Predicting alpha diversity of African rain forests: models based on climate and satellite-derived data do not perform better than a purely spatial model
Parmentier, Ingrid; Harrigan, Ryan J.; Buermann, Wolfganget al.
2011 • In Journal of Biogeography, 38 (6), p. 1164-1176
African rain forests; Biodiversity; Climate; Kriging; Map; Modelling; Ordinary least squares; Random forest; Spatial autocorrelation; Tree alpha diversity
Abstract :
[en] Aim Our aim was to evaluate the extent to which we can predict and map tree alpha diversity across broad spatial scales either by using climate and remote sensing data or by exploiting spatial autocorrelation patterns. Location Tropical rain forest, West Africa and Atlantic Central Africa. Methods Alpha diversity estimates were compiled for trees with diameter at breast height ‡ 10 cm in 573 inventory plots. Linear regression (ordinary least squares, OLS) and random forest (RF) statistical techniques were used to project alpha diversity estimates at unsampled locations using climate data and remote sensing data [Moderate Resolution Imaging Spectroradiometer (MODIS), normalized difference vegetation index (NDVI), Quick Scatterometer (QSCAT), tree cover, elevation]. The prediction reliabilities of OLS and RF models were evaluated using a novel approach and compared to that of a kriging model based on geographic location alone. Results The predictive power of the kriging model was comparable to that of OLS and RF models based on climatic and remote sensing data. The three models provided congruent predictions of alpha diversity in well-sampled areas but not
in poorly inventoried locations. The reliability of the predictions of all three models declined markedly with distance from points with inventory data, becoming very low at distances > 50 km. According to inventory data, Atlantic Central African forests display a higher mean alpha diversity than do West African forests. Main conclusions The lower tree alpha diversity in West Africa than in Atlantic Central Africa may reflect a richer regional species pool in the latter. Our results emphasize and illustrate the need to test model predictions in a spatially explicit manner. Good OLS or RF model predictions from inventory data at short distance largely result from the strong spatial autocorrelation displayed by both the alpha diversity and the predictive variables rather than necessarily from causal relationships. Our results suggest that alpha diversity is driven by history rather than by the contemporary environment. Given the low predictive power of models, we call for a major effort to broaden the geographical extent and intensity of forest assessments to expand our knowledge of African rain forest diversity.
Parmentier, Ingrid; Université Libre de Bruxelles (ULB) > Evolutionary Biology & Ecology, Faculté des Sciences
Harrigan, Ryan J.
Buermann, Wolfgang
Mitchard, Edward T.A.
Saatchi, Sassan
Malhi, Yadvinder
Bongers, Frans
Hawthorne, William D.
Leal, Miguel E.
Lewis, Simon L.
Nusbaumer, Louis
Sheil, Douglas
Sosef, Mark S.M.
Affum-Baffoe, Kofi
Bakayoko, Adama
Chuyong, George B.
Chatelain, Cyrille
Comiskey, James A.
Dauby, Gilles
Doucet, Jean-Louis ; Université de Liège - ULiège > Forêts, Nature et Paysage > Laboratoire de Foresterie des régions trop. et subtropicales
Fauset, Sophie
Gautier, Laurent
Gillet, Jean-François ; Université de Liège - ULiège > Forêts, Nature et Paysage > Unité de Gestion des Ressources Forestières et des Milieux Naturels, Laboratoire de Foresterie des Régions tropicales et subtropicales
Predicting alpha diversity of African rain forests: models based on climate and satellite-derived data do not perform better than a purely spatial model
Araújo, M.B. (2003) Predicting species diversity with ED: the quest for evidence. Ecography, 26, 380-383.
Bahn, V. and McGill, B.J. (2007) Can niche-based distribution models outperform spatial interpolation? Global Ecology and Biogeography, 16, 733-742.
Balmford, A., Moore, J.L., Brooks, T., Burgess, N., Hansen, L.A., Williams, P. and Rahbek, C. (2001) Conservation conflicts across Africa. Science, 291, 2616-2619.
Barthlott, W., Hostert, A., Kier, G., Koper, W., Kreft, H., Mutke, J., Rafiqpoor, M.D. and Sommer, J.H. (2007) Geographic patterns of vascular plant diversity at continental to global scales. Erdkunde, 61, 305-315.
Bongers, F., Poorter, L., Van Rompaey, R. and Parren, M.P.E. (1999) Distribution of twelve moist forest canopy tree species in Liberia and Cote d'Ivoire: response curves to a climatic gradient. Journal of Vegetation Science, 10, 371-382.
Bonnefille, R. (2007) Rainforest responses to past climate changes in tropical Africa. Tropical rainforest responses to climatic change (ed. by M.B. Bush and J.R. Flenley ), pp. 117-170. Springer, Berlin.
Breiman, L. (2001) Random forests. Machine Learning, 45, 5-32.
Burgess, N., Kuper, W., Mutke, J., Brown, J., Westaway, S., Turpie, S., Meshack, C., Taplin, J., McClean, C. and Lovett, J.C. (2005) Major gaps in the distribution of protected areas for threatened and narrow range Afrotropical plants. Biodiversity and Conservation, 14, 1877-1894.
