Details:

Journal Title:
Journal of Applied Ecology
Personal Author:
Udell, Bradley J. ; Martin, Julien ; Fletcher, Robert J. ; Bonneau, Mathieu ; Edwards, Holly H. ; ... More +
Udell, Bradley J. ; Martin, Julien ; Fletcher, Robert J. ; Bonneau, Mathieu ; Edwards, Holly H. ; Gowan, Timothy A. ; Hardy, Stacie K. ; Gurarie, Eliezer ; Calleson, Charles S. ; Deutsch, Charles J. Less -
NOAA Program & Office:
OAR (Oceanic and Atmospheric Research)
Description:
Better understanding human–wildlife interactions and their links with management can help improve the design of wildlife protection zones. One example is the problem of wildlife collisions with vehicles or human‐built structures (e.g., power lines, wind farms). In fact, collisions between marine wildlife and watercraft are among the major threats faced by several endangered species of marine mammals. Natural resource managers are therefore interested in finding cost‐effective solutions to mitigate these threats. We combined abundance estimators with encounter rate theory to estimate relative lethal collision risk of the Florida manatee (Trichechus manatus latirostris) from watercraft. We first modelled seasonal abundance of watercraft and manatees using a Bayesian analysis of aerial survey count data. We then modelled relative lethal collision risk in space and across seasons. Finally, we applied decision analysis and Linear Integer Programming to determine the optimal design of speed zones in terms of relative risk to manatees and costs to waterway users. We used a Pareto efficient frontier approach to evaluate the performance of alternative zones, which included additional practical considerations (e.g., spatial aggregation of speed zones) in relation to the optimal zone configurations. Under the various relationships for probability of death given strike speed that we considered, the current speed zones reduced the relative lethal collision risk by an average of 51.5% to 70.0% compared to the scenario in which all speed regulations were removed (i.e., the no‐protection scenario). We identified optimal zones and near‐optimal zones with additional management considerations that improved upon the current zones in terms of cost or relative risk. Policy implications. Our analytical framework combines encounter rate theory and decision analysis to quantify the effectiveness of speed zones in protecting manatees while accounting for uncertainty. Our approach can be used to optimize the design of protection zones intended to reduce conflicts between human waterborne activity and marine mammals. This framework could be extended to address many other problems of human–wildlife interactions, such as the optimal placement of wind farms to minimize collisions with wildlife or the optimal allocation of ranger effort to mitigate poaching threats.
Keywords:
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Ecology
Source:
Journal of Applied Ecology, 56(5), 1050-1062
DOI:
https://doi.org/10.1111/1365-2664.13290
ISSN:
0021-8901;1365-2664;
Format:
PDF
Publisher:
Wiley
Document Type:
Journal Article
Funding:
Grant no. NA14OAR4170108
Rights Information:
Other
Compliance:
Library
Main Document Checksum:
[+]
urn:sha256:8cdfc8c0b1cd209d578c91ee46853de3320b80a2e69ed44d26edc082873df7c8
Download URL:
https://repository.library.noaa.gov/view/noaa/59823/noaa_59823_DS1.pdf
File Type:

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