Kôji Sasakawa scite author profile

The morphological characteristics of sperm and reproductive organs may offer clues as to how reproductive systems have evolved. In this paper, the morphologies of the sperm and male reproductive organs of carabid beetles in the tribe Pterostichini (Coleoptera: Carabidae) are described, and the morphological associations among characters are examined. All species form sperm bundles in which the head of the sperm was embedded in a rodshaped structure, i.e., spermatodesm. The spermatodesm shape (left-handed spiral, right-handed spiral, or without conspicuous spiral structure) and the condition of the sperm on the spermatodesm surface (with the tail free-moving or forming a thin, sheetlike structure) vary among species. In all species, the spiral directions of the convoluted seminal vesicles and vasa deferentia are the same on both sides of the body; that is, they show an asymmetric structure. The species in which the sperm bundle and the seminal vesicles both have a spiral structure could be classified into two types, with significant differences in sperm-bundle length between the two types. The species with a sperm-bundle spiral and seminal-vesicle spiral of almost the same diameter have longer sperm bundles than the species with a sperm-bundle spiral and seminal-vesicle tube of almost the same diameter. In the former type, the spiral directions of the sperm bundles and seminal vesicles are inevitably the same, whereas they differ in some species with the later type. Therefore, increased sperm bundle length appears to have been facilitated by the concordance of the sperm bundle's coiling direction with the coiling direction of the seminal vesicle.

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Laboratory studies on larval feeding habits of Amara macronota (Coleoptera: Carabidae: Zabrini)

Sasakawa

2007

Appl. Entomol. Zool.

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Many studies have suggested that some carabids (tribes Zabrini and Harpalini; Coleoptera: Carabidae) feed on seeds during their adult stage (i.e., granivore or omnivore with a tendency toward granivory), but relatively few studies have investigated the larval feeding habits of those species. In the present study, larval development on different diets was examined in a Zabrini carabid Amara (Curtonotus) macronota. Six diet types were tested: Solidago altissima seeds, Bidens frondosa seeds, Setaria spp. seeds, mixed seeds, insect larvae (Diptera), and insect larvaeϩmixed seeds. Because of the high mortality during larval overwintering under laboratory-rearing conditions, survival and developmental duration through pre-overwintering stages (1st and 2nd instars) were compared. The insect larvaeϩmixed seeds diet showed high survival (85%), followed by the insect larvae diet (40%). All seed diets showed low survival rates (0-10%). Developmental durations were not significantly different, although some diets could not be compared due to a small sample size. These results suggest that A. macronota larvae are omnivores with a tendency toward carnivory. Larval morphometry, which is useful in determining the instars of field-collected larvae, was used.

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Phylogeny and Genital Evolution of Carabid Beetles in the Genus <I>Pterostichus</I> and Its Allied Genera (Coleoptera: Carabidae) Inferred from Two Nuclear Gene Sequences

Sasakawa¹,

Kubota²

2007

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Feeding ecology of granivorous carabid larvae: a stable isotope analysis

Sasakawa

Ikeda

Kubota

2010

J Applied Entomology

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Although most carabids are primarily carnivorous, some carabid species are omnivorous, with mainly granivorous feeding habits during the larval and/or adult stages (granivorous carabids). This feeding habit has been established based on laboratory and field experiments; however, our knowledge of the feeding ecology of these beetles in the field is limited owing to the lack of an appropriate methodology. In this study, we tested the utility of stable isotope analysis in investigations of the feeding ecology of granivorous carabids in the field, using two closely related syntopic species, Amara chalcites and Amara congrua. We addressed two issues concerning the feeding ecology of granivorous carabids: food niche differentiation between related syntopic species during the larval stage and the effect on adult body size of supplementing seeds with an animal diet during the larval stage. To investigate larval feeding habits, we analysed newly emerged adults, most somatic tissues of which are considered of larval origin. In the two populations examined, both δ15N and δ13C were significantly higher in A. chalcites than A. congrua, suggesting that the two species differentiate food niches, with A. chalcites larvae being more carnivorous than A. congrua larvae. The two isotope ratios of A. chalcites samples from one locality were positively correlated with body size, suggesting that more carnivorous larvae become larger adults. However, this relationship was not detected in other species/locality groups. Thus, our results were inconclusive on the issue of diet supplementation. Nevertheless, overall, these results are comparable with those of previous laboratory‐rearing experiments and demonstrate the potential utility of stable isotope analysis in field studies on the feeding ecology of granivorous carabids.

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Utility of geometric morphometrics for inferring feeding habit from mouthpart morphology in insects: tests with larval Carabidae (Insecta: Coleoptera)

Sasakawa

2015

Biol. J. Linn. Soc.

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Feeding habits are important life-history traits in animals; however, methods for their determination are not well established in many species. The larvae of the beetle family Carabidae are an example. The present study tested the utility of geometric morphometrics of mouthpart morphology to infer the feeding habits of carabid larvae. Using Pterostichus thunbergi as a model system, larval feeding habits were inferred using geometric morphometrics of mouthparts and the results were compared with those obtained from rearing experiments. The rearing experiments indicated that P. thunbergi larvae are carnivores that require snails as an essential part of the diet. Through geometric morphometrics, associations between mouthpart morphology and larval feeding habits were confirmed for species in which these two traits are known. A discriminant analysis using these associations classified P. thunbergi larvae as snail/slug feeders, which is a result compatible with the rearing experiments. Geometric morphometrics also revealed that morphological integration and ontogenetic shape change might play roles in the diversification of mouthpart morphology. Overall, these results demonstrate the utility of the geometric morphometrics of mouthparts to infer feeding habit and to clarify the mechanisms of mouthpart morphological diversification in the study group, and the results also serve as a basis for future studies of other insect groups.

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Kôji Sasakawa

Sperm bundle and reproductive organs of carabid beetles tribe Pterostichini (Coleoptera: Carabidae)

Laboratory studies on larval feeding habits of Amara macronota (Coleoptera: Carabidae: Zabrini)

Phylogeny and Genital Evolution of Carabid Beetles in the Genus <I>Pterostichus</I> and Its Allied Genera (Coleoptera: Carabidae) Inferred from Two Nuclear Gene Sequences

Feeding ecology of granivorous carabid larvae: a stable isotope analysis

Utility of geometric morphometrics for inferring feeding habit from mouthpart morphology in insects: tests with larval Carabidae (Insecta: Coleoptera)

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