Your search keyword '"Lake sturgeon"' showing total 1,348 results

1. Rehabilitation progress can’t be assessed without a measuring stick: Development of a recruitment index survey for lake sturgeon in Lake Superior

Author

Schloesser, Joshua T., Quinlan, Henry R., Pratt, Thomas C., and Baker, Edward A.

Published

2025

2. It's about the people: Building a legacy.

Author

Infante, Dana M.

Subjects

*CONSERVATION of natural resources, *EDUCATIONAL leadership, *URBAN land use, *NATURAL resources management, *LAKE sturgeon, *ANIMAL populations, *STREAM restoration

Abstract

The article "It's about the people: Building a legacy" published in Aquatic Ecosystem Health & Management in 2024 recounts the author's mentoring relationship with Dr. Bill Taylor, highlighting how his guidance shaped her career trajectory. Dr. Taylor's mentorship led to significant professional growth, including the author's involvement in a comprehensive assessment of rivers in the US and field-based projects in Hawaii. The article also discusses Dr. Taylor's broader impact on mentoring, professional networks, and the establishment of programs like the Janice Lee Fenske fellowship and the Partnership for Ecosystem Research and Management. Through his commitment to mentoring and fostering professional relationships, Dr. Taylor's legacy continues to influence and inspire individuals in the natural resources conservation field. [Extracted from the article]

Published

2024

3. The spatial extent of Walleye and Lake Sturgeon spawning migrations below a dam in the lower Black Sturgeon River, Lake Superior.

Author

Kosziwka, Kerri, Cooke, Steven J., Smokorowski, Karen E., Fischer, Friedrich, Dunlop, Erin S., Rennie, Michael D., and Pratt, Thomas C.

Subjects

*LAKE sturgeon, *DAM retirement, *FISH migration, *FISHWAYS, *FISH spawning

Abstract

In the Laurentian Great Lakes, the issue of barrier removal is complicated by the presence of non‐native species below barriers. A fish tracking study was conducted to guide efforts for barrier remediation decisions for the restoration of fish populations with a focus on Walleye (Scander vitreus) and Lake Sturgeon (Acipenser fulvescens) in the Black Sturgeon River, a river system fragmented by a dam which blocks access of fishes to the majority of a large, otherwise barrier‐free watershed. Data from 3 years of spawning migrations (2018–2020) indicated that the Walleye population in Black Bay likely consists of both river (65%) and lake spawners (27%), with the remaining individuals spawning in the bay or river in different years. Walleye and Lake Sturgeon showed consistent differences in the extent to which individuals migrated upstream in the river during the spawning season, despite expectations that both species would spawn at the base of the dam when prevented from further migration. The dam was presumably a barrier to migration for Lake Sturgeon, as nearly all Lake Sturgeon that entered the river migrated to the base of the dam. In contrast, few Walleye entering the river during the spawning season migrated to the dam annually. These findings suggest that Walleye and Lake Sturgeon may not benefit equally, at least in the short term, from barrier remediation or dam removal. [ABSTRACT FROM AUTHOR]

Published

2024

4. Integrated organismal responses induced by projected levels of CO2 and temperature exposures in the early life stages of lake sturgeon.

Author

Belding, Luke D., Thorstensen, Matt J., Quijada‐Rodriguez, Alex R., Bugg, William S., Yoon, Gwangseok R., Loeppky, Alison R., Allen, Garrett J. P., Schoen, Alexandra N., Earhart, Madison L., Brandt, Catherine, Ali, Jennifer L., Weihrauch, Dirk, Jeffries, Kenneth M., and Anderson, W. Gary

Subjects

*LAKE sturgeon, *OTOLITHS, *ATMOSPHERIC carbon dioxide, *WATER temperature, *GENE regulatory networks, *ATMOSPHERIC temperature, *FISH larvae, *FISH growth

Abstract

Atmospheric CO2 and temperature are rising concurrently, and may have profound impacts on the transcriptional, physiological and behavioural responses of aquatic organisms. Further, spring snowmelt may cause transient increases of pCO2 in many freshwater systems. We examined the behavioural, physiological and transcriptomic responses of an ancient fish, the lake sturgeon (Acipenser fulvescens) to projected levels of warming and pCO2 during its most vulnerable period of life, the first year. Specifically, larval fish were raised in either low (16°C) or high (22°C) temperature, and/or low (1000 μatm) or high (2500 μatm) pCO2 in a crossed experimental design over approximately 8 months. Following overwintering, lake sturgeon were exposed to a transient increase in pCO2 of 10,000 μatm, simulating a spring melt based on data in freshwater systems. Transcriptional analyses revealed potential connections to otolith formation and reduced growth in fish exposed to high pCO2 and temperature in combination. Network analyses of differential gene expression revealed different biological processes among the different treatments on the edges of transcriptional networks. Na+/K+‐ATPase activity increased in fish not exposed to elevated pCO2 during development, and mRNA abundance of the β subunit was most strongly predictive of enzyme activity. Behavioural assays revealed a decrease in total activity following an acute CO2 exposure. These results demonstrate compensatory and compounding mechanisms of pCO2 and warming dependent on developmental conditions in lake sturgeon. Conserved elements of the cellular stress response across all organisms provide key information for how other freshwater organisms may respond to future climate change. [ABSTRACT FROM AUTHOR]

Published

2024

5. Assessing the Efficacy of Three Hatchery Disinfectants for the Inactivation of a Lake Sturgeon Herpesvirus (Family: Alloherpesviridae).

Author

Johnston, Amber E., Shavalier, Megan A., Scribner, Kim T., Soto, Esteban, Yun, Susan, and Loch, Thomas P.

Subjects

*LAKE sturgeon, *PEROXYMONOSULFATE, *HYDROGEN peroxide, *HATCHERY fishes, *POVIDONE-iodine

Abstract

Infectious diseases are a leading cause of losses in the aquaculture industry and conservation programs globally. Simultaneously, infectious diseases pose a substantial risk to fish being hatchery-reared and released into natural habitats for conservation purposes, including the Great Lakes lake sturgeon (Acipenser fulvescens, i.e., GL-LST). Recently, an alloherpesvirus (lake sturgeon herpesvirus 2, i.e., LSHV-2) capable of inducing disease and/or mortality in adult and juvenile GL-LSTs was detected in two adult GL-LST populations. To begin developing disease prevention and/or control methods, in vitro experiments were designed to determine the susceptibility of LSHV-2 to disinfectants commonly used in hatchery and aquaculture facilities (Virkon®-Aquatic: potassium peroxymonosulfate; Ovadine®: polyvinylpyrrolidone iodine complex; and Perox-Aid®: hydrogen peroxide). Cultured LSHV-2 was exposed to each disinfectant at two concentrations (Virkon®-Aquatic: 0.5% and 1%; Ovadine®: 50 and 100 ppm; and Perox-Aid®: 500 and 1000 ppm) in duplicate for durations of 1, 10, and 30 min. Following exposure, the disinfectant was neutralized, and after a 14-day incubation period on a white sturgeon × lake sturgeon hybrid cell line (WSxLS), percent reduction was calculated by comparing the 50% tissue culture infectious doses (TCID50/mL) of the virus with and without disinfectant exposure. When exposed to Perox-Aid®, LSHV-2 percent reduction ranged from 58.7% to 99.5%. When exposed to Ovadine®, the percent reduction ranged from 99.4% to 100%. Lastly, the percent reduction when exposed to Virkon®-Aquatic was 100% for both concentrations and all timepoints. The results herein provide evidence that both Virkon®-Aquatic and Ovadine® are virucidal to LSHV-2 and may represent a means to reduce virus transmission risk under field settings. [ABSTRACT FROM AUTHOR]

Published

2024

6. Using seasonal oscillations in fin ray microchemistry to chemically age Lake Sturgeon.

Author

Taylor, Alaina A., Loeppky, Alison R., Stadig, Margaret H., and Anderson, W. Gary

Abstract

Objective: Nonlethally sampled pectoral fin rays are commonly used as aging structures for Lake Sturgeon Acipenser fulvescens, but they tend to underestimate the true age in older, slow‐growing individuals (age > 14 years). Current aging practices involve counting bands along the structure, which are construed as annuli. Oscillations of certain trace elements corresponding with annuli have been seen across various fish species, with patterns continuing to the marginal edge of hard structures. This study explored the aging of fin rays by using microchemistry patterns in Lake Sturgeon of known age (n = 94; ages 5–21) to determine the potential use of this method as an alternative or supplementary aging technique. Methods: Elements were chosen for age determination analysis by examining the relationship between profile minima/maxima and visually interpreted annuli. Fish were assigned ages using three different methods: (1) traditional interpretation (counting annuli along the structure), (2) chemical interpretation (examination of seasonal variations in elemental profiles with visually identified annuli), and (3) a statistical model (multivariate multiple changepoint analysis with finite differencing using raw elemental profiles). Result: Mean absolute differences between age estimates and known age were significantly higher for the traditional interpretation method than for the chemical interpretation method. The mean coefficient of variation in estimated age was 11.14% for the traditional interpretation method and 4.04% for the chemical interpretation method. The changepoint model was able to correctly classify age for 100% of the samples within ±1 year in one population (ages 5–8) but could not classify samples from the second population (ages 12–21). Conclusion: Our results suggest that chemical aging techniques could provide more reliable age estimates for juvenile and subadult Lake Sturgeon when fin rays are the only aging option. Further work is required to determine the applicability of the model for assigning ages to older fish and for use with different populations and structures. Impact statementThis is the first published account of chemically aging Lake Sturgeon. Our results suggest that seasonally fluctuating chemicals found in fin rays may prove useful in providing more reliable age estimates for juvenile and subadult Lake Sturgeon compared to the traditional aging method of counting seasonal growth rings. [ABSTRACT FROM AUTHOR]

Published

2024

7. Pre‐impoundment fish migrations in the Mobile Basin, Alabama.

Author

Hershey, Henry J., Wright, Russell A., Williams, James D., O'Neil, Patrick E., and DeVries, Dennis R.

