to one another than they were to average-sized individuals, suggesting potential heritability of body size or spawn timing effects. These results indicate that the influence of heterozygosity may be mediated through an interaction, likely viability selection, between ontogeny and environment that is most important during early life. In addition, populations may experience significant genetic change within a single generation in captive environments, even when allowed to reproduce naturally. Accounting for the dynamic influences of genetic diversity on early life fitness could lead to improved understanding of recruitment and population dynamics in both wild and captive populations.
- Published
- 2017
34. Testing for synchrony in recruitment among four Lake Michigan fish species
- Author
-
Tomas O. Höök, Wentao Liu, Cary D. Troy, David B. Bunnell, Jean V. Adams, and Charles P. Madenjian
- Subjects
0106 biological sciences ,Thesaurus (information retrieval) ,Geography ,Ecology ,010604 marine biology & hydrobiology ,Fish species ,Climate variation ,Aquatic Science ,010603 evolutionary biology ,01 natural sciences ,Ecology, Evolution, Behavior and Systematics ,Intraspecific competition - Abstract
In the Great Lakes region, multiple fish species display intraspecific spatial synchrony in recruitment success, with interannual climate variation hypothesized as the most likely driver. In Lake Michigan, we evaluated whether climatic or other physical variables could also induce spatial synchrony across multiple species, including bloater (Coregonus hoyi), rainbow smelt (Osmerus mordax), yellow perch (Perca flavescens), and alewife (Alosa pseudoharengus). The residuals from stock–recruitment relationships revealed yellow perch recruitment to be correlated with recruitment of both rainbow smelt (r = 0.37) and alewife (r = 0.36). Across all four species, higher than expected recruitment occurred in 5 years between 1978 and 1987 and then switched to lower than expected recruitment in 5 years between 1996 and 2004. Generalized additive models revealed warmer spring and summer water temperatures and lower wind speeds corresponded to higher than expected recruitment for the nearshore-spawning species, and overall variance explained ranged from 14% (yellow perch) to 61% (alewife). For all species but rainbow smelt, higher recruitment also occurred in extremely high or low years of the North Atlantic Oscillation index. Future development of indices that describe the physical Great Lakes environment could improve understanding of how climate can synchronize fish populations within and across species.
- Published
- 2017
35. Patterns of integration of invasive round goby (Neogobius melanostomus) into a nearshore freshwater food web
- Author
-
Sergiusz J. Czesny, John Janssen, Harvey A. Bootsma, David J. Jude, M. Lee Henebry, Tomas O. Höök, Jacques Rinchard, Carolyn J. Foley, and Austin Happel
- Subjects
0106 biological sciences ,Neogobius ,Ecology ,biology ,010604 marine biology & hydrobiology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Food web ,Predation ,Fishery ,Habitat ,Benthic zone ,Forage fish ,Round goby ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
Understanding trophic interactions of non-native species is a key step in elucidating their ecological role in recently invaded systems. The benthic fish species round goby ( Neogobius melanostomus ) has successfully established in aquatic systems across the world, with abundances increasing dramatically over relatively short time periods. Though this (at times) voracious benthivore can become an increasingly important forage fish for piscivores, relatively little is known about how prey and production pathways that support round gobies vary in space and time. In 2010, we collected round gobies from ten nearshore sites, over three seasons, in Lake Michigan, U.S.A. Due to recent changes in Lake Michigan, the dynamic nearshore region may be crucial for stability of the whole-lake food web. We assessed the role of round gobies in the nearshore Lake Michigan food web using stomach contents, fatty acid profiles, and δ 13 C and δ 15 N stable isotopes. Patterns in all of these measures were highly influenced by site, suggesting that local conditions, such as substrate composition or proximity to riverine inputs, were important in structuring round goby trophic interactions. By contrast, season of sampling and depth of collection had relatively weak associations with observed patterns. Few broad, regional patterns were evident, including a relatively high reliance on benthic production pathways on the western side of Lake Michigan. The observed variety in feeding patterns of round gobies, including potential for exploitation of different production pathways, may contribute to long-term persistence of this aquatic invader in new habitats.
