@ARTICLE{TreeBASE2Ref27144,
author = {JULIANA S. MEDEIROS and Jean H. Burns and Jaynell Nicholson and Louisa Rogers and Oscar Valverde-Barrantes},
title = {Decoupled leaf and root carbon economics is a key component in the ecological diversity and evolutionary divergence of deciduous and evergreen lineages of genus Rhododendron (Ericaceae)},
year = {2017},
keywords = {plant economics spectrum; root morphology; specific leaf area; trait coordination},
doi = {},
url = {http://},
pmid = {},
journal = {American Journal of Botany},
volume = {},
number = {},
pages = {},
abstract = {? Premise: We explored trait-trait and trait-climate relationships for 27 Rhododendron species while accounting for phylogenetic relationships and within-species variation to investigate whether leaf and root traits are coordinated across environments and over evolutionary time, as part of a whole-plant economics spectrum.
? Methods: We examined specific leaf area (SLA) and four root traits: specific root length (SRL), specific root tip abundance (SRTA), first order diameter, and link average length, for plants growing in a cold, seasonal climate (Kirtland, Ohio) and a warmer, less seasonal climate (Federal Way, Washington). We estimated a phylogeny and species? climate of origin, determined phylogenetic signal on mean traits and within-species variation, and used phylogenetically informed analysis to compare trait-trait and trait-climate relationships for deciduous and evergreen lineages.
? Results: Mean SLA and within-species variation in SRL were more similar between close relatives than expected by chance. SLA and root traits differed according to climate of origin and across growth environments, though SLA differed within- and among-species less than roots. A negative SRL-SRTA correlation indicates investment in foraging scale versus precision as a fundamental trade-off defining the root economic spectrum. Also, the deciduous clade exhibited a strong negative relationship between SLA and SRL, while evergreen clades showed weaker positive, or no relationship.
? Conclusions: Our work suggests that natural selection has shaped above-belowground trait relationships in genus Rhododendron, and that leaf and root traits may evolve independently. Morphological decoupling may help explain habitat diversity among Rhododendron, as well as the changes accompanying the divergence of deciduous and evergreen lineages.
}
}
Citation for Study 20919
Citation title:
"Decoupled leaf and root carbon economics is a key component in the ecological diversity and evolutionary divergence of deciduous and evergreen lineages of genus Rhododendron (Ericaceae)".
Study name:
"Decoupled leaf and root carbon economics is a key component in the ecological diversity and evolutionary divergence of deciduous and evergreen lineages of genus Rhododendron (Ericaceae)".
This study is part of submission 20919
(Status: Published).
Citation
Medeiros J.S., Burns J.H., Nicholson J., Rogers L., & Valverde-barrantes O. 2017. Decoupled leaf and root carbon economics is a key component in the ecological diversity and evolutionary divergence of deciduous and evergreen lineages of genus Rhododendron (Ericaceae). American Journal of Botany, .
Authors
-
Medeiros J.S.
-
Burns J.H.
(submitter)
216-368-4288
-
Nicholson J.
-
Rogers L.
-
Valverde-barrantes O.
Abstract
? Premise: We explored trait-trait and trait-climate relationships for 27 Rhododendron species while accounting for phylogenetic relationships and within-species variation to investigate whether leaf and root traits are coordinated across environments and over evolutionary time, as part of a whole-plant economics spectrum.
? Methods: We examined specific leaf area (SLA) and four root traits: specific root length (SRL), specific root tip abundance (SRTA), first order diameter, and link average length, for plants growing in a cold, seasonal climate (Kirtland, Ohio) and a warmer, less seasonal climate (Federal Way, Washington). We estimated a phylogeny and species? climate of origin, determined phylogenetic signal on mean traits and within-species variation, and used phylogenetically informed analysis to compare trait-trait and trait-climate relationships for deciduous and evergreen lineages.
? Results: Mean SLA and within-species variation in SRL were more similar between close relatives than expected by chance. SLA and root traits differed according to climate of origin and across growth environments, though SLA differed within- and among-species less than roots. A negative SRL-SRTA correlation indicates investment in foraging scale versus precision as a fundamental trade-off defining the root economic spectrum. Also, the deciduous clade exhibited a strong negative relationship between SLA and SRL, while evergreen clades showed weaker positive, or no relationship.
? Conclusions: Our work suggests that natural selection has shaped above-belowground trait relationships in genus Rhododendron, and that leaf and root traits may evolve independently. Morphological decoupling may help explain habitat diversity among Rhododendron, as well as the changes accompanying the divergence of deciduous and evergreen lineages.
