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3. Estimated life-history traits and movements of the Caribbean reef shark (Carcharhinus perezi) in The Bahamas based on tag-recapture data

Author

Talwar, Brendan S., Bradley, Darcy, Berry, Christopher, Bond, Mark E., Bouyoucos, Ian A., Brooks, Annabelle M. L., Fields, Candace Y. A., Gallagher, Austin J., Guttridge, Tristan L., Guttridge, Annie E., Hammerschlag, Neil, Hamilton, Ian, Keller, Bryan A., Kessel, Steven T., Matich, Philip, O’Shea, Owen R., Papastamatiou, Yannis P., Raguse, Cameron, Schneider, Eric V. C., Shipley, Oliver N., Smukall, Matthew J., van Zinnicq Bergmann, Maurits P. M., and Brooks, Edward J.

Published
2022
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4. Insights into the Relative Abundance, Life History, and Ecology of Oceanic Sharks in the Eastern Bahamas

Author

Talwar, Brendan S., primary, Brooks, Edward J., additional, Abercrombie, Debra L., additional, Anderson, Brenda, additional, Bond, Mark E., additional, Brooks, Annabelle M. L., additional, Chapman, Demian D., additional, Clementi, Gina M., additional, Fields, Candace Y. A., additional, Gelsleichter, Jim, additional, Grubbs, R. Dean, additional, Howey, Lucy A., additional, Jordan, Lance K. B., additional, Kiszka, Jeremy J., additional, Knotek, Ryan J., additional, Papastamatiou, Yannis P., additional, Peterson, Cheston T., additional, Schneider, Eric V. C., additional, Shipley, Oliver N., additional, Williams, Sean, additional, Winchester, Maggie M., additional, and Heithaus, Michael R., additional

Published
2023
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6. Colonization, diversity, and seasonality of fishes at pelagic fish aggregating devices.

Author

Schneider, Eric V. C., Talwar, Brendan S., Killen, Shaun S., Russell, Samantha, Van Leeuwen, Travis E., and Bailey, David M.

Subjects
*PELAGIC fishes, *FISH diversity, *FISHERIES, *OCEAN zoning, *FISH surveys, *SPECIES diversity, *MIGRATORY fishes
Abstract

The pelagic zone of the ocean can be a challenging environment in which to conduct research and as a result we lack the robust baseline abundance and diversity data, compared to what is available in more accessible coastal habitats, to be able to track changes or stressors to the biota in this environment. Many large‐scale fisheries target pelagic fish, and much of the information available on these species is based on fisheries‐dependent data that may be biased towards hotspots and commercially valuable fishes. Here, a long‐term video and visual fish survey was conducted on two subsurface moored fish aggregating devices (FADs) in the pelagic waters of the central Bahamas to determine the feasibility of using moored pelagic FADs as tools for collecting fish abundance and diversity data. A wide range of species was documented, including large migratory fish that are the focus of commercial and recreational fisheries, and smaller often overlooked species on which little abundance or seasonality information exists. We found that FADs colonize quickly and reach a peak stable (albeit seasonally cyclical) abundance and diversity within the first several months after deployment. Species richness was higher in video surveys, but abundance was higher in visual surveys, except for sharks. Our results highlight the need to tailor survey methods to fit the context and study objective, and provide further evidence for the importance of fisheries‐independent data in monitoring pelagic species. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Habitat‐specific impacts of climate change on the trophic demand of a marine predator.

Author

Luongo, Sarah M., Schneider, Eric V. C., Harborne, Alastair R., Kessel, Steven T., and Papastamatiou, Yannis P.

Abstract

Metabolic ecology predicts that ectotherm metabolic rates, and thus consumption rates, will increase with body size and temperature. Predicted climatic increases in temperature are likely to increase the consumption rates of ectothermic predators; however, the ecological impact of these increases will partly depend on whether prey productivity changes with temperature at a similar rate. Furthermore, total predator consumption and prey productivity will depend on species abundances that vary across habitat types. Here we combine energetics and biotelemetry to measure consumption rates in a critically endangered coral reef predator, the Nassau grouper (Epinephelus striatus), in The Bahamas. We estimate that, at present, the Nassau grouper needs to consume 2.2% ± 1.0% body weight day−1, but this could increase up to 24% with a predicted 3.1°C increase in ocean temperature by the end of the century. We then used surveys of prey communities in two major reef habitat types (Orbicella reef and Gorgonian plain), to predict the proportion of prey productivity consumed by grouper and how this varied by habitat with changing climates. We found that at present, the predicted proportion of prey productivity consumed by Nassau grouper decreased with increasing prey productivity and averaged 1.2% across all habitats, with a greater proportion of prey productivity consumed (maximum of 5%) in Gorgonian plain habitats. However, because temperature increases consumption rates faster than prey productivity, the proportion of prey productivity consumed in a Gorgonian plain habitat could increase up to 24% under future climate change scenarios. Our results suggest that increasing ocean temperatures will lead to significant energetic challenges for the Nassau grouper because of differential impacts within reef food webs, but the magnitude of these impacts will probably vary across prey productivity gradients. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Insights into the Relative Abundance, Life History, and Ecology of Oceanic Sharks in the Eastern Bahamas.