- Published
- 2017
36. Quantifying the predatory effect of round goby on Saginaw Bay dreissenids
- Author
-
Sara R. Andree, Thomas F. Nalepa, Steven A. Pothoven, Tomas O. Höök, and Carolyn J. Foley
- Subjects
0106 biological sciences ,Biomass (ecology) ,Neogobius ,Ecology ,biology ,010604 marine biology & hydrobiology ,Lake ecosystem ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Fishery ,Benthic zone ,Round goby ,%22">Fish ,Bay ,Ecology, Evolution, Behavior and Systematics - Abstract
Invasive dreissenid mussels (D. polymorpha and D. r. bugensis) have fundamentally altered Laurentian Great Lake ecosystems, however in many areas their abundances have declined since the mid-1990s. Another invader, the benthic fish round goby (Neogobius melanostomus), is morphologically adapted to feed on dreissenids and likely affects dreissenid populations; however, the degree of this predatory effect is variable. In 2009 and 2010, we examined round goby abundances, size distributions, diet contents, and diet selectivity in Saginaw Bay, Lake Huron; a shallow bay that has been subjected to numerous anthropogenic stressors. We further used a consumption model to estimate dreissenid consumption by three different size classes of round goby. Round gobies were found throughout the bay and most were smaller than 80 mm total length. Round gobies of all sizes consumed dreissenids (including fish as small as 30 mm total length), though dreissenids were rarely preferred. The relative proportion of dreissenids (by biomass) present in diets of round gobies increased with fish size, but also throughout the year for all size classes. Despite this, overall consumptive effects of round gobies on dreissenids in Saginaw Bay were low. Many dreissenids present in the bay were larger than those consumed by round gobies. Bioenergetics-based model estimates suggest that the smallest round gobies are responsible for the majority of dreissenid consumption. While our findings are limited to soft substrates and influenced by sampling restrictions, our study design allowed us to put bounds on our estimates based upon these multiple sources of uncertainty.
- Published
- 2017
37. Predators Reject Yellow Perch Egg Skeins
- Author
-
Tomas O. Höök, Tyler A. Krieg, Samuel C. Guffey, and L. Zoe Almeida
- Subjects
0106 biological sciences ,Orconectes immunis ,Perch ,Neogobius ,biology ,Ecology ,010604 marine biology & hydrobiology ,Zoology ,Aquatic Science ,Minnow ,biology.organism_classification ,Crayfish ,010603 evolutionary biology ,01 natural sciences ,Predation ,biology.animal ,embryonic structures ,Round goby ,Pimephales promelas ,Ecology, Evolution, Behavior and Systematics - Abstract
Despite the high rate of egg mortality due to predation, few teleost fishes utilize external casings for protecting their eggs. The gelatinous egg matrix, or skein, produced by Yellow Perch Perca flavescens may provide a variety of benefits including deterring egg predators. This study explored the chemical components of the skein in addition to testing the preferences of two common egg predators, Round Goby Neogobius melanostomus and calico crayfish Orconectes immunis, when presented with three potential egg prey: Yellow Perch eggs in the skein, Yellow Perch eggs without the skein, and Fathead Minnow Pimephales promelas eggs. Preliminary analyses showed that the skein may contain a variety of potentially noxious components, including piperideine and the galactose-specific lectin, nattectin. In preference trials, Yellow Perch eggs in the skein were often approached first; however, both predators preferred Yellow Perch eggs with the skein removed and Fathead Minnow eggs rather than Yellow Perch eggs in the skein. Further experiments demonstrated that crayfish spent less time attempting to consume Yellow Perch eggs in the skein after prior exposure to the skein (day 1: 11.0 min ± 1.3 [mean ± SE]; day 2: 7.6 min ± 1.4), reducing time spent damaging the eggs. These results indicate that the skein may help protect eggs from predation. Received July 18, 2016; accepted October 10, 2016 Published online December 12, 2016
- Published
- 2016
38. Sub-lethal effects on fish provide insight into a biologically-relevant threshold of hypoxia
- Author
-
Tomas O. Höök, L. Zoe Almeida, and Allison R. Hrycik
- Subjects
