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Neighbourhood effects on herbivory damage and chemical profiles in short-rotation coppice willows and their hybrids

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Neighbourhood effects on herbivory damage and chemical profiles in short-rotation coppice willows and their hybrids. / Aubona, Gibson; Mezzomo, Priscila; Sedio, Brian E. et al.
In: Phytochemistry, Vol. 228, 114249, 12.2024.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Aubona, G, Mezzomo, P, Sedio, BE, Staab, M & Volf, M 2024, 'Neighbourhood effects on herbivory damage and chemical profiles in short-rotation coppice willows and their hybrids', Phytochemistry, vol. 228, 114249. https://doi.org/10.1016/j.phytochem.2024.114249

APA

Aubona, G., Mezzomo, P., Sedio, B. E., Staab, M., & Volf, M. (2024). Neighbourhood effects on herbivory damage and chemical profiles in short-rotation coppice willows and their hybrids. Phytochemistry, 228, Article 114249. https://doi.org/10.1016/j.phytochem.2024.114249

Vancouver

Aubona G, Mezzomo P, Sedio BE, Staab M, Volf M. Neighbourhood effects on herbivory damage and chemical profiles in short-rotation coppice willows and their hybrids. Phytochemistry. 2024 Dec;228:114249. doi: 10.1016/j.phytochem.2024.114249

Bibtex

@article{fc062d91265a4812a0687250e8617b40,
title = "Neighbourhood effects on herbivory damage and chemical profiles in short-rotation coppice willows and their hybrids",
abstract = "Short rotation coppices (SRCs) represent an important source of biomass. Since they are grown in various mixtures, SRCs represent an excellent opportunity for assessing the effects of local plant neighbourhoods on their performance. We used a common garden experiment consisting of plots that varied in genotype diversity of SRC willows to test for the effects of chemical traits of individual plants and chemical variation in the plots where they grew on insect herbivory. We also explored whether the composition of willows planted in a plot affected their chemistry. To do this, we performed untargeted metabolomics and quantified various chemical traits related to the total set of metabolites we detected, flavonoids, and salicinoids in four willow genotypes. We measured the leaf herbivory that the plants suffered. The genotypes differed in most chemical traits, yet we found only limited effects of individual traits on herbivory damage. Instead, herbivory damage was positively correlated with structural variation in salicinoids in a plot. When analysing the effects of plot chemical variation on herbivory damage separately for each genotype, we found both positive and negative correlations between the two, suggesting both associational resistance and susceptibility. Finally, we also observed a significant effect of the interaction between genotype and plot composition on structural variation in plant chemistry. Overall, our results suggest that high chemical variation in mixed willow SRCs does not necessarily lower the herbivory damage, possibly due to spillover effects of insect herbivores among genotypes. Our results also show that different genotypes respond differently to plot composition in terms of herbivory damage and chemical composition, which may affect their suitability for growing in mixed stands.",
keywords = "Associational resistance, Chemical defences, Diversity, Salix, Specialized metabolites, SRC, Biology, Ecosystems Research",
author = "Gibson Aubona and Priscila Mezzomo and Sedio, {Brian E.} and Michael Staab and Martin Volf",
note = "Publisher Copyright: {\textcopyright} 2024 Elsevier Ltd",
year = "2024",
month = dec,
doi = "10.1016/j.phytochem.2024.114249",
language = "English",
volume = "228",
journal = "Phytochemistry",
issn = "0031-9422",
publisher = "Elsevier Ltd",

}

RIS

TY - JOUR

T1 - Neighbourhood effects on herbivory damage and chemical profiles in short-rotation coppice willows and their hybrids

AU - Aubona, Gibson

AU - Mezzomo, Priscila

AU - Sedio, Brian E.

AU - Staab, Michael

AU - Volf, Martin

N1 - Publisher Copyright: © 2024 Elsevier Ltd

PY - 2024/12

Y1 - 2024/12

N2 - Short rotation coppices (SRCs) represent an important source of biomass. Since they are grown in various mixtures, SRCs represent an excellent opportunity for assessing the effects of local plant neighbourhoods on their performance. We used a common garden experiment consisting of plots that varied in genotype diversity of SRC willows to test for the effects of chemical traits of individual plants and chemical variation in the plots where they grew on insect herbivory. We also explored whether the composition of willows planted in a plot affected their chemistry. To do this, we performed untargeted metabolomics and quantified various chemical traits related to the total set of metabolites we detected, flavonoids, and salicinoids in four willow genotypes. We measured the leaf herbivory that the plants suffered. The genotypes differed in most chemical traits, yet we found only limited effects of individual traits on herbivory damage. Instead, herbivory damage was positively correlated with structural variation in salicinoids in a plot. When analysing the effects of plot chemical variation on herbivory damage separately for each genotype, we found both positive and negative correlations between the two, suggesting both associational resistance and susceptibility. Finally, we also observed a significant effect of the interaction between genotype and plot composition on structural variation in plant chemistry. Overall, our results suggest that high chemical variation in mixed willow SRCs does not necessarily lower the herbivory damage, possibly due to spillover effects of insect herbivores among genotypes. Our results also show that different genotypes respond differently to plot composition in terms of herbivory damage and chemical composition, which may affect their suitability for growing in mixed stands.

AB - Short rotation coppices (SRCs) represent an important source of biomass. Since they are grown in various mixtures, SRCs represent an excellent opportunity for assessing the effects of local plant neighbourhoods on their performance. We used a common garden experiment consisting of plots that varied in genotype diversity of SRC willows to test for the effects of chemical traits of individual plants and chemical variation in the plots where they grew on insect herbivory. We also explored whether the composition of willows planted in a plot affected their chemistry. To do this, we performed untargeted metabolomics and quantified various chemical traits related to the total set of metabolites we detected, flavonoids, and salicinoids in four willow genotypes. We measured the leaf herbivory that the plants suffered. The genotypes differed in most chemical traits, yet we found only limited effects of individual traits on herbivory damage. Instead, herbivory damage was positively correlated with structural variation in salicinoids in a plot. When analysing the effects of plot chemical variation on herbivory damage separately for each genotype, we found both positive and negative correlations between the two, suggesting both associational resistance and susceptibility. Finally, we also observed a significant effect of the interaction between genotype and plot composition on structural variation in plant chemistry. Overall, our results suggest that high chemical variation in mixed willow SRCs does not necessarily lower the herbivory damage, possibly due to spillover effects of insect herbivores among genotypes. Our results also show that different genotypes respond differently to plot composition in terms of herbivory damage and chemical composition, which may affect their suitability for growing in mixed stands.

KW - Associational resistance

KW - Chemical defences

KW - Diversity

KW - Salix

KW - Specialized metabolites

KW - SRC

KW - Biology

KW - Ecosystems Research

UR - http://www.scopus.com/inward/record.url?scp=85201637830&partnerID=8YFLogxK

U2 - 10.1016/j.phytochem.2024.114249

DO - 10.1016/j.phytochem.2024.114249

M3 - Journal articles

C2 - 39155032

AN - SCOPUS:85201637830

VL - 228

JO - Phytochemistry

JF - Phytochemistry

SN - 0031-9422

M1 - 114249

ER -

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