Subjects

*FISH migration, *MIGRATORY animals, *LAKE sturgeon, *GEOLOGICAL basins, *AMERICAN eel

Abstract

Assessing the status of several migratory fishes in the Mobile River Basin, Alabama, has been complicated due to a general lack of historical data on their life history, habitat requirements, and distributions. Whether distributions were restricted by natural or man‐made barriers to migration is difficult to answer because few scientific collections were made before dams were built, and the earliest dams were built at the largest biogeographic barrier in the basin: the geological fall line. Therefore, we used what information was available, including anecdotal information, primarily records from archived newspapers and government reports, to describe the ranges of six migratory species prior to the construction of dams in the Mobile Basin. We describe the complicated history of Alabama Shad Alosa alabamae and show that range declines may have been masked by the stocking of American Shad Alosa sapidissima in the late 19th century. We show that Gulf Sturgeon Acipenser oxyrinchus desotoi probably migrated well above the fall line in the Coosa River, and may have been sympatric with Lake Sturgeon Acipenser fulvescens. We found no records of Alabama Sturgeon Scaphirhynchus suttkusi above the fall line. American Eel Anguilla rostrata migrated above the fall line in every Mobile Basin river before dams were built. Finally, Paddlefish Polyodon spathula may have once occurred above the fall line in at least two rivers, but they persist today in impounded reaches in the coastal plain, unlike some other species. We hope that future work will continue to consider archival sources of information to re‐trace the histories of imperilled species. [ABSTRACT FROM AUTHOR]

Published

2024

8. Life history characteristics and distribution of lake sturgeon in an unfragmented section of a northern river.

Author

Friday, Mike and Haxton, Tim

Subjects

LAKE sturgeon, FRAGMENTED landscapes, SURVIVAL rate, ADULTS

Abstract

Lake sturgeon (Acipenser fulvescens), a potamodromous species, have been impacted by habitat fragmentation. Understanding the variation in population structure and spatial distribution in regulated and unimpeded rivers is valuable for recovery or rehabilitation purposes. The objectives of this study were to assess the relative abundance and spatial distribution of lake sturgeon in Rainy River and ascertain demographics of inhabitant juveniles. A standardized, index-netting study was conducted in the Rainy River to target juvenile and adult lake sturgeon. A total of 472 juvenile and 56 adult lake sturgeon were sampled. Juvenile and adult lake sturgeon were found throughout the river; however, juvenile relative abundance was greatest in the lowest river section close to the confluence with Lake of the Woods. Spatial clustering of juveniles and to lesser extent adults was also evident but adults were not necessarily segregated from juveniles. Juvenile annual survival rates were estimated to be approximately 75% and recruitment within this population was detected in all years but was variable in size. There were strong and weak year classes produced; however, they could not be explained by any of the environmental variables assessed. [ABSTRACT FROM AUTHOR]

Published

2024

9. Five Species of Wild Freshwater Sport Fish in Wisconsin, USA, Reveal Highly Diverse Viromes.

Author

Ford, Charlotte E., Dunn, Christopher D., Leis, Eric M., Thiel, Whitney A., and Goldberg, Tony L.

Subjects

LAKE sturgeon, FRESHWATER fishes, BROWN trout, SPECIES, BLUEGILL, ANIMAL health, PICORNAVIRUSES, MARINE fishes

Abstract

Studies of marine fish have revealed distant relatives of viruses important to global fish and animal health, but few such studies exist for freshwater fish. To investigate whether freshwater fish also host such viruses, we characterized the viromes of five wild species of freshwater fish in Wisconsin, USA: bluegill (Lepomis macrochirus), brown trout (Salmo trutta), lake sturgeon (Acipenser fulvescens), northern pike (Esox lucius), and walleye (Sander vitreus). We analyzed 103 blood serum samples collected during a state-wide survey from 2016 to 2020 and used a metagenomic approach for virus detection to identify known and previously uncharacterized virus sequences. We then characterized viruses phylogenetically and quantified prevalence, richness, and relative abundance for each virus. Within these viromes, we identified 19 viruses from 11 viral families: Amnoonviridae, Circoviridae, Coronaviridae, Hepadnaviridae, Peribunyaviridae, Picobirnaviridae, Picornaviridae, Matonaviridae, Narnaviridae, Nudnaviridae, and Spinareoviridae, 17 of which were previously undescribed. Among these viruses was the first fish-associated coronavirus from the Gammacoronavirus genus, which was present in 11/15 (73%) of S. vitreus. These results demonstrate that, similar to marine fish, freshwater fish also harbor diverse relatives of viruses important to the health of fish and other animals, although it currently remains unknown what effect, if any, the viruses we identified may have on fish health. [ABSTRACT FROM AUTHOR]

Published

2024

10. How well do existing surveys track fish community performance measures in the St. Clair-Detroit River System?

Author

Hilling, Corbin D., Belore, Megan L., Boase, James, Chiotti, Justin A., DeBruyne, Robin L., Doka, Susan E., Drouin, Richard, Mayer, Christine M., Tyson, Jeff. T., Wills, Todd, and Roseman, Edward F.

Subjects

WATERSHEDS, FISH surveys, FISH communities, FISHING villages, LAKE sturgeon, ECOSYSTEMS, AQUATIC biodiversity

Abstract

The St. Clair-Detroit River System (SCDRS) connects Lake Huron to Lake Erie and provides important habitats for many fishes of economic and ecological importance. Portions of the SCDRS are designated as Great Lakes Areas of Concern and fish production and conservation may be compromised. Efforts to address beneficial use impairments have focused on restoring habitat for native fishes and improving aquatic ecosystem health. Considerable site-specific research and long-term, annual fish surveys have examined responses to habitat improvements. However, there is uncertainty surrounding whether individual studies and surveys can assess (1) population-level benefits of habitat enhancements and (2) whether management objectives are being met. To identify monitoring gaps and inform long-term monitoring program development, we compared outputs from SCDRS fish monitoring surveys (based on discussions with regional agencies) with performance measures specified in management plans (obtained through gray literature searches). Performance measures for harvested species aligned well with outputs of existing surveys. In contrast, at-risk fishes often had objectives and performance measures that reflected knowledge gaps and study needs. Although harvested species were well-monitored relative to specified performance measures, at-risk fishes were less reliably collected by existing surveys, except for lake sturgeon Acipenser fulvescens. Effective evaluation of restoration efforts for at-risk fishes may require additional survey efforts that target species-specific habitat use and life history characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

11. Effect of L-alanine exposure during early life stage on olfactory development, growth and survival in age-0 lake sturgeon Acipenser fulvescens.

Author

Edwards, Tyler, Bouyoucos, Ian A, Hasler, Caleb T, Fry, Mark, and Anderson, W Gary

Subjects

LAKE sturgeon, OLFACTORY perception, WILDLIFE conservation, FISH development, AMINO acids, HATCHERY fishes

Abstract

Environmental factors play an important role in phenotypic development of fishes, which has implications for hatchery-reared fishes that are released into the wild where natural cues are present. There is interest in examining how early exposure to dietary odourants can affect development of olfaction. The aim of our study was to use behavioural, molecular and electro-physiological techniques to evaluate how introduction of the amino acid L-alanine to the rearing environment might influence the development of olfactory perception of dietary cues, growth and survival in lake sturgeon (Acipenser fulvescens), a species of conservation concern. We hypothesized that exposure to amino acids would influence the onset of feeding during dietary transitions from endogenous to exogenous feeding and predicted that the introduction of L-alanine during early development would promote growth and survival of age-0 lake sturgeon. Additionally, we hypothesized that olfaction in lake sturgeon is a developmentally plastic trait, predicting that the addition of L-alanine prior to exogenous feeding would influence mRNA transcript abundance of genes associated with detection of dietary cues. Our approach was to add L-alanine daily from 17 to 20 days post-fertilization (DPF) before the onset of exogenous feeding. We sampled individuals at 17, 21, 26, 31, 50, 65 and 80 DPF. Additionally, olfactory sensitivity to L-alanine was tested at ~1 year via electro-olfactogram (EOG). We observed no significant differences in mortality or EOG response between L-alanine and control treatments; however, significant differences were observed in morphometrics, behaviour and mRNA transcript abundance of all genes throughout development. Our results indicated the olfactory system exhibited developmental plasticity in response to L-alanine treatment until 50–65 DPF, suggesting that environmental odourants may influence early development of key olfactory processes. Our data could inform practises at conservation hatcheries that are used as part of enhancement programmes for lake sturgeon. [ABSTRACT FROM AUTHOR]

Published

2024

12. Comparing the incidence of spontaneous autopolyploidy in wild and hatchery Lake Sturgeon.

Author

Weisgerber, Kaitlynn A. and Anderson, W. Gary

Subjects

LAKE sturgeon, HATCHERY fishes, HEMATOCRIT, ERYTHROCYTES, FISH hatcheries, SIZE of fishes

Abstract

Objective: Living species of Acipenseriformes, sturgeons and paddlefishes, are characteristically polyploid, having more than two complete sets of chromosomes (>2n). They undergo spontaneous autopolyploidy, an unintentional one and a half times increase in genome size, more frequently than any other order of fish. For Lake Sturgeon Acipenser fulvescens, which are evolutionary octoploids (8n), spontaneous autopolyploidy results in fertile dodecaploid (12n) progeny. When 12n individuals reproduce with octoploids, it is possible that resulting decaploid (10n) offspring will have poor physiological performance and survivorship. Spontaneous autopolyploidy in the wild is very low; however, incidence in fish hatcheries is greater, as seen in other 8n sturgeon species. We investigated this disparity in Lake Sturgeon, predicting to find more dodecaploid individuals in hatchery populations than in the wild. Methods: Ploidy was determined using red blood cells from individuals in three hatchery and two wild populations of Lake Sturgeon in Manitoba, Canada (n = 1004). Red blood cell volume was evaluated with a Z2 Coulter counter and used to determine ploidy, based on the average of triplicate measures of the erythrocyte modal nuclei volume (fL). A subsample from each environment type was further examined using blood smear analysis (n = 130) and flow cytometry (n = 27). Result: One 12n hatchery individual was found, along with significant differences in erythrocyte morphometry between the five populations. Fluctuations in modal nuclei volume were also observed over 169 days of repeated measurement within a single hatchery population. Conclusion: The well‐developed relationship between erythrocyte size and fishes external and physiological environment may explain the variance both between and within populations. These results demonstrate the need for ploidy monitoring in artificial hatcheries, as releasing even a single 12n fish could produce thousands of 10n offspring that, if recruited, would have a detrimental effect on the population fitness. Impact statementThis research compared the number of chromosomes in wild versus hatchery Lake Sturgeon to determine whether methods for artificial egg fertilization cause genetic changes in offspring. While only 0.3% of the hatchery offspring sampled demonstrated a chromosomal change, previous research suggests that these individuals could be fertile and affect the wild populations they are released into. Additional research and monitoring in fish hatchery settings is recommended so that hatchery practices continue to aid in conservation rather than introduce new issues. [ABSTRACT FROM AUTHOR]

Published

2024

13. Joseph J. Pear (1938-2022): Inventive, Innovative, Inquisitive.

Author

Crone-Todd, Darlene E. and Silva, Francisco J.

