Biodiversity and Conservation

, Volume 27, Issue 1, pp 1–29 | Cite as

Adapting systematic conservation planning for climate change

  • April E. Reside
  • Nathalie Butt
  • Vanessa M. Adams
Review Paper

Abstract

With the high rate of ecosystem change, effective systematic conservation planning must account for ongoing and imminent threats to biodiversity to ensure its persistence. Accordingly, guidance on appropriate conservation actions in the face of climate change has been accumulating. We review this guidance and bring together the key recommendations needed to successfully account for climate change impacts, relevant to the scale at which natural resource management is carried out. We discuss how the traditional conservation tools of protection and restoration need to be adjusted to be effective in the face of climate change. We highlight the conservation innovations such as moveable and temporary reserves, and Targeted Gene Flow. We build on recent work to provide critical advice for considering climate change in conservation planning. In particular, we discuss how stating explicit objectives related to climate change adaptation, quantifying uncertainty, and exploring trade-offs will better place conservation plans to meet objectives for multiple goals such as protection of species, ecosystems, geophysical diversity and ecological processes.

Keywords

Climate change Connectivity Multiple objective planning Synergies Trade-offs Uncertainty 

Notes

Acknowledgements

This work was funded by the Australian Government through the Regional NRM planning for climate change program. The work was developed through collaboration with Terrain NRM, in particular Penny Scott, and with Catherine Moran and Bob Pressey. Rebecca Runting, Stewart Macdonald and James Watson provided feedback on the manuscript.

Supplementary material

10531_2017_1442_MOESM1_ESM.docx (41 kb)
Supplementary material 1 (DOCX 41 kb)