0106 biological sciences ,Fish migration ,Ecology ,010604 marine biology & hydrobiology ,Aquatic ecosystem ,Hypoxia (environmental) ,Pelagic zone ,Biology ,Explained variation ,010603 evolutionary biology ,01 natural sciences ,Demersal zone ,Water column ,Nutrient ,Ecology, Evolution, Behavior and Systematics - Abstract
Hypoxia (low dissolved oxygen) is a mounting concern for aquatic ecosystems as its prevalence increases with rising anthropogenic nutrient inputs. Hypoxia is most commonly defined as 2.0 mg l–1 of dissolved oxygen, although this level varies widely across studies and agency regulations. Such definitions may be too conservative, as ecologically-relevant non-lethal effects (e.g. consumption and growth) of hypoxia on important aquatic species, such as fish, often occur at oxygen levels much higher than 2.0 mg l–1. In addition, many mechanisms that regulate hypoxia tolerance in fish have been proposed, including temperature, habitat, location in the water column, and body size, but there is ongoing debate over which mechanisms are most important. Using a structured meta-analysis of published studies, we showed consistent, significant negative effects on fish growth and consumption below 4.5 mg l–1. While the total amount of variation explained was generally low, below 4.5 mg l–1 of dissolved oxygen, phylogenetic relationships accounted for most of the explained variation in fish growth. Ecological factors including body size, location in the water column (pelagic, demersal, or benthopelagic), habitat (freshwater, marine, or diadromous), and temperature explained very little of the effect of hypoxia on fish growth and explained only a moderate level of variation in consumption. Our results suggest a dramatically higher threshold for sub-lethal effects of hypoxia on fish than oxygen levels generally set for regulation purposes, and provide little support for accepted ecological mechanisms thought to influence hypoxia tolerance.
- Published
- 2016
39. Movement rule selection through eco-genetic modeling: Application to diurnal vertical movement
- Author
-
Tomas O. Höök, Allison R. Hrycik, Timothy M. Sesterhenn, Paris D. Collingsworth, and Daisuke Goto
- Subjects
0301 basic medicine ,Statistics and Probability ,Computer science ,Movement ,Machine learning ,computer.software_genre ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,0302 clinical medicine ,Ecosystem model ,Animals ,Computer Simulation ,Sensory cue ,Selection (genetic algorithm) ,Ecosystem ,Agent-based model ,General Immunology and Microbiology ,Models, Genetic ,business.industry ,Movement (music) ,Applied Mathematics ,General Medicine ,Preference ,Variety (cybernetics) ,Circadian Rhythm ,030104 developmental biology ,Perches ,Modeling and Simulation ,Artificial intelligence ,General Agricultural and Biological Sciences ,business ,computer ,Game theory ,030217 neurology & neurosurgery - Abstract
Agent-based, spatially-explicit models that incorporate movement rules are used across ecological disciplines for a variety of applications. However, appropriate movement rules may be difficult to implement due to the complexity of an individual's response to both proximate and ultimate cues, as well as the difficulty in directly assessing how organisms choose to move across their environment. Environmental cues may be complex and dynamic, and therefore, movement responses may require tradeoffs between preferred levels of different environmental variables (e.g., temperature, light level, and prey availability). Here, we present an approach to determine appropriate movement rules by setting them as heritable traits in an eco-genetic modeling framework and allowing movement rules to evolve during the model rather than setting them a priori. We modeled yellow perch, Perca flavescens, movement in a simulated environment and allowed perch to move in response to high-resolution vertical gradients in temperature, dissolved oxygen, light, predators, and prey. Evolving movement rules ultimately increased fish growth and survival over generations in our model, indicating that evolving movement rules led to improved individual performance. We found that emergent movement rules were consistent across trials, with evolved movement rules incorporating different weights of these environmental factors and the most rapid selection on temperature preference. This case study presents a flexible method using eco-genetic modeling to determine appropriate movement rules that can be applied to diverse scenarios in spatially-explicit ecological modeling.
