Variability in leaf traits reveals contrasting strategies between forest and grassland woody communities across southern Brazil

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Variability in leaf traits reveals contrasting strategies between forest and grassland woody communities across southern Brazil. / Klipel, Joice; Müller, Sandra C.; Gliesch, Mariana et al.
In: Flora, Vol. 305, 152340, 01.08.2023.

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Klipel J, Müller SC, Gliesch M, Duarte L, Bergmann Carlucci M, Bergamin RS. Variability in leaf traits reveals contrasting strategies between forest and grassland woody communities across southern Brazil. Flora. 2023 Aug 1;305:152340. doi: 10.1016/j.flora.2023.152340

Bibtex

@article{a217c171bd22429094e5d92a6931ae50,
title = "Variability in leaf traits reveals contrasting strategies between forest and grassland woody communities across southern Brazil",
abstract = "Forests and grasslands often form mosaics in subtropical regions such as in southern Brazil. Currently, we observe the processes of woody species encroachment and forest expansion over grasslands due to changes in climate conditions and disturbance regimes. Woody plants occurring across such mosaics can be specialists from one habitat type (forest or grassland) or a generalist species (those occurring in both of these contrasting habitats). Here, we explore if their occurrence in distinct habitats is coordinated by functional traits, considering both intra- and interspecific variability and phylogenetic relatedness between species, thereby assessing changes between habitats from the individual to the community scale. We surveyed forest and grassland vegetation forming mosaics in nine sites in southern Brazil. We found that grassland-forest communities do not differ in phylogenetic diversity, irrespective of considering or not the gymnosperms of the communities. Furthermore, forests presented lower diversity in leaf area than grasslands, with a predominance of large leaves but higher diversity of specific leaf area and leaf dry matter content, with leaves predominantly with an acquisitive resource strategy. When considering species with different habitat preferences, forest-specialist species showed traits related to resource acquisition, while grassland-specialist species showed trait values associated with resource conservation. Generalist species have trait values according to habitat occurrence, showing high intraspecific variability and trait plasticity to establish on both forest and grassland habitats. Assessing the trait variability from woody individuals is important to understanding the contrasting strategies used by different species in grassland-forest mosaics and can be essential to predict the dynamics of these ecosystems, given the changes in climate and disturbances regimes.",
keywords = "Ecosystems Research, ecotones, functional traits, habitat preferences, intraspecific variability, interspecific variability, woody plant communities, ecotones, functional traits, habitat preferences, intraspecific variability, interspecific variability, woody plant communities",
author = "Joice Klipel and M{\"u}ller, {Sandra C.} and Mariana Gliesch and Leandro Duarte and {Bergmann Carlucci}, Marcos and Bergamin, {Rodrigo Scarton}",
note = "Publisher Copyright: {\textcopyright} 2023",
year = "2023",
month = aug,
day = "1",
doi = "10.1016/j.flora.2023.152340",
language = "English",
volume = "305",
journal = "Flora",
issn = "0367-2530",
publisher = "Elsevier B.V.",

}

RIS

TY - JOUR

T1 - Variability in leaf traits reveals contrasting strategies between forest and grassland woody communities across southern Brazil

AU - Klipel, Joice

AU - Müller, Sandra C.

AU - Gliesch, Mariana

AU - Duarte, Leandro

AU - Bergmann Carlucci, Marcos

AU - Bergamin, Rodrigo Scarton

N1 - Publisher Copyright: © 2023

PY - 2023/8/1

Y1 - 2023/8/1

N2 - Forests and grasslands often form mosaics in subtropical regions such as in southern Brazil. Currently, we observe the processes of woody species encroachment and forest expansion over grasslands due to changes in climate conditions and disturbance regimes. Woody plants occurring across such mosaics can be specialists from one habitat type (forest or grassland) or a generalist species (those occurring in both of these contrasting habitats). Here, we explore if their occurrence in distinct habitats is coordinated by functional traits, considering both intra- and interspecific variability and phylogenetic relatedness between species, thereby assessing changes between habitats from the individual to the community scale. We surveyed forest and grassland vegetation forming mosaics in nine sites in southern Brazil. We found that grassland-forest communities do not differ in phylogenetic diversity, irrespective of considering or not the gymnosperms of the communities. Furthermore, forests presented lower diversity in leaf area than grasslands, with a predominance of large leaves but higher diversity of specific leaf area and leaf dry matter content, with leaves predominantly with an acquisitive resource strategy. When considering species with different habitat preferences, forest-specialist species showed traits related to resource acquisition, while grassland-specialist species showed trait values associated with resource conservation. Generalist species have trait values according to habitat occurrence, showing high intraspecific variability and trait plasticity to establish on both forest and grassland habitats. Assessing the trait variability from woody individuals is important to understanding the contrasting strategies used by different species in grassland-forest mosaics and can be essential to predict the dynamics of these ecosystems, given the changes in climate and disturbances regimes.

AB - Forests and grasslands often form mosaics in subtropical regions such as in southern Brazil. Currently, we observe the processes of woody species encroachment and forest expansion over grasslands due to changes in climate conditions and disturbance regimes. Woody plants occurring across such mosaics can be specialists from one habitat type (forest or grassland) or a generalist species (those occurring in both of these contrasting habitats). Here, we explore if their occurrence in distinct habitats is coordinated by functional traits, considering both intra- and interspecific variability and phylogenetic relatedness between species, thereby assessing changes between habitats from the individual to the community scale. We surveyed forest and grassland vegetation forming mosaics in nine sites in southern Brazil. We found that grassland-forest communities do not differ in phylogenetic diversity, irrespective of considering or not the gymnosperms of the communities. Furthermore, forests presented lower diversity in leaf area than grasslands, with a predominance of large leaves but higher diversity of specific leaf area and leaf dry matter content, with leaves predominantly with an acquisitive resource strategy. When considering species with different habitat preferences, forest-specialist species showed traits related to resource acquisition, while grassland-specialist species showed trait values associated with resource conservation. Generalist species have trait values according to habitat occurrence, showing high intraspecific variability and trait plasticity to establish on both forest and grassland habitats. Assessing the trait variability from woody individuals is important to understanding the contrasting strategies used by different species in grassland-forest mosaics and can be essential to predict the dynamics of these ecosystems, given the changes in climate and disturbances regimes.

KW - Ecosystems Research

KW - ecotones

KW - functional traits

KW - habitat preferences

KW - intraspecific variability

KW - interspecific variability

KW - woody plant communities

KW - ecotones

KW - functional traits

KW - habitat preferences

KW - intraspecific variability

KW - interspecific variability

KW - woody plant communities

UR - http://www.scopus.com/inward/record.url?scp=85166634153&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/15575a37-9462-3d01-b96b-bd01677c5d5c/

U2 - 10.1016/j.flora.2023.152340

DO - 10.1016/j.flora.2023.152340

M3 - Journal articles

VL - 305

JO - Flora

JF - Flora

SN - 0367-2530

M1 - 152340

ER -