References

  1. Ackerly DD, Loarie SR, Cornwell WK, Weiss SB, Hamilton H, Branciforte R, Kraft NJB (2010) The geography of climate change: implications for conservation biogeography. Divers Distrib 16:476–487CrossRefGoogle Scholar
  2. Adams VM, Álvarez-Romero JG, Carwardine J, Cattarino L, Hermoso V, Kennard MJ, Linke S, Pressey RL, Stoeckl N (2014) Planning across freshwater and terrestrial realms: cobenefits and tradeoffs between conservation actions. Conserv Lett 7:425–440CrossRefGoogle Scholar
  3. Adams VM, Álvarez-Romero JG, Capon SJ, Crowley GM, Dale AP, Kennard MJ, Douglas MM, Pressey RL (2017) Making time for space: the critical role of spatial planning in adapting natural resource management to climate change. Environ Sci Policy 74:57–67CrossRefGoogle Scholar
  4. Alagador D, Cerdeira JO (2017) Meeting species persistence targets under climate change: a spatially explicit conservation planning model. Divers Distrib 23:703–713CrossRefGoogle Scholar
  5. Alagador D, Cerdeira JO, Araújo MB (2014) Shifting protected areas: scheduling spatial priorities under climate change. J Appl Ecol 51:703–713CrossRefGoogle Scholar
  6. Álvarez-Romero JG, Adams VM, Pressey RL, Douglas M, Dale AP, Augé AA, Ball D, Childs J, Digby M, Dobbs R, Gobius N, Hinchley D, Lancaster I, Maughan M, Perdrisat I (2015) Integrated cross-realm planning: a decision-makers’ perspective. Biol Cons 191:799–808CrossRefGoogle Scholar
  7. Ando AW, Mallory ML (2012) Optimal portfolio design to reduce climate-related conservation uncertainty in the Prairie Pothole Region. Proc Natl Acad Sci 109:6484–6489PubMedPubMedCentralCrossRefGoogle Scholar
  8. Araújo MB, New M (2007) Ensemble forecasting of species distributions. Trends Ecol Evol 22:42–47PubMedCrossRefGoogle Scholar
  9. Araujo MB, Rozenfeld R, Rahbek C, Marquet PA (2011) Using species coexistence networks to assess the impacts of climate change. Ecography 34:897–908CrossRefGoogle Scholar
  10. Araújo MB, Cabeza M, Thuiller W, Hannah L, Williams PH (2004) Would climate change drive species out of reserves? An assessment of existing reserve-selection methods. Glob Change Biol 10:1618–1626CrossRefGoogle Scholar
  11. Ashcroft MB, Gollan JR, Warton DI, Ramp D (2012) A novel approach to quantify and locate potential microrefugia using topoclimate, climate stability, and isolation from the matrix. Glob Change Biol 18:1866–1879CrossRefGoogle Scholar
  12. Bateman BL, Pidgeon AM, Radeloff VC, Allstadt AJ, Resit Akçakaya H, Thogmartin WE, Vavrus SJ, Heglund PJ (2015) The importance of range edges for an irruptive species during extreme weather events. Landsc Ecol 30:1095–1110CrossRefGoogle Scholar
  13. Beaumont LJ, Hughes L, Pitman AJ (2008) Why is the choice of future climate scenarios for species distribution modelling important? Ecol Lett 11:1135–1146PubMedGoogle Scholar
  14. Beier P, Brost B (2010) Use of land facets to plan for climate change: conserving the arenas, not the actors. Conserv Biol 24:701–710PubMedCrossRefGoogle Scholar
  15. Bekessy SA, Wintle BA (2008) Using carbon investment to grow the biodiversity bank. Conserv Biol 22:510–513CrossRefGoogle Scholar
  16. Bellard C, Bertelsmeier C, Leadley P, Thuiller W, Courchamp F (2012) Impacts of climate change on the future of biodiversity. Ecol Lett 15:365–377PubMedPubMedCentralCrossRefGoogle Scholar
  17. Berg MP, Kiers ET, Driessen G, van der Heijden M, Kooi BW, Kuenen F, Liefting M, Verhoef HA, Ellers J (2010) Adapt or disperse: understanding species persistence in a changing world. Glob Change Biol 16:587–598CrossRefGoogle Scholar
  18. Boulangeat I, Gravel D, Thuiller W (2012) Accounting for dispersal and biotic interactions to disentangle the drivers of species distributions and their abundances. Ecol Lett 15:584–593PubMedPubMedCentralCrossRefGoogle Scholar
  19. Breed MF, Stead MG, Ottewell KM, Gardner MG, Lowe AJ (2013) Which provenance and where? Seed sourcing strategies for revegetation in a changing environment. Conserv Genet 14:1–10CrossRefGoogle Scholar
  20. Brook BW, Sodhi NS, Bradshaw CJA (2008) Synergies among extinction drivers under global change. Trends Ecol Evol 23:453–460PubMedCrossRefGoogle Scholar
