<p><i>M</i><sub>T</sub> includes leaves, branches, stems and roots. The lines are linear RMA fits to the log-transformed data.</p
<p><b>A)</b> Linear regressions of leaf mass per area (LMA) with leaf volume per area (LVA or thickn...
Theoretical predictions regarding fine root production are needed in many ecosystem models but are l...
<div><p>Precise estimation of root biomass is important for understanding carbon stocks and dynamics...
<p><i>M</i><sub>T</sub> includes leaves, branches, stems and roots. The lines are linear RMA fits to...
<p><i>M</i><sub>T</sub> includes leaves, branches, stems and roots. The lines are linear RMA fits to...
<p><i>β</i> is the exponent as a consequence of individual <i>M</i><sub>L</sub> (leaf mass, tons/ind...
<p><i>β</i> is the exponent as a consequence of individual <i>M</i><sub>L</sub> (leaf mass, tons/ind...
Defining and quantifying biomass–density relationships in dense plant stands has been a long-standin...
<p><i>β</i> is the exponent as a consequence of individual <i>M</i><sub>L</sub> (leaf mass, tons/ind...
Biomass partitioning is important for illustrating terrestrial ecosystem carbon flux. West, Brown an...
“Diminishing returns” in leaf economics occurs when increases in lamina mass (M), which can either b...
The relationship between leaf and stem biomass as well as the relationship between leaf biomass and ...
The relationship between leaf and stem biomass as well as the relationship between leaf biomass and ...
<p>Total stem biomass is denoted with filled symbols and dashed lines. Maximum stem biomass is denot...
Understanding the scaling between leaf size and leafing intensity (leaf number per stem size) is cru...
<p><b>A)</b> Linear regressions of leaf mass per area (LMA) with leaf volume per area (LVA or thickn...
Theoretical predictions regarding fine root production are needed in many ecosystem models but are l...
<div><p>Precise estimation of root biomass is important for understanding carbon stocks and dynamics...
<p><i>M</i><sub>T</sub> includes leaves, branches, stems and roots. The lines are linear RMA fits to...
<p><i>M</i><sub>T</sub> includes leaves, branches, stems and roots. The lines are linear RMA fits to...
<p><i>β</i> is the exponent as a consequence of individual <i>M</i><sub>L</sub> (leaf mass, tons/ind...
<p><i>β</i> is the exponent as a consequence of individual <i>M</i><sub>L</sub> (leaf mass, tons/ind...
Defining and quantifying biomass–density relationships in dense plant stands has been a long-standin...
<p><i>β</i> is the exponent as a consequence of individual <i>M</i><sub>L</sub> (leaf mass, tons/ind...
Biomass partitioning is important for illustrating terrestrial ecosystem carbon flux. West, Brown an...
“Diminishing returns” in leaf economics occurs when increases in lamina mass (M), which can either b...
The relationship between leaf and stem biomass as well as the relationship between leaf biomass and ...
The relationship between leaf and stem biomass as well as the relationship between leaf biomass and ...
<p>Total stem biomass is denoted with filled symbols and dashed lines. Maximum stem biomass is denot...
Understanding the scaling between leaf size and leafing intensity (leaf number per stem size) is cru...
<p><b>A)</b> Linear regressions of leaf mass per area (LMA) with leaf volume per area (LVA or thickn...
Theoretical predictions regarding fine root production are needed in many ecosystem models but are l...
<div><p>Precise estimation of root biomass is important for understanding carbon stocks and dynamics...
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