Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae)
| Ano de defesa: | 2022 |
|---|---|
| Autor(a) principal: | |
| Orientador(a): | |
| Banca de defesa: | |
| Tipo de documento: | Dissertação |
| Tipo de acesso: | Acesso aberto |
| Idioma: | por |
| Instituição de defesa: |
Fundação Universidade Federal de Mato Grosso do Sul
|
| Programa de Pós-Graduação: |
Não Informado pela instituição
|
| Departamento: |
Não Informado pela instituição
|
| País: |
Brasil
|
| Palavras-chave em Português: | |
| Link de acesso: | https://repositorio.ufms.br/handle/123456789/4653 |
Resumo: | Spiders are amongst the most diverse animal groups in the world, with 49.938 species distributed in 131 families. Despite the great diversity, only 835 species (1,6%) have chromosomal data available in the literature. This scarcity of cytogenetic data makes it difficult to discuss chromosomal evolution in most groups of this order, including tiny spider families such as Oonopidae and Theridiosomatidae. The aim of this work was to chromosomally analyze spiders smaller than one centimeter in length, with the aim of contributing to the discussion on the cytotaxonomy and/or chromosomal evolution of the groups. The collections were carried out in Mato Grosso do Sul and by active nocturnal search, in the case of Theridiosomatidae, and by sieving litter, with manual screening of the sieved for the other representatives. In most cases, due to the small size, the entire animal was subjected to colchicine treatment (0,16%, 2h), hypotonic (tap water, 15 min) and fixation in Carnoy I (methanol:acetic acid 3:1, minimum 1h) with the contents of the abdomen partially exposed to facilitate the action of reagents.The slides were prepared with the total content of the abdomen, except for individuals of Epicratinus sp. and Falconina sp. in which the use only of the gonads was possible, and were later stained with Giemsa (3%, 15 min). Altogether 12 species belonging to eight families were analyzed. The results were 2n♀=36 for Otiothops birabeni (Palpimanidae), 2n♂=30, X1X2 for Naatlo sp. (Theridiosomatidae), 2n♂=24, X1X2 in Agyneta sp. (Linyphiidae), 2n♂=22, X1X2 for Coleosoma floridanum, Thymoites sp.1 and Thymoites sp.2 (Theridiidae), 2n♂=28, X1X2 for Falconina sp. (Corinnidae), 2n♂=21, X for Orthobula sp. (Trachelidae), 2n♂=42, X1X2 for Epicratinus sp. (Zodariidae), 2n♂=9, X for Cinetomorpha simplex (Oonopidae), and 2n♂=7, X for Neotrops sp. and Neoxyphinus termitophilus (Oonopidae). The chromosome morphology in most species was telocentric, but chromosomes with two arms were also found. The obtained results contributed to the knowledge about the karyotypic evolution in poor studied groups of Araneomorphae, providing the first records for whole families, as in the case of Palpimanidae and Theridiosomatidae. The relatively high chromosome number found in O. birabeni (2n♀=36) (Palpimanidae, nonentelegyne) agrees with the ancestral karyotype proposed for Entelegynae. The results of Naatlo sp. (2n♂=30, X1X2) revealed an unrecorded diploid number for the superfamily Araneoidea, as well as the rarely recorded presence of two-armed chromosomes. The data obtained in Agyneta sp., C. floridanum, Thymoites sp.1 and Thymoites sp.2 showed the same pattern already described for most of the karyotyped species in Linyphiidae (2n♂=24, X1X2) and Theridiidae (2n♂= 22, X1X2). The diploid number found in Falconina sp. (2n♂=28) chromosomally distinguishes to date the subfamily Castianeirinae from the subfamily Corinninae. The chromosomal data of Orthobula sp. (2n♂=21, X) differ from those found for the other species of Trachelidae already analyzed, agreeing with recently proposed phylogenies. The result found in Epicratinus sp. (2n♂=42, X1X2) was similar in diploid number and Sexual Chromosome System to those already reported for Pax islamita, which belongs to a distinct subfamily and geographic region, suggesting that this karyotype is ancestral to Zodariidae. The karyotype found in Neotrops sp. and N. termitophilus (2n♂=7, X) is probably the ancestor for Oonopidae, while the karyotype data of C. simplex (2n♂=9, X) was a particular case in relation to the other analyzed species of the family and can be considered a possible synapomorphy for the genus. |