  21. Buisson L, Thuiller W, Casajus N, Lek S, Grenouillet G (2010) Uncertainty in ensemble forecasting of species distribution. Glob Change Biol 16:1145–1157CrossRefGoogle Scholar
  22. Carey JM, Burgman MA (2008) Linguistic uncertainty in qualitative risk analysis and how to minimize it. Ann N Y Acad Sci 1128:13–17PubMedCrossRefGoogle Scholar
  23. Carvalho SB, Brito JC, Crespo EG, Watts ME, Possingham HP (2011) Conservation planning under climate change: toward accounting for uncertainty in predicted species distributions to increase confidence in conservation investments in space and time. Biol Conserv 144:2020–2030CrossRefGoogle Scholar
  24. Catullo RA, Ferrier S, Hoffmann AA (2015) Extending spatial modelling of climate change responses beyond the realized niche: estimating, and accommodating, physiological limits and adaptive evolution. Glob Ecol Biogeogr 24:1192–1202CrossRefGoogle Scholar
  25. Chan KMA, Shaw MR, Cameron DR, Underwood EC, Daily GC (2006) Conservation planning for ecosystem services. PLoS Biol 4:e379PubMedPubMedCentralCrossRefGoogle Scholar
  26. Chazdon RL (2008) Beyond deforestation: restoring forests and ecosystem services on degraded lands. Science 320:1458–1460PubMedCrossRefGoogle Scholar
  27. Cook CN, Inayatullah S, Burgman MA, Sutherland WJ, Wintle BA (2014) Strategic foresight: how planning for the unpredictable can improve environmental decision-making. Trends Ecol Evol 29:531–541PubMedCrossRefGoogle Scholar
  28. Crowe KA, Parker WH (2008) Using portfolio theory to guide reforestation and restoration under climate change scenarios. Clim Change 89:355–370CrossRefGoogle Scholar
  29. Davies PM (2010) Climate change implications for river restoration in global biodiversity hotspots. Restor Ecol 18:261–268CrossRefGoogle Scholar
  30. De Groot RS, Blignaut J, Van Der Ploeg S, Aronson J, Elmqvist T, Farley J (2013) Benefits of investing in ecosystem restoration. Conserv Biol 27:1286–1293CrossRefGoogle Scholar
  31. Diniz-Filho JAF, Mauricio Bini L, Fernando Rangel T, Loyola RD, Hof C, Nogués-Bravo D, Araújo MB (2009) Partitioning and mapping uncertainties in ensembles of forecasts of species turnover under climate change. Ecography 32:897–906CrossRefGoogle Scholar
  32. Faleiro FV, Machado RB, Loyola RD (2013) Defining spatial conservation priorities in the face of land-use and climate change. Biol Cons 158:248–257CrossRefGoogle Scholar
  33. Fitzpatrick MC, Keller SR (2015) Ecological genomics meets community-level modelling of biodiversity: mapping the genomic landscape of current and future environmental adaptation. Ecol Lett 18:1–16PubMedCrossRefGoogle Scholar
  34. Fowler HJ, Wilby RL (2007) Beyond the downscaling comparison study. Int J Climatol 27:1543–1545CrossRefGoogle Scholar
  35. Fowler HJ, Blenkinsop S, Tebaldi C (2007) Linking climate change modelling to impacts studies: recent advances in downscaling techniques for hydrological modelling. Int J Climatol 27:1547–1578CrossRefGoogle Scholar
  36. Fox HE, Mous PJ, Pet JS, Muljadi AH, Caldwell RL (2005) Experimental assessment of coral reef rehabilitation following blast fishing. Conserv Biol 19:98–107CrossRefGoogle Scholar
  37. Franklin JF, Regan HM, Syphard AD (2014) Linking spatially explicit species distribution and population models to plan for the persistence of plant species under global change. Environ Conserv 41:97–109CrossRefGoogle Scholar
  38. Galatowitsch SM (2009) Carbon offsets as ecological restorations. Restor Ecol 17:563–570CrossRefGoogle Scholar
  39. Gallagher RV, Makinson RO, Hogbin PM, Hancock N (2015) Assisted colonization as a climate change adaptation tool. Austral Ecol 40:12–20CrossRefGoogle Scholar
  40. Game ET, Bode M, McDonald-Madden E, Grantham HS, Possingham HP (2009) Dynamic marine protected areas can improve the resilience of coral reef systems. Ecol Lett 12:1336–1346PubMedCrossRefGoogle Scholar
  41. Game ET, Kareiva P, Possingham HP (2013) Six common mistakes in conservation priority setting. Conserv Biol 27:480–485PubMedPubMedCentralCrossRefGoogle Scholar
