Your search keyword '"Clonopsis gallica"' showing total 10 results

1. Identification, Rearing, and Distribution of Stick Insects of Madeira Island: An Example of Raising Biodiversity Awareness

Author

Antonio Aguiar, Aguin-Pombo, Dora, and Gonçalves, Ysabel M.

Subjects

Faculdade de Ciências da Vida, Carausius morosus, Stick insects of Madeira Island, Insect Science, Clonopsis gallica, Madeira (Portugal), 14. Life underwater, General Medicine, Raising biodiversity awareness

Abstract

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Published

2014

2. TheClonopsis gallicapuzzle: Mendelian species, polyploid parthenogens with karyotype re-diploidization and clonal androgens in Moroccan stick insects (Phasmida)

Author

Liliana Milani, Marco Passamonti, Valerio Scali, MILANI L., SCALI V., and PASSAMONTI M.

Subjects

biology, Clonopsis gallica, Zoology, Karyotype, CHROMOSOME SATELLITES, EGG CHORION, biology.organism_classification, Diploidization, REPRODUCTION, symbols.namesake, Polyploid, HYBRID INSECTS, Botany, Genetics, Mendelian inheritance, symbols, KARYOLOGY, Animal Science and Zoology, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

The stick insect Clonopsis gallica is a morphologically stable obligate parthenogen, ranging from North Africa to southern Europe, with a variable karyotype (54–57 chromosomes), considered diploid or triploid. Clonopsis gallica origin and relationships with Clonopsis algerica and Clonopsis maroccana remained unknown. Our Moroccan samples shared the same egg and body patterns and, in addition to C. gallica (2n = 54, XX), comprised the new bisexual Clonopsis sp. 1 (2n = 35/36, X0/XX) and the new all-female Clonopsis sp. 2 (2n = 72, XX), apparently forming a numerically polyploid series with re-diplodized karyotypes; C. gallica could thus be a triploid hybrid in origin. Furthermore, two strains of ameiotic males with 2n = 35 (X0) or 53 (X0) were found, which would maintain themselves as clonal androgens. We could conclude that in stick insects body and karyotype ‘phenotypes’ are considerably independent, thus preventing a sound taxonomy. Generally, the high heterozygosity of hybrids allows parthenogens to persist for long, particularly when hybrid polyploids are produced, as backcrosses of the hybrids to the parental species allow repeated incorporations of genetically diversified genomes. The distribution range of Clonopsis parthenogens appears to realize a sound instance of geographical parthenogenesis. Riassunto Gli insetti stecco (Phasmida) hanno attirato l’attenzione dei biologi per le varie modalita riproduttive messe in atto oltre alla anfigonia, cioe la partenogenesi, l’ibridogenesi e l’androgenesi, spesso correlate all’ibridazione interspecifica ed accompagnate dalla poliploidia. Fra gli insetti stecco del bacino mediterraneo, il genere Clonopsise noto per l’esistenza di due specie anfigoniche nord-africane (C. algerica, C. maroccana) e, soprattutto, per la partenogenetica C. gallica, ad amplissimo areale di distribuzione (nord Africa e tutta l’Europa meridionale). Nonostante le numerose e varie indagini, la sua struttura genetica, grado di ploidia e relazioni filetiche con le altre specie sono incerte o addirittura sconosciute. Nuovi campioni del Rif marocchino, miranti a chiarire alcuni aspetti di questo puzzle, hanno evidenziato l’esistenza di una nuova specie anfigonica, qui indicata come Clonopsis sp. 1 (2n = 35/36, X0/XX), un nuovo taxon partenogenetico, Clonopsis sp. 2 (2n = 72, XX), e confermato la presenza di C. gallica (2n = 54, XX); queste specie nell’insieme formano una serie numericamente poliploide 2-4n, pur mostrando tutte cariotipo strutturalmente diploide. Confrontando questo species-complex con altri noti (Bacillus, Leptynia, Sipyloidea) per risolvere la discrepanza fra numero cromosomico e struttura cariotipica, viene quindi suggerito che i partenogenetici con 54 e 72 cromosomi si siano originati come ibridi triploidi e tetraploidi, rispettivamente, innescando la partenogenesi; il loro assetto cromosomico si sarebbe poi ri-diploidizzato strutturalmente, come e accaduto per il complex S. nelida, come pure per i poliploidi di svariati vertebrati. Inoltre, il campione di Targuist ha fornito, in aggiunta alle femmine Clonopsis sp. 2, anche una femmina dell’anfigonica C. maroccana (2n = 22), di cui viene qui presentato il cariotipo per la prima volta, e due ceppi di soli maschi: 2n = 35, X0 e 2n = 53, X0. Questi maschi hanno meiosi alterata, con spermatociti che si dividono mitoticamente, producendo cosi spermi non ridotti. Viene quindi suggerito che questi maschi, analogamente a quanto osservato in Bacillus, siano androgenetici clonali, che si mantengono inseminando le femmine partenogenetiche sintopiche. La straordinaria somiglianza morfologica di corpi e uova delle specie Clonopsis contrasta notevolmente con l’elevata plasticita del loro cariotipo; cio rende comunque piu comprensibile la nota impossibilita di stabilire i rapporti filogenetici dei fasmidi in base alla citotassonomia. In alcuni gruppi risulta semmai piu attendibile una sistematica basata sull’ootassonomia. Dall’analisi dei nuovi campioni del Rif marocchino verrebbe cosi rinforzato il dato che le forme partenogenetiche, soprattutto se ibride, possono competere con le specie anfigoniche parentali, occupare areali con valenza ecologica molto diversa (da zone montuose ad aree predesertiche) e formare serie poliploidi. Infine, i ceppi androgenetici, oltre che testimoniare la varieta delle modalita riproduttive dei fasmidi, pongono anche il problema della valutazione del loro rango sistematico.

