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1 September 2009 Temporal Dynamics of Flight Muscle Development in Triatoma infestans (Hemiptera: Reduviidae)
Juan M. Gurevitz, Uriel Kitron, Ricardo E. Gürtler
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Triatoma infestans Klug is dimorphic for flight muscles. This dimorphism may affect flight dispersal, reinfestation patterns, and transmission risk. To understand the contributions of genes and environment to morph determination, it is first necessary to characterize the temporal dynamics of flight muscle development. Field-collected T. infestans adults were dissected 20 or 100 d after collection, and those collected as nymphs were dissected at ≈4, 15, or 44 d after the imaginal molt. The occurrence of flight muscles was additionally assessed by minimally invasive, repeated observations through the scutum of live bugs. Overall, 33.5% of 179 males and 7.8% of 179 females had no flight muscles. Neither dissections nor repeated observations evidenced changes in morph type during adult life, suggesting that the occurrence of flight muscles is mostly irreversible within the time span of observations and is determined before or during final ecdysis. Flight muscles were detectable at 4 d after emergence and achieved complete development within 4–15 d after emergence. The repeated observation of thoracic contents through the scutum showed very high sensitivity and specificity and apparently had minor effects on mortality. In another bug population located 360 km away, 16.4% of 177 males and 6.7% of 149 females had no flight muscles. Current results show that the sex-biased flight muscle dimorphism is a regionally widespread character in T. infestans. This character should be considered in field population studies that seek to measure reinfestation risk and dispersal in T. infestans and other Triatominae.

© 2009 Entomological Society of America
Juan M. Gurevitz, Uriel Kitron, and Ricardo E. Gürtler "Temporal Dynamics of Flight Muscle Development in Triatoma infestans (Hemiptera: Reduviidae)," Journal of Medical Entomology 46(5), 1021-1024, (1 September 2009).
Received: 6 February 2008; Accepted: 1 October 2008; Published: 1 September 2009

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Chagas disease
dispersal polymorphism
flight muscle development
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