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2022-04-05T18:19:47Z2022-04-05T18:19:47Z2022https://repositorio.ufms.br/handle/123456789/4653Spiders are amongst the most diverse animal groups in the world, with 49.938 species distributed in 131 families. Despite the great diversity, only 835 species (1,6%) have chromosomal data available in the literature. This scarcity of cytogenetic data makes it difficult to discuss chromosomal evolution in most groups of this order, including tiny spider families such as Oonopidae and Theridiosomatidae. The aim of this work was to chromosomally analyze spiders smaller than one centimeter in length, with the aim of contributing to the discussion on the cytotaxonomy and/or chromosomal evolution of the groups. The collections were carried out in Mato Grosso do Sul and by active nocturnal search, in the case of Theridiosomatidae, and by sieving litter, with manual screening of the sieved for the other representatives. In most cases, due to the small size, the entire animal was subjected to colchicine treatment (0,16%, 2h), hypotonic (tap water, 15 min) and fixation in Carnoy I (methanol:acetic acid 3:1, minimum 1h) with the contents of the abdomen partially exposed to facilitate the action of reagents.The slides were prepared with the total content of the abdomen, except for individuals of Epicratinus sp. and Falconina sp. in which the use only of the gonads was possible, and were later stained with Giemsa (3%, 15 min). Altogether 12 species belonging to eight families were analyzed. The results were 2n♀=36 for Otiothops birabeni (Palpimanidae), 2n♂=30, X1X2 for Naatlo sp. (Theridiosomatidae), 2n♂=24, X1X2 in Agyneta sp. (Linyphiidae), 2n♂=22, X1X2 for Coleosoma floridanum, Thymoites sp.1 and Thymoites sp.2 (Theridiidae), 2n♂=28, X1X2 for Falconina sp. (Corinnidae), 2n♂=21, X for Orthobula sp. (Trachelidae), 2n♂=42, X1X2 for Epicratinus sp. (Zodariidae), 2n♂=9, X for Cinetomorpha simplex (Oonopidae), and 2n♂=7, X for Neotrops sp. and Neoxyphinus termitophilus (Oonopidae). The chromosome morphology in most species was telocentric, but chromosomes with two arms were also found. The obtained results contributed to the knowledge about the karyotypic evolution in poor studied groups of Araneomorphae, providing the first records for whole families, as in the case of Palpimanidae and Theridiosomatidae. The relatively high chromosome number found in O. birabeni (2n♀=36) (Palpimanidae, nonentelegyne) agrees with the ancestral karyotype proposed for Entelegynae. The results of Naatlo sp. (2n♂=30, X1X2) revealed an unrecorded diploid number for the superfamily Araneoidea, as well as the rarely recorded presence of two-armed chromosomes. The data obtained in Agyneta sp., C. floridanum, Thymoites sp.1 and Thymoites sp.2 showed the same pattern already described for most of the karyotyped species in Linyphiidae (2n♂=24, X1X2) and Theridiidae (2n♂= 22, X1X2). The diploid number found in Falconina sp. (2n♂=28) chromosomally distinguishes to date the subfamily Castianeirinae from the subfamily Corinninae. The chromosomal data of Orthobula sp. (2n♂=21, X) differ from those found for the other species of Trachelidae already analyzed, agreeing with recently proposed phylogenies. The result found in Epicratinus sp. (2n♂=42, X1X2) was similar in diploid number and Sexual Chromosome System to those already reported for Pax islamita, which belongs to a distinct subfamily and geographic region, suggesting that this karyotype is ancestral to Zodariidae. The karyotype found in Neotrops sp. and N. termitophilus (2n♂=7, X) is probably the ancestor for Oonopidae, while the karyotype data of C. simplex (2n♂=9, X) was a particular case in relation to the other analyzed species of the family and can be considered a possible synapomorphy for the genus.As aranhas estão entre os grupos animais mais diversos do mundo, com 49.938 espécies distribuídas em 131 famílias. Apesar da grande diversidade apenas 835 espécies (1,6%) possuem dados cromossômicos disponíveis na literatura. Esta escassez de dados citogenéticos dificulta a discussão sobre a evolução cromossômica na maioria dos grupos dessa ordem, inclusive em famílias de aranhas diminutas como Oonopidae e Theridiosomatidae. O objetivo desse trabalho foi analisar cromossomicamente aranhas menores que um centímetro de comprimento, com a finalidade de contribuir para a discussão sobre a citotaxonomia e/ou evolução cromossômica dos grupos. As coletas foram realizadas em Mato Grosso do Sul e os indivíduos foram obtidos por busca ativa noturna, no caso de Theridiosomatidae, e pelo peneiramento de serapilheira com triagem manual do peneirado para os demais representantes. Na maioria dos casos, devido ao tamanho diminuto, o animal inteiro foi submetido ao tratamento com colchicina (0,16%, 2h), hipotônica (água de torneira, 15 min) e fixação em Carnoy I (metanol:ácido acético 3:1, mínimo 1h) com o conteúdo do abdômen parcialmente exposto para facilitar a ação dos reagentes. As lâminas foram preparadas com o conteúdo total do abdômen, exceto para os indivíduos de Epicratinus sp. e Falconina sp. em que a utilização apenas das gônadas foi possível, e posteriormente foram coradas com Giemsa (3%, 15 min). Ao todo, 12 espécies pertencentes a oito famílias foram analisadas. Os resultados encontrados