A guild of neotropical rain forest dung scarabs, collected by baited pit traps, was composed of 11 genera and 31 species of Scarabaeinae. Relative abundances were highly equitable. Population densities were high and stable through the transition from wet to dry season. Competition for dung was intense and removal and burial rates were rapid. Resource use differed between genera and species in diel flight activity, foraging and dung removal methods, and behavior. Interspecific aggression and dung stealing behaviors were well developed. Reproductive activity was inversely correlated with aggression and parental investment.
Few animals are as avidly sought and as. rarely found by invertebrate zoologists in the American tropics as are onychophorans. Yet, attempting to determine any specimens which one is fortunate enough to find can be a frustrating experience because o.f the scattered and incomplete literature. In December I972, while engaged in a survey of the invertebrate cave fauna of Jamaica, I discovered an eyeless and depigmented onychophoran. At that time, I knew t'hat the only other known species of cave-adapted (troglobitic) onychophoran, Peripatopsis alba Lawrence I93I, was fro.m one cave in South Africa. To evaluate the status of the Jamaican troglobitic species. I undertook a review of the literature of New World Onych.ophora, and an examination of some 300 specimens in the collections of the Museum of Compara
SUMMARYObligatory cave species exhibit dramatic trait modifications such as eye reduction, loss of pigmentation and an increase in touch receptors. As molecular studies of cave adaptation have largely concentrated on vertebrate models, it is not yet possible to probe for genetic universalities underlying cave adaptation. We have therefore begun to study the strongly cave-adapted small carrion beetle Ptomaphagus hirtus. For over 100 years, this flightless signature inhabitant of Mammoth Cave, the world's largest known cave system, has been considered blind despite the presence of residual lens structures. By deep sequencing of the adult head transcriptome, we discovered the transcripts of all core members of the phototransduction protein machinery. Combined with the absence of transcripts of select structural photoreceptor and eye pigmentation genes, these data suggest a reduced but functional visual system in P. hirtus. This conclusion was corroborated by a negative phototactic response of P. hirtus in light/dark choice tests. We further detected the expression of the complete circadian clock gene network in P. hirtus, raising the possibility of a role of light sensation in the regulation of oscillating processes. We speculate that P. hirtus is representative of a large number of animal species with highly reduced but persisting visual capacities in the twilight zone of the subterranean realm. These can now be studied on a broad comparative scale given the efficiency of transcript discovery by next-generation sequencing.
Abstract. The order Zoraptera has traditionally been thought to contain only one family (Zorotypidae) and one genus (Zorotypus Silvestri). An analysis of known zorapteran wings shows that the wing venation contains character sets indicative of the existence of seven genera: Zorotypus, Brazilozoros gen.n., Centrozoros gen.n., Floridazoros gen.n., Latinozoros gen.n., Meridozoros gen.n. and Usazoros gen.n. The wing venation of Meridozoros leleupi (Weidner) from the Galapagos Islands, Ecuador and Venezuela is described here for the first time.
The major wing structures show that Zoraptera belong to the blattoid lineage. Head and abdomen characters indicate that Zoraptera probably diverged from the Blattoneoptera stock early, almost certainly before the (Protelytroptera + Dermaptera) line, and much before the (Isoptera + (Blattodea + Mantodea)) line. A homologized wing vein system is proposed for the Isoptera.
The homologized wing vein system is based on the hypothesis that the Pterygota originated with the development of protowings, which then diverged through separate but characteristic adaptations for flapping flight. Therefore the basic wing venation pattern is monophyletic, but the changes in wing musculature, articulation and basic braces between main veins are different in the major (super‐ordinal) pterygote lineages (Pleconeoptera, Orthoneoptera, Blattoneoptera, Hemineoptera and Endoneoptera). Thus, these characters provide an extremely useful, almost untapped, source of data for higher‐level systematics. Both higher‐level and lower‐level wing characters have been applied here to the phylogeny of Zoraptera and are discussed.
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