  42. George SJ, Harper RJ, Hobbs RJ, Tibbett M (2012) A sustainable agricultural landscape for Australia: a review of interlacing carbon sequestration, biodiversity and salinity management in agroforestry systems. Agr Ecosyst Environ 163:28–36CrossRefGoogle Scholar
  43. Gillson L, Dawson TP, Jack S, McGeoch MA (2013) Accommodating climate change contingencies in conservation strategy. Trends Ecol Evol 28:135–142PubMedCrossRefGoogle Scholar
  44. Gotelli NJ, Stanton-Geddes J (2015) Climate change, genetic markers and species distribution modelling. J Biogeogr 42:1577–1585CrossRefGoogle Scholar
  45. Groves CR, Game ET, Anderson MG, Cross M, Enquist C, Ferdana Z, Girvetz E, Gondor A, Hall KR, Higgins J, Marshall R, Popper K, Schill S, Shafer SL (2012) Incorporating climate change into systematic conservation planning. Biodivers Conserv 21:1651–1671CrossRefGoogle Scholar
  46. Hannah L, Midgley G, Andelman S, Araújo M, Hughes G, Martinez-Meyer E, Pearson R, Williams P (2007) Protected area needs in a changing climate. Front Ecol Environ 5:131–138CrossRefGoogle Scholar
  47. Heller NE, Zavaleta ES (2009) Biodiversity management in the face of climate change: a review of 22 years of recommendations. Biol Cons 142:14–32CrossRefGoogle Scholar
  48. Hewitt N, Klenk N, Smith AL, Bazely DR, Yan N, Wood S, MacLellan JI, Lipsig-Mumme C, Henriques I (2011) Taking stock of the assisted migration debate. Biol Conserv 144:2560–2572CrossRefGoogle Scholar
  49. Hewitt CD, Stone RC, Tait AB (2017) Improving the use of climate information in decision-making. Nat Clim Change 7:614–616CrossRefGoogle Scholar
  50. Hilbert DW, Hill R, Moran C, Turton SM, Bohnet I, Marshall NA, Pert PL, Stoeckl N, Murphy HT, Reside AE, Laurance SG, Alamgir M, Coles R, Crowley GM, Curnock M, Dale A, Duke NC, Esparon M, Farr M, Gillet S, Gooch M, Fuentes MMPB, Hamman M, James C, Kroon FJ, Larson S, Lyons P, Marsh H, Steiger DM, Sheaves M, Westcott DA (2014) Climate change issues and impacts in the wet tropics NRM cluster region. James Cook University, CairnsGoogle Scholar
  51. Hobbs RJ, Arico S, Aronson J, Baron JS, Bridgewater P, Cramer VA, Epstein PR, Ewel JJ, Klink CA, Lugo AE, Norton D, Ojima D, Richardson DM, Sanderson EW, Valladares F, Vilà M, Zamora R, Zobel M (2006) Novel ecosystems: theoretical and management aspects of the new ecological world order. Glob Ecol Biogeogr 15:1–7CrossRefGoogle Scholar
  52. Hodgson JA, Thomas CD, Wintle BA, Moilanen A (2009) Climate change, connectivity and conservation decision making: back to basics. J Appl Ecol 46:964–969CrossRefGoogle Scholar
  53. Hodgson JA, Moilanen A, Wintle BA, Thomas CD (2011) Habitat area, quality and connectivity: striking the balance for efficient conservation. J Appl Ecol 48:148–152CrossRefGoogle Scholar
  54. Jackson ST, Hobbs RJ (2009) Ecological restoration in the light of ecological history. Science 325:567–569PubMedCrossRefGoogle Scholar
  55. Jones KR, Watson JEM, Possingham HP, Klein CJ (2016) Incorporating climate change into spatial conservation prioritisation: a review. Biol Conserv 194:121–130CrossRefGoogle Scholar
  56. Joppa LN, Pfaff A (2009) High and far: biases in the location of protected areas. PLoS ONE 4:e8273. doi: 10.1371/journal.pone.0008273 PubMedPubMedCentralCrossRefGoogle Scholar
  57. Juutinen A, Reunanen P, Mönkkönen M, Tikkanen O-P, Kouki J (2012) Conservation of forest biodiversity using temporal conservation contracts. Ecol Econ 81:121–129CrossRefGoogle Scholar
  58. Kanowski J (2010) What have we learnt about rainforest restoration in the past two decades? Ecol Manag Restor 11:2–3CrossRefGoogle Scholar
  59. Kelly E, Phillips BL (2016) Targeted gene flow for conservation. Conserv Biol 30:259–267PubMedCrossRefGoogle Scholar
  60. Kennedy MC, Ford ED, Singleton P, Finney M, Agee JK (2008) Informed multi-objective decision-making in environmental management using Pareto optimality. J Appl Ecol 45:181–192CrossRefGoogle Scholar
  61. Knight AT, Cowling RM, Rouget M, Balmford A, Lombard AT, Campbell BM (2008) Knowing but not doing: selecting priority conservation areas and the research-implementation gap. Conserv Biol 22:610–617PubMedCrossRefGoogle Scholar
  62. Kujala H, Burgman MA, Moilanen A (2013a) Treatment of uncertainty in conservation under climate change. Conserv Lett 6:73–85CrossRefGoogle Scholar