Subjects

*INDIVIDUALIZED instruction, *BEHAVIOR modification, *PEARS, *ELECTRONIC textbooks, *BEHAVIORAL assessment, *LAKE sturgeon, *REINFORCEMENT (Psychology)

Abstract

As a scientist, teacher, and author, Joseph J. Pear (1938–2022) made inventive and innovative contributions to the experimental analysis of behavior and applied behavior analysis. He collaborated on the invention of a computer-controlled video system that provided real-time tracking of an animal as it moved around its environment—the first system of its kind—and used this system to study the behavior of pigeons during schedules of reinforcement and autoshaping, Siamese fighting fish during Sidman avoidance tasks, and even lake sturgeon using darkness as a positive reinforcer. A pioneer in early online teaching, he developed a computer-aided version of Keller's personalized system of instruction, a system known as CAPSI. Pear coauthored with Garry Martin a best-selling behavior modification textbook, and wrote his own books on topics such as the science of learning and psychological systems. Pear's work exemplified the growing integration between basic and applied behavior analysis. [ABSTRACT FROM AUTHOR]

Published

2023

14. Assessment of family-derived metabolic traits for the conservation of an ancient fish.

Author

Deslauriers, David, Yoon, Gwangseok R., McClellan, Kari J., Klassen, Cheryl N., and Anderson, W. Gary

Subjects

*FISH conservation, *ENERGY level densities, *LAKE sturgeon, *FISH farming, *FISH locomotion, *YOLK sac, *HATCHERY fishes, *SURVIVAL analysis (Biometry)

Abstract

Physiological and behavioral traits of aquatic organisms are often highly dependent on environmental conditions, but genetic (family) effects often contribute to phenotypic variation. In this study, a series of physiological indices were used to assess the variability that exists among progeny of lake sturgeon (Acipenser fulvescens Rafinesque, 1817) produced from eight different families. We designed a controlled experiment aimed to evaluate metabolic performance of age-0 lake sturgeon where growth, energy density, survival, metabolic rate, volitional swimming performance, and critical thermal maxima were quantified for fish reared under the same environmental conditions. We found a strong family effect for most metrics that were quantified and primarily influenced by the female. Furthermore, poor growth and survival within families were strongly correlated to low energy density levels and depressed routine metabolic rates at the yolk sac stage. Lastly, the quantification of energy density at the onset of exogenous feeding appeared to be an excellent predictor of future growth and survival. Our results suggest that the choice of female for production of progeny in conservation hatcheries will have significant impacts on the success of stock enhancement as a conservation strategy for lake sturgeon. [ABSTRACT FROM AUTHOR]

Published

2023

15. Vertical Patterns in Lake Sturgeon (Acipenser fulvescens) Larval Drift within Two Rivers Directly Connected to Green Bay, Lake Michigan.

Author

Forsythe, Patrick S., Lawrence, Dave A., Ragavendran, Ashok, McClellan, Kari, Ortiz, Miguel A., Dittmar, Tanna M., Elliott, Robert F., and Donofrio, Michael C.

Subjects

*LAKE sturgeon, *LARVAL dispersal, *FISH larvae, *WATER distribution, *WATER depth, *BODY size, *BROOD stock assessment, *FISHING nets

Abstract

Fish larvae in riverine environments often disperse (e.g., drift) from areas of egg deposition at the time of hatch. Several components of drift can be important in terms of survival including timing, distribution in the water column, and body size. The longitudinal and cross-sectional aspects of larval lake sturgeon (Acipenser fulvescens) drift from upstream spawning sites have received considerable study. However, the vertical distribution of larval lake sturgeon in the water column has not been comprehensively evaluated with respect to river size, water depth, the size of larvae in drift over the entire drift period, and the effectiveness of traditional sampling gear (D-frame nets) designed to collect larvae along the river bottom. In 2013, we sampled larval lake sturgeon drifting from upstream spawning sites in the Menominee and Oconto Rivers (Wisconsin, USA) using traditional D-frame nets and custom fabricated sampling nets that vertically partitioned the water column. Drifting larval lake sturgeon were observed from the river bottom to the top of the water column in both systems. Vertical net section was a significant predictor of total larval catch with the highest catch occurring in nets towards the center of the water column but was dependent on net location within the rivers' cross section and downstream distance from spawning locations. 42% of larvae captured across both rivers were outside of the sampling capability of the traditional D-frame nets (i.e., fish would have drifted over the top). Studies seeking to describe larval production for lake sturgeon, as well as other fish species that exhibit drift in larval dispersal, need to consider a balance between net design and sampling the vertical/cross sectional profiles of rivers. Size-based vertical drift may also have consequences for studies seeking to estimate genetic parameters (e.g., diversity and parentage). [ABSTRACT FROM AUTHOR]

Published

2023

16. Improving Mineral Prospectivity Model Generalization: An Example from Orogenic Gold Mineralization of the Sturgeon Lake Transect, Ontario, Canada.

Author

Parsa, Mohammad, Harris, Jeff, and Sherlock, Ross

Subjects

*LAKE sturgeon, *OROGENIC belts, *GENERALIZATION, *INDEPENDENT variables, *GOLD, *MINERALIZATION

Abstract

Despite the ever-increasing application of machine learning (ML) algorithms in mineral prospectivity modeling (MPM), poor generalization (over-fitting) is an issue posing impediments to ML-based MPM. This issue is partly rooted in model input variables and the paucity of mineralized zones used as labeled samples for training and validating models. This study, therefore, tries to answer the following questions to address this problem: (i) whether using additional geologically significant labeled samples can improve MPM generalization and (ii) whether using simple binary variables instead of using multiclass and continuous variables can lessen the severity of poor generalization in MPM. A dataset of orogenic gold mineralization in the Sturgeon Lake transect of Ontario, Canada, hosting 22 gold deposits and 46 gold occurrences, was exploited to define two suites of predictor variables describing orogenic gold mineralization. The original suite comprised categorical and continuous variables; however, the second set was developed by converting the first suite's variables into simple binary variables. Two experiments were conducted to answer the questions raised above; while only gold deposits were deemed labeled samples in the first experiment, the second experiment included both gold deposits and occurrences in the labeled samples. Each experiment was conducted with two sets of predictor variables, leading to four models. Comparing the bias–variance trade-off of these models enabled the authors to draw some conclusions about MPM generalization. The results of this study can provide insights into controlling the generalization of prospectivity models. [ABSTRACT FROM AUTHOR]

Published

2023

17. Rewilding the Detroit, Michigan, USA–Windsor, Ontario, Canada Metropolitan Area.

Author

Hartig, John H.

Subjects

METROPOLITAN areas, WILDLIFE reintroduction, ECOSYSTEM health, LAKE sturgeon, PEREGRINE falcon, BALD eagle

Abstract

Rewilding attempts to increase biodiversity and restore natural ecosystem processes by reducing human influence. Today, there is growing interest in rewilding urban areas. Rewilding of the Detroit, Michigan, USA and Windsor, Ontario, Canada metropolitan area, and its shared natural resource called the Detroit River, has been delineated through the reintroduction of peregrine falcons and osprey, and a return of other sentinel species like bald eagles, lake sturgeon, lake whitefish, walleye, beaver, and river otter. Rewilding has helped showcase the value and benefits of environmental protection and restoration, ecosystem services, habitat rehabilitation and enhancement, and conservation, including social and economic benefits. Improved ecosystem health and rewilding have become a catalyst for re-establishing a reconnection between urban denizens and natural resources through greenways and water trails. The provision of compelling outdoor experiences in nature, in turn, can help foster a personal attachment to the particular place people call home that can help inspire a stewardship ethic. [ABSTRACT FROM AUTHOR]

Published

2023

18. Comparison of metabolic rate between two genetically distinct populations of lake sturgeon.

Author

Yoon, Gwangseok R., Thorstensen, Matt J., Bugg, William S., Bouyoucos, Ian A., Deslauriers, David, and Anderson, W. Gary

Subjects

*LAKE sturgeon, *WILDLIFE reintroduction, *GROWING season, *STURGEONS, *LATITUDE

Abstract

Environmental temperatures differ across latitudes in the temperate zone, with relatively lower summer and fall temperatures in the north leading to a shorter growing season prior to winter. As an adaptive response, during early life stages, fish in northern latitudes may grow faster than their conspecifics in southern latitudes, which potentially manifests as different allometric relationships between body mass and metabolic rate. In the present study, we examined if population or year class had an effect on the variation of metabolic rate and metabolic scaling of age‐0 lake sturgeon (Acipenser fulvescens) by examining these traits in both a northern (Nelson River) and a southern (Winnipeg River) population. We compiled 6 years of data that used intermittent flow respirometry to measure metabolic rate within the first year of life for developing sturgeon that were raised in the same environment at 16°C. We then used a Bayesian modeling approach to examine the impacts of population and year class on metabolic rate and mass‐scaling of metabolic rate. Despite previous reports of genetic differences between populations, our results showed that there were no significant differences in standard metabolic rate, routine metabolic rate, maximum metabolic rate, and metabolic scaling between the two geographically separated populations at a temperature of 16°C. Our analysis implied that the lack of metabolic differences between populations could be due to family effects/parental contribution, or the rearing temperature used in the study. The present research provided insights for conservation and reintroduction strategies for these populations of lake sturgeon, which are endangered or threatened across most of their natural range. [ABSTRACT FROM AUTHOR]

Published

2023

19. A New Sturgeon Herpesvirus from Juvenile Lake Sturgeon Acipenser fulvescens Displaying Epithelial Skin Lesions.

Author

Clouthier, Sharon, Tomczyk, Marek, Schroeder, Tamara, Klassen, Cheryl, Dufresne, André, Emmenegger, Eveline, Nalpathamkalam, Thomas, Wang, Zhuozhi, and Thiruvahindrapuram, Bhooma

Subjects

LAKE sturgeon, HERPESVIRUSES, STURGEONS, DNA sequencing, HERPESVIRUS diseases, ACIPENSER

