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1. Oceans Policy Science Advisory Group Providing a framework for our Marine Nation
Dr Kate Wilson
June 2009 OPSAG was established to provide science advice into Australia’s Ocean Policy and its implementation.
OPSAG currently provides a forum for coordination among Australian Government marine agencies.
OPSAG sponsors whole-of-Government initiatives, such as the Integrated Marine Observing System
promotes coordination + info sharing between Australian Government marine science agencies + the broader Australian marine science community
OPSAG was established to provide science advice into Australia’s Ocean Policy and its implementation.
OPSAG currently provides a forum for coordination among Australian Government marine agencies.
OPSAG sponsors whole-of-Government initiatives, such as the Integrated Marine Observing System
promotes coordination + info sharing between Australian Government marine science agencies + the broader Australian marine science community
2. Australia is a marine nation.
Our economic, social and, indeed, our life-support systems, depend on our oceans – or more accurately, the one global ocean we all share. This shared ocean flows around the world in a grand system of currents that drive waters, oxygen, nutrients heat and more throughout the planet.
In every second breath you take the oxygen comes from ocean algae – not trees.
Without oceans, 25 per cent more greenhouse gases would have accumulated in the Earth’s atmosphere since industrial emissions began.
Our oceans contribute nearly $40 billion to Australia’s economy each year.
Ocean science targets areas that concern us all, because oceans support the essentials of life: air, water, food and energy. Our safe access to all of these resources relies on how well we understand, and can therefore protect and use, our oceans.Australia is a marine nation.
Our economic, social and, indeed, our life-support systems, depend on our oceans – or more accurately, the one global ocean we all share. This shared ocean flows around the world in a grand system of currents that drive waters, oxygen, nutrients heat and more throughout the planet.
In every second breath you take the oxygen comes from ocean algae – not trees.
Without oceans, 25 per cent more greenhouse gases would have accumulated in the Earth’s atmosphere since industrial emissions began.
Our oceans contribute nearly $40 billion to Australia’s economy each year.
Ocean science targets areas that concern us all, because oceans support the essentials of life: air, water, food and energy. Our safe access to all of these resources relies on how well we understand, and can therefore protect and use, our oceans.
4. Economic value of our oceans >4 % of GDP contributed by ocean energy, tourism, food + recreation industries
90% of our liquid hydrocarbon comes from offshore, (only 20% of prospective basins under license)
maritime trade = $340 billion pa + investment in ports
maritime industries = $38 billion pa (42% increase since 2000)
emerging ocean industries have great potential
bio-discovery, minerals, carbon capture + storage, renewable energy, offshore aquaculture
- AIMS Index of Marine Industry 2008
Key Points:
Huge development in offshore O&G, ports.
Tourism – although currently facing issues with the GFC – international, national, recreational fishing.
Fisheries – food security, lead the world in approaches to fisheries management in many ways.
Aquaculture - While not huge producers of aquaculture product we’re at the forefront of new genetic and feed technologies aimed at revolutionizing the way aquaculture feed is produced and reducing the impact of these industries on marine populations/ecosystems.
Key Points:
Huge development in offshore O&G, ports.
Tourism – although currently facing issues with the GFC – international, national, recreational fishing.
Fisheries – food security, lead the world in approaches to fisheries management in many ways.
Aquaculture - While not huge producers of aquaculture product we’re at the forefront of new genetic and feed technologies aimed at revolutionizing the way aquaculture feed is produced and reducing the impact of these industries on marine populations/ecosystems.
5. 85% of the oil and 92% of the gas in Australia are located inside the three red circles, in Western Australia
Oil reserves are enough for 21 years at current production rates
Gas reserves are enough for 103 years at current production rates
85% of the oil and 92% of the gas in Australia are located inside the three red circles, in Western Australia
Oil reserves are enough for 21 years at current production rates
Gas reserves are enough for 103 years at current production rates
6. A Marine Nation: a national framework for marine R&D involves key agencies, government departments, universities
The Framework sets out the rationale for, key elements of, and critical requirements for a National Framework for Marine Research and Innovation, and is based on extensive consultation with the marine R&D provider community.
OPSAG Submission to the Review of the National Innovation System
identified major science issues/challenges
highlighted systemic weaknesses + gaps in capability + infrastructure
involves key agencies, government departments, universities
The Framework sets out the rationale for, key elements of, and critical requirements for a National Framework for Marine Research and Innovation, and is based on extensive consultation with the marine R&D provider community.
