Disentangling vegetation diversity from climate-energy and habitat heterogeneity for explaining animal geographic patterns
Status PubMed-not-MEDLINE Language English Country England, Great Britain Media electronic-ecollection
Document type Journal Article
PubMed
26900451
PubMed Central
PMC4747316
DOI
10.1002/ece3.1972
PII: ECE31972
Knihovny.cz E-resources
- Keywords
- Animal diversity, diversity patterns, energy hypothesis, habitat heterogeneity, plant community, productivity, vegetation,
- Publication type
- Journal Article MeSH
Broad-scale animal diversity patterns have been traditionally explained by hypotheses focused on climate-energy and habitat heterogeneity, without considering the direct influence of vegetation structure and composition. However, integrating these factors when considering plant-animal correlates still poses a major challenge because plant communities are controlled by abiotic factors that may, at the same time, influence animal distributions. By testing whether the number and variation of plant community types in Europe explain country-level diversity in six animal groups, we propose a conceptual framework in which vegetation diversity represents a bridge between abiotic factors and animal diversity. We show that vegetation diversity explains variation in animal richness not accounted for by altitudinal range or potential evapotranspiration, being the best predictor for butterflies, beetles, and amphibians. Moreover, the dissimilarity of plant community types explains the highest proportion of variation in animal assemblages across the studied regions, an effect that outperforms the effect of climate and their shared contribution with pure spatial variation. Our results at the country level suggest that vegetation diversity, as estimated from broad-scale classifications of plant communities, may contribute to our understanding of animal richness and may be disentangled, at least to a degree, from climate-energy and abiotic habitat heterogeneity.
Department of Botany and Zoology Masaryk University Brno Czech Republic
Department of Evolution and Ecology University of California Davis California
U S Geological Survey 700 Cajundome Blvd Lafayette Louisiana 70506
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Anderson, M. J. , Crist T. O., Chase J. M., Vellend M., Inouye B. D., Freestone A. L., et al. 2011. Navigating the multiple meanings of β diversity: a roadmap for the practicing ecologist. Ecol. Lett. 14:19–28. PubMed
Andrews, P. , and O'Brien E.. 2000. Climate, vegetation, and predictable gradients in mammal species richness in southern Africa. J. Zool. 251:205–231.
Barton, P. S. , Westgate M. J., Lane P. W., MacGregor C., and Lindenmayer D. B.. 2014. Robustness of habitat‐based surrogates of animal diversity: multitaxa comparison over time. J. Appl. Ecol. 51:1434–1443.
BirdLife International/European Bird Census Council . 2000. European bird populations: estimates and trends. Cambridge. BirdLife Conservation Series No. 10, Cambridge, UK.
Borcard, D. , and Legendre P.. 2002. All‐scale spatial analysis of ecological data by means of principal coordinates of neighbour matrices. Ecol. Model. 153:51–68.
Borcard, D. , Legendre P., and Drapeau P.. 1992. Partialling out the spatial component of ecological variation. Ecology 73:1045–1055.
Castagneyrol, B. , and Jactel H.. 2012. Unraveling plant–animal diversity relationships: a meta‐regression analysis. Ecology 93:2115–2124. PubMed
Crawley, M. K. , and Harral J. E.. 2001. Scale dependence in plant biodiversity. Science 291:864–868. PubMed
Currie, D. J. 1991. Energy and large‐scale patterns of animal‐ and plant‐species richness. Am. Nat. 137:27–49.
Currie, D. J. , Mittelbach G. G., Cornell H. V., Field R., Guégan J.‐F., Hawkins B. A., et al. 2004. Predictions and tests of climate‐based hypotheses of broad‐scale variation in taxonomic richness. Ecol. Lett. 7:1121–1134.
Field, R. , Hawkins B. A., Cornell H. V., Currie D. J., Diniz‐Filho J. A. F., Guégan J.‐F., et al. 2009. Spatial species‐richness gradients across scales: a meta‐analysis. J. Biogeogr. 36:132–147.
Fisher, J. B. , Whittaker R. J., and Malhi Y.. 2011. ET come home: potential evapotranspiration in geographical ecology. Glob. Ecol. Biogeogr. 20:1–18.
Fleishman, E. , McDonal N., Macnally R., Murphy D. D., Walters J., and Floyd T.. 2003. Effects of floristics, physiognomy and non‐native vegetation on riparian bird communities in a Mojave Desert watershed. J. Anim. Ecol. 72:484–490.
Fløjgaard, C. , Normand S., Skov F., and Svenning J.‐C.. 2011. Deconstructing the mammal species richness pattern in Europe ‐ towards an understanding of the relative importance of climate, biogeographic history, habitat heterogeneity and humans. Global Ecol. Biogeogr. 20:218–230.