  63. Kujala H, Moilanen A, Araújo MB, Cabeza M (2013b) Conservation planning with uncertain climate change projections. PLoS ONE 8:e53315PubMedPubMedCentralCrossRefGoogle Scholar
  64. Lamb D, Erskine PD, Parrotta JA (2005) Restoration of degraded tropical forest landscapes. Science 310:1628–1632PubMedCrossRefGoogle Scholar
  65. Laurance WF, Useche DC, Shoo LP, Herzog SK, Kessler M, Escobar F, Brehm G, Axmacher JC, Chen IC, Gamez LA, Hietz P, Fiedler K, Pyrcz T, Wolf J, Merkord CL, Cardelus C, Marshall AR, Ah-Peng C, Aplet GH, Arizmendi MD, Baker WJ, Barone J, Bruhl CA, Bussmann RW, Cicuzza D, Eilu G, Favila ME, Hemp A, Hemp C, Homeier J, Hurtado J, Jankowski J, Kattan G, Kluge J, Kromer T, Lees DC, Lehnert M, Longino JT, Lovett J, Martin PH, Patterson BD, Pearson RG, Peh KSH, Richardson B, Richardson M, Samways MJ, Senbeta F, Smith TB, Utteridge TMA, Watkins JE, Wilson R, Williams SE, Thomas CD (2011) Global warming, elevational ranges and the vulnerability of tropical biota. Biol Conserv 144:548–557CrossRefGoogle Scholar
  66. Lehtomäki J, Moilanen A (2013) Methods and workflow for spatial conservation prioritization using Zonation. Environ Model Softw 47:128–137CrossRefGoogle Scholar
  67. Loarie SR, Duffy PB, Hamilton H, Asner GP, Field CB, Ackerly DD (2009) The velocity of climate change. Nature 462:1052–1055PubMedCrossRefGoogle Scholar
  68. Macdonald SL, Llewelyn J, Moritz C, Phillips BL (2017) Peripheral isolates as sources of adaptive diversity under climate change. Front Ecol Evol. doi: 10.3389/fevo.2017.00088 Google Scholar
  69. Mackey BG, Nix HA, Hitchcock P (2001) The natural heritage significance of Cape York Peninsula. Anutech Pty Ltd, ANU, Environmental Protection Agency, Queensland State GovernmentGoogle Scholar
  70. Mair L, Hill JK, Fox R, Botham M, Brereton T, Thomas CD (2014) Abundance changes and habitat availability drive species’ responses to climate change. Nat Clim Change 4:127–131CrossRefGoogle Scholar
  71. Maraun D, Wetterhall F, Ireson AM, Chandler RE, Kendon EJ, Widmann M, Brienen S, Rust HW, Sauter T, Themeßl M, Venema VKC, Chun KP, Goodess CM, Jones RG, Onof C, Vrac M, Thiele-Eich I (2010) Precipitation downscaling under climate change: Recent developments to bridge the gap between dynamical models and the end user. Rev Geophys 48:RG3003CrossRefGoogle Scholar
  72. Margules CR, Pressey RL (2000) Systematic conservation planning. Nature 405:243–253PubMedCrossRefGoogle Scholar
  73. Martin TG, Watson JEM (2016) Intact ecosystems provide best defence against climate change. Nat Clim Change 6:122–124CrossRefGoogle Scholar
  74. Mawdsley JR, O’Malley R, Ojima DS (2009) A review of climate-change adaptation strategies for wildlife management and biodiversity conservation. Conserv Biol 23:1080–1089PubMedCrossRefGoogle Scholar
  75. Maxwell SL, Venter O, Jones KR, Watson JEM (2015) Integrating human responses to climate change into conservation vulnerability assessments and adaptation planning. Ann N Y Acad Sci 1355:98–116PubMedCrossRefGoogle Scholar
  76. Maxwell SL, Fuller RA, Brooks TM, Watson JEM (2016) Biodiversity: the ravages of guns, nets and bulldozers. Nature 536:143–145PubMedCrossRefGoogle Scholar
  77. McCarthy DP, Donald PF, Scharlemann JPW, Buchanan GM, Balmford A, Green JMH, Bennun LA, Burgess ND, Fishpool LDC, Garnett ST, Leonard DL, Maloney RF, Morling P, Schaefer HM, Symes A, Wiedenfeld DA, Butchart SHM (2012) Financial costs of meeting global biodiversity conservation targets: current spending and unmet needs. Science 338:946–949PubMedCrossRefGoogle Scholar
  78. Moilanen A, Pouzols FM, Meller L, Veach V, Arponen A, Leppanen J, Kujala H (2014b). Zonation spatial conservation planning methods and software Version 4, User Manual. C-BIG Conservation Biology Informatic Group, University of Helsinki, Finland. www.cbig.it.helsinki.fi/software, www.cbig.it.helsinki.fi/software
  79. Moilanen A, Franco AMA, Early RI, Fox R, Wintle B, Thomas CD (2005) Prioritizing multiple-use landscapes for conservation: methods for large multi-species planning problems. Proc R Soc B 272:1885–1891PubMedPubMedCentralCrossRefGoogle Scholar
