Different colors indicate each quartile species. Blue = 1st quartile species, green = 2nd quartile species, red = 3rd quartile species, yellow = 4th quartile species.</p
<p>Places labelled on panels A-C refer to areas of high endemism. Colours by quantile classes, separ...
<p>Frequency of endemic (violet) and non-endemic (light pink) species in different classes of distri...
<p>The parameter values are . The colours red, green and blue correspond respectively to slow, inter...
<p>Colors denote varying contribution of different animal phyla. Subplot is the inverse cumulative f...
Different colors are used to represent the genotypes observed at different sites.</p
Contains fulltext : 142456pos.pdf (postprint version ) (Open Access
<p>Hypothetical example showing species ranked by their occupancy or range size (A), and sites ranke...
<p>Upper panels: the parameter values are , (left set of panels) and (right set of panels). Lower ...
<p>The distribution of different Cr(III) species (%) as a function of pH calculated by Visual MINTEQ...
<p>The proportion of tropical and temperate genera along the elevation gradients.</p
<p>Each change in color represents an increase or decrease of 82 species (40 total classes or a 2.5%...
<p>Increasing size of symbols in A) indicate increasing species richness. Symbols are colour coded a...
<p>Left and right panels present unscaled and scaled spatial variation, respectively. Unscaled mean ...
<p>Histograms of (A) species richness and (B) range size frequency distributions.</p
<p>Grey surface represents the area that is predicted as potential distribution only using climatic ...
<p>Places labelled on panels A-C refer to areas of high endemism. Colours by quantile classes, separ...
<p>Frequency of endemic (violet) and non-endemic (light pink) species in different classes of distri...
<p>The parameter values are . The colours red, green and blue correspond respectively to slow, inter...
<p>Colors denote varying contribution of different animal phyla. Subplot is the inverse cumulative f...
Different colors are used to represent the genotypes observed at different sites.</p
Contains fulltext : 142456pos.pdf (postprint version ) (Open Access
<p>Hypothetical example showing species ranked by their occupancy or range size (A), and sites ranke...
<p>Upper panels: the parameter values are , (left set of panels) and (right set of panels). Lower ...
<p>The distribution of different Cr(III) species (%) as a function of pH calculated by Visual MINTEQ...
<p>The proportion of tropical and temperate genera along the elevation gradients.</p
<p>Each change in color represents an increase or decrease of 82 species (40 total classes or a 2.5%...
<p>Increasing size of symbols in A) indicate increasing species richness. Symbols are colour coded a...
<p>Left and right panels present unscaled and scaled spatial variation, respectively. Unscaled mean ...
<p>Histograms of (A) species richness and (B) range size frequency distributions.</p
<p>Grey surface represents the area that is predicted as potential distribution only using climatic ...
<p>Places labelled on panels A-C refer to areas of high endemism. Colours by quantile classes, separ...
<p>Frequency of endemic (violet) and non-endemic (light pink) species in different classes of distri...
<p>The parameter values are . The colours red, green and blue correspond respectively to slow, inter...
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