387 results
Environment

Developing novel remote camera approaches to assess and monitor the population status of Australian sea lions

Project number: 2017-119
Project Status:
Completed
Budget expenditure: $184,631.00
Principal Investigator: Stephen M. Taylor
Organisation: Department of Primary Industries and Regional Development (DPIRD) WA
Project start/end date: 31 Dec 2017 - 30 Dec 2019
Contact:
FRDC

Need

The Australian sea lion (Neophoca cinerea) is the only endemic species of Australian pinniped and is listed as Vulnerable under the EPBC Act due to historical reduction in numbers, declining population trends, limited biological productivity and continued bycatch in various fisheries. Measures to mitigate sea lion mortality in the Commonwealth's Southern and Eastern Scalefish and Shark Fishery include extensive gillnet fishing closures that have led to significant displacement of fishing effort. Despite the measures to protect South Australian sea lion colonies, pup production has been estimated to have declined at most South Australian colonies and overall by 2.9% per year or 4.4% per breeding cycle between 2004-2008 and 2014-2015 (Goldsworthy et al., 2015).

Gillnet exclusion areas have also been proposed in the Western Australian Demersal Gillnet and Demersal Longline Fisheries, however these have not yet been implemented, in part due to uncertainties in the current status of most Western Australian sea lion colonies and risk of unintended consequences from displaced fishing effort. Despite the high level of conservation concern for this species and the severity of fishery management measures aimed at reducing their bycatch mortality, abundance has not been estimated for most WA colonies since the early-1990s (Gales 1993). Contemporary assessments of colony status are therefore required to identify the WA colonies that are most at risk from depletion (either through fisheries bycatch or other natural or anthropogenic processes) and guide effective conservation decisions.

Historically, monitoring has involved a 'boots-on-the-ground' approach to count the numbers of pups being born. However, this approach is expensive, logistically difficult, hazardous and entirely dependent on accurate estimation of the timing of colony-specific pupping seasons. It is therefore proposed to evaluate the feasibility and cost-effectiveness of remote camera methods to collect alternative sea lion abundance estimates.

Objectives

1. Evaluate the feasibility of using remote cameras as a method for monitoring the status of Australian sea lion colonies
2. Collect sea lion abundance estimates from study colonies over an 18 month period (full breeding cycle) to update understanding of their conservation status
3. Provide continuous time-series of vision and ancillary in-situ data for other ecological or behavioural research into dynamics of WA sea lion colonies

Final report

ISBN: 978-1-921845-32-1
Authors: Mat Hourston Daniela Waltrick Stuart Blight Ainslie Denham Alex Hesp Stephen Taylor
Final Report • 2022-12-01 • 4.54 MB
2017-119-DLD.pdf

Summary

This project trialled the use of remote cameras to monitor the relative abundance of Australian sea lions (ASLs, Neophoca cinerea) at three Western Australian (WA) breeding colonies. The research was undertaken by the Department of Primary Industries and Regional Development (DPIRD) to assess whether the analysis of camera footage could be used to estimate ASL relative abundance, providing an alternative to the traditional “boots on the ground” approach (hereon in “BoG”) of visiting colonies to count animals. This report outlines the strengths and limitations of this novel approach rather than providing an update on the population status of ASLs.
Environment
Environment
PROJECT NUMBER • 2017-023
PROJECT STATUS:
COMPLETED

ESD risk assessment for under-utilised species to facilitate structural reform of South Australia's commercial Marine Scalefish Fishery

South Australia’s Marine Scalefish Fishery (MSF) is facing a number of complex issues that are affecting business profitability and stock sustainability. One particular issue relates to the long-term reliance of the fishery on the three primary finfish species of King George Whiting, Snapper...
ORGANISATION:
SARDI Food Safety and Innovation
Industry
Industry
PROJECT NUMBER • 2018-195
PROJECT STATUS:
COMPLETED

Industry capability and mapping report and workshop

In 2018 the Australia Seafood Industry established a national peak industry body – Seafood Industry Australia (SIA). SIA’s charter is to manage issues of national significance to the seafood industry. The current functional capability (staff, funding, systems, networks) of the SIA...
ORGANISATION:
Fisheries Research and Development Corporation (FRDC)
Environment
PROJECT NUMBER • 2017-148
PROJECT STATUS:
COMPLETED

NCCP: identifying synergistic genetic bio control options for Cyprinus carpio in Australia

This study was undertaken by Wedekind Gutachten, Switzerland. Potentially synergistic genetic biocontrol technologies can be grouped into those that do not involve engineered DNA sequences and those that do. The former include the “sterile male” and the “Trojan Y...
ORGANISATION:
Wedekind Gutachten
View Filter

Species

Organisation