  80. Moilanen A, Laitila J, Vaahtoranta T, Dicks LV, Sutherland WJ (2014a) Structured analysis of conservation strategies applied to temporary conservation. Biol Conserv 170:188–197CrossRefGoogle Scholar
  81. Mokany K, Ferrier S (2011) Predicting impacts of climate change on biodiversity: a role for semi-mechanistic community-level modelling. Divers Distrib 17:374–380CrossRefGoogle Scholar
  82. Moran C, Turton SM, Hill R (eds) (2015) Adaptation pathways and opportunities for the wet tropics NRM cluster region, vol 1. Introduction, biodiversity and ecosystem services. James Cook University, CairnsGoogle Scholar
  83. Moritz C, Agudo R (2013) The future of species under climate change: resilience or decline? Science 341:504–508PubMedCrossRefGoogle Scholar
  84. Nelson E, Polasky S, Lewis DJ, Plantinga AJ, Lonsdorf E, White D, Bael D, Lawler JJ (2008) Efficiency of incentives to jointly increase carbon sequestration and species conservation on a landscape. Proc Natl Acad Sci 105:9471–9476PubMedPubMedCentralCrossRefGoogle Scholar
  85. Nuñez TA, Lawler JJ, McRae BH, Pierce DJ, Krosby MB, Kavanagh DM, Singleton PH, Tewksbury JJ (2013) Connectivity planning to address climate change. Conserv Biol 27:407–416PubMedCrossRefGoogle Scholar
  86. Parmesan C, Yohe G (2003) A globally coherent fingerprint of climate change impacts across natural systems. Nature 421:37–42PubMedCrossRefGoogle Scholar
  87. Peters RL, Darling JDS (1985) The greenhouse effect and nature reserves. Bioscience 35:707–717CrossRefGoogle Scholar
  88. Peterson GD, Cumming GS, Carpenter SR (2003) Scenario planning: a tool for conservation in an uncertain world. Conserv Biol 17:358–366CrossRefGoogle Scholar
  89. Phillips SJ, Williams P, Midgley GF, Archer A (2008) Optimizing dispersal corridors for the Cape Proteaceae using network flow. Ecol Appl 18:1200–1211PubMedCrossRefGoogle Scholar
  90. Polglase PJ, Reeson A, Hawkins CS, Paul KI, Siggins AW, Turner J, Crawford DF, Jovanovic T, Hobbs TJ, Opie K, Carwardine J, Almeida A (2013) Potential for forest carbon plantings to offset greenhouse emissions in Australia: economics and constraints to implementation. Clim Change 121:161–175CrossRefGoogle Scholar
  91. Pollock LJ, Tingley R, Morris WK, Golding N, O’Hara RB, Parris KM, Vesk PA, McCarthy MA (2014) Understanding co-occurrence by modelling species simultaneously with a joint species distribution model (JSDM). Methods Ecol Evol 5:397–406CrossRefGoogle Scholar
  92. Pressey RL, Bottrill MC (2009) Approaches to landscape- and seascape-scale conservation planning: convergence, contrasts and challenges. Oryx 43:464–475CrossRefGoogle Scholar
  93. Pressey RL, Cabeza M, Watts ME, Cowling RM, Wilson KA (2007) Conservation planning in a changing world. Trends Ecol Evol 22:583–592PubMedCrossRefGoogle Scholar
  94. Ramankutty N, Foley JA, Norman J, McSweeney K (2002) The global distribution of cultivable lands: current patterns and sensitivity to possible climate change. Glob Ecol Biogeogr 11:377–392CrossRefGoogle Scholar
  95. Rayfield B, James PMA, Fall A, Fortin M-J (2008) Comparing static versus dynamic protected areas in the Québec boreal forest. Biol Conserv 141:438–449CrossRefGoogle Scholar
  96. Reside AE, VanDerWal J, Phillips BL, Shoo LP, Rosauer D, Anderson BJ, Welbergen JA, Moritz C, Ferrier S, Harwood TD, Williams KJ, Mackey BG, Hugh S, Williams SE (2013) Climate change refugia for terrestrial biodiversity: defining areas that promote species persistence and ecosystem resilience in the face of global climate change. National Climate Change Adaptation Research Facility, Gold Coast, p 216Google Scholar
  97. Reside AE, Watson I, VanDerWal J, Kutt AS (2011) Incorporating low-resolution historic species location data decreases performance of distribution models. Ecol Model 222:3444–3448CrossRefGoogle Scholar
  98. Reside AE, VanDerWal J, Kutt AS (2012) Projected changes in distributions of Australian tropical savanna birds under climate change using three dispersal scenarios. Ecol Evol 2:705–718PubMedPubMedCentralCrossRefGoogle Scholar