- Published
- 2018
40. Using Scenarios to Assess Possible Future Impacts of Invasive Species in the Laurentian Great Lakes
- Author
-
Nancy A. Connelly, Richard C. Ready, Edward S. Rutherford, Richard C. Stedman, Stuart A. Ludsin, Gregory L. Poe, David B. Bunnell, T. Bruce Lauber, Lars G. Rudstam, Tomas O. Höök, and Marten A. Koops
- Subjects
0106 biological sciences ,Ecology ,business.industry ,Range (biology) ,010604 marine biology & hydrobiology ,Environmental resource management ,Management, Monitoring, Policy and Law ,Aquatic Science ,010603 evolutionary biology ,01 natural sciences ,Invasive species ,Recreational fishing ,Geography ,Threatened species ,business ,Ecology, Evolution, Behavior and Systematics - Abstract
The expected impacts of invasive species are key considerations in selecting policy responses to potential invasions. But predicting the impacts of invasive species is daunting, particularly in large systems threatened by multiple invasive species, such as North America’s Laurentian Great Lakes. We developed and evaluated a scenario-building process that relied on an expert panel to assess possible future impacts of aquatic invasive species on recreational fishing in the Great Lakes. To maximize its usefulness to policy makers, this process was designed to be implemented relatively rapidly and considered a range of species. The expert panel developed plausible, internally consistent invasion scenarios for five aquatic invasive species, along with subjective probabilities of those scenarios. We describe these scenarios and evaluate this approach for assessing future invasive species impacts. The panel held diverse opinions about the likelihood of the scenarios, and only one scenario with impacts on...
- Published
- 2016
41. Spatial shifts in salmonine harvest, harvest rate, and effort by charter boat anglers in Lake Michigan, 1992–2012
- Author
-
Nicholas T. Simpson, Edward S. Rutherford, Tomas O. Höök, and Andrew E. Honsey
- Subjects
0106 biological sciences ,Shore ,Chinook wind ,geography.geographical_feature_category ,Ecology ,biology ,010604 marine biology & hydrobiology ,Fishing ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Fishery ,Brown trout ,Trout ,Geography ,Stocking ,Rainbow trout ,Ecosystem ,Ecology, Evolution, Behavior and Systematics - Abstract
Stocked and naturally reproducing salmonids in Lake Michigan support an economically important charter boat fishery which operates from multiple locations around the lake. Charter boat operators depend on the sustainability and spatial availability of salmonid species. We analyzed the spatial distributions of charter boat harvest of brown trout, Chinook salmon, coho salmon, lake trout, and rainbow trout from 1992 to 2012. We found that during this 21 year period fishing effort shifted closer to shore, to the west, and to the north. Harvest of some species, namely lake trout and rainbow trout, shifted towards shallower bottom depths and closer to shore. In contrast, harvests of Chinook and coho salmon have not shifted closer to shore in a consistent manner. We suggest that a variety of factors may have contributed to these trends in harvest patterns, including recent ecosystem shifts in Lake Michigan. While we acknowledge that spatial harvest patterns are unlikely to precisely mirror salmonid distribution patterns, we believe that reporting coarse shifts in harvest has implications for future management options including, but not limited to, stocking decisions and harvest regulations.
- Published
- 2016
42. Environmental influences on fish assemblage variation among ecologically similar glacial lakes
- Author
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Steven B. Donabauer, David P. Coulter, Zachary S. Feiner, Tomas O. Höök, and Tyler A. Krieg
- Subjects
0106 biological sciences ,Ecology ,010604 marine biology & hydrobiology ,Aquatic ecosystem ,Species diversity ,Aquatic Science ,010603 evolutionary biology ,01 natural sciences ,Electrofishing ,Environmental science ,Water quality ,Trophic function ,Omnivore ,Species richness ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
The composition and structure of fish communities are affected by a variety of factors, both within the aquatic ecosystem and from the surrounding watershed. Many studies have examined what structures fish assemblages over broad spatial and environmental gradients. However, the influence of local environmental attributes on the observed variation in fish assemblages is less understood across finer spatial scales, where broad-scale climatic and anthropogenic factors are relatively similar. We used multiple linear regression to examine the relationships between environmental variables and various aspects of fish assemblages (including trophic function, community indices, and species composition) in 90 glacial lakes from northern Indiana, USA, from 1990 to 2010. Trophic structure and species composition were primarily related to water quality, whereas trophic level increased and omnivores declined as Secchi depth increased and phosphorus concentrations decreased. Species richness and diversity, in contrast, were positively linked to lake size and depth. We also found unique relationships among fish assemblages and environmental variables between samples collected using gill nets and night electrofishing, which may result from these gears sampling different assemblage components – therefore, relationships that were apparent in both sampling techniques (e.g., Secchi depth effects on trophic structure) may be the most robust and useful for improving aquatic ecosystem management on local scales.
