Forest science & forestry education anu 12.5.11
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Transcript of Forest science & forestry education anu 12.5.11
Forest science and forestry education Forest science and forestry education for a carbon, water, energy and for a carbon, water, energy and
nutrient-constrained worldnutrient-constrained world
Andrew CampbellAndrew Campbell Research Institute for the Environment and LivelihoodsResearch Institute for the Environment and Livelihoods
Charles Darwin UniversityCharles Darwin University
www.cdu.edu.au/rielwww.cdu.edu.au/riel
Personal declarations
• Farming background south-western VictoriaFarming background south-western Victoria– Family farming in the district since 1860s, own farm managed since 1987Family farming in the district since 1860s, own farm managed since 1987
– 450ha near Cavendish: 30% farm forestry, 10% environmental reserves, 60% leased to 450ha near Cavendish: 30% farm forestry, 10% environmental reserves, 60% leased to a neighbour for prime lambsa neighbour for prime lambs
• Forestry & rural sociology: Creswick, Melbourne & WageningenForestry & rural sociology: Creswick, Melbourne & Wageningen– Last cohort to graduate from Creswick 1980 Last cohort to graduate from Creswick 1980
• Forester Victorian governmentForester Victorian government
• First National Landcare Facilitator ‘89-92First National Landcare Facilitator ‘89-92
• Environment Australia SES 1995-2000Environment Australia SES 1995-2000
• CEO Land & Water Australia 2000-06CEO Land & Water Australia 2000-06
• Triple Helix Consulting 2007-10Triple Helix Consulting 2007-10
• Director, Research Institute for the Environment & Livelihoods, CDU 2011—Director, Research Institute for the Environment & Livelihoods, CDU 2011—
Presentation Title | 00 Month 2010 | Slide 3
• A new Tier One Research Institute
• Consolidating CDU environmental research in one place
• Interdisciplinary across the natural and social sciences
• Focus on northern Australia and the region to its north
• Strong emphasis on:• collaborative research partnerships (including ANU)• Indigenous engagement• working with research end-users to ensure relevance and
adoptability
Research Institute for the Environment & Livelihoods (RIEL)
Presentation Title | 00 Month 2010 | Slide 4
• Natural Resources-based Livelihoods
• Coastal and Marine ecology and management
• Freshwater ecology and management
• Savanna Management and Wildlife Conservation
• Tropical Resource Futures
RIEL Research Themes
Presentation Title | 00 Month 2010 | Slide 5
• The ANU and CDU have a high level partnership
• NARU – the North Australia Research Unit gives the ANU a footprint (& accommodation) on the Darwin campus of CDU
• We can offer jointly-badged PhDs
• We have both overlapping and complementary capabilities
• And both directors are long-term Queanbeyan residents…
• So have a think about doing RIEL fieldwork or post-grad studies
RIEL & the Fenner School – natural partners
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Key Points• The age of cheap, abundant fossil fuel energy is coming to an end
• The age of carbon accounting and pricing is beginning
• Rural landscapes will be more contested and more multifunctional
• Australia needs a third agricultural revolution
• Well-planned woody perennials have an important role
• New opportunities for forest science and forestry education
• Reflections on the value of forestry training
• In a world where carbon is valued, forestry should be a cool
profession, attracting top talent
Drivers for change
• Climate
• Water
• Energy
• Food
• Population, demography, consumption and development pressures
• Competition for land & water resources
• Resource depletion & degradation
Source: WBCSD & IUCN 2008; Harvard Medical School 2008
ClimateThe core problem: population & carbon emissions
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Water
• Each calorie takes one litre
of water to produce, on
average
• Like the Murray Darling
Basin, all the world’s major
food producing basins are
effectively ‘closed’ or
already over-committed
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Feeding the world• The world needs to increase food production by about
70% by 2050, & improve distribution
• We have done this in the past, mainly through clearing, cultivating and irrigating more land– and intensification, better varieties, more fertiliser, pesticides
• Climate change and oil depletion is narrowing those options, with limits to water, land, energy & nutrients
• Rich consumers have major concerns about modern industrial food systems– human health, animal welfare, environment, fair trade
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But maybe we ain’t seen nothin yet….
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Energy & nutrients
• The era of abundant, cheap fossil fuels is coming to a close
• Rising oil costs = rising costs for fertiliser, agri-chemicals, transport and food
Australia
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World
Energy (2)“ a significant risk of a peak in conventional oil production before 2020. The risks
presented by global oil depletion deserve much more serious attention by the research and policy communities.”
UK Energy Research Centre, An assessment of the evidence for a near-term peak in global oil production, August 2009
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“we have to leave oil before oil leaves us, and we have to prepare ourselves for that day”
Dr Fatih Birol, Chief Economist IEA, 3 August 2009
“The challenge of feeding 7 or 8 billion people while oil supplies are falling is stupefying. It’ll be even greater if governments keep pretending that it isn’t going to happen.”