Clinebell, R.R., Phillips, O.L., Gentry, A.H., Stark, N. and Zuuring, H. (1995) Prediction of Neotropical tree and liana species richness from soil and climatic data. Biodiversity and Conservation, 4, 56-90.
Condit, R., Foster, R.B., Hubbell, S.P., Sukumar, R., Leigh, E.G., Manokaran, N., Loo de Lao, S., LaFranckie, J.V. and Ashton, P.S. (1998) Assessing forest diversity on small plots: calibration using species-individual curves from 50ha plots. Forest biodiversity research, monitoring and modelling (ed. by F. Dallmeier and J.A. Comiskey ), pp. 247-266. UNESCO and The Parthenon Publishing Group, Paris.
Currie, D.J. (2007) Disentangling the roles of environment and space in ecology. Journal of Biogeography, 34, 2009-2011.
Currie, D.J. and Paquin, V. (1987) Large-scale biogeographical patterns of species richness of trees. Nature, 329, 326-327.
Diniz, J.A.F., Bini, L.M. and Hawkins, B.A. (2003) Spatial autocorrelation and red herrings in geographical ecology. Global Ecology and Biogeography, 12, 53-64.
Ferrier, S., Powell, G.V.N., Richardson, K.S., Manion, G., Overton, J.M., Allnutt, T.F., Cameron, S.E., Mantle, K., Burgess, N.D., Faith, D.P., Lamoreux, J.F., Kier, G., Hijmans, R.J., Funk, V.A., Cassis, G.A., Fisher, B.L., Flemons, P., Lees, D., Lovett, J.C. and Van Rompaey, R. (2004) Mapping more of terrestrial biodiversity for global conservation assessment. BioScience, 54, 1101-1109.
Field, R., O'Brien, E.M. and Whittaker, R.J. (2005) Global models for predicting woody plant richness from climate: development and evaluation. Ecology, 86, 2263-2277.
Fields Development Team (2006) Fields: tools for spatial data. National Center for Atmospheric Research, Boulder, CO. Available at: (accessed 20 February 2010).
Fisher, R.A., Corbet, A.S. and Williams, C.B. (1943) The relation between the number of species and the number of individuals in a random sample of an animal population. Journal of Animal Ecology, 12, 42-58.
Fox, J.W. and Srivastava, D. (2006) Predicting local-regional richness relationships using island biogeography models. Oikos, 113, 376-382.
Givnish, T.J. (1999) On the causes of gradients in tropical tree diversity. Journal of Ecology, 87, 193-210.
Hansen, M., DeFries, R., Townshend, J.R., Carroll, M., Dimiceli, C. and Sohlberg, R. (2003) Vegetation continuous fields MOD44B, 2001 percent tree cover, collection 3. University of Maryland, Maryland, MD.
Hardy, O.J. (2009a) BiodivR 1.1. A program to compute statistically unbiased indices of species diversity within sample and species similarity between samples using rarefaction principles. Available at: (accessed 1 July 2009).
Hardy, O.J. (2009b) TOROCOR: a program to assess the association between spatially autocorrelated variables using a torus-translation test on multiple grids. Available at: (accessed 1 July 2009).
Hawthorne, W.D. (1996) Holes and the sums of parts in Ghanaian forest: regeneration, scale and sustainable use. Proceedings of the Royal Society of Edinburgh - Section B: Biological Sciences, 104, 75-176.
Hijmans, R.J., Cameron, S.E., Parra, J.L., Jones, P.G. and Jarvis, A. (2005) Very high resolution interpolated climate surfaces for global land areas. International Journal of Climatology, 25, 1965-1978.
Hubbell, S.P. (2001) The unified neutral theory of biodiversity and biogeography. Princeton University Press, Princeton, NJ.
Hurlbert, S.H. (1971) The nonconcept of species diversity: a critique and alternative parameters. Ecology, 52, 577-586.
Imhoff, M.L. (1995) A theoretical-analysis of the effect of forest structure on synthetic-aperture radar backscatter and the remote-sensing of biomass. IEEE Transactions on Geoscience and Remote Sensing, 33, 341-352.
Jarnevich, C.S., Stohlgren, T.J., Barnett, D. and Kartesz, J. (2006) Filling in the gaps: modelling native species richness and invasions using spatially incomplete data. Diversity and Distributions, 12, 511-520.
Kuhn, S., Egert, B., Neumann, S. and Steinbeck, C. (2008) Building blocks for automated elucidation of metabolites: machine learning methods for NMR prediction. BMC Bioinformatics, 9, 400.
Küper, W., Sommer, J.H., Lovett, J.C. and Barthlott, W. (2006) Deficiency in African plant distribution data - missing pieces of the puzzle. Botanical Journal of the Linnean Society, 150, 355-368.
Laurance, W.F., Fearnside, P.M., Laurance, S.G., Delamonica, P., Lovejoy, T.E., Rankin-de Merona, J., Chambers, J.Q. and Gascon, C. (1999) Relationship between soils and Amazon forest biomass: a landscape-scale study. Forest Ecology and Management, 118, 127-138.