- Published
- 2016
43. Feeding ecology of the walleye (Percidae, Sander vitreus ), a resurgent piscivore in Lake Huron (Laurentian Great Lakes) after shifts in the prey community
- Author
-
Steven A. Pothoven, Tomas O. Höök, and Charles P. Madenjian
- Subjects
0106 biological sciences ,Perch ,geography ,Ecology ,biology ,Dorosoma ,geography.lake ,010604 marine biology & hydrobiology ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Piscivore ,Rainbow smelt ,Gizzard shad ,Fishery ,Percidae ,Bay ,Ecology, Evolution, Behavior and Systematics ,Apex predator - Abstract
Recovering populations of piscivores can challenge understanding of ecosystem function due to impacts on prey and to potentially altered food webs supporting their production. Stocks of walleye (Percidae, Sander vitreus), an apex predator in the Laurentian Great Lakes, crashed in the mid-1900s. Management efforts led to recovery by 2009, but recovery coincided with environmental and fish community changes that also had implications for the feeding ecology of walleye. To evaluate potential changes in feeding ecology for this apex predator, we assessed diets in the main basin of Lake Huron and in Saginaw Bay, a large embayment of Lake Huron, during 2009–2011. Walleye switched their diets differently in the main basin and Saginaw Bay, with non-native round goby (Gobiidae, Neogobius melanostomus) and rainbow smelt (Osmeridae, Osmerus mordax) more prevalent in diets in the main basin, and invertebrates, yellow perch (Percidae, Perca flavescens) and gizzard shad (Clupeidae, Dorosoma cepedianum) more prevalent in diets in the bay. Feeding strategy plots indicated that there was a high degree of individual specialisation by walleye in the bay and the main basin. Bioenergetic simulations indicated that walleye in Saginaw Bay need to consume 10%–18% more food than a walleye that spends part or all of the year in the main basin, respectively, in order to achieve the same growth rate. The differences in diets between the bay and main basin highlight the flexibility of this apex predator in the face of environmental changes, but changes in diet can alter energy pathways supporting piscivore production.
- Published
- 2016
44. Recruitment synchrony of yellow perch (Perca flavescens, Percidae) in the Great Lakes region, 1966–2008
- Author
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Tomas O. Höök, David G. Fielder, Stephen C. Chong, Cary D. Troy, David B. Bunnell, Carey T. Knight, Andrew E. Honsey, and Michael V. Thomas
- Subjects
0106 biological sciences ,Perch ,Reproductive success ,Ecology ,010604 marine biology & hydrobiology ,Aquatic Science ,Biology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Fishery ,Percidae ,Air temperature ,Spatial ecology ,Freshwater fish ,Annual variation ,Precipitation - Abstract
Population-level reproductive success (recruitment) of many fish populations is characterized by high inter-annual variation and related to annual variation in key environmental factors (e.g., climate). When such environmental factors are annually correlated across broad spatial scales, spatially separated populations may display recruitment synchrony (i.e., the Moran effect). We investigated inter-annual (1966–2008) variation in yellow perch (Perca flavescens, Percidae) recruitment using 16 datasets describing populations located in four of the five Laurentian Great Lakes (Erie, Huron, Michigan, and Ontario) and Lake St. Clair. We indexed relative year class strength using catch-curve residuals for each year-class across 2–4 years and compared relative year-class strength among sampling locations. Results indicate that perch recruitment is positively synchronized across the region. In addition, the spatial scale of this synchrony appears to be broader than previous estimates for both yellow perch and freshwater fish in general. To investigate potential factors influencing relative year-class strength, we related year-class strength to regional indices of annual climatic conditions (spring-summer air temperature, winter air temperature, and spring precipitation) using data from 14 weather stations across the Great Lakes region. We found that mean spring-summer temperature is significantly positively related to recruitment success among Great Lakes yellow perch populations.