Grace, J. B. , Schoolmaster D. R. Jr, Guntenspergen G. R., Little A. M., Mitchell B. R., Miller K. M., et al. 2012. Guidelines for a graph‐theoretic implementation of structural equation modeling. Ecosphere 3:article 73 (44 pages).
Grace, J. B. , Scheiner S. M., and Schoolmaster D. R. Jr. 2015. Structural equation modeling: building and evaluating causal models. Chapter 8 Pp. 169–200 in Fox G. A., Negrete‐Yankelevich S. and Sosa V. J., eds. Ecological statistics: from principles to applications. Oxford Univ. Press, Oxford, U.K.
Hammer, O. , Haper D. A. T., and Ryan P. D.. 2001. PAST: paleontological Statistics software package for education and data analyses. Palaeontologia Electronica 4:1–9.
Hargreaves, G. H. 1994. Defining and using reference evapotranspiration. J. Irrig. Drain. Eng. 120:1132–1139.
Hawkins, B. A. , Field R., Cornell H. V., Currie D. J., Guégan J.‐F., Kaufman D. M., et al. 2003. Energy, water, and broad‐scale geographic patterns of species richness. Ecology 84:3105–3117.
Heikinheimo, H. , Fortelius M., Eronen J., and Mannila H.. 2007. Biogeography of European land mammals shows environmentally distinct and spatially coherent clusters. J. Biogeogr. 34:1053–1064.
Heikinheimo, H. , Eronen J. T., Sennikov A., Preston C. D., Oikarinen E., Uotila P., Mannila H., and Fortelius M.. 2012. Convergence in the distribution patterns of Europe’s plants and mammals is due to environmental forcing. J. Biogeogr. 39:1633–1644.
Homburg, K. , Schuldt A., Drees C., and Assmann T.. 2013. Broad‐scale geographic patterns in body size and hind wing development of western Palaearctic carabid beetles Coleoptera: Carabidae. Ecography 36:166–177.
Hooper, D. U. , and Vitousek P. M.. 1997. The effects of plant composition and diversity on ecosystem processes. Science 277:1302–1305.
Huston, M. A. 1999. Local processes and regional patterns: appropriate scales for understanding variation in the diversity of plants and animals. Oikos 86:393–401.
Hutchinson, G. E. 1959. Homage to Santa Rosalia or why are there so many kinds of animals? Am. Nat. 93:145–159.
Jackman, S. . 2012. pscl: classes and methods for R developed in the political science computational laboratory. Department of Political Science, Stanford Univ., Stanford, CA.
Jennings, M. D. , Faber‐Langendoen D., Loucks O. L., Peet R. K., and Roberts D.. 2009. Standards for associations and alliances of the U.S. National Vegetation Classification. Ecol. Monogr. 79:173–199.
Jetz, W. , and Fine P. V. A.. 2012. Global gradients in vertebrate diversity predicted by historical area‐productivity dynamics and contemporary environment. PLoS Biol. 10:e1001292. PubMed PMC
Jetz, W. , and Rahbek C.. 2002. Geographic range size and determinants of avian species richness. Science 297:1548–1551. PubMed
Jetz, W. , Kreft H., Ceballos G., and Mutke J.. 2009. Global associations between terrestrial producer and vertebrate consumer diversity. Proc. R. Soc. B 276:269–278. PubMed PMC
Jiménez‐Alfaro, B. , Chytrý M., Rejmánek M., and Mucina L.. 2014. The number of vegetation types in European countries: major determinants and extrapolation to other regions. J. Veg. Sci. 25:863–872.
Jonsson, M. , Yeates G. W., and Wardle D. A.. 2009. Patterns of invertebrate density and taxonomic richness across gradients of area, isolation, and vegetation diversity in a lake‐island system. Ecography 32:963–972.
Karsholt, O. , and Razowoski J.. 1996. The Lepidoptera of Europe: a distributional checklist. Apollo Books, Stenstrup, Denmark.
Keil, P. , Schweiger O., Kühn I., Kunin W. E., Kuussaari M., Settele J., et al. 2012. Patterns of beta diversity in Europe: the role of climate, land cover and distance across scales. J. Biogeogr. 39:1473–1486.
Kerr, J. T. , and Packer L.. 1997. Habitat heterogeneity as a determinant of mammal species richness in high‐energy regions. Nature 385:252–254.