Abstract

Herpesvirus infections of sturgeon pose a potential threat to sturgeon culture efforts worldwide. A new epitheliotropic herpesvirus named Acipenser herpesvirus 3 (AciHV-3) was detected in hatchery-reared Lake Sturgeon Acipenser fulvescens displaying skin lesions in central Canada. The growths were discovered in the fall, reached average prevalence levels of 0.2–40% and eventually regressed. No unusual mortality was observed. The cellular changes within the lesions included epithelial hyperplasia and were reminiscent of other herpesvirus infections. The virus was not evident in lesions examined by electron microscopy. Skin tissue homogenates from symptomatic sturgeon produced atypical cytopathic effects on a primary Lake Sturgeon cell line, and next-generation sequence analysis of the DNA samples revealed the presence of an alloherpesvirus. A new genotyping PCR assay targeting the major capsid protein sequence detected AciHV-3 in symptomatic Lake Sturgeon as well as other apparently healthy sturgeon species. Bayesian inference of phylogeny reconstructed with a concatenation of five alloherpesvirus core proteins revealed a new Alloherpesviridae lineage isomorphic with a new genus. The presence of AciHV-3 homologs in cell lines and sturgeon sequence datasets, low sequence divergence among these homologs and branching patterns within the genotyping phylogeny provide preliminary evidence of an endogenous virus lifestyle established in an ancestral sturgeon. [ABSTRACT FROM AUTHOR]

Published

2023

20. Passing the Spear.

Author

ZORN, ANNA MARIE

Subjects

GROUNDFISHES, LAKE sturgeon

Published

2023

21. Juvenile namewag help drive modern science with traditional observation.

Author

Paulsen, Bay

Subjects

LAKE sturgeon, TRADITIONAL knowledge, FISHERIES, COMPLIMENTS, FISHING

Published

2024

22. In‐stream population structuring of Lake Sturgeon in Northern Manitoba, Canada.

Author

Nelson, Patrick A., Gosselin, Thierry, McDougall, Craig A., and Bernatchez, Louis

Subjects

*LAKE sturgeon, *PRINCIPAL components analysis, *DISCRIMINANT analysis

Abstract

The Lake Sturgeon is a long‐lived, late‐maturing fish that declined significantly in abundance over the past 150 years. Since the 1990s, stocking has been used to recover numerous Lake Sturgeon populations across North America. Ill‐informed genetic mixing among populations can have unintended negative consequences, so a genotype‐by‐sequencing (GBS) study was undertaken to help guide the stocking strategy for Lake Sturgeon on the 653‐km‐long Nelson River, Manitoba. Tissue samples collected from 416 adults captured from 12 locations along the Nelson River, and from the Hayes and Churchill rivers that also empty into Hudson Bay, were sequenced using Illumina technology. A bioinformatics pipeline yielded 5637 high‐quality filtered markers. Genetic differentiation (overall mean FST of 0.028; a range of means: 0–0.16) revealed spatial structuring among and within rivers. Two populations were found in the upper Nelson River, two more in the middle Nelson, and one in the lower Nelson. Discriminant analysis of principal components revealed first‐generation migrants and a general lack of effective dispersal, which raises questions about historical versus contemporary influence. Lake Sturgeon stocking in northern Manitoba should avoid mixing among rivers and among Nelson River sections. [ABSTRACT FROM AUTHOR]

Published

2023

23. Lake Sturgeon population trends in the St. Clair–Detroit River system, 2001–2019.

Author

Chiotti, Justin A., Boase, James C., Briggs, Andrew S., Davis, Chris, Drouin, Richard, Hondorp, Darryl W., Mohr, Lloyd, Roseman, Edward F., Thomas, Michael V., and Wills, Todd C.

Subjects

LAKE sturgeon, WATERSHEDS, RARE fishes, PARAMETERS (Statistics), ENDANGERED species, WHALE watching

Abstract

Objective: The Lake Sturgeon Acipenser fulvescens is listed as threatened or endangered in 15 states or provinces within the species' native range. Accordingly, investments in habitat and population restoration for this species have increased throughout the Great Lakes. To aid in the evaluation of restoration efficacy, robust population parameters are needed to inform management decisions. The St. Clair–Detroit River system (SCDRS) contains one of the largest self‐sustaining Lake Sturgeon populations in the Great Lakes; however, recent estimates of population abundance and growth parameters have not been assessed. Methods: Our study used baited setline and mark–recapture data collected between 2001 and 2019 to estimate whether the number of Lake Sturgeon captured varied annually and/or with water temperature and whether population abundance and the population growth rate (λ) varied among three subpopulations located in the SCDRS. Result: Trends in the number of Lake Sturgeon captured on setlines varied among subpopulations and by life stage. Annual trends in the number of Lake Sturgeon captured remained consistent over time in the upper St. Clair River, decreased for adults and increased for subadults in the lower St. Clair River, and increased in the Detroit River. With subpopulation abundances of 20,184 (95% confidence interval [CI] = 12,533–27,816) in the upper St. Clair River/southern Lake Huron, 6523 (95% CI = 5720–7327) in the lower St. Clair River, and 6416 (95% CI = 4065–8767) in the Detroit River, our study confirms that the SCDRS contains the largest Lake Sturgeon population with unimpeded access to the Great Lakes. The geometric mean λ for all subpopulations indicated stable populations and ranged from 1.00 to 1.16. Conclusion: Our study provides an updated assessment of Lake Sturgeon population parameters that serve as a baseline to evaluate habitat restoration efforts and to inform management of the SCDRS recreational Lake Sturgeon fishery. Impact statementLake Sturgeon are a threatened or endangered fish species throughout much of their native range. The sturgeon population in the St. Clair–Detroit River system is one of the largest in the Great Lakes with nearly 30,000 individuals and is in stable condition. [ABSTRACT FROM AUTHOR]

Published

2023

24. Elevated temperatures reduce population‐specific transcriptional plasticity in developing lake sturgeon (Acipenser fulvescens).

Author

Bugg, William S., Thorstensen, Matt J., Marshall, Katie E., Anderson, W. Gary, and Jeffries, Ken M.

Subjects

*LAKE sturgeon, *HIGH temperatures, *WATER temperature, *ACCLIMATIZATION, *LAKES, *PROTEIN synthesis, *ENDANGERED species, *ACCLIMATIZATION (Plants)

Abstract

Rising mean and variance in temperatures elevates threats to endangered freshwater species such as lake sturgeon, Acipenser fulvescens. Previous research demonstrated that higher temperatures during development result in physiological consequences for lake sturgeon populations throughout Manitoba, Canada, with alteration of metabolic rate, thermal tolerance, transcriptional responses, growth and mortality. We acclimated lake sturgeon (30–60 days post fertilization, a period of high mortality) from northern and southern populations (56°02′46.5″N, 96°54′18.6″W and 50°17′52″N, 95°32′51″W, respectively, separated by approximately 650 km) within Manitoba to current (summer highs of 20–23°C) and future projected (+2–3°C) environmental temperatures of 16, 20 and 24°C for 30 days, and we measured gill transcriptional responses using RNAseq. Transcripts revealed SNPs consistent with genetically distinct populations and transcriptional responses altered by acclimation temperature. There were a higher number of differentially expressed transcripts observed in the southern, compared to the northern, population as temperatures increased, indicating enhanced transcriptional plasticity. Both lake sturgeon populations responded to elevated acclimation temperatures by downregulating the transcription of genes involved in protein synthesis and energy production. Furthermore, there were population‐specific thresholds for the downregulation of processes promoting transcriptional plasticity as well as mitochondrial function as the northern population showed decreases at 20°C, while this capacity was not diminished until 24°C in the southern population. These transcriptional responses highlight the molecular impacts of increasing temperatures for divergent lake sturgeon populations during vulnerable developmental periods and the critical influence of transcriptome plasticity on acclimation capacity. [ABSTRACT FROM AUTHOR]

Published

2023

25. Individual‐based analyses reveal effects of behavioral and demographic variables associated with multi‐annual reproductive success of male and female lake sturgeon.

Author

Duong, Thuy‐Yen, Bence, James, Forsythe, Patrick S., Crossman, James A., Baker, Edward A., Sard, Nicholas M., and Scribner, Kim T.

Subjects

*LAKE sturgeon, *BIOLOGICAL fitness, *FISH spawning, *BODY size, *DEMOGRAPHIC characteristics, *FEMALES

Abstract

Quantifying effects of individual attributes and population demographic characteristics that affect inter‐ and intrasexual interactions and adult reproductive success, and the spatial and temporal contexts in which they are expressed is important to effective species management. Multi‐year individual‐based analyses using genetically determined parentage allowed the examination of variables associated with the reproductive success of male and female lake sturgeon (Acipenser fulvescens) in the well‐studied population in Black Lake, Michigan, USA. Spawning lake sturgeon (a total of 599 individuals where many were captured more than once based on 1024 total captures) and larvae (N = 3436) were genotyped during each of seven consecutive years (2001–2007). Factors associated with individual reproductive success differed between sexes and varied among spawning groups within a year and among years depending on spawning date (higher reproductive success earlier in the season for females) and spawning locations (higher reproductive success in upstream spawning zones for females). Female reproductive success increased nonlinearly with increasing body size. Male reproductive success increased with increasing residence time in spawning areas and, to a modest degree, with increasing body size in a nonlinear fashion. Fixed effects of repeatability in spawn timing and location across years led to consistently higher or lower reproductive success for females. Results identified factors, including time spent at spawning areas by males and intersexual encounters and mate number, that contributed to higher interindividual variance in reproductive success and affected population levels of recruitment, the degree of subpopulation genetic structure (lack of isolation by time), and effective population size. [ABSTRACT FROM AUTHOR]

Published

2023

26. Evaluation of Threatened, Endangered, and Rare Fish Species and Communities of the St. Lawrence River and Its Tributaries in the United States.

