Topic
Lepidoptera genitalia
About: Lepidoptera genitalia is a research topic. Over the lifetime, 10114 publications have been published within this topic receiving 78876 citations. The topic is also known as: Uncus.
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29 citations
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TL;DR: In Lepidoptera, the course of nuclear-polyhedrosis virus infection is interrupted at periods of rapid cell proliferation such as those that occur during the formation of the pupa and adult, which increases the incubation period of the disease.
Abstract: In Lepidoptera, the course of nuclear-polyhedrosis virus infection is interrupted at periods of rapid cell proliferation such as those that occur during the formation of the pupa and adult. Embryon...
29 citations
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TL;DR: In the phylogenetic classification of the Lepidoptera, the position of the genital opening and its modifications help to clarify the relationship of the Zeugloptera to the lepidopterous suborders.
Abstract: In the phylogenetic classification of the Lepidoptera, the position of the genital opening and its modifications help to clarify the relationship of the Zeugloptera to the lepidopterous suborders. Three different systems of the suborder classification of the Lepidoptera, into Homoneura and Heteroneura (Tillyard, Imms, etc.), Monotrysia and Ditrysia (Borner), and Dacnonypha, Monotrysia, and Ditrysia (Hinton), are not supported by evidence obtained in the study of the female genitalia.The development of the female terminalia is closely associated with the mode of oviposition. Several types of female terminalia are found in the primitive Lepidoptera (Hepialidae, Neopseustidae, Tischeriidae, Lyonetiidae, Agathiphagidae, Tineidae, Nepticulidae, and Eriocraniidae). They are divided into four categories: hepialid type — the eggs are dropped randomly; typical lepidopterous type — the eggs are laid on the surface of food plants; eriocraniid type — the eggs are laid inside the food plants; tineid type — the eggs are laid in crevices of food. Each of the types is derivable from the types occurring in Neopseustidae, Tischeriidae, Agathiphagidae, and Eriocraniidae, respectively. These types are still far removed from the type of female terminalia in Micropterygidae of the Zeugloptera.The modes of egg-laying as well as the morphological characters of the female genitalia must be taken into consideration in suborder classification of the Lepidoptera.A genealogical tree based on the female terminalia suggests four main branches: hepialid branch — includes Neopseustidae and Prototheoridae; typical lepidopterous branch — includes all Ditrysia and Nepticulidae; tineid branch — includes only Tineidae; eriocraniid branch — includes Incurvariidae, Prodoxidae, Adelidae, and Heliozelidae.
29 citations
01 Jan 2001
TL;DR: The Bt-cry1Ia1 gene offers another source of resistance that can be pyramided for effectiveness toward the development of durable resistance to PTM and other insect pests.
Abstract: The effect of Bt-cry1Ia1 (cryV now designated cry1Ia1 under revised nomenclature) of potato transgenic plants on the two species of potato tuber moth, Phthorimaea operculella (Zeller) and Symmetrischema tangolias (Gyen), was tested in Peru. Detached leaf bioassays were done using 10 neonate larvae per replication on each transgenic line of bred potato varieties Atlantic and Spunta. Mortality in Atlantic transgenic plants was lower for P. operculella, ranging from 18 to 34%, than for S. tangolias ranging from 40 to 94%. All transformed Spunta lines tested showed high levels of mortality in both species, with mortality ranging between 80 and 98%. The Bt-cry1Ia1 gene offers another source of resistance that can be pyramided for effectiveness toward the development of durable resistance to PTM and other insect pests.
29 citations