Measuring ecological niche overlap from occurrence and spatial environmental data
Olivier Broennimann,Matthew C. Fitzpatrick,Peter B. Pearman,Blaise Petitpierre,Loïc Pellissier,Nigel G. Yoccoz,Wilfried Thuiller,Marie-Josée Fortin,Christophe F. Randin,Niklaus E. Zimmermann,Catherine H. Graham,Antoine Guisan +11 more
TL;DR: A statistical framework to describe and compare environmental niches from occurrence and spatial environmental data and shows that niche overlap can be accurately detected with the framework when variables driving the distributions are known.
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Abstract: Aim Concerns over how global change will influence species distributions, in conjunction with increased emphasis on understanding niche dynamics in evolutionary and community contexts, highlight the growing need for robust methods to quantify niche differences between or within taxa. We propose a statistical framework to describe and compare environmental niches from occurrence and spatial environmental data. Location Europe, North America and South America. Methods The framework applies kernel smoothers to densities of species occurrence in gridded environmental space to calculate metrics of niche overlap and test hypotheses regarding niche conservatism. We use this framework and simulated species with pre-defined distributions and amounts of niche overlap to evaluate several ordination and species distribution modelling techniques for quantifying niche overlap. We illustrate the approach with data on two well-studied invasive species. Results We show that niche overlap can be accurately detected with the framework when variables driving the distributions are known. The method is robust to known and previously undocumented biases related to the dependence of species occurrences on the frequency of environmental conditions that occur across geographical space. The use of a kernel smoother makes the process of moving from geographical space to multivariate environmental space independent of both sampling effort and arbitrary choice of resolution in environmental space. However, the use of ordination and species distribution model techniques for selecting, combining and weighting variables on which niche overlap is calculated provide contrasting results. Main conclusions The framework meets the increasing need for robust methods to quantify niche differences. It is appropriate for studying niche differences between species, subspecies or intra-specific lineages that differ in their geographical distributions. Alternatively, it can be used to measure the degree to which the environmental niche of a species or intra-specific lineage has changed over time.
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Table 1 – Ordination techniques for quantifying niche overlap. In addition to a general 759 description of the technique, an explanation of its application to the comparison of simulated 760 niches between the European (EU) and North American (NA) continents is provided. Depending 761 on the type of analysis and whether a priori groups are used or not, the different areas of 762 calibration we tested are specified. 763 
Figure 7. Niche of the imported fire ant in climatic space - example of a Principal 831 Component Analysis (PCA-env). a) and b) represent the niche of the species along the two first 832 axes of the PCA in the European native (EU) and North American invaded range (NA) 833 respectively. Grey shading shows the density of the occurrences of the species by cell. The solid 834 and dashed contour lines illustrate respectively 100% and 50% of the available (background) 835 environment. The arrows represent how the center of the niche has changed between EU and NA. 836 c) shows the contribution of the climatic variables on the two axes of the PCA and the percentage 837 of inertia explained by the two axes. Histograms (d-f) show the observed niche overlap D 838 between the two ranges (bars with a diamond) and simulated niche overlaps (gray bars) on which 839 tests of niche equivalency (d), niche similarity of NA to EU (e), and niche similarity of EU to NA 840 (f) are calculated from 100 iterations. The significance of the tests are shown (ns: non-significant, 841 *: 0.05<p-value<0.01, **: 0.01<p-value<0.001, ***: p-value<0.001). 842 
Figure 6. Niche of spotted knapweed in climatic space - example of a Principal Component 818 Analysis (PCA-env). a) and b) represent the niche of the species along the two first axes of the 819 PCA in the European native (EU) and North American invaded range (NA) respectively. Grey 820 shading shows the density of the occurrences of the species by cell. The solid and dashed contour 821 lines illustrate respectively 100% and 50% of the available (background) environment. The 822 arrows represent how the center of the niche has changed between EU and NA. c) shows the 823 contribution of the climatic variables on the two axes of the PCA and the percentage of inertia 824 explained by the two axes. Histograms (d-f) show the observed niche overlap D between the two 825 ranges (bar with a diamond) and simulated niche overlaps (gray bars) on which tests of niche 826 equivalency (d), niche similarity of NA to EU (e), and niche similarity of EU to NA (f) are 827 calculated from 100 iterations. The significance of the tests are shown (ns: non-significant, *: 828 0.05<p-value<0.01, **: 0.01<p-value<0.001, ***: p-value<0.001). 829 
Table 2 – SDM techniques for quantifying niche overlap. GLM, GBM and RF were fitted 766 with species presence-absence as the response variable and environmental variables as predictors 767 (i.e. explanatory variables) using the BIOMOD package in R (Thuiller et al., 2009, R-Forge.R-768 project.org) and default settings. MaxEnt was fitted using the dismo package in R with default 769 settings. For all techniques, we use pseudo-absences that were generated randomly throughout 770 the area of calibration. Two sets of models were created using two areas of calibration: one using 771 presence-absence data in EU only and a second using presence-absence data in both EU and NA. 772 The resulting predictions of occurrence of the species (ranging between 0 and 1) are used as 773 environmental axes in the niche overlap framework. 774
Citations
Environmentally driven phenotypic convergence and niche conservatism accompany speciation in hoary bats
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TL;DR: In this paper , the congruence of phenotypic and phylogenetic divergence with the environmental factors that help maintain species level diversity in the geographically widespread hoary bats (Lasiurus cinereus and relatives) across their distribution was examined.
Polyploidisation and Niche Differentiation Have Driven the Diversification of the Euphorbia Epithymoides Group (Euphorbiaceae) in Southeastern Europe
Sanja Đurović,Martina Temunović,Peter Schönswetter,Božo Frajman +3 more
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