Lamanna, C. , Blonder B., Violle C., Kraft N. J. B., Sandel B., Šímová I., et al. 2014. Functional trait space and the latitudinal diversity gradient. Proc. Natl Acad. Sci. USA 111:13745–13750. PubMed PMC
Legendre, P. , and Fortin M.‐J.. 2010. Comparison of the Mantel test and alternative approaches for detecting complex multivariate relationships in the spatial analysis of genetic data. Mol. Ecol. Resour. 10:831–844. PubMed
Löbl I., and Smetana A., eds. 2003. Catalogue of Palaearctic Coleoptera. Vol. 1. Archostemata‐Myxophaga‐Adephaga. Apollo Books, Stensrup, Denmark.
MacArthur, R. H. , and MacArthur J. W.. 1961. On bird species diversity. Ecology 42:594–598.
Panagos, P. , Van Liedekerke M., Jones A., and Montanarella L.. 2012. European Soil Data Centre: response to European policy support and public data requirements. Land Use Policy 29:329–338.
Peet, R. K. , and Roberts D.. 2013. Classification of natural and semi‐natural vegetation Pp. 28–70 in van der Maarel E. and Franklin J., eds. Vegetation ecology, 2nd ed Wiley‐Blackwell, Chichester, U.K.
Peres‐Neto, P. , Legendre P., Dray S., and Borcard D.. 2006. Variation partitioning of species data matrices: estimation and comparison of fractions. Ecology 87:2614–2625. PubMed
Poessel, S. A. , Beard K. H., Callahan C. M., Ferreira R. B., and Stevenson E. T.. 2013. Biotic acceptance in introduced amphibians and reptiles in Europe and North America. Glob. Ecol. Biogeogr. 22:192–201.
Qian, H. 2007. Relationships between plant and animal species richness at a regional scale in China. Conserv. Biol. 21:937–944. PubMed
Qian, H. 2010. Environment‐richness relationships for mammals, birds, reptiles, and amphibians at global and regional scales. Ecol. Res. 25:629–637.
Rotenberry, J. T. 1985. The role of habitat in avian community composition: physiognomy or floristics? Oecologia 67:213–217. PubMed
Roy, K. , Jablonski D., and Valentine J. W.. 2004. Beyond species richness: biogeographic patterns and biodiversity dynamics using other metrics of diversity Pp. 151–170 in Lomolino M. V. and Heaney L. R., eds. Frontiers of biogeography: new directions in the geography of nature. Sinauer Associates Publishers, Sunderlands, MA.
Stein, A. , Gerstner K., and Kreft H.. 2014. Environmental heterogeneity as a universal driver of species richness across taxa, biomes and spatial scales. Ecol. Lett. 17:866–880. PubMed
Stein, A. , Beck J., Meyer C., Walsmann E., Weigel P., and Kreft H.. 2015. Differential effects of environmental heterogeneity on global mammal species richness. Glob. Ecol. Biogeogr. 24:1072–1083.
Steinmann, K. , Eggenberg S., Wohlgemuth T., Linder H. P., and Zimmermann N. E.. 2011. Niches and noise\xF6Disentangling habitat diversity and area effect on species diversity. Ecol. Complex. 8:313–319.
Storch, D. , Konvicka M., Benes J., Martinková J., and Gaston K. J.. 2003. Distribution patterns in butterflies and birds of the Czech Republic: separating effects of habitat and geographical position. J. Biogeogr. 30:1195–1205.
Svenning, J.‐C. , Fløjgaard C., and Baselga A.. 2011. Climate, history and neutrality as drivers of mammal beta diversity in Europe: insights from multiscale deconstruction. J. Anim. Ecol. 80:393–402. PubMed
Tews, J. , Brose U., Grimm V., Tielbörger K., Wichmann M. C., Schwager M., et al. 2004. Animal species diversity driven by habitat heterogeneity/diversity: the importance of keystone structures. J. Biogeogr. 31:79–92.
Turner, J. R. G. , and Hawkins B. A.. 2004. The global diversity gradient Pp. 171–190 in Lomolino M. V. and Heaney L. R., eds. Frontiers of biogeography: new directions in the geography of nature. Sinauer Associates Publishers, Sunderlands, MA.
Veech, J. A. , and Crist T. O.. 2007. Habitat and climate heterogeneity maintain beta‐diversity of birds among landscapes within ecoregions. Glob. Ecol. Biogeogr. 16:650–656.
Vellend, M. 2010. Conceptual synthesis in community ecology. Quarter. Rev. Biol. 85:183–206. PubMed
Zomer, R. J. , Trabucco A., van Straaten O., and Bossio D. A.. 2006. Carbon, land and water: a global analysis of the hydrologic dimensions of climate change mitigation through afforestation/reforestation and the Kyoto Protocol Clean Development Mechanism. Int. Water Manage. Inst. Res. Rep. 101:1–38.
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