9 results
Environment
PROJECT NUMBER • 2007-045
PROJECT STATUS:
COMPLETED

Rebuilding Ecosystem Resilience: assessment of management options to minimise formation of ‘barrens’ habitat by the long-spined sea urchin (Centrostephanus rodgersii) in Tasmania

By overgrazing seaweeds and sessile invertebrates, essentially back to bare rock, the advent of the long‐spined sea urchin Centrostephanus rodgersii in eastern Tasmanian waters poses a significant threat to the integrity, productivity and biodiversity of shallow (<40 m) rocky reef systems and the...
ORGANISATION:
University of Tasmania (UTAS)
People
People
Environment
Environment
Environment
PROJECT NUMBER • 2000-195
PROJECT STATUS:
COMPLETED

Assessing the impact of proposed marine protected areas on South Australian rock lobster catches

A state and federal collaborative program (NRSMPAs) to establish marine protected areas (MPAs) is underway nationwide. This project examines no-take zones designated for state territorial waters which lie predominantly inside 3 nautical miles from shore. In South Australia, the lobster...
ORGANISATION:
SARDI Food Safety and Innovation
Environment
PROJECT NUMBER • 2011-039
PROJECT STATUS:
COMPLETED

FRDC-DCCEE: preparing fisheries for climate change: identifying adaptation options for four key fisheries in South Eastern Australia

Over the next century, the marine ecosystems of south-eastern Australia are expected to exhibit some of the largest climate-driven changes in the Southern Hemisphere. The effects of these changes on communities and businesses will depend, in part, on how well fishing industries and resource managers...
ORGANISATION:
University of Tasmania (UTAS)
SPECIES
Environment
PROJECT NUMBER • 2017-082
PROJECT STATUS:
COMPLETED

Ensuring monitoring and management of bycatch in Southern Rock Lobster fisheries is best practice

Bycatch is an important issue in fisheries worldwide, with the impacts of fishing activities on non-targeted species and the wider marine environment receiving increasing public attention. Issues such as the potential wastage of resources through discarding of unwanted catch, ecological impacts on...
ORGANISATION:
University of Tasmania (UTAS)
Environment
PROJECT NUMBER • 2014-032
PROJECT STATUS:
COMPLETED

Improved understanding of Tasmanian harmful algal blooms and biotoxin events to support seafood risk management

The 2012 Tasmanian biotoxin event represents a paradigm shift for seafood risk management in Tasmania and Australia as a whole. The causative dinoflagellates are extremely difficult to identify by routine plankton monitoring, and are toxic at very low cell concentrations (50-100 cells/L). Sampling...
ORGANISATION:
University of Tasmania (UTAS)
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