- Published
- 2016
45. The re-eutrophication of Lake Erie: Harmful algal blooms and hypoxia
- Author
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Gerald Matisoff, George B. Arhonditsis, Stuart A. Ludsin, Tomas O. Höök, Wayne W. Carmichael, Susan B. Watson, Steven W. Wilhelm, David C. Depew, R. Peter Richards, Shawn P. McElmurry, Gregory L. Boyer, Yerubandi R. Rao, Remegio Confesor, Murray N. Charlton, Michael Murray, Morgan M. Steffen, and Carol J. Miller
- Subjects
0106 biological sciences ,Canada ,Nitrogen ,Harmful Algal Bloom ,Plant Science ,010501 environmental sciences ,Aquatic Science ,Cyanobacteria ,01 natural sciences ,Algal bloom ,Ecosystem services ,Environmental protection ,Animals ,Anaerobiosis ,0105 earth and related environmental sciences ,Ecology ,business.industry ,010604 marine biology & hydrobiology ,fungi ,Hypoxia (environmental) ,Phosphorus ,Eutrophication ,Lakes ,Adaptive management ,Habitat ,Benthic zone ,Agriculture ,Environmental science ,business ,Environmental Monitoring - Abstract
Lake Erie supplies drinking water to more than 11 million consumers, processes millions of gallons of wastewater, provides important species habitat and supports a substantial industrial sector, with >$50 billion annual income to tourism, recreational boating, shipping, fisheries, and other industries. These and other key ecosystem services are currently threatened by an excess supply of nutrients, manifested in particular by increases in the magnitude and extent of harmful planktonic and benthic algal blooms (HABs) and hypoxia. Widespread concern for this important international waterbody has been manifested in a strong focus of scientific and public material on the subject, and commitments for Canada-US remedial actions in recent agreements among Federal, Provincial and State agencies. This review provides a retrospective synthesis of past and current nutrient inputs, impairments by planktonic and benthic HABs and hypoxia, modelling and Best Management Practices in the Lake Erie basin. The results demonstrate that phosphorus reduction is of primary importance, but the effects of climate, nitrogen and other factors should also be considered in the context of adaptive management. Actions to reduce nutrient levels by targeted Best Management Practices will likely need to be tailored for soil types, topography, and farming practices.
- Published
- 2016
46. Does overwinter temperature affect maternal body composition and egg traits in yellow perchPerca flavescens?
- Author
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David P. Coulter, Samuel C. Guffey, Zachary S. Feiner, and Tomas O. Höök
- Subjects
0106 biological sciences ,Perch ,Reproductive success ,010604 marine biology & hydrobiology ,Aquatic Science ,Biology ,Fecundity ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Eicosapentaenoic acid ,Spawn (biology) ,Animal science ,Docosahexaenoic acid ,Lipid content ,Botany ,Maternal body ,Ecology, Evolution, Behavior and Systematics - Abstract
Female yellow perch Perca flavescens exposed to three overwinter temperature regimes (4, 8 and 13° C) for 150 days spawned in markedly different proportions upon spring warming (37% of females in 4° C v. 64 and 91% in 8 and 13° C treatments, respectively), but exhibited no differences in fecundity, egg size or egg lipid content. Females held at 4° C also exhibited less within-clutch egg size variation than females held at 13° C. Moreover, eggs differed among temperature treatments in the overall proportions of 18 fatty acids, with the colder treatments resulting in potentially higher quality eggs containing more of the unsaturated fatty acids C16:1, C22:6-n3 and C18:2 cis. Female somatic condition also varied with temperature. Maternal somatic growth and protein content increased while lipid content decreased in 13° C compared to the colder treatments. There were, however, no differences among treatments in the fatty acid composition of maternal muscle. These results suggest that the temperatures experienced during winter may be less influential to P. flavescens egg size or number, which may exhibit relatively little plasticity in this species, but can alter both the number of females that spawn and the overall composition of eggs and maternal somatic tissues, which may have implications for future reproductive success.