OPSAG Submission to the Review of the National Innovation System
identified major science issues/challenges
highlighted systemic weaknesses + gaps in capability + infrastructure
7. Opportunities and challenges for Australia’s coastal and ocean domain Discussion among OPSAG and with stakeholders identified 5 broad areas, representative of the challenges facing this nation over the coming decades
For the Framework, these challenges are complex and interlinked
Resources: Oil and Gas; Fisheries and aquaculture; Biodiscovery; Minerals; new activities such as desalination and energy generation
Biodiversity: Environmental Protection and Biodiversity Conservation Act; ecosystem services;
Coastal marine environment: Coastal zone use and impacts; coastal management; NRM 2006 Framework for a National Cooperative Approach to Integrated Coastal Zone Management
Climate Change: Climate variability and change (droughts & floods); severe events; sea level change; uncertainty
Safety and Security: Maritime hazards; biosecurity; marine forecasts
Summary of key issues:
A national approach. Australia requires a renewed, strengthened and cohesive national
approach to marine research and innovation, to be achieved through more effective
coordination and increased investment in Australian marine science guided by an agreed
National Framework for Marine Research and Innovation.
Industry engagement. Supporting the growth and development of Australian marine
industries requires strong and expanded engagement between industry and marine research
and innovation providers, based on the development of innovative technologies and
solutions, and improved partnerships.
Skills. Australian marine science suffers from acute shortages of skilled marine scientists
and technologists including chemists, economists, engineers, geographers, mathematicians,
microbiologists, modellers, physicists, statisticians, and taxonomists. Shortages are
compounded by the lack of career pathways for early career researchers.
Coordination and linkages. Australian education and training in marine science,
technology and innovation needs to provide for new human capability through better
coordination, linkages and investment to meet current and future demand for qualified
marine scientists and technologists, and redress the massive taxonomic knowledge gap
currently existing in Australia.
Discussion among OPSAG and with stakeholders identified 5 broad areas, representative of the challenges facing this nation over the coming decades
For the Framework, these challenges are complex and interlinked
Resources: Oil and Gas; Fisheries and aquaculture; Biodiscovery; Minerals; new activities such as desalination and energy generation
Biodiversity: Environmental Protection and Biodiversity Conservation Act; ecosystem services;
Coastal marine environment: Coastal zone use and impacts; coastal management; NRM 2006 Framework for a National Cooperative Approach to Integrated Coastal Zone Management
Climate Change: Climate variability and change (droughts & floods); severe events; sea level change; uncertainty
Safety and Security: Maritime hazards; biosecurity; marine forecasts
Summary of key issues:
A national approach. Australia requires a renewed, strengthened and cohesive national
approach to marine research and innovation, to be achieved through more effective
coordination and increased investment in Australian marine science guided by an agreed
National Framework for Marine Research and Innovation.
Industry engagement. Supporting the growth and development of Australian marine
industries requires strong and expanded engagement between industry and marine research
and innovation providers, based on the development of innovative technologies and
solutions, and improved partnerships.
Skills. Australian marine science suffers from acute shortages of skilled marine scientists
and technologists including chemists, economists, engineers, geographers, mathematicians,
microbiologists, modellers, physicists, statisticians, and taxonomists. Shortages are
compounded by the lack of career pathways for early career researchers.
Coordination and linkages. Australian education and training in marine science,
technology and innovation needs to provide for new human capability through better
coordination, linkages and investment to meet current and future demand for qualified
marine scientists and technologists, and redress the massive taxonomic knowledge gap
currently existing in Australia.
8. A National Framework Exploration, discovery and sustainability
The development of an integrated and collaborative marine exploration, discovery and sustainability
program will provide the foundation for better informed management of Australia’s marine resources,
marine biodiversity, coastal zone, marine climate change impacts and marine safety and security.
Observations, modelling and Prediction: This second major element is directed at integrated coastal and marine observations, and process studies for generation of knowledge and understanding that will enable the development of predictive models.
Marine industries: The third element of the proposed national framework is directed at marine industries development. This envisages involvement in marine technology and engineering, materials science (new materials, advanced sensors), robotics, and marine information and communications technology.
Engagement and knowledge transfer: The development and delivery of marine research and innovation requires effective engagement and close interactions between research providers and stakeholders. It also requires the development of shared visions of future requirements and effective and targeted information exchange; including the definition of their requirements by users of information, technology and outputs.
