Your search keyword '"Hatch, Joshua M."' showing total 9 results

1. Where the leatherbacks roam: movement behavior analyses reveal novel foraging locations along the Northwest Atlantic shelf

Author

Rider, Mitchell J., primary, Avens, Larisa, additional, Haas, Heather L., additional, Hatch, Joshua M., additional, Patel, Samir H., additional, and Sasso, Christopher R., additional

Published

2024

2. Projected shifts in loggerhead sea turtle thermal habitat in the Northwest Atlantic Ocean due to climate change

Author

Patel, Samir H., Winton, Megan V., Hatch, Joshua M., Haas, Heather L., Saba, Vincent S., Fay, Gavin, and Smolowitz, Ronald J.

Published

2021

3. Riders on the storm: loggerhead sea turtles detect and respond to a major hurricane in the Northwest Atlantic Ocean

Author

Crowe, Leah M., Hatch, Joshua M., Patel, Samir H., Smolowitz, Ronald J., and Haas, Heather L.

Published

2020

4. Additional file 1 of Riders on the storm: loggerhead sea turtles detect and respond to a major hurricane in the Northwest Atlantic Ocean

Author

Crowe, Leah M., Hatch, Joshua M., Patel, Samir H., Smolowitz, Ronald J., and Haas, Heather L.

Abstract

Additional file 1. Location source for tagged turtles and previously observed proportions of tagged turtles in the Mid-Atlantic Bight by month.

Published

2020

5. Life‐history constraints on maximum population growth for loggerhead turtles in the northwest Atlantic

Author

Hatch, Joshua M., primary, Haas, Heather L., additional, Richards, Paul M., additional, and Rose, Kenneth A., additional

Published

2019

6. A comparison between traditional and measurement-error growth models for weakfish Cynoscion regalis

Author

Fish and Wildlife Conservation, Hatch, Joshua M., Jiao, Yan, Fish and Wildlife Conservation, Hatch, Joshua M., and Jiao, Yan

Abstract

Inferring growth for aquatic species is dependent upon accurate descriptions of age-length relationships, which may be degraded by measurement error in observed ages. Ageing error arises from biased and/or imprecise age determinations as a consequence of misinterpretation by readers or inability of ageing structures to accurately reflect true age. A Bayesian errors-in-variables (EIV) approach (i.e., measurement-error modeling) can account for ageing uncertainty during nonlinear growth curve estimation by allowing observed ages to be parametrically modeled as random deviates. Information on the latent age composition then comes from the specified prior distribution, which represents the true age structure of the sampled fish population. In this study, weakfish growth was modeled by means of traditional and measurement-error von Bertalanffy growth curves using otolith- or scale-estimated ages. Age determinations were assumed to be log-normally distributed, thereby incorporating multiplicative error with respect to ageing uncertainty. The prior distribution for true age was assumed to be uniformly distributed between ±4 of the observed age (yr) for each individual. Measurement-error growth models described weakfish that reached larger sizes but at slower rates, with median length-at-age being overestimated by traditional growth curves for the observed age range. In addition, measurement-error models produced slightly narrower credible intervals for parameters of the von Bertalanffy growth function, which may be an artifact of the specified prior distributions. Subjectivity is always apparent in the ageing of fishes and it is recommended that measurement-error growth models be used in conjunction with otolith-estimated ages to accurately capture the age-length relationship that is subsequently used in fisheries stock assessment and management.

Published

2016

7. The Effects of Ageing Error on Stock Assessment for Weakfish Cynoscion regalis

Author

Hatch, Joshua M., Fisheries and Wildlife Sciences, Jiao, Yan, Orth, Donald J., O'Reilly, Robert Laux, and Smith, Eric P.

Subjects

Statistical catch-at-age, Ageing error, Bayesian, Simulation, Weakfish

Abstract

Inherent uncertainties in the stock assessment for weakfish have precluded accurate and consistent advice concerning the management of commercial and recreational fisheries. Error within ageing techniques, used to assess relative age frequencies within commercial and recreational harvest, has been cited as a potential source for uncertainty during assessments of the weakfish fishery. The implications for age-reading error on weakfish stock assessment were explored using measurement-error growth models (i.e. Chapter 1), ageing error matrices within a statistical catch-at-age framework (i.e. Chapter 2), and Monte Carlo simulations to gauge robustness of ignoring this type of uncertainty during fisheries stock assessment (i.e. Chapter 3). Measurement-error growth models typically resulted in weakfish that grew to reach larger sizes, but at slower rates, with median length-at-age being overestimated by traditional von Bertalanffy growth curves, at least for the observed age range. Measurement-error growth models allow for incorporation of ageing uncertainty during nonlinear growth curve estimation, as well as the ability to estimate the ageing error variance. Age-reading error was further considered during statistical catch-at-age analysis of the weakfish fishery, mainly through permutations of true catch-at-age via ageing error matrices constructed from estimates of the ageing error variance, thus reflecting changes in relative age compositions as a consequence of ageing uncertainty. As a result, absolute levels of key population parameters were influenced, but general trends in those parameters tended to be similar, with strong congruency across models as to weakfish stock dynamics in most recent years. Finally, Monte Carlo simulations showed that implications for age-reading error on weakfish stock assessment are varied, depending upon the direction and magnitude of the ageing uncertainty. However, relative trends of parameter estimates over time tended to be similar, resulting in proper allocation of weakfish stock status, regardless of the type of ageing error considered. Furthermore, assuming negligible ageing uncertainty within fishery-independent surveys appears reasonable, as simulations incorporating ageing error within indices of relative abundance showed similar patterns to situations that only considered observation noise. Master of Science

Published

2013

8. Integrating Satellite-Tagged Seabird and Fishery-Dependent Data: A Case Study of Great Shearwaters (Puffinus gravis) and the U.S. New England Sink Gillnet Fishery

Author

Hatch, Joshua M., primary, Wiley, David, additional, Murray, Kimberly T., additional, and Welch, Linda, additional

Published

2015

9. Integrating Satellite-Tagged Seabird and Fishery-Dependent Data: A Case Study of Great Shearwaters ( Puffinus gravis) and the U.S. New England Sink Gillnet Fishery.

Author

Hatch, Joshua M., Wiley, David, Murray, Kimberly T., and Welch, Linda

Subjects

*SHEARWATERS, *BIRD banding, *PUFFINUS gravis, *SEA birds, *BYCATCHES

Abstract

Identifying the overlap of commercial fishing grounds and seabird habitat can suggest areas of high bycatch risk and inform management and mitigation measures. We used Bayesian state space modeling to describe the movements of 10 satellite-tagged Great Shearwaters and a bivariate kernel density technique to investigate spatial overlap with commercial fishing effort to predict areas of high bycatch in the Gulf of Maine. We then used contemporaneous fishery observer data to test the validity of our predictions, highlighting an area constituting 1% of the Gulf of Maine as having the highest bycatch risk that accounted for 50% of observed takes. Fishery observer data also provided insights into characteristics of the seabird-fishery interactions. Our results indicate that a relatively small number of satellite-tagged seabirds, when combined with fishery-dependent data, can lead to identifying high-bycatch areas, particular fishing practices that might increase risk, and fishing communities that could be targeted for education/mitigation. [ABSTRACT FROM AUTHOR]

Published

2016