2005
DOI: 10.1603/0046-225x-34.3.576
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Response of the Fruit Fly ParasitoidDiachasmimorpha longicaudata(Hymenoptera: Braconidae) to Mango Fruit Volatiles

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Cited by 63 publications
(76 citation statements)
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“…Infested apple with codling moth (Cydia pomonella L.) larvae gave a high level of esters and farnescene, from first instar infested and other instars, but the amount decreased in healthy fruits [16]. [11] Similar pattern in increase of esters can be found in our findings. In addition, some compounds were presented in high concentration in non-infested apple as compare to infested fruit such as propyl isobutyrate, n-butyl 2 methylbutyrate and others and also vice versa pattern is seen where high concentration of some compounds can be seen in infested fruits as compare to non infested fruits ( Table 2).…”
Section: The Volatile Compounds From Applessupporting
confidence: 87%
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“…Infested apple with codling moth (Cydia pomonella L.) larvae gave a high level of esters and farnescene, from first instar infested and other instars, but the amount decreased in healthy fruits [16]. [11] Similar pattern in increase of esters can be found in our findings. In addition, some compounds were presented in high concentration in non-infested apple as compare to infested fruit such as propyl isobutyrate, n-butyl 2 methylbutyrate and others and also vice versa pattern is seen where high concentration of some compounds can be seen in infested fruits as compare to non infested fruits ( Table 2).…”
Section: The Volatile Compounds From Applessupporting
confidence: 87%
“…According to [10], medfly can change the volatile compounds of the fruits. It also has been shown that chemical changes can occur within host fruit as a result of insect infestation [11]. In this research, we examined different types of fruits infested with C. capitata to determine if infested fruit give us different chemicals profiles from non-infected fruits.…”
Section: Introductionmentioning
confidence: 99%
“…There are at least 5 potential sources of opiine-attractive compounds: fruit, other adult foods such as honey dew or flower-nectar (e.g., acetophenone from Lobularia maritima L. in Rohrig et al 2008;Sivinski et al 2006;Sivinski et al 2011;Wang et al 2011), fruit fly larvae (e.g., para-ethylacetophenone in Stuhl et al 2011b), the by-products of fruit fly infestation and decay (e.g., fungal-derived ethanol, acetaldehyde and acetic acid in Greany et al 1977; 2-phenylethyl acetate unique to infested mango [Mangifera indica L.] in Carrasco et al 2005), and adult-host semiochemicals (e.g., Prokopy & Webster 1978;Roitberg & Lalonde 1991). It seems possible that all of these, in one combination or another, might contribute to a useful monitoring system.…”
Section: Discussionmentioning
confidence: 99%
“…Este inseto é um endoparasitoide coinobionte que oviposita no último ínstar larval de tefritídeos e completa o desenvolvimento no estágio pupal do hospedeiro (Carvalho & Nascimento, 2002). Fêmeas de D. longicaudata detectam os voláteis de frutos infestados por tefritídeos (Duan & Messing, 2000;Carrasco et al, 2005;Silva et al, 2007;Stuhl et al, 2011). Além disso, foi constatado que mesmo na ausência de larvas de moscas-das-frutas, substratos em decomposição (Silva et al, 2007;Segura et al, 2012) e a presença de fungos (Greany et al, 1977) são atrativos ao parasitoide.…”
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