<p>(a) shoot height; (b) branch length; (c) root/shoot ratio; (d) leaf number. Open cycle indicates the data in Erhai and closed cycle indicates the data in Niushanhu. Variables were log<sub>10</sub>-transformed prior to model fitting.</p
center dot Background and Aims The leaf size-twig size spectrum is one of the leading dimensions of ...
Height–diameter allometric (H-D) relationships play an important role in the light capture and stabi...
Aboveground tree biomass (M) can be estimated using a power function in the form of M = aD(b) where ...
<p><i>W<sub>L</sub></i>, <i>W<sub>W</sub></i>, <i>DBH</i>, <i>BD</i>, <i>H</i> are biomass of leaf (...
<p>The subscript 1, 2, 3, 4 and 5 refers to clonal patches with area of <5, 5–15, 15–40, 40–100 and ...
<p>(a, b) shoot height; (c, d) root/shoot ratio; (e, f) total branch length; (g, h) total leaf numbe...
<p><i>n</i>, samples number; <i>r</i><sup>2</sup>, correlation coefficient; <i>p</i>-values refer to...
Allometric equations are often used to estimate plant biomass allocation to different tissue types f...
The increasing number of model types that are used to predict tree biomass from diameter, height and...
The increasing number of model types that are used to predict tree biomass from diameter, height and...
As the application of allometry continues to expand, the variability in the allometry exponent has g...
(A) Log–log relationship between annual growth rate G and plant dry mass M across 334 plant species ...
Allometric equations are often used to estimate plant biomass allocation to different tissue types f...
As the application of allometry continues to expand, the variability in the allometry exponent has g...
<p>Regression lines are ln(<i>M</i>) = ln(<i>K</i><sub>2</sub>) + <i>b</i> × ln(<i>H</i>) fitted for...
center dot Background and Aims The leaf size-twig size spectrum is one of the leading dimensions of ...
Height–diameter allometric (H-D) relationships play an important role in the light capture and stabi...
Aboveground tree biomass (M) can be estimated using a power function in the form of M = aD(b) where ...
<p><i>W<sub>L</sub></i>, <i>W<sub>W</sub></i>, <i>DBH</i>, <i>BD</i>, <i>H</i> are biomass of leaf (...
<p>The subscript 1, 2, 3, 4 and 5 refers to clonal patches with area of <5, 5–15, 15–40, 40–100 and ...
<p>(a, b) shoot height; (c, d) root/shoot ratio; (e, f) total branch length; (g, h) total leaf numbe...
<p><i>n</i>, samples number; <i>r</i><sup>2</sup>, correlation coefficient; <i>p</i>-values refer to...
Allometric equations are often used to estimate plant biomass allocation to different tissue types f...
The increasing number of model types that are used to predict tree biomass from diameter, height and...
The increasing number of model types that are used to predict tree biomass from diameter, height and...
As the application of allometry continues to expand, the variability in the allometry exponent has g...
(A) Log–log relationship between annual growth rate G and plant dry mass M across 334 plant species ...
Allometric equations are often used to estimate plant biomass allocation to different tissue types f...
As the application of allometry continues to expand, the variability in the allometry exponent has g...
<p>Regression lines are ln(<i>M</i>) = ln(<i>K</i><sub>2</sub>) + <i>b</i> × ln(<i>H</i>) fitted for...
center dot Background and Aims The leaf size-twig size spectrum is one of the leading dimensions of ...
Height–diameter allometric (H-D) relationships play an important role in the light capture and stabi...
Aboveground tree biomass (M) can be estimated using a power function in the form of M = aD(b) where ...
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