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Ann Bot


Title:Phenotypic plasticity of floral volatiles in response to increasing drought stress
Author(s):Campbell DR; Sosenski P; Raguso RA;
Address:"Department of Ecology and Evolutionary Biology, University of California, Irvine, CA, USA. Rocky Mountain Biological Laboratory, Crested Butte, CO, USA. CONACYT - Departamento de Ecologia Tropical, Campus de Ciencias Biologicas y Agropecuarias, Universidad Autonoma de Yucatan, Merida, Yucatan, Mexico. Department of Neurobiology and Behavior, Cornell University, Ithaca, NY, USA"
Journal Title:Ann Bot
Year:2019
Volume:123
Issue:4
Page Number:601 - 610
DOI: 10.1093/aob/mcy193
ISSN/ISBN:1095-8290 (Electronic) 0305-7364 (Print) 0305-7364 (Linking)
Abstract:"BACKGROUND AND AIMS: Flowers emit a wide range of volatile compounds which can be critically important to interactions with pollinators or herbivores. Yet most studies of how the environment influences plant volatiles focus on leaf emissions, with little known about abiotic sources of variation in floral volatiles. Understanding phenotypic plasticity in floral volatile emissions has become increasingly important with globally increasing temperatures and changes in drought frequency and severity. Here quantitative relationships of floral volatile emissions to soil water content were analysed. METHODS: Plants of the sub-alpine herb Ipomopsis aggregata and hybrids with its closest congener were subjected to a progressive dry down, mimicking the range of soil moistures experienced in the field. Floral volatiles and leaf gas exchange were measured at four time points during the drought. KEY RESULTS: As the soil dried, floral volatile emissions increased overall and changed in composition, from more 1,3-octadiene and benzyl alcohol to higher representation of some terpenes. Emissions of individual compounds were not linearly related to volumetric water content in the soil. The dominant compound, the monoterpene alpha-pinene, made up the highest percentage of the scent mixture when soil moisture was intermediate. In contrast, emission of the sesquiterpene (E,E)-alpha-farnesene accelerated as the drought became more intense. Changes in floral volatiles did not track the time course of changes in photosynthetic rate or stomatal conductance. CONCLUSIONS: This study shows responses of specific floral volatile organic compounds to soil moisture. The non-linear responses furthermore suggest that extreme droughts may have impacts that are not predictable from milder droughts. Floral volatiles are likely to change seasonally with early summer droughts in the Rocky Mountains, as well as over years as snowmelt becomes progressively earlier. Changes in water availability may have impacts on plant-animal interactions that are mediated through non-linear changes in floral volatiles"
Keywords:"Adaptation, Physiological/*physiology *Droughts Ericaceae/*physiology Flowers/physiology Odorants/*analysis Soil/chemistry *Stress, Physiological Volatile Organic Compounds/*metabolism Ipomopsis aggregata Ipomopsis tenuituba Drought Voc floral scent pheno;"
Notes:"MedlineCampbell, Diane R Sosenski, Paula Raguso, Robert A eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. England 2018/10/27 Ann Bot. 2019 Mar 14; 123(4):601-610. doi: 10.1093/aob/mcy193"

 
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