Author

McKenna Jr, James E. and David, Anthony

Subjects

*FISH communities, *ENDANGERED species, *RARE fishes, *FISHING villages, *LAKE sturgeon, *GEOGRAPHIC information systems

Abstract

Biodiversity is responsible for important ecological processes like productivity and ecosystem stability, and rare species are a major component of biodiversity. Rarity increases a species' vulnerability to disturbances and also makes them difficult to study. Globally, species of freshwater systems are some of the most threatened, and evaluation of rare freshwater species and their habitats is needed to help preserve natural flexibility and ecological function. We conducted an analysis of full fish communities of the upper St. Lawrence River and its major US tributaries, with the goals of determining species locations and abundances, associated environmental conditions, the distribution of distinct fish assemblages across the landscape (with emphasis on communities supporting rare species), and potential threats. From 2009 to 2015, the US Geological Survey (USGS) and Saint Regis Mohawk Tribe (SRMT) worked together using standardized methods to collect community samples within 4 different aquatic realms (shallow and deep lentic, and small and large lotic systems) and determine species-specific fish abundances, frequencies of occurrence, and associated habitat signatures and spatial distributions. Distinct fish assemblages and associated habitat conditions were objectively identified by multivariate and hypothesis-testing methods. We used a geographic information system (GIS) to spatially associate habitat, biotic, and landscape attributes within each stream reach throughout the study area, facilitating quantification of distribution patterns. Comparisons with historical data provided estimates of loss or gain of threatened and endangered species (T&E) colonies. We developed a disturbance index to highlight potential threats to aquatic species. More than 140,000 fishes of 87 species were collected from a total of 1140 sample sites, covering 278 stream reaches, including the endangered Notropis anogenus (Pugnose Shiner), and threatened Hiodon tergisus (Mooneye), Etheostoma pellucidum (Eastern Sand Darter), and Acipenser fulvescens (Lake Sturgeon). We identified 50 distinct fish assemblages differing in species composition, abundance, and/or diversity, but only 13 of those assemblages included a T&E species. The rareness, extent, and patchiness of fish assemblages created a mosaic of fish communities across the landscape, from headwaters to the mainstem of the St. Lawrence River. Comparisons with historic surveys (1978–2008) showed a stable number of T&E species colonies or an increase for some species. The geographic distribution of multimetric disturbance index values showed where combinations of disturbances to fish habitats might affect rare fish species and aquatic communities in the region. The species–habitat associations and fish assemblage distributions can be used for evaluation of species, communities, or habitats that may need protection or restoration. [ABSTRACT FROM AUTHOR]

Published

2023

27. MAKING A COMEBACK.

Author

PASBRIG, CHELSEY

Subjects

FISH stocking, LAKE sturgeon, WILDLIFE reintroduction, WATER conservation, FISH migration, GILLNETTING, STONE

Abstract

The article discusses the efforts of the South Dakota Game, Fish and Parks (GFP) and the Minnesota Department of Natural Resources (MN DNR) to reintroduce Lake Sturgeon to Big Stone Lake. Lake Sturgeon, a prehistoric fish, had experienced significant declines due to overharvest and habitat alterations. Since 2014, GFP and MN DNR have been releasing Lake Sturgeon fingerlings into the lake, with the goal of establishing a self-sustaining population. The restoration program has shown signs of success, with reports of Lake Sturgeon concentrations in potential spawning areas. The article emphasizes the slow growth and long lifespan of Lake Sturgeon and urges people not to disturb the fish during their spawning efforts. [Extracted from the article]

Published

2024

28. Spatiotemporal use of a tributary by lake sturgeon over a 10-year period.

Author

McDonald, Lauren and Haxton, Tim

Subjects

LAKE sturgeon, SIZE of fishes, LUNAR phases, FISH spawning, WATER temperature, BROOD stock assessment, WATER levels

Abstract

A telemetry study was conducted on lake sturgeon to determine the seasonal use and environmental factors that stimulate movement within a tributary of a larger system. Over a 10-year period, 52 lake sturgeon implanted with acoustic transmitters were monitored through an array of Vemco receivers with the Blanche River, Ontario. An average of 68% of the tagged fish entered the tributary annually whereas only 19.2% of those were detected on known spawning areas approximately 54 km upstream. Water temperature, lunar phase, lake water level, presumed spawning fish, and water discharge were all considered significant variables associated with the onset of upstream migration. Water temperature (mean 12.9 °C) was the only variable that explained the timing and the arrival at the spawning grounds. Sturgeon remained at the spawning area for a mean duration 7.9 days; however, none of the variables examined explained the duration of stay. Water temperature was the only variable that explained departure from the spawning areas (mean 15.8 °C). Mean time spent in the river after spawning was 30.5 days. There was not a significant difference in sex or total length in relationship to the duration tagged fish stayed in the river after spawning. The entire Blanche River up to the insuperable rapids was used by the sturgeon with the exception of minor tributaries. Water temperature, river discharge, and fish size were all considered significant factors initiating out-migration back into the lake. This study demonstrated the importance and seasonal use of a tributary by lake sturgeon. Correlations from abiotic variable and seasonal response could be used to establish guidelines for water management purposes when the goal is to conserve or restore sturgeon populations within a river system. This study also illustrates the importance of tributaries in association to a larger waterbody for lake sturgeon. [ABSTRACT FROM AUTHOR]

Published

2023

29. Surplus-production estimate of historical lake sturgeon biomass in Lake of the Woods.

Author

Haxton, Tim and Friday, Mike

Subjects

LAKE sturgeon, HARVESTING, AGRICULTURAL forecasts, STURGEONS, DEMOGRAPHIC change

Abstract

Lake sturgeon (Acipenser fulvescens) was historically abundant in Lake of the Woods, Canada/USA, and was the first species to be commercially harvested from that waterbody commencing in 1888. The number of pound nets used annually was documented from 1888 to 1910 and used as a surrogate for effort in a surplus-production model using a Bayesian approach. Mean dressed weight was 11.35 kg; therefore, the total biomass and approximate number of sturgeon harvested could be estimated. Over the 23-year period, 5348 tonnes were harvested peaking at 813.3 tonnes in 1893. Effort peaked in 1896 whereas catch-per-unit-effort peaked in 1891 at 11.4 tonnes per pound net year. The estimated historical initial biomass (B0) was 4493 tonnes (2059–9689; 95% CIs) and population was 395,859 sturgeons (181,409–853,656). Carrying capacity was estimated at 10,825 tonnes (2676–40,697; 95% CIs) and the intrinsic growth rate (r) was estimated to be 0.092 (0.009–0.272; 95% CIs). Maximum sustainable yield was 235 tonnes (14–1012; 95% CIs) which was exceeded 3.5 times by the third year (1891) of commercial harvest and extended seven more years until the population declined. The mean rate of exploitation was 13.2% over the 23-year period, peaked at 36.5% in 1896 and declined to approximately 10% after the 1900s. The population in Lake of the Woods in 1910 was estimated to be 34,397 (13,814–80,966; 95% CIs) representing a decline of 91.1% from the beginning of the commercial harvest in 1888. [ABSTRACT FROM AUTHOR]

Published

2023

30. Spatiotemporal segregation by migratory phenotype indicates potential for assortative mating in lake sturgeon.

Author

Buchinger, Tyler J., Hondorp, Darryl W., and Krueger, Charles C.

Subjects

*LAKE sturgeon, *ASSORTATIVE mating, *POPULATION differentiation, *SOCIAL network analysis, REPRODUCTIVE isolation

Abstract

Migratory diversity can promote population differentiation if sympatric phenotypes become temporally, spatially, or behaviorally segregated during breeding. In this study, the potential for spatiotemporal segregation was tested among three migratory phenotypes of lake sturgeon (Acipenser fulvescens) that spawn in the St. Clair River of North America's Laurentian Great Lakes but differ in how often they migrate into the river and in which direction they move after spawning. Acoustic telemetry over 9 years monitored use of two major spawning sites by lake sturgeon that moved north to overwinter in Lake Huron or south to overwinter in Lake St. Clair. Lake St. Clair migrants were further distinguished by whether they migrated into the St. Clair River each year (annual migrants) or intermittently (intermittent migrants). Social network analyses indicated lake sturgeon generally co-occurred with individuals of the same migratory phenotype more often than with different migratory phenotypes. A direct test for differences in space use revealed one site was almost exclusively visited by Lake St. Clair migrants whereas the other site was visited by Lake Huron migrants, intermittent Lake St. Clair migrants, and, to a lesser extent, annual Lake St. Clair migrants. Analysis of arrival and departure dates indicated opportunity for co-occurrence at the site visited by all phenotypes but showed Lake Huron migrants arrived approximately 2 weeks before Lake St. Clair migrants. Taken together, our results indicated partial spatiotemporal segregation of migratory phenotypes that may generate assortative mating and promote population differentiation. [ABSTRACT FROM AUTHOR]

Published

2023

31. Catch‐and‐Release Angling Effects on Lake Sturgeon in Wisconsin, USA.

Author

Shaw, Stephanie L., Lawson, Zachary, Gerbyshak, Joseph, Nye, Nathan, and Donofrio, Michael

Subjects

LAKE sturgeon, BLOOD lactate, FISHING, WATER temperature, HIGH temperatures, FISHERY processing, REGIONAL banks

Abstract

Discard mortality is an important factor to consider when managing catch‐and‐release fisheries. Even low levels of discard mortality can induce population‐level effects particularly in long‐lived, low‐productivity species like Lake Sturgeon Acipenser fulvescens. Unfortunately, little is known about the effects of catch‐and‐release angling on Lake Sturgeon physiology and probability of discard mortality. We used controlled angling events with standardized gear to capture 96 Lake Sturgeon from August to October 2019 from four regional locations in Wisconsin, USA. We evaluated the physiological effects of angling and activation of the stress response using whole blood concentrations of lactate and glucose as well as assessment of reflex impairment and postcapture monitoring of recovery time. Lactate levels were positively related to fight duration and the fight duration × total length interaction. Glucose level was related to the time a fish spent out of water postangling event. Water temperature had a positive effect on the probability of reflex impairment and the probability that a sturgeon required recovery time. The recovery duration was positively related to the amount of time that the fish was out of water. The movements of a subset of 15 individuals from one location were monitored using acoustic telemetry for approximately 2 weeks postangling. All individuals showed continuous up‐ and downstream movement during the postrelease monitoring period, and there was no evidence of mortality related to the angling events. Managers considering catch‐and‐release fisheries for Lake Sturgeon should consider population‐specific relative abundance and catch rates. They should exercise caution in scenarios when seasonal aggregations may lead populations to be susceptible to high catch rates, during times of elevated water temperatures, or the combination of these factors. The Lake Sturgeon in this study appeared to be robust to angling‐induced stress effects. Nevertheless, caution is still warranted, as low levels of discard mortality have the potential to influence low‐productivity species like Lake Sturgeon. [ABSTRACT FROM AUTHOR]

Published

2023

32. Parentage Analysis Reveals Unequal Family Sizes during Hatchery Production.

Author

Akers, Mary, Quinlan, Henry, Johnson, Andrew, Baker, Edward, and Welsh, Amy

Subjects

*FAMILY size, *LAKE sturgeon, *WILDLIFE conservation, *GENETIC variation, *GAMETES

Abstract

Lake sturgeon (Acipenser fulvescens) is a species of conservation concern that has been stocked in several Great Lakes (North America) rivers. Lake sturgeon were extirpated in the Ontonagon River in Lake Superior and stocking began in 1998. In 2017, gametes were collected from spawning lake sturgeon (9 females, 36 males) caught at the nearby Sturgeon River spawning ground, generating nine family groups using a 1:4 mating design (n = 862). In 2018, gametes were collected from 3 females and 15 males, generating three family groups, and additional collections of drifting fry from the Sturgeon River were reared in the hatchery, resulting in 84 hatchery-produced and 675 wild-caught fry for stocking in the Ontonagon River. The objective of this study was to compare paternal representation and genetic diversity between the two stocking strategies. Parentage analysis based on genetic data from 12 microsatellite loci determined none of the family groups in the hatchery had equal paternal representation (p < 0.001), while wild-produced offspring had equal paternal representation. Despite the larger number of breeders contributing to the wild-caught larvae, there was no significant difference in genetic diversity between the wild-caught larvae and representative hatchery-produced offspring. [ABSTRACT FROM AUTHOR]

Published

2023

33. Conservation Genetics of Lake Sturgeon (Acipenser fulvescens): Nuclear Phylogeography Drives Contemporary Patterns of Genetic Structure and Diversity.