  99. Reside AE, VanDerWal J, Moilanen A, Graham EM (2017a) Examining current or future trade-offs for biodiversity conservation in north-eastern Australia. PLoS ONE 12:e0172230PubMedPubMedCentralCrossRefGoogle Scholar
  100. Reside AE, VanDerWal J, Moran C (2017b) Trade-offs in carbon storage and biodiversity conservation under climate change reveal risk to endemic species. Biol Conserv 207:9–16CrossRefGoogle Scholar
  101. Rodríguez JP, Douglas Beard JT, Bennett EM, Cumming GS, Cork SJ, Agard J, Dobson AP, Peterson GD (2006) Trade-offs across space, time, and ecosystem services. Ecol Soc 11:28CrossRefGoogle Scholar
  102. Rogelj J, Meinshausen M, Knutti R (2012) Global warming under old and new scenarios using IPCC climate sensitivity range estimates. Nat Clim Change 2:248–253CrossRefGoogle Scholar
  103. Rouget M, Cowling RM, Lombard AT, Knight AT, Kerley GIH (2006) Designing large-scale conservation corridors for pattern and process. Conserv Biol 20:549–561PubMedCrossRefGoogle Scholar
  104. Scheffers BR, Joppa LN, Pimm SL, Laurance WF (2012) What we know and what we don’t know about Earth’s missing biodiversity. Trends Ecol Evol. doi: 10.1016/j.tree.2012.05.008 PubMedGoogle Scholar
  105. Scheffers BR, De Meester L, Bridge TCL, Hoffmann AA, Pandolfi JM, Corlett RT, Butchart SHM, Pearce-Kelly P, Kovacs KM, Dudgeon D, Pacifici M, Rondinini C, Foden WB, Martin TG, Mora C, Bickford D, Watson JEM (2016) The broad footprint of climate change from genes to biomes to people. Science 354:aaf7671-7671-7611CrossRefGoogle Scholar
  106. Schmitz OJ, Lawler JJ, Beier P, Groves C, Knight G, Boyce DA, Bulluck J, Johnston KM, Klein ML, Muller K, Pierce DJ, Singleton WR, Strittholt JR, Theobald DM, Trombulak SC, Trainor A (2015) Conserving biodiversity: practical guidance about climate change adaptation approaches in support of land-use planning. Nat Areas J 35:190–203CrossRefGoogle Scholar
  107. Shoo LP, Storlie C, Vanderwal J, Little J, Williams SE (2011) Targeted protection and restoration to conserve tropical biodiversity in a warming world. Glob Change Biol 17:186–193CrossRefGoogle Scholar
  108. Shoo LP, Hoffmann AA, Garnett S, Pressey RL, Williams YM, Taylor M, Falconi L, Yates CJ, Scott JK, Alagador D, Williams SE (2013) Making decisions to conserve species under climate change. Clim Change 119:239–246CrossRefGoogle Scholar
  109. Steele K, Regan HM, Colyvan M, Burgman MA (2007) Right decisions or happy decision-makers? Soc Epistemol 21:349–368CrossRefGoogle Scholar
  110. Suding KN (2011) Toward an era of restoration in ecology: successes, failures, and opportunities ahead. Annu Rev Ecol Evol Syst 42:465–487CrossRefGoogle Scholar
  111. Syktus JI, McAlpine CA (2016) More than carbon sequestration: biophysical climate benefits of restored savanna woodlands. Sci Rep 6:29194PubMedPubMedCentralCrossRefGoogle Scholar
  112. Talluto MV, Boulangeat I, Ameztegui A, Aubin I, Berteaux D, Butler A, Doyon F, Drever CR, Fortin M-J, Franceschini T, Liénard J, McKenney D, Solarik KA, Strigul N, Thuiller W, Gravel D (2016) Cross-scale integration of knowledge for predicting species ranges: a metamodelling framework. Glob Ecol Biogeogr 25:238–249PubMedPubMedCentralCrossRefGoogle Scholar
  113. Thomas CD, Gillingham PK (2015) The performance of protected areas for biodiversity under climate change. Biol J Lin Soc 115:718–730CrossRefGoogle Scholar
  114. Thomas CD, Anderson BJ, Moilanen A, Eigenbrod F, Heinemeyer A, Quaife T, Roy DB, Gillings S, Armsworth PR, Gaston KJ (2012a) Reconciling biodiversity and carbon conservation. Ecol Lett. doi: 10.1111/ele.12054 PubMedGoogle Scholar
  115. Thomas CD, Gillingham PK, Bradbury RB, Roy DB, Anderson BJ, Baxter JM, Bourn NAD, Crick HQP, Findon RA, Fox R, Hodgson JA, Holt AR, Morecroft MD, O’Hanlon NJ, Oliver TH, Pearce-Higgins JW, Procter DA, Thomas JA, Walker KJ, Walmsley CA, Wilson RJ, Hill JK (2012b) Protected areas facilitate species’ range expansions. Proc Natl Acad Sci 109:14063–14068PubMedPubMedCentralCrossRefGoogle Scholar
  116. Tingley MW, Monahan WB, Beissinger SR, Moritz C (2009) Birds track their Grinnellian niche through a century of climate change. Proc Natl Acad Sci 106:19637–19643PubMedPubMedCentralCrossRefGoogle Scholar
