Equation of least square regression line:Species richness per plot = 34.387 − 0.00771558 Altitude (m a.s.l.). Correlation coefficient, r = -0.648, coefficient of determination, r2 = 0.420, and the best estimate for the slope is -0.00771558 +/-0.00262944 at a 95% of confidence level. The standard error of the regression slope is 0.0013, p<0.001.</p
<p>(a) Comparison of the percentage of species occurring above a specific elevation in the two surve...
<p>Regression equations for predicting species richness (<i>y</i>) based on generic richness (GR) on...
<p>Relationship between seasonal variation in species density and elevation on both aspects of the m...
Trend lines set by distance weighted least square smoothing using LOWESS function in R. Bar plots in...
<p>Depending on a plant species, a mean size of seeds either increased, decreased, or remained uncor...
<p>(A) Alien species richness (number of species per plot) as a function of elevation. Roadside plot...
<p>(A) Average native species richness (±1 SE) in plots across the elevational gradient. Different l...
<p>Upper row (a, b & c) for plot level data and bottom row (d, e & f) for grid level data; grid leve...
<p>p-values of all regressions are shown with slope: * = p<0.05; ** = p<0.01; *** = p<0.001; n.s. = ...
<p>The black line represents linear regression line, and the dashed line is 1:1 line.</p
<p>(a) total species; (b) wide-ranging species; (c) narrow-ranging species. Regression lines are bas...
<p>Each dot (98 in total) represents a 20 × 20 m plot. Horizontal and vertical dashed lines represen...
<p>Plot shows average number of phylogroups per biological species as a function of latitude.</p
<p>Points represent elevational sites (black: wet mountains; gray: arid mountains) and lines are the...
<p>Linear regression plots showing regression slopes for relationships between (a–c) mean pairwise d...
<p>(a) Comparison of the percentage of species occurring above a specific elevation in the two surve...
<p>Regression equations for predicting species richness (<i>y</i>) based on generic richness (GR) on...
<p>Relationship between seasonal variation in species density and elevation on both aspects of the m...
Trend lines set by distance weighted least square smoothing using LOWESS function in R. Bar plots in...
<p>Depending on a plant species, a mean size of seeds either increased, decreased, or remained uncor...
<p>(A) Alien species richness (number of species per plot) as a function of elevation. Roadside plot...
<p>(A) Average native species richness (±1 SE) in plots across the elevational gradient. Different l...
<p>Upper row (a, b & c) for plot level data and bottom row (d, e & f) for grid level data; grid leve...
<p>p-values of all regressions are shown with slope: * = p<0.05; ** = p<0.01; *** = p<0.001; n.s. = ...
<p>The black line represents linear regression line, and the dashed line is 1:1 line.</p
<p>(a) total species; (b) wide-ranging species; (c) narrow-ranging species. Regression lines are bas...
<p>Each dot (98 in total) represents a 20 × 20 m plot. Horizontal and vertical dashed lines represen...
<p>Plot shows average number of phylogroups per biological species as a function of latitude.</p
<p>Points represent elevational sites (black: wet mountains; gray: arid mountains) and lines are the...
<p>Linear regression plots showing regression slopes for relationships between (a–c) mean pairwise d...
<p>(a) Comparison of the percentage of species occurring above a specific elevation in the two surve...
<p>Regression equations for predicting species richness (<i>y</i>) based on generic richness (GR) on...
<p>Relationship between seasonal variation in species density and elevation on both aspects of the m...