Framework identifies research, development + innovation required to:
respond to government, industry + community needs
deliver knowledge, data + new technologies
realise the opportunities + respond to the challenges
Framework allows for a renewed national effort in marine science through nationally coordinated research involving all marine science providers + users
education + training
marine science skills
career pathways for early-career researchers
capability + infrastructure
Marine National Facility vessel
remote sensing
high-performance computing
monitoring
marine collections
…
Exploration, discovery and sustainability
The development of an integrated and collaborative marine exploration, discovery and sustainability
program will provide the foundation for better informed management of Australia’s marine resources,
marine biodiversity, coastal zone, marine climate change impacts and marine safety and security.
Observations, modelling and Prediction: This second major element is directed at integrated coastal and marine observations, and process studies for generation of knowledge and understanding that will enable the development of predictive models.
Marine industries: The third element of the proposed national framework is directed at marine industries development. This envisages involvement in marine technology and engineering, materials science (new materials, advanced sensors), robotics, and marine information and communications technology.
Engagement and knowledge transfer: The development and delivery of marine research and innovation requires effective engagement and close interactions between research providers and stakeholders. It also requires the development of shared visions of future requirements and effective and targeted information exchange; including the definition of their requirements by users of information, technology and outputs.
Framework identifies research, development + innovation required to:
respond to government, industry + community needs
deliver knowledge, data + new technologies
realise the opportunities + respond to the challenges
Framework allows for a renewed national effort in marine science through nationally coordinated research involving all marine science providers + users
education + training
marine science skills
career pathways for early-career researchers
capability + infrastructure
Marine National Facility vessel
remote sensing
high-performance computing
monitoring
marine collections
…
9. Oceans are vast and data poor Megan quote: Mapping our oceans with just one research vessel is like mapping Australia with only a golf buggy.
Since its inception about 10 years ago, the global Argo project – which uses an armada of robotic floats to gather data on ocean conditions around the world – has generated about 16GB of data. In comparison, the Square Kilometre Array is expected to generate that much data in 160 milliseconds.
Brian Boyle says that – in its first week of operation – the Square Kilometre Array will generate more information than the total words ever spoken by humanity. In comparison, Southern Surveyor voyages generate about 10 TB a year of ocean-related data. This is highly skewed towards physical data, not biological.
As Stephen Miller of Scripps Institution of Oceanography lamented last year, we know far more about the surface of Mars from a few weeks of radar surveying in orbit than we know about the bottom of the global ocean after two centuries.Megan quote: Mapping our oceans with just one research vessel is like mapping Australia with only a golf buggy.
Since its inception about 10 years ago, the global Argo project – which uses an armada of robotic floats to gather data on ocean conditions around the world – has generated about 16GB of data. In comparison, the Square Kilometre Array is expected to generate that much data in 160 milliseconds.
Brian Boyle says that – in its first week of operation – the Square Kilometre Array will generate more information than the total words ever spoken by humanity. In comparison, Southern Surveyor voyages generate about 10 TB a year of ocean-related data. This is highly skewed towards physical data, not biological.
As Stephen Miller of Scripps Institution of Oceanography lamented last year, we know far more about the surface of Mars from a few weeks of radar surveying in orbit than we know about the bottom of the global ocean after two centuries.
10. Improved governance a national steering committee for marine research + innovation to:
bring together all marine science providers
provide a cohesive strategy for investment
provide an appropriate policy interface
provide for annual reporting + accountability
advise Government on marine R&D
A national steering committee for marine research and innovation
The proposed national steering committee for marine research and innovation would report to the appropriate Government policy interface (as discussed below) and have the responsibility to further develop, manage and implement the National Framework. Responsibilities would be to:
Have oversight of major opportunities and challenges for Australia’s coasts and ocean domain, and to advise relevant governments and/or agencies (Australian, State/Territory, Local) of possible responses;
Consult with marine industry stakeholders on priorities and directions in marine research and innovation;
Develop national high-level priorities for marine research and innovation;
Implement national marine research and innovation initiatives;
Coordinate the national effort in marine research and innovation;
Develop a national strategy for education, training and career pathways in marine research and innovation; and
Provide high-level annual reports on developments and achievements in marine science, and accountability for new initiatives in marine research and innovation.
