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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
Chris M. Smith-Martin
, Xiangtao Xu
, David Medvigy
, Stefan A. Schnitzer
,
Jennifer S. Powers
Ecology, Evolution and Behavior
Research output
:
Contribution to journal
›
Article
›
peer-review
75
Scopus citations
Overview
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Dive into the research topics of 'Allometric scaling laws linking biomass and rooting depth vary across ontogeny and functional groups in tropical dry forest lianas and trees'. Together they form a unique fingerprint.
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Keyphrases
Tropical Dry Forest
100%
Lianas
100%
Functional Groups
100%
Allometric Scaling Law
100%
Rooting Depth
100%
Evergreen Broad-leaved Forest
42%
Allocation Pattern
28%
Biomass Partitioning
28%
Deciduous Trees
14%
Knowledge Gaps
14%
Whole Plant
14%
Scaling Laws
14%
Life Form
14%
Optimal Partition
14%
Coarse Roots
14%
Dry Season
14%
Scaling Rule
14%
Allometric Scaling
14%
Leaf Phenology
14%
Metabolic Products
14%
Plant Harvest
14%
Deep Roots
14%
Model Simulation
14%
Agricultural and Biological Sciences
Liana
100%
Rooting
100%
Ontogeny
100%
Allometry
100%
Tropical Dry Forest
100%
Biomass Partitioning
28%
Deciduous
14%
Phenology
14%
Dry Season
14%