Plant neighbors differentially alter a focal species' biotic interactions through changes to resource allocation

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Plant neighbors differentially alter a focal species' biotic interactions through changes to resource allocation. / Turner, Sophia C.; Schweitzer, Jennifer A.
In: Ecology, Vol. 105, No. 11, e4395, 11.2024.

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@article{739bc405912d410f99456b3461751f03,
title = "Plant neighbors differentially alter a focal species' biotic interactions through changes to resource allocation",
abstract = "Plant resource allocation strategies are thought to be largely a consequence of changing abiotic conditions and evolutionary history. However, biotic interactions also influence how a plant allocates resources. As a result, plants mediate indirect interactions between organisms above- and belowground through resource allocation. Neighboring plants can influence plant fitness directly through competition for resources, and indirectly by altering associated community interactions (associational effects), such as pollination, herbivory, and a suite of belowground interactions. Given the importance of community interactions for plant success, and the known ability for plant neighbors to change these interactions, the goal of this “pandemic project” was to understand how heterospecific plant neighbors alter plant resource allocation, whether this occurred through above- or belowground mechanisms, and whether this in turn alters biotic interactions and the relationship between a focal plant and its herbivore and soil community interactions. To do so, we established a common garden experiment, manipulating plant neighbor identity and the extent of interaction among neighbors (aboveground only, vs. above- and belowground interactions, using customized pot types), and measured changes to a focal plant and its biotic interactions over two growing seasons. We found evidence of both neighbor effects and pot type, showing that neighbor interactions affect a focal plant through both above- and belowground processes, and how the focal plant is affected depends on neighbor identity. Though neighbors did not directly alter herbivory or most soil microbial interactions, they did alter the relationship between belowground microbial communities and a plant response trait (specific leaf area). Plant resource allocation responses were reduced with time, showing the importance of extending experiments beyond a single growing season, and are an important consideration when making predictions about plant responses to changing conditions. This study contributes to a growing body of work showing how community contexts affect the above- and belowground interactions of a plant through plant resource allocation strategies.",
keywords = "Ecosystems Research, above- and belowground interactions, associational effects, Asteraceae, biotic interactions, competition, interspecific, intraspecific, plant resource allocation, plant-plant interactions, Solidago",
author = "Turner, {Sophia C.} and Schweitzer, {Jennifer A.}",
note = "Publisher Copyright: {\textcopyright} 2024 The Ecological Society of America.",
year = "2024",
month = nov,
doi = "10.1002/ecy.4395",
language = "English",
volume = "105",
journal = "Ecology",
issn = "0012-9658",
publisher = "John Wiley & Sons Ltd.",
number = "11",

}

RIS

TY - JOUR

T1 - Plant neighbors differentially alter a focal species' biotic interactions through changes to resource allocation

AU - Turner, Sophia C.

AU - Schweitzer, Jennifer A.

N1 - Publisher Copyright: © 2024 The Ecological Society of America.

PY - 2024/11

Y1 - 2024/11

N2 - Plant resource allocation strategies are thought to be largely a consequence of changing abiotic conditions and evolutionary history. However, biotic interactions also influence how a plant allocates resources. As a result, plants mediate indirect interactions between organisms above- and belowground through resource allocation. Neighboring plants can influence plant fitness directly through competition for resources, and indirectly by altering associated community interactions (associational effects), such as pollination, herbivory, and a suite of belowground interactions. Given the importance of community interactions for plant success, and the known ability for plant neighbors to change these interactions, the goal of this “pandemic project” was to understand how heterospecific plant neighbors alter plant resource allocation, whether this occurred through above- or belowground mechanisms, and whether this in turn alters biotic interactions and the relationship between a focal plant and its herbivore and soil community interactions. To do so, we established a common garden experiment, manipulating plant neighbor identity and the extent of interaction among neighbors (aboveground only, vs. above- and belowground interactions, using customized pot types), and measured changes to a focal plant and its biotic interactions over two growing seasons. We found evidence of both neighbor effects and pot type, showing that neighbor interactions affect a focal plant through both above- and belowground processes, and how the focal plant is affected depends on neighbor identity. Though neighbors did not directly alter herbivory or most soil microbial interactions, they did alter the relationship between belowground microbial communities and a plant response trait (specific leaf area). Plant resource allocation responses were reduced with time, showing the importance of extending experiments beyond a single growing season, and are an important consideration when making predictions about plant responses to changing conditions. This study contributes to a growing body of work showing how community contexts affect the above- and belowground interactions of a plant through plant resource allocation strategies.

AB - Plant resource allocation strategies are thought to be largely a consequence of changing abiotic conditions and evolutionary history. However, biotic interactions also influence how a plant allocates resources. As a result, plants mediate indirect interactions between organisms above- and belowground through resource allocation. Neighboring plants can influence plant fitness directly through competition for resources, and indirectly by altering associated community interactions (associational effects), such as pollination, herbivory, and a suite of belowground interactions. Given the importance of community interactions for plant success, and the known ability for plant neighbors to change these interactions, the goal of this “pandemic project” was to understand how heterospecific plant neighbors alter plant resource allocation, whether this occurred through above- or belowground mechanisms, and whether this in turn alters biotic interactions and the relationship between a focal plant and its herbivore and soil community interactions. To do so, we established a common garden experiment, manipulating plant neighbor identity and the extent of interaction among neighbors (aboveground only, vs. above- and belowground interactions, using customized pot types), and measured changes to a focal plant and its biotic interactions over two growing seasons. We found evidence of both neighbor effects and pot type, showing that neighbor interactions affect a focal plant through both above- and belowground processes, and how the focal plant is affected depends on neighbor identity. Though neighbors did not directly alter herbivory or most soil microbial interactions, they did alter the relationship between belowground microbial communities and a plant response trait (specific leaf area). Plant resource allocation responses were reduced with time, showing the importance of extending experiments beyond a single growing season, and are an important consideration when making predictions about plant responses to changing conditions. This study contributes to a growing body of work showing how community contexts affect the above- and belowground interactions of a plant through plant resource allocation strategies.

KW - Ecosystems Research

KW - above- and belowground interactions

KW - associational effects

KW - Asteraceae

KW - biotic interactions

KW - competition

KW - interspecific

KW - intraspecific

KW - plant resource allocation

KW - plant-plant interactions

KW - Solidago

UR - http://www.scopus.com/inward/record.url?scp=85204402111&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/e072d941-9e46-32d5-8500-6a09292d0274/

U2 - 10.1002/ecy.4395

DO - 10.1002/ecy.4395

M3 - Journal articles

C2 - 39299794

AN - SCOPUS:85204402111

VL - 105

JO - Ecology

JF - Ecology

SN - 0012-9658

IS - 11

M1 - e4395

ER -

DOI