Published

2009

3. Identification, rearing, and distribution of stick insects of Madeira Island: an example of raising biodiversity awareness

Author

Ysabel M. Gonçalves, Dora Aguin Pombo, and António Miguel Franquinho Aguiar

Subjects

0106 biological sciences, Carausius morosus, Phasmatidae, Insecta, Bacillidae, Clonopsis gallica, Biodiversity, Captivity, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Macaronesia, Animals, 14. Life underwater, 030304 developmental biology, Ovum, 0303 health sciences, geography, geography.geographical_feature_category, biology, Portugal, Ecology, General Medicine, biology.organism_classification, Phasmatodea, Insect Science, Archipelago, Papers, Female, Animal Distribution

Abstract

Two species of stick insects are currently known to be present in the Macaronesian archipelagos: Clonopsis gallica (Charpentier) (Phasmatodea: Bacillidae) on the Canary Islands and in the Azores and Carausius morosus (Sinéty) (Phasmatidae) in the Azores. Here, we provide the first reliable records of the presence and distribution of C. gallica and C. morosus on Madeira Island. Egg and adult stages are briefly described along with some notes on the life history of these species in captivity. Data on islandwide distribution are based on specimens donated by the public in response to an article published in a daily newspaper. This method of data collection raised great popular interest in stick insects. The role of newspapers as a means of communicating awareness in biodiversity issues is discussed.

Published

2014

4. Karyological studies of mediterranean stick-insects belonging to the generaClonopsisandLeptynia(Insecta Phasmatodea)

Author

Anna Paola Bianchi

Subjects

Phasmatodea, Taxon, biology, Polyploid, Clonopsis gallica, Leptynia attenuata, Genetics, Zoology, Attenuata, Karyotype, Parthenogenesis, General Agricultural and Biological Sciences, biology.organism_classification