Keywords
plant economics spectrum; root morphology; specific leaf area; trait coordination
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S20919
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref27144,
author = {JULIANA S. MEDEIROS and Jean H. Burns and Jaynell Nicholson and Louisa Rogers and Oscar Valverde-Barrantes},
title = {Decoupled leaf and root carbon economics is a key component in the ecological diversity and evolutionary divergence of deciduous and evergreen lineages of genus Rhododendron (Ericaceae)},
year = {2017},
keywords = {plant economics spectrum; root morphology; specific leaf area; trait coordination},
doi = {},
url = {http://},
pmid = {},
journal = {American Journal of Botany},
volume = {},
number = {},
pages = {},
abstract = {? Premise: We explored trait-trait and trait-climate relationships for 27 Rhododendron species while accounting for phylogenetic relationships and within-species variation to investigate whether leaf and root traits are coordinated across environments and over evolutionary time, as part of a whole-plant economics spectrum.
? Methods: We examined specific leaf area (SLA) and four root traits: specific root length (SRL), specific root tip abundance (SRTA), first order diameter, and link average length, for plants growing in a cold, seasonal climate (Kirtland, Ohio) and a warmer, less seasonal climate (Federal Way, Washington). We estimated a phylogeny and species? climate of origin, determined phylogenetic signal on mean traits and within-species variation, and used phylogenetically informed analysis to compare trait-trait and trait-climate relationships for deciduous and evergreen lineages.
? Results: Mean SLA and within-species variation in SRL were more similar between close relatives than expected by chance. SLA and root traits differed according to climate of origin and across growth environments, though SLA differed within- and among-species less than roots. A negative SRL-SRTA correlation indicates investment in foraging scale versus precision as a fundamental trade-off defining the root economic spectrum. Also, the deciduous clade exhibited a strong negative relationship between SLA and SRL, while evergreen clades showed weaker positive, or no relationship.
? Conclusions: Our work suggests that natural selection has shaped above-belowground trait relationships in genus Rhododendron, and that leaf and root traits may evolve independently. Morphological decoupling may help explain habitat diversity among Rhododendron, as well as the changes accompanying the divergence of deciduous and evergreen lineages.
}
}
- Show RIS reference
TY - JOUR
ID - 27144
AU - MEDEIROS,JULIANA S.
AU - Burns,Jean H.
AU - Nicholson,Jaynell
AU - Rogers,Louisa
AU - Valverde-Barrantes,Oscar
T1 - Decoupled leaf and root carbon economics is a key component in the ecological diversity and evolutionary divergence of deciduous and evergreen lineages of genus Rhododendron (Ericaceae)
PY - 2017
KW - plant economics spectrum; root morphology; specific leaf area; trait coordination
UR - http://dx.doi.org/
N2 - ? Premise: We explored trait-trait and trait-climate relationships for 27 Rhododendron species while accounting for phylogenetic relationships and within-species variation to investigate whether leaf and root traits are coordinated across environments and over evolutionary time, as part of a whole-plant economics spectrum.
? Methods: We examined specific leaf area (SLA) and four root traits: specific root length (SRL), specific root tip abundance (SRTA), first order diameter, and link average length, for plants growing in a cold, seasonal climate (Kirtland, Ohio) and a warmer, less seasonal climate (Federal Way, Washington). We estimated a phylogeny and species? climate of origin, determined phylogenetic signal on mean traits and within-species variation, and used phylogenetically informed analysis to compare trait-trait and trait-climate relationships for deciduous and evergreen lineages.
? Results: Mean SLA and within-species variation in SRL were more similar between close relatives than expected by chance. SLA and root traits differed according to climate of origin and across growth environments, though SLA differed within- and among-species less than roots. A negative SRL-SRTA correlation indicates investment in foraging scale versus precision as a fundamental trade-off defining the root economic spectrum. Also, the deciduous clade exhibited a strong negative relationship between SLA and SRL, while evergreen clades showed weaker positive, or no relationship.
? Conclusions: Our work suggests that natural selection has shaped above-belowground trait relationships in genus Rhododendron, and that leaf and root traits may evolve independently. Morphological decoupling may help explain habitat diversity among Rhododendron, as well as the changes accompanying the divergence of deciduous and evergreen lineages.
L3 -
JF - American Journal of Botany
VL -
IS -
ER -