- Published
- 2016
47. An Analysis of Lake Morphometric and Land-Use Characteristics that Promote Persistence of Cisco in Indiana
- Author
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Andrew E. Honsey, Tomas O. Höök, and Steven B. Donabauer
- Subjects
0106 biological sciences ,biology ,Land use ,Ecology ,Range (biology) ,010604 marine biology & hydrobiology ,Climate change ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Persistence (computer science) ,Geography ,Habitat ,Glacial period ,Coregonus ,Eutrophication ,Ecology, Evolution, Behavior and Systematics - Abstract
Remnant populations of Cisco Coregonus artedi persist at the southern extent of their range among northern Indiana's glacial lakes, where most of their populations have become extirpated during the past century. Land-use practices have likely accelerated lake eutrophication, while climate change threatens to further degrade the habitat necessary to sustain Ciscoes in Indiana. However, because the effects of these stressors have not been ubiquitous, an understanding of the factors that have contributed to either extirpation or persistence of Cisco populations will better inform future conservation practices. We analyzed lake morphometric and land-use data to identify lakes that (1) are most likely to sustain Ciscoes, (2) are most likely to lose Ciscoes, and (3) have lost Ciscoes but are similar to current Cisco lakes and hence may be targets for restoration. We found that large, deep lakes located further north were more suitable for Ciscoes in the past, but that smaller lakes with a high ratio of lake area to catchment area have retained Cisco populations. This pattern supports the hypothesis that non-point-source nutrient loading is a driver of Cisco extirpations. Our results provide information to better manage a species of special concern in Indiana and of conservation interest in many other areas. Received August 5, 2015; accepted November 20, 2015
- Published
- 2016
48. Factors affecting scholarly performance by wildlife and fisheries faculty
- Author
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Robert K. Swihart, Mekala Sundaram, J. Andrew DeWoody, and Tomas O. Höök
- Subjects
Ecology ,05 social sciences ,Wildlife ,Context (language use) ,Regression analysis ,050905 science studies ,Regression ,Fishery ,Annual percentage rate ,General Earth and Planetary Sciences ,0509 other social sciences ,050904 information & library sciences ,Citation ,Psychology ,Productivity ,Ecology, Evolution, Behavior and Systematics ,Deviance (sociology) ,Nature and Landscape Conservation ,General Environmental Science - Abstract
Publication- and citation-based metrics are commonly used to summarize the productivity and impact of individuals, institutions, and journals. We examined factors hypothesized to explain variation in 5 author-based performance metrics among 437 fisheries and wildlife faculty from 33 research-extensive universities in the United States. Regression analyses revealed that the elapsed number of years since conferral of the Doctor of Philosophy (Ph.D.) degree (academic age) was a strong predictor of performance metrics, with non-linear age effects for Hirsch's h-index, Brown's hb-index, the annual rate of increase in h (i.e., m quotient), and number of publications. Greater performance was observed for faculty with greater research appointments. Performance did not vary between Wildlife and Fisheries disciplines but did vary across sub-disciplines; metrics indicated that genetics and disease-related sub-disciplines had the greatest positive effect sizes, social sciences and management-oriented sub-disciplines had the smallest effects, and ecology, conservation, quantitative methods, and aquatic science showed intermediate effect sizes. On average, male faculty published more articles than females, but no sex differences were evident for the other 4 performance metrics. Earlier publication relative to attainment of the Ph.D. degree (publication precocity) was associated with performance for all metrics. Regression models explained 28–54% of the deviance and may prove useful in placing reported values for performance in context of performance by peers. As an alternative point of reference, named (i.e., distinguished) faculty on average exhibited performance 31–96% greater than the performance predicted for otherwise comparable faculty. Our regression models allow for more meaningful comparison of publication and citation performance relative to peers, but they represent only one aspect of faculty performance and should not replace qualitative peer review of productivity and impact. © 2016 The Wildlife Society.