Abstract

SUMMARYKaryotypes of three species of Clonopsis and of various populations of Leptynia hispanica and L. attenuata complexes were analyzed. The taxonomic status of the latter complexes is still uncertain. These genera include bisexual and parthenogenetic polyploid species and populations. The chromosomal numbers are: 2n = 32 in bisexual C. algerica, 2n = 22 in bisexual C. maroccana, 3n = 54 in telytokous C. gallica, 2n = 38 in bisexual Leptynia hispanica, 3n = 57 in telytokous triploid populations of L. hispanica, 4n = 76 in telytokous tetraploid populations of the same complex, 2n = 36 in a bisexual taxon of L. attenuata complex, 2n = 38 in an other bisexual taxon and 4n = 76 in a parthenogenetic tetraploid taxon of the same complex. All the karyotypes are described. It is postulated that pericentric inversions and centric fusions have played a relevant role in chromosomal evolution of these genera. Because hybridization is the more frequent mode of speciation in these stick-insects, the polyploidy, conne...

Published

1992

5. Speciation by hybridization in phasmids and other insects

Author

Giuseppe Nascetti and Luciano Bullini

Subjects

biology, media_common.quotation_subject, Clonopsis gallica, Zoology, Chromosome, biology.organism_classification, Planthopper, Speciation, Polyploid, Botany, Animal Science and Zoology, Ploidy, Grasshopper, Ecology, Evolution, Behavior and Systematics, media_common, Invertebrate

Abstract

Speciation by hybridization in insects has been recently recognized on the basis of isozyme and chromosome studies showing that several species, either diploid or polyploid, have genomes that combine the genes and chromosome sets of two (or more) bisexual species. Until this evidence became available, thelytokous invertebrates were all considered uniparental derivatives of bisexual species. In this paper, we review examples including the stick insects Bacillus whitei, B. atticus, B. lynceorum, Leptynia hispanica D, Clonopsis gallica, Carausius morosus; the grasshopper Warramaba virgo; some Otiorrhynchus weevils; the planthopper Muellerianella 2-fairmairei–brevipennis; and black flies of the genera Gymnopais and Prosimulium. For several species (e.g., Warramaba virgo and Bacillus whitei), both parental taxa have been recognized, and their hybrid origin has been genetically assessed. In others (e.g., B. atticus), only one of the bisexual parental species has been detected; but their hybrid origin is supported by strong evidence, at both the isozyme and chromosome levels. For other supposed hybrid species (e.g., Clonopsis gallica, Carausius morosus), no bisexual ancestors have been detected, possibly because competition with their hybrid derivatives has made them rare or extinct. Insect hybrid species may differ in their mode of reproduction (apomictic or automictic thelytokous parthenogenesis, gynogenesis), degree of ploidy, and genetic structure (level of heterozygosity, clonal variation). The parallels between insect and vertebrate hybrid species, in which this phenomenon has been recognized and widely studied in the past 50 years, are drawn. The main problems involved in the origin and evolution of hybrid species are discussed, with particular regard to (i) changes in the maturation divisions allowing the transmission of the hybrid genome to the next generation, and (ii) their successful adaptation. The "spontaneous" and "hybrid" theories for the origin of unisexual forms are compared, with regard to hybrid species. An origin of hybrid species from occasional parthenogenetic development of hybrid eggs produced in areas of extensive interspecific hybridization (e.g., disturbed habitats) is suggested. Hybridization would not itself cause changes in the maturation divisions (which are controlled by genes of tychoparthenogenetic eggs) but only favour their selection through heterosis. The role of the so-called "heterotic" advantage (resulting from high levels of heterozygosity) and "demographic" advantage (resulting from all-female reproduction) in the evolutionary success of hybrid species is discussed. It is concluded that habitat disturbance by man is favouring both the onset of hybrid species and their successful spread.