Author

Talwar, Brendan S., Brooks, Edward J., Abercrombie, Debra L., Anderson, Brenda, Bond, Mark E., Brooks, Annabelle M. L., Chapman, Demian D., Clementi, Gina M., Fields, Candace Y. A., Gelsleichter, Jim, Grubbs, R. Dean, Howey, Lucy A., Jordan, Lance K. B., Kiszka, Jeremy J., Knotek, Ryan J., Papastamatiou, Yannis P., Peterson, Cheston T., Schneider, Eric V. C., Shipley, Oliver N., and Williams, Sean

Abstract

Fisheries-independent data on the diversity, relative abundance, and demographic structure of poorly studied, threatened oceanic sharks are absent from much of the western North Atlantic Ocean, where multiple oceanic shark species have experienced significant population declines. Resource-limited management approaches require the identification of critical habitats or aggregation sites worthy of protection and enforcement. Data were collected on oceanic sharks using pelagic longline surveys, targeted baiting, and opportunistic encounters in oligotrophic open-ocean habitats of north-eastern Exuma Sound (NES), The Bahamas. The oceanic epipelagic shark community was also characterized using targeted baiting off Columbus Point, Cat Island (CI), a seamount north of San Salvador (SSSM), and the northwestern tip of Mayaguana. Pelagic longline surveys suggested that the relative abundance of sharks at NES was low (shark catch-per-unit-effort: 0.0007 sharks hook−1 h−1; 2.3 sharks per 1000 hooks). Silky sharks Carcharhinus falciformis, particularly juveniles (134 ± 39 cm stretched total length; mean ± SD STL), were the most common. Targeted baiting suggested oceanic whitetip sharks C. longimanus were abundant at CI, where large adults (245 ± 23 cm STL), most of which were females (83.8%, n = 98 of 117) that were gravid (65.7%; n = 46 of 70 assessed for pregnancy), dominated the aggregation. Many (20.5–26.5%, n = 24–31 of 117 depending on assumptions regarding tag loss) were recaptured or resighted at CI for up to five years. Silky sharks dominated catches at SSSM. Oceanic sharks, particularly adults, were sometimes caught or observed alongside short-finned pilot whales Globicephala macrorhynchus or tunas. Although The Bahamas offers threatened oceanic sharks refuge from fishing across its entire jurisdiction, these data suggest that some fixed features, including sites such as CI and potentially SSSM, are important aggregation sites with high regional conservation value and should be prioritized by fisheries managers and enforcement officials. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Energetic connectivity of diverse elasmobranch populations – implications for ecological resilience

Author

Shipley, Oliver N., primary, Matich, Philip, additional, Hussey, Nigel E., additional, Brooks, Annabelle M. L., additional, Chapman, Demian, additional, Frisk, Michael G., additional, Guttridge, Annie E., additional, Guttridge, Tristan L., additional, Howey, Lucy A., additional, Kattan, Sami, additional, Madigan, Daniel J., additional, O'Shea, Owen, additional, Polunin, Nicholas V., additional, Power, Michael, additional, Smukall, Matthew J., additional, Schneider, Eric V. C., additional, Shea, Brendan D., additional, Talwar, Brendan S., additional, Winchester, Maggie, additional, Brooks, Edward J., additional, and Gallagher, Austin J., additional

Published
2023
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11. Supplementary Information from Energetic connectivity of diverse elasmobranch populations – implications for ecological resilience

Author

Shipley, Oliver N., Matich, Philip, Hussey, Nigel E., Brooks, Annabelle M. L., Chapman, Demian, Frisk, Michael G., Guttridge, Annie E., Guttridge, Tristan L., Howey, Lucy A., Kattan, Sami, Madigan, Daniel J., O'Shea, Owen, Polunin, Nicholas V., Power, Michael, Smukall, Matthew J., Schneider, Eric V. C., Shea, Brendan D., Talwar, Brendan S., Winchester, Maggie, Brooks, Edward J., and Gallagher, Austin J.

