Inter-laboratory comparison of plant volatile analyses in the light of intra-specific chemodiversity

Eckert, Silvia; Eilers, Elisabeth J.; Jakobs, Ruth; Anaia, Redouan Adam; Aragam, Kruthika Sen; Bloss, Tanja; Popp, Moritz; Sasidharan, Rohit; Schnitzler, Jörg‐Peter; Stein, Florian; Steppuhn, Anke; Unsicker, Sybille B.; Dam, Nicole M. van; Yepes, Sol; Ziaja, Dominik; Müller, Caroline

doi:10.1007/s11306-023-02026-6

Cited by 3 publications

References 88 publications

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Intraspecific chemical variation ofTanacetum vulgareaffects plant growth and reproductive traits in field plant communities

Ojeda-Prieto

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et al. 2023

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Intraspecific plant chemodiversity plays a fundamental role in interactions between plants and their interaction partners. Individuals of a plant species can be clustered into chemotypes by dominant chemical compounds or their chemical composition. Intraspecific stands of plant communities can vary in the number and type of plant chemotypes that grow in them (i.e., chemotype richness). Chemotypic diversity at the stand level is a special case of intraspecific diversity that is predicted to increase stand-level ecosystem functioning. Here we describe a biodiversity experiment in which we manipulated intraspecific plant chemodiversity at the plot level using six different chemotypes of common tansy (Tanacetum vulgare L., Asteraceae). We tested the effects of chemotype identity and plot-level chemotype richness (1-6) on plant growth and reproductive traits under field conditions. We found that plant chemotypes differed in growth and reproductive traits, both at the plant level, and at the plot level, and that reproductive plant traits and plot-level trait means were affected by tansy chemodiversity. The plot-level trait means were influenced by the presence or absence of certain chemotypes in a plot. The community's headspace terpenoid blend minimally reflected plot-level leaf terpenoid compound blends. Although tradeoffs between chemodiversity and growth and reproductive traits were observed, the links between chemodiversity and traits expressed themselves in the early establishment but dissolved over time, suggesting that different chemotypes adopt different growth strategies, which may facilitate their establishment in nature. This long-term field experiment will allow for further investigation of the consequences of intraspecific chemodiversity for plant-insect interactions and insect community assembly.

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Intraspecific chemical variation ofTanacetum vulgareaffects plant growth and reproductive traits in field plant communities

Ojeda-Prieto

Berkum

Unsicker

et al. 2023

Preprint

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Intraspecific chemical variation of Tanacetum vulgare affects plant growth and reproductive traits in field plant communities

Ojeda‐Prieto,

Medina‐van Berkum,

Unsicker

et al. 2024

Plant Biol J

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The study investigated the impact of intraspecific plant chemodiversity on plant growth and reproductive traits at both the plant and plot levels. It also aimed to understand how chemodiversity at stand level affects ecosystem functioning and plant–plant interactions. We describe a biodiversity experiment in which we manipulated intraspecific plant chemodiversity at the plot level using six different chemotypes of common tansy (Tanacetum vulgare L., Asteraceae). We tested the effects of chemotype identity and plot‐level chemotype richness on plant growth and reproductive traits and plot‐level headspace emissions. The study found that plant chemotypes differed in growth and reproductive traits and that traits were affected by the chemotype richness of the plots. Although morphological differences among chemotypes became less pronounced over time, reproductive phenology patterns persisted. Plot‐level trait means were also affected by the presence or absence of certain chemotypes in a plot, and the direction of the effect depended on the specific chemotype. However, chemotype richness did not lead to overyielding effects. Lastly, chemotype blends released from plant communities were neither richer nor more diverse with increasing plot‐level chemotype richness, but became more dissimilar as they became more dissimilar in their leaf terpenoid profiles. We found that intraspecific plant chemodiversity is crucial in plant–plant interactions. We also found that the effects of chemodiversity on plant growth and reproductive traits were complex and varied depending on the chemotype richness of the plots. This long‐term field experiment will allow further investigation into plant–insect interactions and insect community assembly in response to intraspecific chemodiversity.

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Understanding your biases in collecting organismal VOCs

Seybert,

Duplais

2024

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Volatile organic compounds (VOCs) play a fundamental role in organismal interactions, facilitating intra- and interspecific communication. Accurate collection and analysis of VOCs are essential for understanding these interactions, but the choice of collection method and adsorbent material can introduce biases. This study investigates the variability and recovery yield in VOC collection using various adsorbents and thin-film solid-phase microextraction (TF-SPME). We compared the performance of nine adsorbents and TF-SPME in capturing a standard VOC mixture and VOCs from rosemary plants. Results show significant differences in efficiency among adsorbents, with Porapak® P generally providing the best recovery for most compounds. TF-SPME exhibited higher sensitivity and detected a broader range of volatiles compared to adsorbents, though qualitative profiles varied. Our findings underscore the importance of empirical testing in adsorbent selection and highlight the inherent biases in VOC collection methods. These insights aim to guide and empower researchers in making informed decisions regarding experimental design and data interpretation to achieve more accurate and reliable VOC results in chemical ecology studies.

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Inter-laboratory comparison of plant volatile analyses in the light of intra-specific chemodiversity

Cited by 3 publications

References 88 publications

Intraspecific chemical variation ofTanacetum vulgareaffects plant growth and reproductive traits in field plant communities

Intraspecific chemical variation ofTanacetum vulgareaffects plant growth and reproductive traits in field plant communities

Intraspecific chemical variation of Tanacetum vulgare affects plant growth and reproductive traits in field plant communities

Understanding your biases in collecting organismal VOCs

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