Published

1990

6. Interpopulation differences in egg sculpturing of the stick insect, Clonopsis gallica (Charp.) (Phasmatodea: Bacillidae)

Author

Valerio Scali and Massimo Mazzini

Subjects

biology, media_common.quotation_subject, Clonopsis gallica, Zoology, Bacillidae, Insect, Subspecies, biology.organism_classification, Intraspecific competition, Phasmatodea, Taxon, Insect Science, visual_art, Botany, visual_art.visual_art_medium, Operculum (gastropod), Developmental Biology, media_common

Abstract

Eggs of 6 Clonopsis gallica (Phasmatodea: Bacillidae) populations have been investigated by means of scanning electron microscopy (SEM) to detect intraspecific differences. Two main chorionic patterns have been observed: type 1 is common to 5 populations, while type 2 is found in the Motril (South Spain) sample. Type-2 sculpturing differs from type-1 in the absence of prominences on the operculum; and hemispheric, isolated mamelons replace the smooth and diffuse prominences of the common pattern on the egg capsule. This suggests that a considerable degree of difference exists in the South Spanish C. gallica . In the 5 type-1 populations, only minor and partially overlapping differences in the opercular pattern have been detected, so that the existence of subspecific taxa is very unlikely among them. Therefore, the Calabrian subspecies C. gallica affinis does not appear to be tenable. This is the 1st report on egg interpopulation differences in the Phasmatodea. These findings suggest further field search, along with karyological and gene-enzyme system analysis, within the C. gallica complex.

Published

1982

7. Ultrastructure and amino acid analysis of the eggs of the stick insects, Lonchodes pterodactylus gray and Carausius morosus br. (Phasmatodea: heteronemiidae)

Author

Valerio Scali and Massimo Mazzini

Subjects

Carausius morosus, Methionine, biology, Clonopsis gallica, Cystine, Pterodactylus, biology.organism_classification, chemistry.chemical_compound, Phasmatodea, chemistry, Insect Science, Botany, Ultrastructure, Eggshell, Developmental Biology

Abstract

The scanning electron microscope morphology and the amino acid composition of the egg capsules of two Lonchodini, Lonchodes pterodactylus and Carausius morosus , are reported. In both species, the egg shows a structural organization common to all Phasmatodea so far investigated. Many details appear to be similar in the two species, such as the egg capsule tubercular sculpturing, the general features of the micropylar plate, and the presence of a well-developed opercular capitulum. These common characteristics fully support the inclusion of these two species within the same tribe. However, differences in the opercular sculpturing patterns, capitulum shape and implantation, micropylar cup conformation, the presence of tubercule-less pits on the egg capsule, and the polar mound in L. pterodactylus , indicate not only specific differences, but also at the generic level. Egg chorion characteristics therefore appear, to be of high taxonomic value in the Phasmatodea. From our analysis, it appears that the frequent anomalies of the micropylar plate in C. morosus are not directly related to the internal abdominal pressure in the female, as formerly suggested, but rather to ovariolar disturbances due to intersexuality. The chemical information obtained from amino acid analysis of the egg shell of the two species has confirmed a high glycine content, a stable quantity of serine, and trace amounts of cystine and methionine, and also showed a marked difference in tyrosine, when compared with the bacilline, Clonopsis gallica . The amino acid composition of the stick insect egg shell suggests that its proteins resemble silk proteins. Thus, the egg morphology at scanning electron microscope level and the amino acid composition data contribute to both ootaxonomy and better understanding of the phylogeny of the order.

Published

1980

8. Fine morphology and amino acid analysis of the egg capsule of the stick insect, Clonopsis Gallica (Charp.) (Cheleutoptera: Bacillinae)

Author

Valerio Scali and Massimo Mazzini

Subjects

Morphology (linguistics), biology, media_common.quotation_subject, Clonopsis gallica, Vitelline membrane, Insect, biology.organism_classification, Acrididae, Phasmatodea, Insect Science, visual_art, embryonic structures, Botany, visual_art.visual_art_medium, Eggshell, Operculum (gastropod), Developmental Biology, media_common

