Moving Beyond Telehealth: Adapting Enhanced Clinical Processes With Technology To Improve Access, Equity, Efficiency And Population Health In Rural And Remote Australia
Objectives: 1. Better understand the oceans off north-western Australia by measuring currents and sea surface temperatures with satellite tracked drifters. 2. Disseminate this information to the industry.
BCA - Development, Application And Evaluation Of The Use Of Remotely Sensed Data By Australian Fisheries
Funder
Fisheries Research and Development Corporation
Funding Amount
$5,445.45
Summary
Objectives: 1. To develop computational procedures for the validation, analysis and interpretation of ocean colour data, and to provide derived data sets as input to the analysis of selected fisheries 2. To determine in conjunction with key industry operators of the east Australian tuna fisheries the utility of SeaWIFS and satellite temperature data in improving the catch and efficiency for yellowfin and skipjack tuna, and to determine the economic benefit-cost of the use of satellite ....Objectives: 1. To develop computational procedures for the validation, analysis and interpretation of ocean colour data, and to provide derived data sets as input to the analysis of selected fisheries 2. To determine in conjunction with key industry operators of the east Australian tuna fisheries the utility of SeaWIFS and satellite temperature data in improving the catch and efficiency for yellowfin and skipjack tuna, and to determine the economic benefit-cost of the use of satellite imagery in the operational fishery Read moreRead less
Development, Application And Evaluation Of The Use Of Remotely Sensed Data By Australian Fisheries
Funder
Fisheries Research and Development Corporation
Funding Amount
$680,942.56
Summary
Objectives: 1. To develop computational procedures for the validation, analysis and interpretation of ocean colour data, and to provide derived data sets as input to the analysis of selected fisheries 2. To determine in conjunction with key industry operators of the east Australian tuna fisheries the utility of SeaWIFS and satellite temperature data in improving the catch and efficiency for yellowfin and skipjack tuna, and to determine the economic benefit-cost of the use of satellite ....Objectives: 1. To develop computational procedures for the validation, analysis and interpretation of ocean colour data, and to provide derived data sets as input to the analysis of selected fisheries 2. To determine in conjunction with key industry operators of the east Australian tuna fisheries the utility of SeaWIFS and satellite temperature data in improving the catch and efficiency for yellowfin and skipjack tuna, and to determine the economic benefit-cost of the use of satellite imagery in the operational fishery Read moreRead less
Determining Genetic Stock Structure Of Bigeye Tuna In The Indian Ocean Using Mitochondrial DNA And DNA Microsatellites.
Funder
Fisheries Research and Development Corporation
Funding Amount
$88,398.00
Summary
This proposal was developed in response to a call from WCTBFMAC for research into the population structure of bigeye tuna stocks exploited in the west coast tuna fishery. The longline fishery for bigeye tuna off the western coast of Australia is a rapidly expanding fishery due to the high export value of this species. information regarding the stock structure of bigeye tuna is vital for the long term sustainability of the fishery. Uncertainty regarding bigeye stock struc ....This proposal was developed in response to a call from WCTBFMAC for research into the population structure of bigeye tuna stocks exploited in the west coast tuna fishery. The longline fishery for bigeye tuna off the western coast of Australia is a rapidly expanding fishery due to the high export value of this species. information regarding the stock structure of bigeye tuna is vital for the long term sustainability of the fishery. Uncertainty regarding bigeye stock structure seriously restricts the confidence that scientists and fisheries managers can place in the regional assessments that have been carried out to date. At a national or sub-regional level, fisheries managers need to have a better idea of the broader surrounding population of bigeye from which the fish in their fisheries are drawn. In fact, knowledge of the stock structure of bigeye tuna in the eastern Indian Ocean has been listed as the number one priority of the Western Coast Tuna and Billfish Management Advisory Committee. Objectives: 1. To carry out a pilot study into the genetic stock structure of bigeye tuna in the Indian Ocean aimed at determining whether fish from four locations (Western Australia, South Africa, Seychelles, and Indonesia) are drawn from a common gene pool or whether they represent reproductively isolated spawning populations. 2. To compare this Indian Ocean data with data already being collected for the Atlantic Ocean and western tropical Pacific Ocean to gain a broader understanding of the global population structure of bigeye tuna. 3. Should evidence of large scale stock structuring within the Indian Ocean be evident, then a more extensive study will be proposed to indicate the number and extent of the different stocks within the Indian Ocean. This study will likely take the form of a two year proposal. It will attempt to confirm temporal stability of markers and resolve finer population structure by examination of more loci, additional sample locations, and an increased numbers of individuals sampled per location. Read moreRead less