Author

Kjartanson, Shawna L., Haxton, Tim, Wozney, Kristyne, Lovejoy, Nathan R., and Wilson, Chris C.

Subjects

*LAKE sturgeon, *GENETIC variation, *CONSERVATION genetics, *COLONIZATION (Ecology), *PHYLOGEOGRAPHY, *MELTWATER, *GENE flow

Abstract

Sustainable management of exploited and endangered species is facilitated by knowledge of their geographic genetic structure. Lake sturgeon (Acipenser fulvescens) epitomizes both categories, but genetic information has largely been limited to the Laurentian Great Lakes basin. We assessed the hierarchical geographic genetic structure of lake sturgeon across their Canadian range using a variation at 14 microsatellite loci. Observed patterns showed evidence of two ancestral groups which originated from Mississippian and Missourian glacial refugia. Coalescent analysis indicates the two lineages most recently shared common ancestry during the late Pleistocene and were likely isolated by the late Wisconsinan ice advance, with subsequent interpopulation divergences within each lineage reflecting their reciprocal isolation as glacial meltwaters receded. Hierarchical patterns of genetic relationships among contemporary populations largely reflect colonization histories and connections within primary and secondary watersheds. Populations in western Canada showed strong similarities based on their shared Missourian origins and colonization from glacial Lake Agassiz. By contrast, populations in the Great Lakes–St. Lawrence River drainage were largely founded from a Mississippian source. Sturgeon populations in northern parts of Ontario and Quebec showed evidence of mixed ancestry from secondary contact between the two refugial groups through Holocene meltwater lakes. Within major watersheds, the strong similarity among geographically separate populations reflects their shared ancestry during postglacial colonization. The general lack of structure within major river systems highlights historically continuous habitat (connectivity) and gene flow rather than contemporary barriers (dams). These data highlight the importance of Quaternary and prehistoric events on patterns of genetic diversity and divergence within and among contemporary populations, as well as the importance of these populations for conserving the species' evolutionary legacy. [ABSTRACT FROM AUTHOR]

Published

2023

34. A hydrodynamics-based framework to evaluate the impact of fishways on drifting lake sturgeon larvae.

Author

Jones, Kaylin and Cotel, Aline J.

Abstract

Lake sturgeon (Acipenser fulvescens) have recently been a target for conservation in the Laurentian Great Lakes. While improving spawning success has been a major goal of these efforts, an often-overlooked component is the survival of the larvae after hatching, during the period of downstream drift. In a dammed river system, during this phase, larvae may need to drift past dam infrastructure. This journey past dams often results in an increase in larval mortality for a variety of reasons, including exposure to highly turbulent flow. Quantifying the aspects of turbulence related to larval mortality within fishways will inform retrofitting or future design efforts of fishways to improve larval viability. This study uses dimensional arguments to characterize the flow conditions influencing larval viability through fishways. One such condition discussed here is strain rate, which can be used as a diagnostic basis to determine candidate fishways for conservation measures. Based on Kolmogorov's theory (1941), the strain rate present in the fishway at the pertinent scale for lake sturgeon larvae, S η , can be estimated using the fishway's macroscale Reynolds number Re , the relevant macroscale fishway velocity U , and the smallest fishway pool dimension l e as S η l e /U ≈ Re 1/2. This approach is illustrated in the case of the Vianney-Legendre Fishway in Québec, and determined this fishway to be potentially hazardous to drifting lake sturgeon larvae. [ABSTRACT FROM AUTHOR]

Published

2023

35. Behavioral evidence of olfactory imprinting during embryonic and larval stages in lake sturgeon.

Author

Kimmel, Jacob G, Buchinger, Tyler J, Larson, Douglas L, Baker, Edward A, Zorn, Troy G, Scribner, Kim T, and Li, Weiming

Abstract

Many migratory fishes are thought to navigate to natal streams using olfactory cues learned during early life stages. However, direct evidence for early-life olfactory imprinting is largely limited to Pacific salmon, and other species suspected to imprint show life history traits and reproductive strategies that raise uncertainty about the generality of the salmonid-based conceptual model of olfactory imprinting in fishes. Here, we studied early-life olfactory imprinting in lake sturgeon (Acipenser fulvescens), which have a life cycle notably different from Pacific salmon, but are nonetheless hypothesized to home via similar mechanisms. We tested one critical prediction of the hypothesis that early-life olfactory imprinting guides natal homing in lake sturgeon: that exposure to odorants during early-life stages results in increased activity when exposed to those odorants later in life. Lake sturgeon were exposed to artificial odorants (phenethyl alcohol and morpholine) during specific developmental windows and durations (limited to the egg, free-embryo, exogenous feeding larvae and juvenile stages), and later tested as juveniles for behavioral responses to the odorants that were demonstrative of olfactory memory. Experiments revealed that lake sturgeon reared in stream water mixed with artificial odorants for as little as 7 days responded to the odorants in behavioral assays over 50 days after the initial exposure, specifically implicating the free-embryo and larval stages as critical imprinting periods. Our study provides evidence for olfactory imprinting in a non-salmonid fish species, and supports further consideration of conservation tactics such as stream-side rearing facilities that are designed to encourage olfactory imprinting to targeted streams during early life stages. Continued research on lake sturgeon can contribute to a model of olfactory imprinting that is more generalizable across diverse fish species and will inform conservation actions for one of the world's most imperiled fish taxonomic groups. [ABSTRACT FROM AUTHOR]

Published

2023

36. Redescriptions of Spinitectus acipenseri and S. micracanthus (Nematoda, Cystidicolidae), with notes on the taxonomy of Spinitectus-like nematodes parasitising North American fishes.

Author

Moravec, František, Huffman, David G., de Buron, Isaure, and González-Solís, David

Subjects

LAKE sturgeon, TAXONOMY, FILARIAL worms, NEMATODES, STURGEONS

Abstract

Copyright of Parasite (1252607X) is the property of EDP Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

37. First Isolation of a Herpesvirus (Family Alloherpesviridae) from Great Lakes Lake Sturgeon (Acipenser fulvescens).

Author

Johnston, Amber E., Shavalier, Megan A., Scribner, Kim T., Soto, Esteban, Griffin, Matt J., Waldbieser, Geoffrey C., Richardson, Bradley M., Winters, Andrew D., Yun, Susan, Baker, Edward A., Larson, Douglas L., Kiupel, Matti, and Loch, Thomas P.

Subjects

*LAKE sturgeon, *FISH farming, *DNA polymerases, *FISH stocking, *HATCHERY fishes, *WATERSHEDS, *GENOMICS, *KNOWLEDGE gap theory

Abstract

Simple Summary: Throughout the Great Lakes basin, infectious diseases likewise threaten wild and hatchery reared fishes, and often require management attention. The lake sturgeon (Acipenser fulvescens) is the only sturgeon species native to the Great Lakes, where it is the largest and longest living fish therein. Due to multiple known and unknown factors, current Great Lakes lake sturgeon populations are estimated to be <1% of historical abundances. One potential contributing factor about which little remains known, especially when compared to other Great Lakes fishes, is the impact of infectious diseases. To address this knowledge gap, a two-year disease surveillance study was undertaken, resulting in the detection and isolation of a herpesvirus from lesions observed on wild adult lake sturgeon in two Great Lakes watersheds (Erie and Huron). Genomic analyses revealed the recovered virus was most similar to, yet molecularly distinct from, a herpesvirus recently recovered from lake sturgeon in the Lake Michigan watershed (Wisconsin, USA). This newly described virus, proposed as Lake Sturgeon Herpesvirus 2, proved virulent to juvenile (<1 year old) lake sturgeon, whereby disease and mortality occurred in virus-exposed fish under laboratory conditions. Overall, results from this study highlight the potential threat this newly described virus poses to Great Lakes lake sturgeon conservation efforts. The lake sturgeon (Acipenser fulvescens; LST) is the only native sturgeon species in the Great Lakes (GL), but due to multiple factors, their current populations are estimated to be <1% of historical abundances. Little is known about infectious diseases affecting GL-LST in hatchery and wild settings. Therefore, a two-year disease surveillance study was undertaken, resulting in the detection and first in vitro isolation of a herpesvirus from grossly apparent cutaneous lesions in wild adult LST inhabiting two GL watersheds (Erie and Huron). Histological and ultrastructural examination of lesions revealed proliferative epidermitis associated with herpesvirus-like virions. A virus with identical ultrastructural characteristics was recovered from cells inoculated with lesion tissues. Partial DNA polymerase gene sequencing placed the virus within the Family Alloherpesviridae, with high similarity to a lake sturgeon herpesvirus (LSHV) from Wisconsin, USA. Genomic comparisons revealed ~84% Average Nucleotide Identity between the two isolates, leading to the proposed classification of LSHV-1 (Wisconsin) and LSHV-2 (Michigan) for the two viruses. When naïve juvenile LST were immersion-exposed to LSHV-2, severe disease and ~33% mortality occurred, with virus re-isolated from representative skin lesions, fulfilling Rivers' postulates. Results collectively show LSHV-2 is associated with epithelial changes in wild adult LST, disease and mortality in juvenile LST, and is a potential threat to GL-LST conservation. [ABSTRACT FROM AUTHOR]

Published

2022

38. Aquatic insects differentially affect lake sturgeon larval phenotypes and egg surface microbial communities.

Author

Walquist, Ryan W., Scribner, Kim T., Waraniak, Justin, Bauman, John M., Marsh, Terence L., Kanefsky, Jeannette, and Larson, Douglas L.

