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The power of national acoustic tracking networks to assess the impacts of human activity on marine organisms during the COVID-19 pandemic

Citation

Huveneers, C and Jaine, FRA and Barnett, A and Butcher, PA and Clarke, TM and Currey-Randall, LM and Dwyer, RG and Ferreira, LC and Gleiss, AC and Hoenner, X and Ierodiaconou, D and Ledee, EJI and Meekan, MG and Pederson, H and Rizzari, JR and van Ruth, PD and Semmens, JM and Taylor, MD and Udyawer, V and Walsh, P and Heupel, MR and Harcourt, R, The power of national acoustic tracking networks to assess the impacts of human activity on marine organisms during the COVID-19 pandemic, Biological Conservation, 256 Article 108995. ISSN 0006-3207 (2021) [Refereed Article]

Copyright Statement

2021 Elsevier Ltd. All rights reserved

DOI: doi:10.1016/j.biocon.2021.108995

Abstract

COVID-19 restrictions have led to an unprecedented global hiatus in anthropogenic activities, providing a unique opportunity to assess human impact on biological systems. Here, we describe how a national network of acoustic tracking receivers can be leveraged to assess the effects of human activity on animal movement and space use during such global disruptions. We outline variation in restrictions on human activity across Australian states and describe four mechanisms affecting human interactions with the marine environment: 1) reduction in economy and trade changing shipping traffic; 2) changes in export markets affecting commercial fisheries; 3) alterations in recreational activities; and 4) decline in tourism. We develop a roadmap for the analysis of acoustic tracking data across various scales using Australia's national Integrated Marine Observing System (IMOS) Animal Tracking Facility as a case study. We illustrate the benefit of sustained observing systems and monitoring programs by assessing how a 51-day break in white shark (Carcharodon carcharias) cage-diving tourism due to COVID-19 restrictions affected the behaviour and space use of two resident species. This cessation of tourism activities represents the longest break since cage-diving vessels started day trips in this area in 2007. Long-term monitoring of the local environment reveals that the activity space of yellowtail kingfish (Seriola lalandi) was reduced when cage-diving boats were absent compared to periods following standard tourism operations. However, white shark residency and movements were not affected. Our roadmap is globally applicable and will assist researchers in designing studies to assess how anthropogenic activities can impact animal movement and distributions during regional, short-term through to major, unexpected disruptions like the COVID-19 pandemic.

Item Details

Item Type:Refereed Article
Keywords:acoustic telemetry, coronavirus, IMOS, national network, monitoring, white shark, wildlife tourism, yellowtail kingfish
Research Division:Environmental Sciences
Research Group:Environmental biotechnology
Research Field:Environmental marine biotechnology
Objective Division:Information and Communication Services
Objective Group:Information systems, technologies and services
Objective Field:Information systems
UTAS Author:Semmens, JM (Professor Jayson Semmens)
UTAS Author:Walsh, P (Mr Peter Walsh)
ID Code:152070
Year Published:2021
Web of Science® Times Cited:9
Deposited By:Sustainable Marine Research Collaboration
Deposited On:2022-08-11
Last Modified:2022-09-08
Downloads:0

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