Abstract

Additional information on sample collection and statistical analyses

Published
2023
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12. Aerobic response to thermal stress across ontogeny and habitats in a teleost fish.

Author

Schneider, Eric V. C., Zuckerman, Zachary C., Talwar, Brendan S., Cooke, Steven J., Shultz, Aaron D., and Suski, Cory D.

Subjects
*THERMAL stresses, *HABITATS, *ACCLIMATIZATION, *FISH habitats, *DEEP-sea corals, *WATER temperature, *ONTOGENY, *OCEAN temperature
Abstract

Near‐future climate change projections predict an increase in sea surface temperature that is expected to have significant and rapid effects on marine ectotherms, potentially affecting a number of critical life processes. Some habitats also undergo more thermal variability than others, and the inhabitants therefore must be more tolerant to acute periods of extreme temperatures. Mitigation of these outcomes may occur through acclimation, plasticity or adaptation, although the rate and extent of a species' ability to adjust to warmer temperatures is largely unknown, specifically as it pertains to effects on various performance metrics in fishes that inhabit multiple habitats throughout ontogenetic stages. Here, the thermal tolerance and aerobic performance of schoolmaster snapper (Lutjanus apodus Walbaum, 1792) collected from two different habitats were experimentally assessed under different warming scenarios (temperature treatments = 30, 33, 35, 36°C) to assess vulnerability to an imminently changing thermal habitat. Larger subadult and adult fish collected from a 12 m deep coral reef exhibited a lower critical thermal maximum (CTmax) compared to smaller juvenile fish collected from a 1 m deep mangrove creek. However, the CTmax of the creek‐sampled fish was only 2°C above the maximum water temperature measured in the habitat from which they were collected, compared to a CTmax that was 8°C higher in the reef‐sampled fish, resulting in a wider thermal safety margin at the reef site. A generalized linear model showed a marginally significant effect of temperature treatment on resting metabolic rate (RMR), but there were no effects of any of the tested factors on maximum metabolic rate or absolute aerobic scope. Post hoc tests revealed that RMR was significantly higher for creek‐collected fish at the 36°C treatment and significantly higher for reef‐collected fish at 35°C. Swimming performance [measured by critical swimming speed] was significantly lower at the highest temperature treatment for creek‐collected fish and trended down with each successive increase in temperature treatment for reef‐collected fish. These results show that metabolic rate and swimming performance responses to thermal challenges are somewhat consistent across collection habitats, and this species may be susceptible to unique types of thermal risk depending on its habitat. We show the importance of intraspecific studies that couple habitat profiles and performance metrics to better understand possible outcomes under thermal stress. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Extinction risk, reconstructed catches and management of chondrichthyan fishes in the Western Central Atlantic Ocean

Author

Talwar, Brendan S., primary, Anderson, Brooke, additional, Avalos‐Castillo, Cristopher G., additional, del Pilar Blanco‐Parra, María, additional, Briones, Alejandra, additional, Cardeñosa, Diego, additional, Carlson, John K., additional, Charvet, Patricia, additional, Cotton, Charles F., additional, Crysler, Zoe, additional, Derrick, Danielle H., additional, Heithaus, Michael R., additional, Herman, Katelyn B., additional, Koubrak, Olga, additional, Kulka, David W., additional, Kyne, Peter M., additional, Lasso‐Alcalá, Oscar M., additional, Mejía‐Falla, Paola A., additional, Morales‐Saldaña, Jorge Manuel, additional, Naranjo‐Elizondo, Beatriz, additional, Navia, Andrés F., additional, Pacoureau, Nathan, additional, Peréz‐Jiménez, Juan C., additional, Pollom, Riley A., additional, Rigby, Cassandra L., additional, Schneider, Eric V. C., additional, Simpson, Nikola, additional, and Dulvy, Nicholas K., additional

Published
2022
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16. Elucidating shark diets with DNA metabarcoding from cloacal swabs

Author

van Zinnicq Bergmann, Maurits P. M., primary, Postaire, Bautisse D., additional, Gastrich, Kirk, additional, Heithaus, Michael R., additional, Hoopes, Lisa A., additional, Lyons, Kady, additional, Papastamatiou, Yannis P., additional, Schneider, Eric V. C., additional, Strickland, Bradley A., additional, Talwar, Brendan S., additional, Chapman, Demian D., additional, and Bakker, Judith, additional

Published
2021
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17. Fish behavior in elevated CO2: implications for a movement barrier in flowing water.