- Published
- 2016
49. A review and assessment of the potential use of RNA:DNA ratios to assess the condition of entrained fish larvae
- Author
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Carolyn J. Foley, Tomas O. Höök, and Douglas L. Bradley
- Subjects
0106 biological sciences ,Point of no return ,Population ,Adult population ,General Decision Sciences ,Biology ,Stress ,Fish larvae ,01 natural sciences ,Indirect mortality ,education ,Ecology, Evolution, Behavior and Systematics ,Decision Sciences(all) ,education.field_of_study ,Ecology ,010604 marine biology & hydrobiology ,Aquatic ecosystem ,RNA ,04 agricultural and veterinary sciences ,Ichthyoplankton ,Power plant ,Meta-analysis ,Point-of-no-return ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,Entrainment (chronobiology) - Abstract
In rivers, lakes, and other aquatic systems throughout the world, intake pipes withdraw huge volumes of water for industrial purposes, including power plant cooling. During this process, large numbers of small-bodied, early life-stages of fish are pulled into pipes (i.e., entrained) and may be subjected to physical, thermal and chemical stress. As a result of such entrainment, these organisms can suffer direct or indirect mortality. However, given that the vast majority of larval fish are likely to die during early life due to natural processes, it is not obvious that entrainment-related mortality will have a strong influence on subsequent adult population sizes. The ability to evaluate if larval fish are dead on arrival, moribund, or in poor condition (i.e., likely to die through natural processes) at the time of entrainment could shed light on likely population-level impacts. To this end, we review the potential use of RNA:DNA ratios to index condition of entrained larval fish. Through a meta-analysis of published research studies, we demonstrate that RNA:DNA ratios of larval fish are responsive to starvation stress, with effect size increasing with duration of starvation. We relate these results to a surrogate measure of irreversible long-term negative impacts to fish populations, and demonstrate that the timescale over which RNA:DNA ratios respond to stress may not be long enough to reflect before-and-after entrainment stress. We also highlight the diverse factors contributing to variation of RNA:DNA ratios, including methodological, ontogenetic, and thermal influences. We believe that the need to account for these influences when comparing among RNA:DNA values limits the utility of broadly using RNA:DNA ratios to evaluate entrainment effects. However, the method shows promise as a quick and efficient means of determining fish condition and, used in proper context (e.g., specific to a given set of environmental conditions; in conjunction with other assessment techniques), may provide a powerful tool in assessing the effects of entrainment on fish populations. Assuming that researchers can account for sources of background variation, RNA:DNA analyses may be most useful for assessing the condition of fish larvae susceptible to entrainment (i.e., physically in the vicinity of the water intake) and/or evaluating whether fish larvae are likely to die from natural processes independent of entrainment.
- Published
- 2016
50. Review of Methods to Repair and Maintain Lithophilic Fish Spawning Habitat
- Author
-
Jason Fischer, Edward F. Roseman, Robin L. DeBruyne, Alex Gatch, Audrey Baetz, Tomas O. Höök, and Taaja R. Tucker
- Subjects
0106 biological sciences ,restoration ,lcsh:Hydraulic engineering ,Spawning habitat ,Geography, Planning and Development ,Fish species ,custodial maintenance ,Aquatic Science ,010603 evolutionary biology ,01 natural sciences ,Biochemistry ,Natural (archaeology) ,Dredging ,lcsh:Water supply for domestic and industrial purposes ,lcsh:TC1-978 ,reef ,Reef ,Water Science and Technology ,lcsh:TD201-500 ,geography ,geography.geographical_feature_category ,010604 marine biology & hydrobiology ,Channelized ,Substrate (marine biology) ,anthropogenic impacts ,Fishery ,fish spawning ,Habitat ,Environmental science ,sediment removal - Abstract
Rocky reefs provide important spawning and refuge habitats for lithophilic spawning fishes. However, many reefs have been lost or severely degraded through anthropogenic effects like dredging, channelization, or sedimentation. Constructed reefs have been used to mitigate these effects in some systems, but these reefs are also subject to degradation which may warrant custodial maintenance. Monitoring and maintenance of natural or constructed spawning reefs are not common practices; therefore, few methodologies have been created to test the effectiveness of such tools. We conducted a literature review to assess available information on maintenance of rocky spawning habitats used by lithophilic fishes. We identified 54 rocky spawning habitat maintenance projects, most of which aimed to improve fish spawning habitats through the addition of spawning substrate (n = 33) or cleaning of substrate (n = 23). In comparison to shallow riverine studies focused on salmonids, we found little information on deep-water reefs, marine reefs, or other fish species. We discuss the possible application of potential spawning habitat cleaning methods from other disciplines (e.g., treasure hunting; archeology) that may provide effective means of reef maintenance that can be used by restoration practitioners.
- Published
- 2020
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