Subjects

*LAKE sturgeon, *AQUATIC insects, *MICROBIAL communities, *WILDLIFE conservation, *YOLK sac, *HABITATS, *AQUATIC invertebrates, *STURGEONS

Abstract

Documentation of how interactions among members of different stream communities [e.g., microbial communities and aquatic insect taxa exhibiting different feeding strategies (FS)] collectively influence the growth, survival, and recruitment of stream fishes is limited. Considerable spatial overlap exists between early life stages of stream fishes, including species of conservation concern like lake sturgeon (Acipenser fulvescens), and aquatic insects and microbial taxa that abundantly occupy substrates on which spawning occurs. Habitat overlap suggests that species interactions across trophic levels may be common, but outcomes of these interactions are poorly understood. We conducted an experiment where lake sturgeon eggs were fertilized and incubated in the presence of individuals from one of four aquatic insect FS taxa including predators, facultative and obligate-scrapers, collector-filterers/facultative predators, and a control (no insects). We quantified and compared the effects of different insect taxa on the taxonomic composition and relative abundance of egg surface bacterial and lower eukaryotic communities, egg size, incubation time to hatch, free embryo body size (total length) at hatch, yolk-sac area, (a measure of resource utilization), and percent survival to hatch. Mean egg size varied significantly among insect treatments. Eggs exposed to predators had a lower mean percent survival to hatch. Eggs exposed to predators had significantly shorter incubation periods. At hatch, free embryos exposed to predators had significantly smaller yolk sacs and total length. Multivariate analyses revealed that egg bacterial and lower eukaryotic surface community composition varied significantly among insect treatments and between time periods (1 vs 4 days post-fertilization). Quantitative PCR documented significant differences in bacterial 16S copy number, and thus abundance on egg surfaces varied across insect treatments. Results indicate that lethal and non-lethal effects associated with interactions between lake sturgeon eggs and free embryos and aquatic insects, particularly predators, contributed to lake sturgeon trait variability that may affect population levels of recruitment. [ABSTRACT FROM AUTHOR]

Published

2022

39. Feeding Strategies for Adapting Lake Sturgeon (Acipenser fulvescens) Larvae to Formulated Diets at Early Life Stages.

Author

Lee, Seunghyung, Zhai, Shaowei, Deng, Dong-Fang, Li, Yuquan, Blaufuss, Patrick Christopher, Eggold, Bradley T., and Binkowski, Fred

Subjects

*LAKE sturgeon, *ANIMAL feeds, *FISH feeds, *DIET, *LARVAE, *ARTEMIA, *FISH mortality

Abstract

Simple Summary: Failure of larvae and juveniles to transition from live feed to prepared diets is a common cause of significant mortality in many fish species, including lake sturgeon (Acipenser fulvescens). Our study investigated feeding strategies that adapt lake sturgeon transition to formulated diets. The results showed that co-feeding formulated diets with live feed for periods of 3 or 4 weeks can improve growth and survival during this transition. Our finding also suggested that introducing formulated diets early possesses a potential to improve tolerance to environmental hypoxia, which may be due to balanced nutrient profiles. Cost-effective feeding management is required to support conservation hatcheries for lake sturgeon (Acipenser fulvescens), an ecologically important species in the Great Lakes region. This study investigated an approach to transition lake sturgeon larvae from live feed (Artemia) to formulated feed and its effect on growth performance, survival, and response to acute hypoxia stress. The first experiment showed that sturgeon had similar (p > 0.05) growth and survival when fed Artemia or the combined feeding of Artemia with the commercial diet (crude protein, 551 g/kg diet). Feeding solely on the commercial or lab-made (crude protein, 491 g/kg diet) diet significantly reduced growth and survival (p < 0.05). In the second experiment, the growth performance of sturgeon (14 days post-hatch, DPH) fed with either Artemia only or combined feeding different feeding durations of two, three, and four weeks followed by a complete transition to the commercial diet. At the end of six weeks, the 3- and 4-week combined feeding periods resulted in significantly higher body weight and survival compared to the 2-week combined and the Artemia only feeding treatments. In the last experiment, sturgeons (27 DPH) were fed only with Artemia or combined feeding of Artemia with the commercial diet for four weeks followed by the complete transition to the commercial diet for two weeks. Eighteen fish from each treatment were investigated the response to acute hypoxic conditions (gradual decrease in dissolved oxygen level from 8 to 2.3 mg/L at the rate of 1 mg/L per hour). When the dissolved oxygen was between 3 and 4 mg/L, the mortality rate of the combination-fed sturgeon (11.7%) was significantly lower than those fed only Artemia (83.3%). These results clearly demonstrate that a commercial diet can partially replace Artemia at early life stages to improve growth, survival, and hypoxia tolerance and thus its co-feeding with Artemia is recommended. [ABSTRACT FROM AUTHOR]

Published

2022

40. Riverine drift communities during larval fish dispersal over multiple recruitment years.

Author

Receveur, Joseph P., Doretto, Alberto, Baker, Edward A., Larson, Douglas L., Bauman, John M., Walquist, Ryan, Benbow, M. Eric, and Scribner, Kim T.

Subjects

*LARVAL dispersal, *FISH larvae, *COMMUNITIES, *FISH communities, *LAKE sturgeon, *LUNAR phases

Abstract

Predation during the downstream dispersal of larval stages represents a major recruitment bottleneck for fish populations. The co-occurrence of other organisms in river drift may reduce predation, but our knowledge of the factors influencing the composition and abundance of drift communities during post-hatch dispersal of larval fish remain limited. A multi-year (2011–2018) study was conducted to investigate abiotic factors influencing drift communities during larval lake sturgeon (Acipenser fulvescens) dispersal in the Upper Black River (Cheboygan, MI, USA). Cumulative water temperature was a strong predictor of drift for larval lake sturgeon, suckers (Catostomidae) and macroinvertebrates, with reduced macroinvertebrate drift during lunar phases with higher lunar illumination. Nights with a new moon had on average, three times the drifting macroinvertebrate biomass as nights during a full moon, with Heptageniidae and Isonychiidae displaying higher abundances during lower light conditions. Favorable conditions for other taxa to reduce larval lake sturgeon predation through predator swamping were common, though variability in timing (overlap between drifting taxa), biomass, and abundances likely alters the strength of such effects among years. A better understanding of the conditions influencing drifting communities during larval fish dispersal may assist in predicting larval mortality and year-class strength for managed fish populations. [ABSTRACT FROM AUTHOR]

Published

2022

41. Sensitivity analysis of a lake sturgeon population with early life stage density-dependent effects.

Author

Burchfield, James D., McLaren, Brian E., and McLeod, Darryl T.

Subjects

*LAKE sturgeon, *LIFE history theory, *SENSITIVITY analysis, *HABITAT selection, *VITAL statistics, *ANIMAL population density

Abstract

Lake sturgeon (Acipenser fulvescens) exhibit a complex life-history strategy where behaviour, including habitat selection, depends on ontogenetic stage. Protection or recovery efforts for one stage may not impact other stages. Stage-structured models have been used to explore the sensitivity of the population to changes in vital rates of individual stages. Recent research demonstrates that juvenile mortality may be lower than estimated in prior modelling efforts and density-dependent. We constructed a Lefkovitch matrix model to reflect an updated understanding of the prerecruitment stages of the lake sturgeon. We then compared the model to a population of lake sturgeon on the Ontario−Minnesota border. Our model predicts that population growth rate, time to equilibrium, and final population size were most sensitive to changes to the survival of early adults, followed by subadults and juveniles. Sensitivity to changes in age-0 survival was very low in contrast to earlier modelling efforts, while sensitivities to juvenile (ages 1–7 years) and subadult (ages 8–23 years) were higher than previously reported values. [ABSTRACT FROM AUTHOR]

Published

2022

42. Population modeling to inform management and recovery efforts for lake sturgeon, Acipenser fulvescens.

Author

Vaugeois, Maxime, Venturelli, Paul A., Hummel, Stephanie L., and Forbes, Valery E.

Subjects

LAKE sturgeon, LIFE history theory, ENVIRONMENTAL toxicology, POPULATION forecasting, SURVIVAL rate

Abstract

Lake sturgeon (Acipenser fulvescens) populations have significantly declined across their historic range, in large part due to anthropogenic impacts that have likely been exacerbated by the life‐history traits of this slow‐growing and long‐lived species. We developed a population model to explore how Contaminants of Emerging Concern (CECs) impact lake sturgeon populations. We explored how different physiological modes of action (pMoAs) of CECs impacted population abundance and recovery and how different simulated management actions could enable recovery. We first estimated the impacts on population abundance and recovery by comparing the trajectory of an unexposed population to a population that had been exposed to a CEC with a specific pMoA after the end of the exposure. We then predicted how different management actions would impact population recovery by comparing the trajectories of an unexposed population to an exposed population for which a management action started at a fixed time without discontinuation of the exposure. Our results predicted that the individual‐level pMoA of CECs has an important impact on population‐level effects because different stressor's pMoA impacts the life‐history traits of sturgeon differently. For example, the feeding and reproduction pMoAs caused the strongest and weakest population declines, respectively. For the same reason, pMoA also impacted recovery. For example, recovery was delayed when the pMoA was growth, maintenance, or feeding, but it was immediate when the pMoA was reproduction. We found that management actions that increased the egg survival rate or the stocking of fingerlings resulted in faster and stronger recovery than management actions that increased the juvenile or adult survival rate. This result occurred because the first two management actions immediately impacted recruitment, whereas the impact was delayed for the last two. Finally, there was greater potential for recovery when management action targeted eggs and fingerlings because these life stages have lower natural survival rates. Integr Environ Assess Manag 2022;18:1597–1608. © 2022 Society of Environmental Toxicology & Chemistry (SETAC). This article has been contributed to by US Government employees and their work is in the public domain in the USA. KEY POINTS: The individual‐level physiological mode of action of a stressor is important to forecast its effects at the population level and select the most appropriate management strategy.Management actions that increased egg survival rate or the stocking of fingerlings resulted in faster and stronger recovery than management actions that increased juvenile or adult survival rate.There is a greater potential for recovery when management actions target eggs and fingerlings because these life stages have lower natural survival rates. [ABSTRACT FROM AUTHOR]

Published

2022

43. Real-Time PCR-Based Method for Sex Determination in Lake Sturgeon (Acipenser fulvescens).

Author

Kanefsky, Jeannette, Smith, Seth, and Scribner, Kim T.