Author

Schneider, Eric V. C., Hasler, Caleb T., and Suski, Cory D.

Abstract

Preventing the spread of invasive fishes is an important aspect of management programs, but is challenging due to the behavior of fish and the nature of aquatic environments. The use of dissolved carbon dioxide (CO2) has recently gained traction as a non-physical barrier for invasive fishes due to its ability to elicit avoidance behaviors in fish. Research to date has focused on the development of CO2 barriers using static water environments. Because CO2 barriers have been proposed for flowing water (i.e., in rivers or shipping canals), understanding the dynamics between fish and elevated CO2 in flowing water is essential. Our study aims to define threshold levels required to alter behavior of bluegill (Lepomis macrochirus) and largemouth bass (Micropterus salmoides) in flowing water, and to quantify behavioral metrics of fish exposed to < 200 [ambient], 25,000, 50,000, and 100,000 µatm pCO2. We also sought to quantify the impacts of repeated CO2 exposure on fish behavior. Bluegill showed increased activity at 25,000 µatm, while largemouth bass showed increased activity at 100,000 µatm. When repeatedly exposed to cycles of 50,000 µatm pCO2, bluegill exhibited increased activity followed by a diminished response after the second exposure. Results from this study define threshold levels required to elicit behavioral responses, and show that the effects that multiple exposures of elevated pCO2 can decline, possibly due to habituation. Results will help shape the development and deployment of a CO2 barrier to control the movements of invasive fishes. [ABSTRACT FROM AUTHOR]

Published
2018
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18. Biological consequences of weak acidification caused by elevated carbon dioxide in freshwater ecosystems.

Author

Hasler, Caleb T., Jeffrey, Jennifer D., Schneider, Eric V. C., Hannan, Kelly D., Tix, John A., and Suski, Cory D.

Subjects
FRESH water, CARBON dioxide, ACIDIFICATION, CARBONIC acid, INVERTEBRATES
Abstract

Weak acidification can occur in freshwater ecosystems when free carbon dioxide (CO) levels increase, which can happen for a variety of reasons. To define the state of knowledge for how weak acidification influences freshwater biota and ecosystems, a review of the primary literature was conducted. Despite few empirical studies focused on weak acidification in the primary literature (~100 studies), some themes have emerged from our literature review. Most studies focused on physiological responses at the organismal level, and fish were the most studied taxa. Animals exhibited reduced individual growth rates, and, in contrast, primary producers demonstrated increased individual and population growth rates. In animals, mortality, sub-lethal injuries, and changes to behaviours were also observed. Negative consequences to reproduction in macrophytes were found. Few studies have focused on population, community, or ecosystem levels, though broad scale studies suggest that weak acidification can limit species community diversity, specifically in invertebrates and fish. Moving forward, researchers need to continue to advance our understanding of the consequences of weak acidification for freshwater biota. Furthermore, priority should be placed on research that can evaluate the potential for weak acidification in freshwater to lead to changes in ecological regimes or economical outcomes, such as fisheries collapses. [ABSTRACT FROM AUTHOR]

Published
2018
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19. Ocean weather, biological rates, and unexplained global ecological patterns.

Author

Li Shing Hiung DLCY, Schuster JM, Duncan MI, Payne NL, Helmuth B, Chu JWF, Baum JK, Brambilla V, Bruno J, Davies SW, Dornelas M, Gagnon P, Guy-Haim T, Jackson JM, Leichter JJ, Madin JS, Monteith ZL, Queirós AM, Schneider EVC, Starko S, Talwar BS, Wyatt ASJ, Aichelman HE, Bensoussan N, Caruso C, Castillo K, Choi F, Dong YW, Garrabou J, Guillemain D, Higgs N, Jiang Y, Kersting DK, Kushner DJ, Longo GO, Neufeld C, Peirache M, Smyth T, Sprague JL, Urvoy G, Zuberer F, and Bates AE

Abstract

As on land, oceans exhibit high temporal and spatial temperature variation. This "ocean weather" contributes to the physiological and ecological processes that ultimately determine the patterns of species distribution and abundance, yet is often unrecognized, especially in tropical oceans. Here, we tested the paradigm of temperature stability in shallow waters (<12.5 m) across different zones of latitude. We collated hundreds of in situ, high temporal-frequency ocean temperature time series globally to produce an intuitive measure of temperature variability, ranging in scale from quarter-diurnal to annual time spans. To estimate organismal sensitivity of ectotherms (i.e. microbes, algae, and animals whose body temperatures depend upon ocean temperature), we computed the corresponding range of biological rates (such as metabolic rate or photosynthesis) for each time span, assuming an exponential relationship. We found that subtropical regions had the broadest temperature ranges at time spans equal to or shorter than a month, while temperate and tropical systems both exhibited narrow (i.e. stable) short-term temperature range estimates. However, temperature-dependent biological rates in tropical regions displayed greater ranges than in temperate systems. Hence, our results suggest that tropical ectotherms may be relatively more sensitive to short-term thermal variability. We also highlight previously unexplained macroecological patterns that may be underpinned by short-term temperature variability., (© The Author(s) 2024. Published by Oxford University Press on behalf of National Academy of Sciences.)

