论文信息 - Systematic Conservation Planning in the Face of Climate Change: Bet-Hedging on the Columbia Plateau

Systematic Conservation Planning in the Face of Climate Change: Bet-Hedging on the Columbia Plateau

Systematic conservation planning efforts typically focus on protecting current patterns of biodiversity. Climate change is poised to shift species distributions, reshuffle communities, and alter ecosystem functioning. In such a dynamic environment, lands selected to protect today's biodiversity may fail to do so in the future. One proposed approach to designing reserve networks that are robust to climate change involves protecting the diversity of abiotic conditions that in part determine species distributions and ecological processes. A set of abiotically diverse areas will likely support a diversity of ecological systems both today and into the future, although those two sets of systems might be dramatically different. Here, we demonstrate a conservation planning approach based on representing unique combinations of abiotic factors. We prioritize sites that represent the diversity of soils, topographies, and current climates of the Columbia Plateau. We then compare these sites to sites prioritized to protect current biodiversity. This comparison highlights places that are important for protecting both today's biodiversity and the diversity of abiotic factors that will likely determine biodiversity patterns in the future. It also highlights places where a reserve network designed solely to protect today's biodiversity would fail to capture the diversity of abiotic conditions and where such a network could be augmented to be more robust to climate-change impacts.

[1] D. Ojima,et al. A Review of Climate‐Change Adaptation Strategies for Wildlife Management and Biodiversity Conservation , 2009, Conservation biology : the journal of the Society for Conservation Biology.

[2] S. Andelman,et al. Mathematical Methods for Identifying Representative Reserve Networks , 2000 .

[3] M. Lawes,et al. The influence of climate change on the distribution of indigenous forest in KwaZulu‐Natal, South Africa , 1999 .

[4] Malcolm L. Hunter,et al. Book Review - Drafting a conservation blueprint. A Practitioner's Guide to Planning for Biodiversity Craig R. Groves. Island Press, Washington, DC, 2003, cloth $70, ISBN 1-55963-938-5; paper $35, ISBN 1-55963-939-3 , 2004, Biodiversity & Conservation.

[5] R. Noss. Beyond Kyoto: Forest Management in a Time of Rapid Climate Change , 2001 .

[6] Paul Beier,et al. Use of Land Facets to Plan for Climate Change: Conserving the Arenas, Not the Actors , 2010, Conservation biology : the journal of the Society for Conservation Biology.

[7] Malcolm L. Hunter,et al. Paleoecology and the Coarse-Filter Approach to Maintaining Biological Diversity , 1988 .

[8] K. Schulz,et al. ECOLOGICAL SYSTEMS OF THE UNITED STATES A WORKING CLASSIFICATION OF U . S . TERRESTRIAL SYSTEMS � � � � � , 2003 .

[9] L. Olson,et al. Here today, gone tomorrow? Targeting conservation investment in the face of climate change , 2009 .

[10] R. Hobbs,et al. Ecological Restoration and Global Climate Change , 2006 .

[11] P. Kareiva,et al. Projected climate-induced faunal change in the Western Hemisphere. , 2009, Ecology.

[12] Matthew E. Watts,et al. Conservation planning under climate change : Toward accounting for uncertainty in predicted species distributions to increase confidence in conservation investments in space and time , 2011 .

[13] D. Fairbanks,et al. Identifying regional landscapes for conservation planning: a case study from KwaZulu-Natal, South Africa. , 2000 .

[14] H. Possingham,et al. IMPROVING PRECISION AND REDUCING BIAS IN BIOLOGICAL SURVEYS: ESTIMATING FALSE‐NEGATIVE ERROR RATES , 2003 .

[15] C. Parmesan. Ecological and Evolutionary Responses to Recent Climate Change , 2006 .

[16] M. Sykes,et al. Climate change threats to plant diversity in Europe. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[17] O. Hoegh‐Guldberg,et al. Ecological responses to recent climate change , 2002, Nature.

[18] J. Lawler. Climate Change Adaptation Strategies for Resource Management and Conservation Planning , 2009, Annals of the New York Academy of Sciences.

[19] H. Possingham,et al. A Climatic Stability Approach to Prioritizing Global Conservation Investments , 2010, PloS one.

[20] T. Dawson,et al. Predicting the impacts of climate change on the distribution of species: are bioclimate envelope models useful? , 2003 .

[21] Robert Tibshirani,et al. Estimating the number of clusters in a data set via the gap statistic , 2000 .

[22] M. J. Brown,et al. A Comparison of Direct and Environmental Domain Approaches to Planning Reservation of Forest Higher Plant Communities and Species in Tasmania , 1994 .

[23] M. I G U E,et al. Would climate change drive species out of reserves ? An assessment of existing reserve-selection methods , 2004 .

[24] Reed F. Noss,et al. From plant communities to landscapes in conservation inventories: A look at the nature conservancy (USA) , 1987 .

