David Lindenmayer ANU (Canberra)



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ustralia s Biodiversity and Climate Change: Meeting the Adaptation Challenge Photo: D. Lindenmayer David Lindenmayer ANU (Canberra) Will Steffen Climate Change Institute The Australian National University and Science Adviser Department of Climate Change & Energy Efficiency Australian Government

Background: The Process Commissioned in late 2006 by the Natural Resource Management (NRM) Ministerial Council as a strategic assessment of the vulnerability of Australia s biodiversity to the impacts of climate change. An Expert Advisory Group was appointed by the Dept of Climate Change, AustralianGovernment, to carry out the assessment. Process initiated, supported and facilitated by DCC. The assessment provides the basis for the National Adaptation Research Plan (NCCARF) for terrestrial biodiversity.

Expert Advisory Group Andrew Burbidge, Consultant, Western Australia Lesley Hughes, Macquarie University, NSW Roger Kitching, Griffith University, Queensland David Lindenmayer, ANU, ACT Warren Musgrave, University of New England, NSW Mark Stafford Smith, CSIRO, ACT Will Steffen (Chair), ANU, ACT Pat Werner, ANU, ACT

5 expert workshops held throughout project Climate change, species and ecosystems: identifying key science questions for Australia (13-19 Oct 2007) States and Territories and climate change (18-19 Dec 2007) Climate change impacts on biodiversity: honours presentations (5 Feb 2008) Institutional and governance issues in a climate changing world (12 Feb 2008) The effects of climate change on fire regimes in areas managed for biodiversity (26 Mar 2008)

Assessment products QuickTime and a decompressor are needed to see this picture. QuickTime and a decompressor are needed to see this picture. QuickTime and a decompressor are needed to see this picture.

Co-production of Knowledge Excellent example of participatory research - policy and management communities were centrally involved in the process from the very beginning until the final publication. Consultation with stakeholders - both formally and informally throughout the process. Briefings on a work in progress basis to NRMMC and other stakeholders. Robust dynamic throughout the process between the needs, constraints and cultures of the policy and management communities and those of the academic research community. Final products represent the success of this process - they are both academically rigorous and useful for policy and management.

1. Context Responses to climate change are observable now Genetic Species Geographic range Life cycles Populations Ecotonal boundaries Ecosystems Disturbances Shifts in genetic composition of fruit fly (Drosophila spp) Decreases in avian body size in passerines Migration of bird species to high latitudes Earlier mating of large skinks (Tiliqua Rugosa) Increases in fur seals on Heard Island Expansion of monsoonal rainforest into savanna woodland and grassland (?) Mass bleaching events in the Great Barrier Reef Changing fire regimes in southern Australia

Current stressors on biodiversity Land clearing and fragmentation, changed land uses Introduction of new species Altered disturbance regimes Redistribution of water resources; changes in nutrient capital Direct removal of species through hunting and fishing Mineral extraction

Current State of Australia s Biodiversity Changes at the species level Extinction, functional extinction, threatened species Changes in relative abundance and distribution Introduced species Changes in communities and ecosystems Species-species interactions Ecological cascades Novel communities and ecosystems Proportion of loss of mammalian fauna

2. The nature of the climate change challenge Climate Change: A new and different stressor Threats from climate change arise from changes in the basic physical and chemical underpinning of all life - temperature, precipitation, CO 2 concentration, acidity Rate of contemporary climate change is unprecedented since the last massive extinction event 60 million years ago.

Trends in global air temperature The multi-decadal T trend from 1980 to 2009 has been warming at 0.2 o C per decade. This trend has not slowed during the 2000-2009 decade. NASA GISS, 2010 2009 was the equal-second warmest year on record (since the mid-1850s at least). The decade 2000-2009 was the warmest decade on record, significantly warmer than the 1990s, which in turn were significantly warmer than the 1980s.

Outside the Envelope of Natural Variability Committed temperature rise due to the slow response of the oceans. This rise is estimated to be about 0.6 o C by 2100. Mann et al. 2003; IPCC AR4 2007

Implications of accelerating climate change IPCC projections Stylised projections used in BVA

Biome shifts on geological timeframes Biomes distributions at the LGM (Last Glacial Maximum, ca. 20,000 years ago), present day, and at 2100 with a mid-range CO 2 scenario and the corresponding climate. Note that even larger changes in biomes are projected over the next 100 years that occurred in the transition from the LGM to present (over 5000 years at least) Source: Sandy Harrison, Univ of Bristol

Dealing with Ecological Complexity Indirect effects rule!! Averages v. extremes Synergistic effects & surprises Nonlinearities, time lags, thresholds feedbacks, rapid transformations Dealing with ecological complexity implies that most (>90%) of research on climate change and biodiversity has little relevance for adaptation, or for policy and management in general.

