The Influence of Late Quaternary Climate-Change Velocity on Species Endemism

Regions with low glacial-interglacial climate-change velocity were essential refuges for many small-ranged species. The effects of climate change on biodiversity should depend in part on climate displacement rate (climate-change velocity) and its interaction with species’ capacity to migrate. We estimated Late Quaternary glacial-interglacial climate-change velocity by integrating macroclimatic shifts since the Last Glacial Maximum with topoclimatic gradients. Globally, areas with high velocities were associated with marked absences of small-ranged amphibians, mammals, and birds. The association between endemism and velocity was weakest in the highly vagile birds and strongest in the weakly dispersing amphibians, linking dispersal ability to extinction risk due to climate change. High velocity was also associated with low endemism at regional scales, especially in wet and aseasonal regions. Overall, we show that low-velocity areas are essential refuges for Earth’s many small-ranged species.

[1]  Flemming Skov,et al.  Could the tree diversity pattern in Europe be generated by postglacial dispersal limitation? , 2007, Ecology letters.

[2]  C. Rahbek,et al.  Geographic Range Size and Determinants of Avian Species Richness , 2002, Science.

[3]  M. Araújo,et al.  CLIMATE PREDICTORS OF LATE QUATERNARY EXTINCTIONS , 2010, Evolution; international journal of organic evolution.

[4]  M. McGlone,et al.  When History Matters: Scale, Time, Climate and Tree Diversity , 1996 .

[5]  R. Shaw,et al.  Range shifts and adaptive responses to Quaternary climate change. , 2001, Science.

[6]  G. Quinn,et al.  Experimental Design and Data Analysis for Biologists , 2002 .

[7]  Stuart H M Butchart,et al.  The coincidence of climatic and species rarity: high risk to small-range species from climate change , 2008, Biology Letters.

[8]  R. G. Davies,et al.  Global hotspots of species richness are not congruent with endemism or threat , 2005, Nature.

[9]  C. Dormann Effects of incorporating spatial autocorrelation into the analysis of species distribution data , 2007 .

[10]  J. Svenning,et al.  Limited filling of the potential range in European tree species , 2004 .

[11]  José Alexandre Felizola Diniz-Filho,et al.  Modelling geographical patterns in species richness using eigenvector-based spatial filters , 2005 .

[12]  C. Körner,et al.  Topographically controlled thermal‐habitat differentiation buffers alpine plant diversity against climate warming , 2011 .

[13]  Michael J. Hickerson,et al.  Stability Predicts Genetic Diversity in the Brazilian Atlantic Forest Hotspot , 2009, Science.

[14]  Stéphane Dray,et al.  Spatial modelling: a comprehensive framework for principal coordinate analysis of neighbour matrices (PCNM) , 2006 .

[15]  C. Field,et al.  The velocity of climate change , 2009, Nature.

[16]  Richard Field,et al.  Predictions and tests of climate‐based hypotheses of broad‐scale variation in taxonomic richness , 2004 .

[17]  Flemming Skov,et al.  Postglacial dispersal limitation of widespread forest plant species in nemoral Europe , 2008 .

[18]  Robert K. Colwell,et al.  Global Warming, Elevational Range Shifts, and Lowland Biotic Attrition in the Wet Tropics , 2008, Science.

[19]  T. Davies,et al.  Global variation in diversification rates of flowering plants: energy vs. climate change. , 2007, Ecology letters.

[20]  Kevin J. Gaston,et al.  The structure and dynamics of geographic ranges , 2003 .

[21]  J. L. Gittleman,et al.  Quaternary Climate Change and the Geographic Ranges of Mammals , 2009, The American Naturalist.

[22]  J. Svenning,et al.  Deterministic Plio‐Pleistocene extinctions in the European cool‐temperate tree flora , 2003 .

[23]  G. C. Stevens The Latitudinal Gradient in Geographical Range: How so Many Species Coexist in the Tropics , 1989, The American Naturalist.

[24]  S. Levis,et al.  Last Glacial Maximum and Holocene Climate in CCSM3 , 2006 .

[25]  Hiroyasu Hasumi,et al.  K-1 Coupled GCM (MIROC) Description , 2004 .

[26]  W. Peltier,et al.  Ice Age Paleotopography , 1994, Science.

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

[28]  Daniel A Griffith,et al.  Spatial modeling in ecology: the flexibility of eigenfunction spatial analyses. , 2006, Ecology.

[29]  M. Budyko The Earth's climate, past and future , 1982 .

[30]  P. Marquet,et al.  A Significant Upward Shift in Plant Species Optimum Elevation During the 20th Century , 2008, Science.

[31]  J. L. Parra,et al.  Impact of a Century of Climate Change on Small-Mammal Communities in Yosemite National Park, USA , 2008, Science.

[32]  Pierre Legendre,et al.  All-scale spatial analysis of ecological data by means of principal coordinates of neighbour matrices , 2002 .

[33]  R. Jansson,et al.  Global patterns in endemism explained by past climatic change , 2003, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[34]  W. Collins,et al.  The Community Climate System Model Version 3 (CCSM3) , 2006 .

[35]  D. Foster,et al.  Some implications of paleoecology for contemporary ecology , 1991, The Botanical Review.

[36]  Miguel B. Araújo,et al.  Quaternary climate changes explain diversity among reptiles and amphibians , 2008 .

[37]  Catherine H. Graham,et al.  A comparison of methods for mapping species ranges and species richness , 2006 .

[38]  R. Jansson,et al.  Evolutionary consequences of changes in species' geographical distributions driven by Milankovitch climate oscillations. , 2000, Proceedings of the National Academy of Sciences of the United States of America.

[39]  Brian Huntley,et al.  Migration: Species' Response to Climatic Variations Caused by Changes in the Earth's Orbit , 1989 .

[40]  D. Griffith Spatial Autocorrelation and Spatial Filtering: Gaining Understanding Through Theory and Scientific Visualization , 2010 .

[41]  Flemming Skov,et al.  Ice age legacies in the geographical distribution of tree species richness in europe , 2007 .

[42]  Yan Zhao,et al.  Results of PMIP2 coupled simulations of the Mid-Holocene and Last Glacial Maximum - Part 1: experiments and large-scale features , 2007 .

[43]  Paul R. Martin,et al.  Are mountain passes higher in the tropics? Janzen's hypothesis revisited. , 2006, Integrative and comparative biology.

[44]  M. Araújo,et al.  Equilibrium of species’ distributions with climate , 2005 .

[45]  J. L. Parra,et al.  Very high resolution interpolated climate surfaces for global land areas , 2005 .