George Monbiot, The Guardian 16.11.09
Water, energy, and GDP
15 from Proust, Dovers, Foran, Newell, Steffen & Troy (2007)
Energy & GDP
Water & GDP
Water and energy have historically been closely coupled with GDP in Australia
Our challenge now is to radically reduce the energy, carbon and water-intensity of our economy
Climate-energy-water feedbacks
16 from Proust, Dovers, Foran, Newell, Steffen & Troy (LWA 2007)
• Saving water often uses more energy, and vice-versa
• Efforts to moderate climate often use more energy +/or water
• E.g. coal-fired power stations with CCS will be 25-33% more water-intensive
• Using more fossil energy exacerbates climate chaos
Profound technical challengesProfound technical challenges1.1. To decouple economic growth from carbon emissionsTo decouple economic growth from carbon emissions
2.2. To adapt to an increasingly difficult climate To adapt to an increasingly difficult climate
3.3. To increase water productivityTo increase water productivity—— decoupling the 1 litre per calorie relationshipdecoupling the 1 litre per calorie relationship
4.4. To increase energy productivityTo increase energy productivity– more food energy out per unit of energy inmore food energy out per unit of energy in
– while shifting from fossil fuels to renewable energywhile shifting from fossil fuels to renewable energy
5.5. To develop more sustainable food systemsTo develop more sustainable food systems– while conserving biodiversity andwhile conserving biodiversity and
– improving landscape amenity, soil health, animal welfare & human healthimproving landscape amenity, soil health, animal welfare & human health
6.6. TO DO ALL OF THE ABOVE SIMULTANEOUSLY!TO DO ALL OF THE ABOVE SIMULTANEOUSLY!—— improving sustainability and resilience improving sustainability and resilience
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We need a third agricultural revolution• High level goals: e.g. 50% increase in food & fibre production
while doubling water productivity, reducing net emissions to zero and becoming a net energy producer from agricultural and pastoral lands
• How to get there?
– Closed loop farming systems, not leaking: (water, energy, nutrients, carbon, biodiversity, human talent)
– Smart metering, sensing, telemetry, robotics, guidance, biotech– Better understanding of soil carbon & microbial activity– Radically reducing waste in all parts of the food chain– Farming systems producing renewable (2nd gen) bioenergy– Biodiverse carbon sinks to offset unavoidable emissions – Attracting young talent back into agriculture, forestry
and rural communities
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Woody biomass energy
• Learning from the Vikings:– Finland: same area and population as Victoria, tougher climate, shorter
growing season, slower growth rates
– Private forestry thinnings etc produce 23% of Finland’s primary energy, over 75% of thermal energy needs, and 20% of Finland’s electricity
– In Sweden it is 20% (already higher than oil) with a target of 40%
• Foran et al suggest woody biomass energy can fuel Australia
• WA already in the lead– 2nd Gen biofuels (mallees)
40-50 times more energetically efficient than ethanol
CRC Future Farm Industries energy trees
Developing an efficient supply chain for woody energy crops integrated into wheatbelt farming systems.
Solving a bottleneck with the invention of a new harvesting head that can handle tough mallee species
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Biocarbon/energy integrated into agricultural systems vs replacing
them
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• Mallees occupy 8-10% of farmsMallees occupy 8-10% of farms• Minimal food production trade-offMinimal food production trade-off• 48 times more energetically efficient 48 times more energetically efficient
than ethanolthan ethanol• 300-550mm rainfall zone 300-550mm rainfall zone
— — minimal water yield loss and low minimal water yield loss and low opportunity costopportunity cost
• Salinity, erosion control and Salinity, erosion control and biodiversity benefitsbiodiversity benefits
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• SE Australia is already “post-agricultural” in several regions
• We have some elements of a new paradigm– Ecoservices etc
– Carbon offsets market (Greenfleet et al)
– New corporate players — e.g. VicSuper, energy companies
• We know areas that need to expand– Water conservation– Habitat restoration and reconnection– Residential– Renewable energy (biomass, biogas, wind, solar)
• and we know how and we know how notnot to do it — MIS! to do it — MIS!
““Carbon plus” wool, beef and Carbon plus” wool, beef and sheep meat sheep meat
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Forestry integrated with farming Forestry integrated with farming vs replacing farmingvs replacing farming
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Transition to carbon-neutral, energy-positive rural landscapes
The integration imperativeThe integration imperative• Managing whole landscapes
– “where nature meets culture” (Simon Schama) – landscapes are socially constructed– beyond ‘ecological apartheid’ – NRM means people management– engage values, perceptions, aspirations, behaviour
• Integration- across issues — e.g climate, energy, water, food, biodiversity- across scales — agencies, governments, short-term, long-term - across the triple helix — landscapes, lifestyles & livelihoods
Scales for response to climate change
• Many of the main drivers of biodiversity loss operate at the landscape-scale e.g. habitat fragmentation, invasive species and changed fire regimes.
