A. Densities of living and dead individuals represented as pie charts. B. Dependence of densities from depth fitted by 6th order power functions. C. Dependence of densities from grain size fitted by 2nd order power functions (living) and linear regression. D. Dependence of densities from TOM fitted by 6th order (living) and 3rd order (dead) power functions. Full line: significant correlation; broken line: non-significant correlation.</p
<p>The Pearson correlation coefficient (r) and the P value are shown in the upper or upper left side...
<p>Correlation coefficients between log-transformed observed and predicted densities evaluated throu...
<p>Note: **significant at <i>P</i><0.01.</p><p>Correlation coefficients in Xixian are above the diag...
A. Similarities represented as circle areas. B. Dependence of similarities from depth fitted by 3rd ...
A. Rank distances represented as circle areas. B. Dependence of rank distances from depth fitted by ...
Full line: significant correlation; broken line: non-significant correlation.</p
A. ‘Incorporation Values’ represented as circle areas. B. Dependence of ‘Incorporation Values’ from ...
<p>Correlation between the number of grain lines/cm in spruce tops and the apparent density differen...
A. SimDivers represented as circle areas. B. Dependence of SimDivers from depth fitted by 5th order ...
<p>Included size classes are: unbranched individuals (UI; Ø<0.25 m), branched juveniles (J<sub>B</su...
<p>The low density including 2 snails (a), while the high density encompassing 24 snails (b). Lines ...
Distribution of p-values from Mantel test for Spearman correlation between dissimilarity matrices re...
Spearman rank correlation coefficients are provided for the correlation between relative connection ...
<p>Dashed line y = 0 represents the line of equality, which stands for perfect agreement. (a) Regres...
Solid lines indicated significant hypothesized effects. Hashed lines indicate significant non-hypoth...
<p>The Pearson correlation coefficient (r) and the P value are shown in the upper or upper left side...
<p>Correlation coefficients between log-transformed observed and predicted densities evaluated throu...
<p>Note: **significant at <i>P</i><0.01.</p><p>Correlation coefficients in Xixian are above the diag...
A. Similarities represented as circle areas. B. Dependence of similarities from depth fitted by 3rd ...
A. Rank distances represented as circle areas. B. Dependence of rank distances from depth fitted by ...
Full line: significant correlation; broken line: non-significant correlation.</p
A. ‘Incorporation Values’ represented as circle areas. B. Dependence of ‘Incorporation Values’ from ...
<p>Correlation between the number of grain lines/cm in spruce tops and the apparent density differen...
A. SimDivers represented as circle areas. B. Dependence of SimDivers from depth fitted by 5th order ...
<p>Included size classes are: unbranched individuals (UI; Ø<0.25 m), branched juveniles (J<sub>B</su...
<p>The low density including 2 snails (a), while the high density encompassing 24 snails (b). Lines ...
Distribution of p-values from Mantel test for Spearman correlation between dissimilarity matrices re...
Spearman rank correlation coefficients are provided for the correlation between relative connection ...
<p>Dashed line y = 0 represents the line of equality, which stands for perfect agreement. (a) Regres...
Solid lines indicated significant hypothesized effects. Hashed lines indicate significant non-hypoth...
<p>The Pearson correlation coefficient (r) and the P value are shown in the upper or upper left side...
<p>Correlation coefficients between log-transformed observed and predicted densities evaluated throu...
<p>Note: **significant at <i>P</i><0.01.</p><p>Correlation coefficients in Xixian are above the diag...