Published
2024
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20. Accumulation of Per- and Polyfluoroalkyl Substances (PFAS) in Coastal Sharks from Contrasting Marine Environments: The New York Bight and The Bahamas.

Author

Lee CS, Shipley ON, Ye X, Fisher NS, Gallagher AJ, Frisk MG, Talwar BS, Schneider EVC, and Venkatesan AK

Subjects
Animals, Environmental Monitoring, Bahamas, Fluorocarbons analysis, New York, Food Chain, Sharks metabolism, Water Pollutants, Chemical
Abstract

Per- and polyfluoroalkyl substances (PFAS) enter the marine food web, accumulate in organisms, and potentially have adverse effects on predators and consumers of seafood. However, evaluations of PFAS in meso-to-apex predators, like sharks, are scarce. This study investigated PFAS occurrence in five shark species from two marine ecosystems with contrasting relative human population densities, the New York Bight (NYB) and the coastal waters of The Bahamas archipelago. The total detected PFAS (∑PFAS) concentrations in muscle tissue ranged from 1.10 to 58.5 ng g -1 wet weight, and perfluorocarboxylic acids (PFCAs) were dominant. Fewer PFAS were detected in Caribbean reef sharks ( Carcharhinus perezi ) from The Bahamas, and concentrations of those detected were, on average, ∼79% lower than in the NYB sharks. In the NYB, ∑PFAS concentrations followed: common thresher ( Alopias vulpinus ) > shortfin mako ( Isurus oxyrinchus ) > sandbar ( Carcharhinus plumbeus ) > smooth dogfish ( Mustelus canis ). PFAS precursors/intermediates, such as 2 H ,2 H ,3 H ,3 H -perfluorodecanoic acid and perfluorooctanesulfonamide, were only detected in the NYB sharks, suggesting higher ambient concentrations and diversity of PFAS sources in this region. Ultralong-chain PFAS (C ≥ 10) were positively correlated with nitrogen isotope values (δ 15 N) and total mercury in some species. Our results provide some of the first baseline information on PFAS concentrations in shark species from the northwest Atlantic Ocean, and correlations between PFAS, stable isotopes, and mercury further contextualize the drivers of PFAS occurrence.

Published
2024
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21. Energetic connectivity of diverse elasmobranch populations - implications for ecological resilience.

Author

Shipley ON, Matich P, Hussey NE, Brooks AML, Chapman D, Frisk MG, Guttridge AE, Guttridge TL, Howey LA, Kattan S, Madigan DJ, O'Shea O, Polunin NV, Power M, Smukall MJ, Schneider EVC, Shea BD, Talwar BS, Winchester M, Brooks EJ, and Gallagher AJ

Subjects
Animals, Coral Reefs, Biodiversity, Fishes, Ecosystem, Elasmobranchii
Abstract

Understanding the factors shaping patterns of ecological resilience is critical for mitigating the loss of global biodiversity. Throughout aquatic environments, highly mobile predators are thought to serve as important vectors of energy between ecosystems thereby promoting stability and resilience. However, the role these predators play in connecting food webs and promoting energy flow remains poorly understood in most contexts. Using carbon and nitrogen isotopes, we quantified the use of several prey resource pools (small oceanic forage, large oceanics, coral reef, and seagrass) by 17 species of elasmobranch fishes ( n = 351 individuals) in The Bahamas to determine their functional diversity and roles as ecosystem links. We observed remarkable functional diversity across species and identified four major groups responsible for connecting discrete regions of the seascape. Elasmobranchs were responsible for promoting energetic connectivity between neritic, oceanic and deep-sea ecosystems. Our findings illustrate how mobile predators promote ecosystem connectivity, underscoring their functional significance and role in supporting ecological resilience. More broadly, strong predator conservation efforts in developing island nations, such as The Bahamas, are likely to yield ecological benefits that enhance the resilience of marine ecosystems to combat imminent threats such as habitat degradation and climate change.

Published
2023
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