[25] Kirk R. Klausmeyer,et al. Resource management in a changing and uncertain climate , 2010 .

[26] Paul Beier,et al. Forks in the Road: Choices in Procedures for Designing Wildland Linkages , 2008, Conservation biology : the journal of the Society for Conservation Biology.

[27] Michael F. Hutchinson,et al. Assessing representativeness of places for conservation reservation and heritage listing , 1988 .

[28] R. M. Cowlinga,et al. A conservation plan for a global biodiversity hotspot — the Cape Floristic Region , South Africa , 2003 .

[29] R. G. Wright,et al. NATURE RESERVES: DO THEY CAPTURE THE FULL RANGE OF AMERICA'S BIOLOGICAL DIVERSITY? , 2001 .

[30] E. Zavaleta,et al. Biodiversity management in the face of climate change: A review of 22 years of recommendations , 2009 .

[31] C. Pyke,et al. Selection of bioclimatically representative biological reserve systems under climate change , 2005 .

[32] R. L. Pressey,et al. Representing biodiversity: Data and procedures for identifying priority areas for conservation , 2002, Journal of Biosciences.

[33] Hugh P. Possingham,et al. Marxan good practices handbook , 2010 .

[34] S. Ferson,et al. Quantitative Methods for Conservation Biology , 2002, Springer New York.

[35] T. W. Barrett,et al. Species distributions, surrogacy, and important conservation regions in Canada , 2004 .

[36] Mark G. Anderson,et al. Conserving the Stage: Climate Change and the Geophysical Underpinnings of Species Diversity , 2010, PloS one.

[37] P. Kareiva,et al. How Much Is Enough? The Recurrent Problem of Setting Measurable Objectives in Conservation , 2005 .

[38] S. Sarkar,et al. Systematic conservation planning , 2000, Nature.

[39] Lee Belbin,et al. Environmental representativeness: Regional partitioning and reserve selection , 1993 .

[40] R. Peters,et al. The Greenhouse Effect and Nature ReservesGlobal warming would diminish biological diversity by causing extinctions among reserve species , 1985 .

[41] Richard M Cowling,et al. Conservation planning in a changing world. , 2007, Trends in ecology & evolution.

[42] S. Andelman,et al. Protected area needs in a changing climate , 2007 .

[43] L. Hannah. Protected Areas and Climate Change , 2008, Annals of the New York Academy of Sciences.

[44] R. Hobbs,et al. Novel ecosystems: implications for conservation and restoration. , 2009, Trends in ecology & evolution.

[45] R. Hobbs,et al. Ecological Restoration in the Light of Ecological History , 2009, Science.

[46] L. Hannah,et al. The View from the Cape: Extinction Risk, Protected Areas, and Climate Change , 2005 .

[47] Richard J. Hobbs,et al. Restoration Ecology: Interventionist Approaches for Restoring and Maintaining Ecosystem Function in the Face of Rapid Environmental Change , 2008 .

[48] S. P. Lloyd,et al. Least squares quantization in PCM , 1982, IEEE Trans. Inf. Theory.

[49] Paul Beier,et al. Use of land facets to design linkages for climate change. , 2012, Ecological applications : a publication of the Ecological Society of America.

[50] Dominique Bachelet,et al. Matching the Multiple Scales of Conservation with the Multiple Scales of Climate Change , 2010, Conservation biology : the journal of the Society for Conservation Biology.

[51] K. Wessels,et al. The use of land facets as biodiversity surrogates during reserve selection at a local scale , 1999 .

[52] D. MacKenzie. WHAT ARE THE ISSUES WITH PRESENCE–ABSENCE DATA FOR WILDLIFE MANAGERS? , 2005 .

[53] G. Yohe,et al. A globally coherent fingerprint of climate change impacts across natural systems , 2003, Nature.

[54] J. A. Hartigan,et al. A k-means clustering algorithm , 1979 .

[55] Kent H. Redford,et al. Biodiversity in Managed Landscapes: Theory and Practice. , 1996 .

[56] Alan S. Weakley,et al. International classification of ecological communities: terrestrial vegetation of the United States , 1995 .

[57] W. Hargrove,et al. Mapping environments at risk under different global climate change scenarios , 2004 .

[58] Deane Wang,et al. An evaluation of GIS-derived landscape diversity units to guide landscape-level mapping of natural communities , 2004 .

[59] D. Theobald. Estimating natural landscape changes from 1992 to 2030 in the conterminous US , 2010, Landscape Ecology.

[60] C. Carroll. Interacting Effects of Climate Change, Landscape Conversion, and Harvest on Carnivore Populations at the Range Margin: Marten and Lynx in the Northern Appalachians , 2007, Conservation biology : the journal of the Society for Conservation Biology.

[61] Hugh P. Possingham,et al. Does conservation planning matter in a dynamic and uncertain world , 2004 .