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Allometric scaling laws linking biomass and rooting depth vary across ontogeny and functional groups in tropical dry forest lianas and trees

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dc.contributor.author Smith-Martin, Chris M.
dc.contributor.author Xu, Xiangtao
dc.contributor.author Medvigy, David
dc.contributor.author Schnitzer, Stefan A.
dc.contributor.author Powers, Jennifer S.
dc.date.accessioned 2022-08-31T00:22:22Z
dc.date.available 2022-08-31T00:22:22Z
dc.date.issued 2019-10-29
dc.identifier.uri https://doi.org/10.1111/nph.16275
dc.identifier.uri http://hdl.handle.net/11606/1521
dc.description.abstract There are two theories about how allocation of metabolic products occurs. The allometric biomass partitioning theory (APT) suggests that all plants follow common allometric scaling rules. The optimal partitioning theory (OPT) predicts that plants allocate more biomass to the organ capturing the most limiting resource. Whole-plant harvests of mature and juvenile tropical deciduous trees, evergreen trees, and lianas and model simulations were used to address the following knowledge gaps: (1) Do mature lianas comply with the APT scaling laws or do they invest less biomass in stems compared to trees? (2) Do juveniles follow the same allocation patterns as mature individuals? (3) Is either leaf phenology or life form a predictor of rooting depth? It was found that: (1) mature lianas followed the same allometric scaling laws as trees; (2) juveniles and mature individuals do not follow the same allocation patterns; and (3) mature lianas had shallowest coarse roots and evergreen trees had the deepest. It was demonstrated that: (1) mature lianas invested proportionally similar biomass to stems as trees and not less, as expected; (2) lianas were not deeper-rooted than trees as had been previously proposed; and (3) evergreen trees had the deepest roots, which is necessary to maintain canopy during simulated dry seasons. es_CR
dc.language.iso en es_CR
dc.publisher New Phytolgist es_CR
dc.subject biomass partitioning es_CR
dc.subject deciduous trees es_CR
dc.subject evergreen trees es_CR
dc.subject lianas es_CR
dc.subject maximum rooting depth es_CR
dc.subject simulation modeling es_CR
dc.subject tropical dry forests es_CR
dc.subject whole-plant harvest es_CR
dc.title Allometric scaling laws linking biomass and rooting depth vary across ontogeny and functional groups in tropical dry forest lianas and trees es_CR
dc.type Article es_CR


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    Artículos de Acceso Abierto y Manuscritos de Investigadores entregados a ACG

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