2010
DOI: 10.1093/treephys/tpq072
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Volatile organic compound emissions induced by the aphid Myzus persicae differ among resistant and susceptible peach cultivars and a wild relative

Abstract: Little is known on aphid-induced emissions of volatile organic compounds (VOCs) from trees and particularly on their intraspecific variability in association with resistance traits. We compared VOC emissions from five peach cultivars (Prunus persica (L.) Batsch) and a wild relative (Prunus davidiana (Carrière) Franch) that differ in their level (susceptible/resistant) and type (antixenosis, antibiosis) of resistance to the green peach aphid, Myzus persicae (Sulzer). Additionally, the kinetics of VOC induction … Show more

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Cited by 77 publications
(63 citation statements)
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“…Terpenoid emissions in Z. mays elicited by oral secretion of Spodoptera littoralis increased with decreasing soil water availability (Gouinguené and Turlings, 2002), and increased curvilinearly with air humidity, light intensity, and temperature (Gouinguené and Turlings, 2002). These environmental responses are analogous to observations in other species (Staudt and Lhoutellier, 2007; Staudt et al, 2010; Staudt and Lhoutellier, 2011), and are consistent with the strong connection of the production of induced terpenoid volatiles and photosynthetic carbon metabolism (see above). In addition, due to high water-solubility of some of the induced compounds such as linalool, methanol and LOX pathway volatiles, variations in stomatal openness during the day and in response to soil drought can directly affect the emissions of water-soluble volatiles (Niinemets et al, 2002; Niinemets et al, 2004; Harley et al, 2007; Harley, 2013).…”
Section: Complications In Characterizing the Dose-dependencies Of Elisupporting
confidence: 89%
“…Terpenoid emissions in Z. mays elicited by oral secretion of Spodoptera littoralis increased with decreasing soil water availability (Gouinguené and Turlings, 2002), and increased curvilinearly with air humidity, light intensity, and temperature (Gouinguené and Turlings, 2002). These environmental responses are analogous to observations in other species (Staudt and Lhoutellier, 2007; Staudt et al, 2010; Staudt and Lhoutellier, 2011), and are consistent with the strong connection of the production of induced terpenoid volatiles and photosynthetic carbon metabolism (see above). In addition, due to high water-solubility of some of the induced compounds such as linalool, methanol and LOX pathway volatiles, variations in stomatal openness during the day and in response to soil drought can directly affect the emissions of water-soluble volatiles (Niinemets et al, 2002; Niinemets et al, 2004; Harley et al, 2007; Harley, 2013).…”
Section: Complications In Characterizing the Dose-dependencies Of Elisupporting
confidence: 89%
“…MeSA is an aromatic compound naturally produced by plants under attack from phloem-feeding herbivores like aphids (Staudt et al, 2010). The role of MeSA in plant-plant and plant-insect interactions has been demonstrated in cereal plant species (Ninkovic et al, 2003) as well as other plant systems (James, 2005;Orre, Wratten, Jonsson, & Hale, 2010;Snoeren et al, 2010;Tang, Zhao, & Gao, 2013).…”
Section: Olfactory Cues and Arthropod Preymentioning
confidence: 99%
“…Other sources of emission variation such as the stress dose dependent induction kinetics (e.g. Copolovici et al, 2011;Staudt et al, 2010) or endogenous circadian clocks (e.g. Kunert et al, 2002) come into play and thus veil possible short-term light and temperature effects on emissions.…”
Section: Introductionmentioning
confidence: 99%