  117. van Oosterzee P (2012) The integration of biodiversity and climate change: a contextual assessment of the carbon farming initiative. Ecol Manag Restor 13:238–244CrossRefGoogle Scholar
  118. van Oosterzee P, Dale A, Preece ND (2014) Integrating agriculture and climate change mitigation at landscape scale: implications from an Australian case study. Glob Environ Change 29:306–317CrossRefGoogle Scholar
  119. VanDerWal J, Murphy HT, Kutt AS, Perkins GC, Bateman BL, Perry JJ, Reside AE (2013) Focus on poleward shifts in species’ distribution underestimates the fingerprint of climate change. Nat Clim Change 3:239–243CrossRefGoogle Scholar
  120. Venter O, Laurance WF, Iwamura T, Wilson KA, Fuller RA, Possingham HP (2009) Harnessing carbon payments to protect biodiversity. Science 326:1368PubMedCrossRefGoogle Scholar
  121. Visconti P, Bakkenes M, Baisero D, Brooks T, Butchart SHM, Joppa L, Alkemade R, Di Marco M, Santini L, Hoffmann M, Maiorano L, Pressey RL, Arponen A, Boitani L, Reside AE, van Vuuren DP, Rondinini C (2016) Projecting global biodiversity indicators under future development scenarios. Conserv Lett 9:5–13CrossRefGoogle Scholar
  122. Warren R, VanDerWal J, Price J, Welbergen JA, Atkinson I, Ramirez-Villegas J, Osborn TJ, Jarvis A, Shoo LP, Williams SE, Lowe J (2013) Quantifying the benefit of early climate change mitigation in avoiding biodiversity loss. Nat Clim Change 3:678–682CrossRefGoogle Scholar
  123. Wickham J, Riitters K, Vogt P, Costanza J, Neale A (2017) An inventory of continental U.S. terrestrial candidate ecological restoration areas based on landscape context. Restor Ecol. doi: 10.1111/rec.12522 Google Scholar
  124. Williams SE (2006) Vertebrates of the wet tropics rainforests of Australia: species distributions and biodiversity. Cooperative Research Centre for Tropical Rainforest Ecology and Management, Rainforest CRC, Cairns, p 282Google Scholar
  125. Williams SE, Bolitho EE, Fox S (2003) Climate change in Australian tropical rainforests: an impending environmental catastrophe. Proc R Soc Lond Ser B 270:1887–1892CrossRefGoogle Scholar
  126. Williams P, Hannah LEE, Andelman S, Midgley GUY, AraÚJo M, Hughes G, Manne L, Martinez-Meyer E, Pearson R (2005) Planning for climate change: identifying minimum-dispersal corridors for the Cape Proteaceae. Conserv Biol 19:1063–1074CrossRefGoogle Scholar
  127. Williams SE, Williams YM, VanDerWal J, Isaac JL, Shoo LP, Johnson CN (2009) Ecological specialization and population size in a biodiversity hotspot: how rare species avoid extinction. Proc Natl Acad Sci 106:19737–19741PubMedPubMedCentralCrossRefGoogle Scholar
  128. Williams SE, VanDerWal J, Isaac J, Shoo LP, Storlie C, Fox S, Bolitho EE, Moritz C, Hoskin CJ, Williams YM (2010) Distributions, life-history specialization, and phylogeny of the rain forest vertebrates in the Australian wet tropics. Ecology 91:2493CrossRefGoogle Scholar
  129. Wilson KA, McBride MF, Bode M, Possingham HP (2006) Prioritizing global conservation efforts. Nature 440:337–340PubMedCrossRefGoogle Scholar
  130. Wilson KA, Underwood EC, Morrison SA, Klausmeyer KR, Murdoch WW, Reyers B, Wardell-Johnson G, Marquet PA, Rundel PW, McBride MF, Pressey RL, Bode M, Hoekstra JM, Andelman S, Looker M, Rondinini C, Kareiva P, Shaw MR, Possingham HP (2007) Conserving biodiversity efficiently: what to do, where, and when. PLoS Biol 5:e223PubMedPubMedCentralCrossRefGoogle Scholar
  131. Wintle BA, Bekessy SA, Keith DA, van Wilgen BW, Cabeza M, Schroder B, Carvalho SB, Falcucci A, Maiorano L, Regan TJ, Rondinini C, Boitani L, Possingham HP (2011) Ecological-economic optimization of biodiversity conservation under climate change. Nat Clim Change 1:355–359CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media B.V. 2017

Authors and Affiliations

  1. 1.Centre for Tropical Environmental and Sustainability SciencesJames Cook UniversityTownsvilleAustralia
  2. 2.Centre for Tropical Biodiversity and Climate Change, College of Marine and Environmental SciencesJames Cook UniversityTownsvilleAustralia
  3. 3.School of Biological SciencesThe University of QueenslandBrisbaneAustralia

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