'Diminishing Returns' in the Scaling between Leaf Area and Twig Size in Three Forest Communities Along an Elevation Gradient of Wuyi Mountain, China

Autor:	Mantang Wang, Quanlin Zhong, Man Li, Karl J. Niklas, Min Lyu, Xiaoping Chen, Jun Sun, Dongliang Cheng, Guojie Zhu
Rok vydání:	2019
Předmět:	leaf traits 0106 biological sciences Lamina Biomass (ecology) Wuyi Mountain plant allometry Forestry Evergreen Biology scaling exponents 010603 evolutionary biology 01 natural sciences Petiole (botany) Twig Deciduous twig biomass allocation Agronomy Shoot Scaling diminishing returns 010606 plant biology & botany
Zdroj:	Forests Volume 10 Issue 12
ISSN:	1999-4907
DOI:	10.3390/f10121138
Popis:	Background and aims: The &ldquo diminishing returns&rdquo hypothesis postulates that the scaling exponent governing the lamina area versus lamina mass scaling relationships has, on average, a numerical value less than one. Theoretically, a similar scaling relationship may exist at the twig level. However, this possibility has not been explored empirically. Methods: We tested both hypotheses by measuring the lamina area and mass, petiole mass of individual leaves, and the total foliage area and stem mass of individual current-year shoots (twigs) of 64 woody species growing in three characteristic forest community types:(1) Evergreen broad-leaved, (2) mixed coniferous and broad-leaved, and (3) deciduous. Key results: The results demonstrate that lamina area vs. mass and lamina area vs. petiole mass differ significantly among the three forest types at both the individual leaf and twig levels. Nevertheless, the scaling exponents of lamina area vs. mass were < 1.0 in each of the three community types, as were the corresponding exponents for lamina area vs. petiole mass, both within and across the three community types. Similar trends were observed at the individual twig level. The numerical values of the scaling exponent for lamina area vs. petiole mass and total foliage area vs. stem mass per twig decreased with increased elevation. Conclusions: These data support the &ldquo hypothesis at both the individual leaf level and at the individual twig level, phenomena that can inform future inquiries into the mechanistic basis of biomass allocation patterns to physiological (leaf) and mechanical (stem) plant organs.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a6f732be1c3015e298258954b556ddd8 https://doi.org/10.3390/f10121138 Zobrazit plný text záznamu