• It is the scale which lends itself to integrated, whole of ecosystem and cross tenure solutions.
• In Australia the most threatened components of biodiversity are in the intensive zones and
CSIRO 2010
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Forest Science and Forestry Education• Extremely relevant and useful — more now than ever• Looming gap between supply and demand for graduates
• Key attributes: – Breadth across the physical, chemical and biological sciences &
ecology
– Significant doses of applied economics and management
– Important toolkit for a carbon economy
– Just enough social science to be dangerous (room for improvement)
– Explicitly embracing a wide range of scales in space and time
– Comfortable with dynamic systems, uncertainty & non-linear processes
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Forest Science and Forestry Education (2)
• Main challenges– Attracting top talent — professional image needs a makeover
– Moving beyond polarised forest policy debates
– Offering practical, enticing ways to ‘sharpen the saw’ (e.g. Master Tree Grower)
– National Forestry Masters Program (NFMP) an important framework
– Needs to complement national R,D&E strategies
– Industry support and investment in education is critical
Changes in environmental thinking
Issue Focus Existing approaches Landscape and resilience based approaches
Biodiversity conservation
threatened species & habitats protected areas priority limited private land involvement
ecosystem functions critical/keystone species linked whole-of-system
Science input distribution & abundance of species static ecosystem structures models of predictable change optimization and economic tools
non-linear dynamics and complex systems shocks, feedbacks, thresholds cross-scale interactions complex social-ecological systems
Policy tools mix of approaches short term objectives fixed targets
changed mix of approaches ? long-term objectives ? adaptive/flexible targets ? management at multiple temporal and temporal scales ?
Governance models
rigid institutional structures whole-of-government coordination community engagement
integration across institutions ? integrated planning across multiple scales ? adaptive governance structures ? devolved/shared decision-making ?
Source, Thompson & Flanigan May 2011 unpub
Sustainability and Resilience• Complementary concepts• Sustainability remains relevant and desirable
– Living within our means– Thinking long term (inter-generational equity)– Distinguishing between depletable and renewable
resources– Avoiding or limiting actions that degrade, pollute,
over-use or compromise ecosystem function
• BUT: Sustainability is less instructive around:– Social and economic dimensions
– Operating in contexts with inherent variability33
Resilience – the new kid on the block
• Basically refers to the capacity of a system to absorb shocks, reorganise and retain the same functions– As resilience declines, it takes a progressively smaller shock
to push a system across a threshold
• Adds value in explicitly embracing change and variability
• Introduces the useful concept of thresholds or tipping points
• Also embraces scale – Resilience at a given scale
requires an understanding of at least one scale up & down
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Rebranding Forestry & Agriculture• As brands, Forestry and Agriculture are tired and faded
– negative connotations in terms of profitability, lifestyle, ‘old economy’ and environmental virtue — tend to be judged by worst practice
– very low levels of professional training (7% with a degree in 2004, c/f 17% for mining and 24% for services)*
• We have to re-think, re-tool, re-skill and re-brand
• Carbon pricing and energy insecurity presents a huge opportunity for farm & agroforestry
– Vis Reid & Wilson 1985, Campbell 1990, Alexandra & Hall 1998, Youl 2001, Garnaut 2007, Lang 2008, Wentworth Group 2009
* Source: Bull & Kanowski IFA presentation 2009
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Rebranding Forestry & Agriculture (2)
• Forestry (like agriculture) can be seen as core to the food system, the energy system and even the health system
– with a new story around carbon, water, energy, fibre, biodiversity and survival: ‘keepers of the long view’
• High quality Australian forestry — a key to responsible living
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Take home messages
• Rural landscapes are more contested and squeezed Rural landscapes are more contested and squeezed
between major drivers: climate, water, energy, foodbetween major drivers: climate, water, energy, food
• Australia needs a third agricultural revolutionAustralia needs a third agricultural revolution
• Well-planned woody perennials have an important roleWell-planned woody perennials have an important role
• This creates exciting new opportunities for forest science This creates exciting new opportunities for forest science
and forestry educationand forestry education
• Our professional image and approach must changeOur professional image and approach must change
• Multifunctional rural landscapes offer a fertile seedbedMultifunctional rural landscapes offer a fertile seedbed
For more information
www.cdu.edu.au/rielwww.cdu.edu.au/riel
www.triplehelix.com.awww.triplehelix.com.a
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