Ecological Complexity: Surprises Little penguins have no experience of fire and so have no instinct to flee when fire approaches. They are simply burnt in their nests. As climate change warms and dries the environment around the penguins, the risk of fire increases. This effect was not (and probably could not have been) predicted by modelling or analysis. It is truly a surprise. L. Chambers et al. 2009

An Ecological Cascade Dieback of pasture trees

An Ecological Cascade Dieback of pasture trees

Consequences of a business-as-usual (runaway) scenario for Australia s biodiversity As for the rest of the world, Australia would likely face a massive wave of extinctions by the second half of the century. Areas/ ecosystems at particularly high risk include: Great Barrier Reef - most coral ecosystems converted to algae Australian Alps - alpine ecosystems largely eliminated Kakadu wetlands - salinisation of freshwater lagoons SE forests - more intense, frequent and larger (areally) bushfires SW Western Australia - megadiverse Gondwanan relict system; loss of cool, wet habitats - loss of plants, birds, mammals, reptiles Qld wet tropics - loss of cloud forest & cool-adapted species

3. The approach: Biodiversity conservation in a changing climate A business-as-usual approach - or modifications of what we have been doing in the past - will not work. We are sailing into planetary terra incognita. Concepts like agility, adaptability, resilience and transformation are crucial.

New perspectives and goals Potential magnitude and rate of change is beyond anything fully modern humans or the ecosystems from which we derive essential services have experienced In Australia, we cannot go back to a 1770 world. Expect the unexpected - novel ecosystems and species in different places. Develop policy and management for change - build fluid landscapes and agile managers; aim to maximise diversity in a multi-scale and dynamic sense (not maintain species in existing locations). Emphasis on maintenance of well functioning ecosystems and critical ecosystem services.

Fundamental Ecological Principles Going back to fundamental ecological principles allows us to develop robust rules-of-thumb that can support effective responses to climate change despite large uncertainties. Relationship between individual species and the surrounding environment Role of individual species in communities & ecosystems Ecosystem structure and functioning (including landscapes) Phenomena associated with environmental change at all levels - genetic to biome

Robust rules-of-thumb: Predicted general trends Local extinctions at low elevations; northern latitudes - colonisation at high elevations; southern latitudes Initial range expansions of most mobile species, leading ultimately to range shifts. Progressive de-coupling of species-species interactions Spread of ecological generalists (both native & exotic) at the expense of native specialists Global extinction of narrow-ranged endemics (with point above = homogenisation of the biosphere) Fragmentation of geographical range of some generalists

Building resilience, facilitating transformation Maintain well-functioning ecosystems Protect a representative array of ecosystems Remove or minimise existing stressors Build appropriate connectivity Identify and protect refugia Pro-active interventions Eco-engineering Genetic preservation

Flexible policy and management approaches Reconsider management objectives Consensus-building in society Uncertainty about future climate projections is no excuse for delay Greater focus on risk assessments Active adaptive management Opportunities from mitigation

Framing possible actions: explore most informative policy and management actions in different regions, given known uncertainty, etc Do we understand enough to know what type of actions to trial? No Yes Do we understand what socioeconomic (etc) instruments will achieve the outcome? Basic research on topics where lack of understanding prevents design of adaptive management/policy No Monitor and reassess Implement large (and small) scale policy and management adaptive intervention experiments Yes Research on management drivers and policy instruments Source: M. Stafford Smith

Integrated regional approaches: State of Victoria, Australia Land values Ratio of land value to agricultural value in 1997 Victoria Urban Centres Public Land Ratio of land value to production value 0-2 2-4 4-6 6-8 8+ Agricultural planning zones Demographic trends Estimated population change 1996-2020 in percent by Local Goverment Authority -21 to -30-11 to -20-1 to -10 0 to 10 11 to 20 21 to 30 31 to 40 41 to 50 51 to 60 61 to 70 71 to 80 140 to 150 N Degree of vegetation fragmentation Socio-economic trajectories

4. Key Messages Build resilience and facilitate transformation The most effective adaptation approach is to increase resilience of ecosystems and to make space for species and ecosystems to self-adjust as climate shifts. Management strategies include removing or minimising existing stressors and managing for appropriate connectivity. Strengthen the conservation effort at all levels Dealing with the climate change challenge effectively will require at least an orderof-magnitude increase in the conservation effort across the board - investment in natural capital; creating innovative, agile governance systems; generating widespread public support; enhancing off-reserve conservation, implementing regional integrated response strategies. Meet the mitigation challenge Australia s biodiversity has only so much capacity to adapt to climate change, and we are approaching that limit. Therefore, strong emissions mitigation action globally and in Australia is vital but this must be carried out in ways that deliver both adaptation and mitigation benefits