Legendre, P. (1993) Spatial autocorrelation: trouble or new paradigm. Ecology, 74, 1659-1673.
Lennon, J.J. (2000) Red-shifts and red herrings in geographical ecology. Ecography, 23, 101-113.
Lewis, S.L. (2006) Tropical forests and the changing earth system. Philosophical Transactions of the Royal Society B: Biological Sciences, 361, 195-210.
Liaw, A. and Wiener, M. (2002) Classification and regression by randomForest. R News: the Newsletter of the R Project, 2, 18-22.
Linder, H.P. (2001) Plant diversity and endemism in sub-Saharan tropical Africa. Journal of Biogeography, 28, 169-182.
Maley, J. (1991) The African rain forest vegetation and palaeoenvironments during the late Quaternary. Climatic Change, 19, 79-98.
Mayaux, P., Bartholome, E., Fritz, S. and Belward, A. (2004) A new land-cover map of Africa for the year 2000. Journal of Biogeography, 31, 861-877.
McGlone, M.S. (1996) When history matters: scale, time, climate and tree diversity. Global Ecology and Biogeography Letters, 5, 309-314.
Muller-Landau, H.C., Wright, S.J., Calderon, O., Condit, R. and Hubbell, S.P. (2008) Interspecific variation in primary seed dispersal in a tropical forest. Journal of Ecology, 96, 653-667.
Myers, N. (1997) The world's forests and their ecosystem services. Nature's services: societal dependence on natural ecosystems (ed. by G.C. Daily ), pp. 215-235. Island Press, Washington, DC.
O'Brien, E.M. (2006) Biological relativity to water-energy dynamics. Journal of Biogeography, 33, 1868-1888.
Parmentier, I., Malhi, Y., Senterre, B. et al. (2007) The odd man out? Might climate explain the lower tree alpha-diversity of African rain forests relative to Amazonian rain forests? Journal of Ecology, 95, 1058-1071.
Phillips, O.L., Hall, P., Gentry, A.H., Sawyer, S.A. and Vásquez, R. (1994) Dynamics and species richness of tropical rain forests. Proceedings of the National Academy of Sciences USA, 91, 2805-2809.
Prasad, A.M., Iverson, L.R. and Liaw, A. (2006) Newer classification and regression tree techniques: bagging and random forests for ecological prediction. Ecosystems, 9, 181-199.
Rosenqvist, A., Shimada, M., Chapman, B., Freeman, A., De Grandi, G., Saatchi, S. and Rauste, Y. (2000) The Global Rain Forest Mapping project - a review. International Journal of Remote Sensing, 21, 1375-1387.
Saatchi, S., Buermann, W., ter Steege, H., Mori, S. and Smith, T.B. (2008) Modeling distribution of Amazonian tree species and diversity using remote sensing measurements. Remote Sensing of Environment, 112, 2000-2017.
Schmidt, M., Konig, K. and Muller, J.V. (2008) Modelling species richness and life form composition in Sahelian Burkina Faso with remote sensing data. Journal of Arid Environments, 72, 1506-1517.
Slik, J.W.F., Raes, N., Aiba, S.I., Brearley, F.Q., Cannon, C.H., Meijaard, E., Nagamasu, H., Nilus, R., Paoli, G., Poulsen, A.D., Sheil, D., Suzuki, E., van Valkenburg, J., Webb, C.O., Wilkie, P. and Wulffraat, S. (2009) Environmental correlates for tropical tree diversity and distribution patterns in Borneo. Diversity and Distributions, 15, 523-532.
Sokal, R.R. and Oden, N.L. (1978) Spatial autocorrelation in biology. 1. Methodology. Biological Journal of the Linnean Society, 10, 199-228.
ter Steege, H., Pitman, N., Sabatier, D. et al. (2003) A spatial model of tree alpha-diversity and tree density for the Amazon. Biodiversity and Conservation, 12, 2255-2277.
Stropp, J., ter Steege, H. and Malhi, Y. (2009) Disentangling regional and local tree diversity in the Amazon. Ecography, 32, 46-54.
de Wasseige, C., Devers, D., de Marcken, P., Eba'a Atyi, R., Nasi, R. and Mayaux, P. (eds) (2009) Les forêts du Bassin du Congo - etat des forêts 2008. Office des publications de l'Union européenne, Luxembourg.
White, F. (1979) The Guineo-Congolian Region and its relationships to other phytochoria. Bulletin du Jardin Botanique National de Belgique, 49, 11-55.
Wieringa, J.J. and Poorter, L. (2004) Biodiversity hotspots in West Africa; patterns and causes. Biodiversity of West African forests: an ecological atlas of woody plant species (ed. by L. Poorter, F. Bongers, F.N. Kouamé and W.D. Hawthorne ), pp. 61-72. CABI Publishing, Wallingford, UK.
Wright, S.J. (2002) Plant diversity in tropical forests: a review of mechanisms of species coexistence. Oecologia, 130, 1-14.