A national steering committee for marine research and innovation
The proposed national steering committee for marine research and innovation would report to the appropriate Government policy interface (as discussed below) and have the responsibility to further develop, manage and implement the National Framework. Responsibilities would be to:
Have oversight of major opportunities and challenges for Australia’s coasts and ocean domain, and to advise relevant governments and/or agencies (Australian, State/Territory, Local) of possible responses;
Consult with marine industry stakeholders on priorities and directions in marine research and innovation;
Develop national high-level priorities for marine research and innovation;
Implement national marine research and innovation initiatives;
Coordinate the national effort in marine research and innovation;
Develop a national strategy for education, training and career pathways in marine research and innovation; and
Provide high-level annual reports on developments and achievements in marine science, and accountability for new initiatives in marine research and innovation.
11. Marine science in the spotlight "Australia has unique natural resources and distinctive flora and fauna. Our resource profile will inevitably influence our innovation priorities. For example, Australia has the third largest ocean territory in the world, so it makes sense for us to focus on marine science."
- Powering ideas: an innovation agenda for the 21st century
Australian Government
12. Marine central to Government’s plan Messages from Senator Carr on Budget night:
R&D will be at the centre of recovery from the global financial crisis.
There has been under-resourcing of innovation capacity.Messages from Senator Carr on Budget night:
R&D will be at the centre of recovery from the global financial crisis.
There has been under-resourcing of innovation capacity.
13. Budget backs marine science $120M to CSIRO to construct new ‘blue-water’ marine research vessel
$52M to Integrated Marine Observing System:
$55M to Australian Institute of Marine Science
$45M to establish Institute for Marine & Antarctic Studies
$19M for Sydney Institute of Marine Science
$25.2M to Australian Antarctic Division
14. One of IMOS’s facilities – the Australian National Facility for Ocean Gliders, or ANFOG - is led by Prof Charitha Pattiaratchi at the University of Western Australia. University of Western Australia. ANFOG has established a glider fleet of 8 vehicles. These gliders can be deployed up to periods varying between 3 weeks (shelf gliders) to 6 months (deep ocean gliders) to acquire physical, chemical and biological properties. The gliders have the potential to obtain repeat profiles at much lower cost than traditional methods and have the potential to replace expensive and logistically difficult ocean moorings. They also offer the possibility of obtaining data under all weather conditions which is not always feasible using ship-borne platforms. Projects will include monitoring boundary currents, such as the Leeuwin Current off western Australia, to measure how they change from season to season and year to year, and the extent to which these changes influence local coastal conditions, which in turn affect climate, weather, fisheries, shipping, etc.
A four-week CSIRO voyage aboard the Marine National Facility Research Vessel Southern Surveyor took place off Western Australia Coast during January and February 2004. The scientists found a unique and extraordinary feature of Australia's seabed landscape - the Perth Canyon - 22 km seaward of Rottnest Island off Perth. As wide as the well-known Grand Canyon (USA), but deeper, mapping was the first step in determining its biodiversity values, and the ecosystem services it provides. The findings increased our understanding of the physical structure of the deep ocean seabed and the composition and evolution of its rich fauna. They also provided fundamental information for the development of national marine management plans that incorporate ecosystem-based principles. One of IMOS’s facilities – the Australian National Facility for Ocean Gliders, or ANFOG - is led by Prof Charitha Pattiaratchi at the University of Western Australia. University of Western Australia. ANFOG has established a glider fleet of 8 vehicles. These gliders can be deployed up to periods varying between 3 weeks (shelf gliders) to 6 months (deep ocean gliders) to acquire physical, chemical and biological properties. The gliders have the potential to obtain repeat profiles at much lower cost than traditional methods and have the potential to replace expensive and logistically difficult ocean moorings. They also offer the possibility of obtaining data under all weather conditions which is not always feasible using ship-borne platforms. Projects will include monitoring boundary currents, such as the Leeuwin Current off western Australia, to measure how they change from season to season and year to year, and the extent to which these changes influence local coastal conditions, which in turn affect climate, weather, fisheries, shipping, etc.
A four-week CSIRO voyage aboard the Marine National Facility Research Vessel Southern Surveyor took place off Western Australia Coast during January and February 2004. The scientists found a unique and extraordinary feature of Australia's seabed landscape - the Perth Canyon - 22 km seaward of Rottnest Island off Perth. As wide as the well-known Grand Canyon (USA), but deeper, mapping was the first step in determining its biodiversity values, and the ecosystem services it provides. The findings increased our understanding of the physical structure of the deep ocean seabed and the composition and evolution of its rich fauna. They also provided fundamental information for the development of national marine management plans that incorporate ecosystem-based principles.
15. Thank you
Dr Kate Wilson
kate.wilson@csiro.au
02 9490 8258
www.opsag.org