The scaling relationships of leaf biomass vs. leaf surface area of 12 bamboo species

Weiwei Huang; Xiaofei Su; David A. Ratkowsky; Karl J. Niklas; Johan  Gielise; Peijian Shi

doi:10.1016/j.gecco.2019.e00793

The scaling relationships of leaf biomass vs. leaf surface area of 12 bamboo species

Weiwei Huang, Xiaofei Su, David A. Ratkowsky, Karl J. Niklas, Johan Gielise, Peijian Shi

Forest, Nature and Biomass

9 Citations (Scopus)

14 Downloads (Pure)

Abstract

There is convincing evidence for a scaling relationship between leaf dry weight (DW) and leaf surface area (A) for broad-leaved plants, and most estimates of the scaling exponent of DW vs. A are greater than unity. However, the scaling relationship of leaf fresh weight (FW) vs. A has been largely neglected. In the present study, we examined whether there is a statistically strong scaling relationship between FW and A and compared the goodness of fit to that of DW vs. A. Between 250 and 520 leaves from each of 12 bamboo species within 2 genera (Phyllostachys and Pleioblastus) were investigated. The reduced major axis regression protocols were used to determine scaling relationships. The fit for the linearized scaling relationship of FW vs. A was compared with that of DW vs. A using the coefficient of determination (i.e., r²). A stronger scaling relationship between FW and A than that between DW and A was observed for each of the 12 bamboo species investigated. Among the 12 species examined, five had significantly smaller scaling exponents of FW vs. A compared to those of DW vs. A; only one species had a scaling exponent of FW vs. A greater than that of DW vs. A. No significant difference between the two scaling exponents was observed for the remaining 6 species. Researchers conducting future studies might be well advised to consider the influence of leaf fresh weight when exploring the scaling relationships of foliar biomass allocation patterns.

Original language	English
Article number	e00793
Journal	Global Ecology and Conservation
Volume	20
Number of pages	30
ISSN	2351-9894
DOIs	https://doi.org/10.1016/j.gecco.2019.e00793
Publication status	Published - Oct 2019

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The scaling relationships of leaf biomass vs. leaf surface area of 12 bamboo speciesFinal published version, 3.43 MBLicence: CC BY

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title = "The scaling relationships of leaf biomass vs. leaf surface area of 12 bamboo species",

abstract = "There is convincing evidence for a scaling relationship between leaf dry weight (DW) and leaf surface area (A) for broad-leaved plants, and most estimates of the scaling exponent of DW vs. A are greater than unity. However, the scaling relationship of leaf fresh weight (FW) vs. A has been largely neglected. In the present study, we examined whether there is a statistically strong scaling relationship between FW and A and compared the goodness of fit to that of DW vs. A. Between 250 and 520 leaves from each of 12 bamboo species within 2 genera (Phyllostachys and Pleioblastus) were investigated. The reduced major axis regression protocols were used to determine scaling relationships. The fit for the linearized scaling relationship of FW vs. A was compared with that of DW vs. A using the coefficient of determination (i.e., r2). A stronger scaling relationship between FW and A than that between DW and A was observed for each of the 12 bamboo species investigated. Among the 12 species examined, five had significantly smaller scaling exponents of FW vs. A compared to those of DW vs. A; only one species had a scaling exponent of FW vs. A greater than that of DW vs. A. No significant difference between the two scaling exponents was observed for the remaining 6 species. Researchers conducting future studies might be well advised to consider the influence of leaf fresh weight when exploring the scaling relationships of foliar biomass allocation patterns.",

author = "Weiwei Huang and Xiaofei Su and Ratkowsky, {David A.} and Niklas, {Karl J.} and Johan Gielise and Peijian Shi",

year = "2019",

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doi = "10.1016/j.gecco.2019.e00793",

language = "English",

volume = "20",

journal = "Global Ecology and Conservation",

issn = "2351-9894",

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T1 - The scaling relationships of leaf biomass vs. leaf surface area of 12 bamboo species

AU - Huang, Weiwei

AU - Su, Xiaofei

AU - Ratkowsky, David A.

AU - Niklas, Karl J.

AU - Gielise, Johan

AU - Shi, Peijian

PY - 2019/10

Y1 - 2019/10

N2 - There is convincing evidence for a scaling relationship between leaf dry weight (DW) and leaf surface area (A) for broad-leaved plants, and most estimates of the scaling exponent of DW vs. A are greater than unity. However, the scaling relationship of leaf fresh weight (FW) vs. A has been largely neglected. In the present study, we examined whether there is a statistically strong scaling relationship between FW and A and compared the goodness of fit to that of DW vs. A. Between 250 and 520 leaves from each of 12 bamboo species within 2 genera (Phyllostachys and Pleioblastus) were investigated. The reduced major axis regression protocols were used to determine scaling relationships. The fit for the linearized scaling relationship of FW vs. A was compared with that of DW vs. A using the coefficient of determination (i.e., r2). A stronger scaling relationship between FW and A than that between DW and A was observed for each of the 12 bamboo species investigated. Among the 12 species examined, five had significantly smaller scaling exponents of FW vs. A compared to those of DW vs. A; only one species had a scaling exponent of FW vs. A greater than that of DW vs. A. No significant difference between the two scaling exponents was observed for the remaining 6 species. Researchers conducting future studies might be well advised to consider the influence of leaf fresh weight when exploring the scaling relationships of foliar biomass allocation patterns.

AB - There is convincing evidence for a scaling relationship between leaf dry weight (DW) and leaf surface area (A) for broad-leaved plants, and most estimates of the scaling exponent of DW vs. A are greater than unity. However, the scaling relationship of leaf fresh weight (FW) vs. A has been largely neglected. In the present study, we examined whether there is a statistically strong scaling relationship between FW and A and compared the goodness of fit to that of DW vs. A. Between 250 and 520 leaves from each of 12 bamboo species within 2 genera (Phyllostachys and Pleioblastus) were investigated. The reduced major axis regression protocols were used to determine scaling relationships. The fit for the linearized scaling relationship of FW vs. A was compared with that of DW vs. A using the coefficient of determination (i.e., r2). A stronger scaling relationship between FW and A than that between DW and A was observed for each of the 12 bamboo species investigated. Among the 12 species examined, five had significantly smaller scaling exponents of FW vs. A compared to those of DW vs. A; only one species had a scaling exponent of FW vs. A greater than that of DW vs. A. No significant difference between the two scaling exponents was observed for the remaining 6 species. Researchers conducting future studies might be well advised to consider the influence of leaf fresh weight when exploring the scaling relationships of foliar biomass allocation patterns.

U2 - 10.1016/j.gecco.2019.e00793

DO - 10.1016/j.gecco.2019.e00793

M3 - Journal article

SN - 2351-9894

VL - 20

JO - Global Ecology and Conservation

JF - Global Ecology and Conservation

M1 - e00793

ER -

The scaling relationships of leaf biomass vs. leaf surface area of 12 bamboo species

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