Abstract

The scanning electron microscope morphology and the amino acid composition of the egg capsule of the stick insect Clonopsis gallica have been studied. The egg capsule shows an irregular but characteristic pattern of rounded tubercules, which at higher magnifications reveal a still more detailed sculpturing. The micropylar plate shows specific structural characters, including a shallow square micropylar cup without micropylar orifices; ovariolar eggs, however, show a number (from 3 to 5) of wide, open micropyles. The opeculum does not possess the capitulum nor the pseudocapitulum, but among the prominent tubercules of the central area some aeropyles are present. The thick 3-layered chorion has a uniformly smooth internal surface; the spongy submicropylar plate possesses a tubule connecting the chorion to the vitelline membrane. The amino acid composition has revealed that glycine is the most common residue (33%), followed by serine and alanine (about 10% each), with traces of cystine and methionine. SEM features specifically identify the egg of C. gallica but also reveal some genuine similarities with the egg of B. rossius. The meaning of the existence of the micropylar orifices during egg development has been discussed. The amino acid composition is a new datum for the Cheleutoptera and it has been compared with that of insects having an orthopteroid structure. In particular, the high glycine content in C. gallica egg shell suggests a certain resemblance with the species of 5 families of Tettigonioidea, whilst there are definite differences with species of Gryllidae and Acrididae. Thus, the egg morphology and amino acid composition data can be utilized as aids in understanding the phylogeny and egg physiology in several insect orders.

Published

1977

9. [Untitled]

Subjects

0106 biological sciences, Ecology, biology, Bacillus rossius, Range (biology), 010604 marine biology & hydrobiology, Clonopsis gallica, Leptynia attenuata, Zoology, Attenuata, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Bergmann's rule, Phasmatodea, Allen's rule, Ecology, Evolution, Behavior and Systematics

Abstract

Bergmann’s rule states that organisms at higher latitudes should be larger and thicker than those closer to the equator to better conserve heat, and Allen’s rule states that they will have shorter and thicker limbs at higher latitudes. Alternative explanations for latitudinal size clines include plant productivity and seasonality. The rules generally hold in endotherms, but in insects different species within the same genus can respond to latitude in unpredictable ways. We present the first biogeographical analysis of these rules in stick insects (order Phasmatodea), using four European species. Their long and thin bauplan makes the Phasmatodea ideal for ecomorphological studies of body length, which could identify the evolutionary drivers of their remarkable size range (including the world’s longest insects). Using preserved specimens from collections across Europe; body segment and limb measurements were taken for both genders of the species Bacillus rossius, Clonopsis gallica, Leptynia attenuata, and Pijnackeria hispanica. Lengths and volumetric features were compared to latitude as well as annual mean temperature, net primary productivity, and annual growing degree days, using weighted linear regressions and ANOVA analyses. At lower latitudes / higher temperatures, B. rossius and L. attenuata had longer limbs [Allen clines] and were larger bodied and/or longer [converse-Bergmann clines], while the other species did not show latitudinal clines per se. This matches what was predicted based on closely related insects and the presence of large Phasmatodea in the tropics, but violates the temperature-size rule. Most variation in size could be attributed to temperature, but untested factors could also play a role Whether these ecogeographic rules hold true for tropical Phasmatodea and whether genetics or environment play are more important in determining adult length are topics for future research.

10. Duration of Life, Egg Number and Parthenogenesis in the Stick Insect Orxines macklotti De Haan

Author

P. Kuyten

Subjects

Carausius morosus, Multidisciplinary, biology, Ecology, media_common.quotation_subject, Clonopsis gallica, Captivity, Bacillus, Insect, Parthenogenesis, Reproduction, biology.organism_classification, media_common

Abstract

IN the Phasmoptera bisexual and parthenogenetic reproduction both occur. In several species males have never been found, or appear to be extremely scarce. Some observations under natural conditions and many in captivity have established that the reproduction of these species is parthenogenetic and thelytokous1–6. Well-known examples of this group are Carausius morosus Br. from India, and the south European populations of Bacillus rossii F. and Clonopsis gallica Charp.

Published

1962