Subjects

*LAKE sturgeon, *SEX determination, *SEXING of animals, *WILDLIFE conservation, *GENETIC sex determination

Abstract

The characterization of demographic features in natural populations is important to understand recruitment dynamics, mating systems, and propensities for loss of genetic diversity. The accurate identification of sex can be difficult in sexually monomorphic species. We present a melt curve analysis based on qPCR assays for lake sturgeon (Acipenser fulvescens) sex identification and validation using the AllWSex2 marker and adult males and females (total N = 143) with an assigned field sex from two populations (Black Lake, MI, and Menominee River, MI–WI border, USA). The assay is highly accurate (~98% concordance between putative or confirmed field and molecular sex classification), fast, and easy to use. The detected inconsistencies between field and molecular sexing were partially attributed to field-sexing uncertainty. This method will allow researchers to rapidly determine the sex of individuals of this regionally threatened species to use in conservation efforts and research. [ABSTRACT FROM AUTHOR]

Published

2022

44. Lake Sturgeon (Acipenser fulvescens) in Goulais Bay, Lake Superior: Cohort strength determinants and population viability.

Author

van der Lee, Adam S., Gardner, William M., O'Connor, Lisa M., Pratt, Thomas C., and Koops, Marten A.

Abstract

Lake Sturgeon (Acipenser fulvescens) is a species of conservation concern throughout North America, and healthy populations are rare. Earlier sampling efforts identified the Goulais Bay population in Lake Superior as a potentially healthy population after three years of sampling. With seven additional years of sampling, we updated the earlier analysis and developed a matrix population model to conduct a population viability analysis (PVA). We identified a non-linear relationship between cohort strength and May river discharge rate which was incorporated into the population model to evaluate the influence of future discharge scenarios on population persistence. Population size was estimated, with an open-population mark-recapture model, at approximately 5,200 juvenile Lake Sturgeon. This estimate equates to approximately 440 mature females and 625 mature males in the population. A population of this size has a probability of extinction of 4 % and 18 % over 250 and 1000 years under status quo conditions. If the May river discharge were to decrease in the future, which may represent the most likely scenario under future climate conditions, our model predicts an increased risk of population extirpation. This indicates that increased management actions may be required to ensure this population remains resilient. [ABSTRACT FROM AUTHOR]

Published

2022

45. Multi-year evidence of unbiased sex ratios in hatchery and wild-reared age-0 lake sturgeon (Acipenser fulvescens).

Author

Sanfilippo, Gabrielle E., Riedy, Joseph J., Larson, Douglas L., and Scribner, Kim T.

Abstract

Assessment of population sex ratios allows managers to forecast recruitment dynamics and loss of genetic diversity in natural populations and is important when the focal population is in low abundance and subject to demographic stochasticity. If levels of natural or artificial selection differ for males and females and levels of mortality likewise vary, lower levels of population recruitment, loss of genetic diversity, and genetic drift can occur. Lake sturgeon (Acipenser fulvescens) are a species of conservation concern, where restoration efforts increasingly rely on hatchery supplementation. Raising larvae to the juvenile stage can increase survival during important early life stages; however, knowledge is lacking concerning effects of artificial rearing environments on differential sex-specific survival before release. We genetically determined the sex of 1459 age-0 lake sturgeon from three cohorts (2016 through 2018) using PCR assays of the ALLWSex2 acipenserid sexing marker. Sexed individuals represented three groups: (1) wild-captured dispersing larvae that died during hatchery rearing, (2) wild-captured dispersing larvae that survived hatchery rearing to release, and (3) wild-captured, wild-raised age-0 individuals. Sex ratios of wild-captured larvae (dead + live) were nearly 50:50 in all years surveyed. We observed slight, but non-significant, directionality in sex ratios in the live and dead hatchery-reared larvae and in wild-captured age-0 individuals. Genetic sexing methods allow for analyses during prolonged pre-reproductive periods and associated variable environmental and demographic circumstances, in situations where physical determination of sex is not possible. [ABSTRACT FROM AUTHOR]

Published

2022

46. Habitat selection in a southern Lake Sturgeon population: implications of temporal, spatial, and ontogenetic variation for restoration.

Author

Moore, Michael J., Paukert, Craig P., Owens, Seth P., and Moore, Travis L.

Subjects

*LAKE sturgeon, *HABITAT selection, *HABITATS, *RESTORATION ecology

Abstract

Successful species reintroduction requires restoration of receiving habitats to support growth, survival, and reproduction that reverse the initial causes of decline. Little is known about whether present habitat conditions can support all life stages of reintroduced southern Lake Sturgeon populations that were possibly extirpated by the mid‐1900s due to overharvest and habitat degradation. Therefore, we conducted a telemetry study to assess annual adult and subadult and overwinter age‐0 Lake Sturgeon habitat selection and suitability in two Missouri River U.S. tributaries near the southern edge of the species range. Spring habitat selection models were unable to define spawning habitat criteria, but criteria from other studies suggest that substrate and depths for spawning are suitable in both rivers. In the summer and winter, adult and subadult Lake Sturgeon exhibited strong selection for pools greater than 8 m deep, which comprised less than 5% of our study streams. Habitat selection in the fall and winter by age‐0 Lake Sturgeon differed from adults with age‐0s selecting shallower habitats both rivers and swifter current velocities in the Gasconade River. General habitat patterns persisted for both life stages in each river regardless of habitat availability, suggesting specialized habitat requirements in southern Lake Sturgeon that differ from previously studied populations further north. These results may be used to direct sampling for validation of reproduction and restoration of not only spawning habitats, but age‐0 and summer and winter refugia that may be potential restoration bottlenecks for southern Lake Sturgeon populations. [ABSTRACT FROM AUTHOR]

Published

2022

47. Compositional Dynamics of Gastrointestinal Tract Microbiomes Associated with Dietary Transition and Feeding Cessation in Lake Sturgeon Larvae.

Author

Abdul Razak, Shairah, Valentine, Shaley, Marsh, Terence, Bauman, John, Mohd-Assaad, Norfarhan, and Scribner, Kim T.

Abstract

Compromised nutritional conditions associated with dietary transitions and feeding cessation in the wild and during fish aquaculture operations are common and can impact growth and survival. These effects are especially prevalent during early ontogenetic stages. We quantified phenotypic and GI tract microbial community responses with an emphasis on protease-producing bacteria of lake sturgeon (Acipenser fulvescens) larvae, a species of aquacultural and conservational importance. To quantify responses associated with experimental food transition and feeding cessation, we performed a 36-day feeding experiment using two treatments: control and diet transition. However, larvae in the diet transition treatment failed to undergo transition and ceased feeding. Larvae in the diet transition treatment exhibited lower growth (total length and body weight) and survival than control larvae. Treatment had a greater effect than ontogenetic changes on taxonomic composition and diversity of the GI tract microbial community. Proteobacteria dominated the GI tract microbial community of the diet transition larvae whereas Firmicutes dominated the GI tracts of control larvae. Most of the 98 identified protease-producing isolates in both treatments were from genera Pseudomonas and Aeromonas: taxonomic groups that include known fish pathogens. Overall, failing to transition diets affected responses in growth and GI tract microbiome composition and diversity, with the later dysbiosis being an indicator of morbidity and mortality in larval lake sturgeon. Thus, microbiological interrogations can characterize responses to dietary regimes. The results can inform fish culturalists and microbiologists of the importance of dietary practices consistent with the establishment and maintenance of healthy GI tract microbiota and optimal growth during early ontogeny. [ABSTRACT FROM AUTHOR]

Published

2022

48. The pike spread.

Author

BAIN, JASON

Subjects

LAKE sturgeon, ANGLERFISHES, INFECTIOUS disease transmission, SCHOOL environment, FISHERIES

Abstract

The article discusses the spread of pike into traditional muskie territory in the Kawartha Lakes region, originating from the Trent-Severn Waterway. While muskie populations are still present, younger pike populations are increasing. The emergence of tiger muskie hybrids is noted as a positive development for anglers. The expansion of pike is attributed to their biological advantage over muskie, with potential impacts on muskie populations and the importance of catch-and-release practices emphasized for both species. [Extracted from the article]

Published

2025

49. Name by the numbers.

Author

Van Sickle, Jenny

Subjects

LAKE sturgeon, NATURAL resources, FISHERIES, STURGEONS, BIOLOGISTS

Published

2024

50. Assessing the migratory histories, trophic positions, and conditions of lake sturgeon in the St. Croix and Mississippi Rivers using fin ray microchemistry, stable isotopes, and fatty acid profiles

Author

Jeffrey R. Ziegeweid, Michelle R. Bartsch, Lynn A. Bartsch, Steven J. Zigler, Robert J. Kennedy, and Seth A. Love

Subjects

Fin ray microchemistry, Stable isotopes, Fatty acids, Lake sturgeon, St. Croix River, Mississippi River, Ecology, QH540-549.5

Abstract

Abstract Background Reproducing populations of invasive carps (Hypophthalmichthys spp.) could alter aquatic food webs and negatively affect native fishes in the Mississippi National River and Recreation Area (MISS) and the St. Croix National Scenic Riverway (SACN). However, proposed invasive carp barriers may also threaten populations of native migratory fishes by preventing movements of fish between rivers that are necessary for life history requirements. In this study, nonlethal chemical techniques were used to provide baseline data related to the condition, trophic position, and migratory histories of lake sturgeon (Acipenser fulvescens) captured in the Mississippi and St. Croix Rivers. Results Fish length and weight measurements and age estimates determined from pectoral fin rays demonstrated that lake sturgeon from the Mississippi River had greater lengths-at-age compared to sturgeon from the St. Croix River. However, length–weight relations were similar for sturgeon from the Mississippi and St. Croix Rivers. Lake sturgeon captured from different locations had distinguishable fatty acid signatures, and stable isotope analyses demonstrated that lake sturgeon from the Mississippi River generally feed at a higher trophic level than those in the St. Croix River. Strontium-to-calcium ratios (Sr:Ca) from fin ray cross sections indicated that sturgeon captured from the Mississippi River had higher Sr:Ca values than sturgeon captured from the St. Croix River, and natal origins and capture locations were not significantly different among sturgeon captured within individual rivers. Most sturgeon were captured in water with a similar Sr:Ca signature as their natal waters, indicating that there is some separation between populations of lake sturgeon in the St. Croix and Mississippi Rivers. However, Sr:Ca data indicated substantial variation in movement patterns among individual lake sturgeon, indicating that populations interact through migrations of individual fish between rivers. Conclusions Study results provide baseline condition and food web structure index data for assessing changes in lake sturgeon populations should invasive carps become established in these areas of the Mississippi and St. Croix Rivers. Controlled-exposure and telemetry studies would help verify and enhance the relations between Sr:Ca signatures in water and lake sturgeon pectoral fin rays to further assess mixing of sturgeons between rivers.

Published

2021