foram 2n♀=36 para Otiothops birabeni (Palpimanidae), 2n♂=30, X1X2 para Naatlo sp. (Theridiosomatidae), 2n♂=24, X1X2 em Agyneta sp. (Linyphiidae), 2n♂=22, X1X2 para Coleosoma floridanum, Thymoites sp.1 e Thymoites sp.2 (Theridiidae), 2n♂=28, X1X2 em Falconina sp. (Corinnidae), 2n♂=21, X para Orthobula sp. (Trachelidae), 2n♂=42, X1X2 para Epicratinus sp. (Zodariidae), 2n♂=9, X para Cinetomorpha simplex (Oonopidae), e 2n♂=7, X para Neotrops sp. e Neoxyphinus termitophilus (Oonopidae). A morfologia cromossômica na maioria das espécies foi telocêntrica, mas cromossomos com dois braços também foram encontrados. Os resultados obtidos contribuem para o conhecimento sobre a evolução cariotípica em grupos pouco estudados de Araneomorphae, fornecendo os primeiros registros para famílias inteiras, como no caso de Palpimanidae e Theridiosomatidae. O número cromossômico relativamente alto encontrado em O. birabeni (2n♀=36) (Palpimanidae, não-entelegina) concorda com o cariótipo ancestral proposto para Entelegynae. Os resultados de Naatlo sp. (2n♂=30, X1X2) revelaram um número diploide ainda não registrado para a superfamília Araneoidea, assim como a presença de cromossomos com dois braços, raramente registrada. Os dados obtidos em Agyneta sp., C. floridanum, Thymoites sp.1 e Thymoites sp.2 mostraram o mesmo padrão já descrito para a maioria das espécies cariotipadas nas famílias Linyphiidae (2n♂=24, X1X2) e Theridiidae (2n♂=22, X1X2). O número diploide encontrado em Falconina sp. (2n♂=28) distingue cromossomicamente até o momento a subfamília Castianeirinae da subfamília Corinninae. Os dados cromossômicos de Orthobula sp. (2n♂=21, X) diferem daqueles encontrados para as outras espécies de Trachelidae já analisadas, concordando com filogenias propostas recentemente. O resultado encontrado em Epicratinus sp. (2n♂=42, X1X2) foi semelhante em número diploide e sistema cromossômico sexual aos já relatados para Pax islamita, que pertence a subfamília e região geográfica distintas, o que sugere que este cariótipo seja ancestral para Zodariidae. O cariótipo encontrado em Neotrops sp. e N. termitophilus (2n♂=7, X) é provavelmente o ancestral para Oonopidae, enquanto os dados cariotipicos de C. simplex (2n♂=9, X) devem ser um caso particular em relação às outras espécies analisadas da família e pode ser considerado uma possível sinapomorfia para o gênero.Fundação Universidade Federal de Mato Grosso do SulUFMSBrasilAnálise cromossômica - Evolução - Morfologia cromossômicaEstudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae)info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisDouglas de AraujoDÉBORA DUARTE DUTRAinfo:eu-repo/semantics/openAccessporreponame:Repositório Institucional da UFMSinstname:Universidade Federal de Mato Grosso do Sul (UFMS)instacron:UFMSTHUMBNAILDissertação - Débora Duarte Dutra.pdf.jpgDissertação - Débora Duarte Dutra.pdf.jpgGenerated Thumbnailimage/jpeg1363https://repositorio.ufms.br/bitstream/123456789/4653/3/Disserta%c3%a7%c3%a3o%20-%20D%c3%a9bora%20Duarte%20Dutra.pdf.jpgd768b992a7268aca6a1717f81b442dabMD53TEXTDissertação - Débora Duarte Dutra.pdf.txtDissertação - Débora Duarte Dutra.pdf.txtExtracted texttext/plain90744https://repositorio.ufms.br/bitstream/123456789/4653/2/Disserta%c3%a7%c3%a3o%20-%20D%c3%a9bora%20Duarte%20Dutra.pdf.txt5e48f03d8fc4c911e55a68561556de3dMD52ORIGINALDissertação - Débora Duarte Dutra.pdfDissertação - Débora Duarte Dutra.pdfapplication/pdf1678743https://repositorio.ufms.br/bitstream/123456789/4653/1/Disserta%c3%a7%c3%a3o%20-%20D%c3%a9bora%20Duarte%20Dutra.pdfcf0565245343d6ecd824e3c378c3949fMD51123456789/46532022-04-06 03:01:35.41oai:repositorio.ufms.br:123456789/4653Repositório InstitucionalPUBhttps://repositorio.ufms.br/oai/requestri.prograd@ufms.bropendoar:21242022-04-06T07:01:35Repositório Institucional da UFMS - Universidade Federal de Mato Grosso do Sul (UFMS)false |
| dc.title.pt_BR.fl_str_mv |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) |
| title |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) |
| spellingShingle |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) DÉBORA DUARTE DUTRA Análise cromossômica - Evolução - Morfologia cromossômica |
| title_short |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) |
| title_full |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) |
| title_fullStr |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) |
| title_full_unstemmed |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) |
| title_sort |
Estudo cromossômico em aranhas diminutas, incluindo os primeiros registros para as famílias Palpimanidae e Theridiosomatidae (Araneae, Araneomorphae) |
| author |
DÉBORA DUARTE DUTRA |
| author_facet |
DÉBORA DUARTE DUTRA |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
Douglas de Araujo |
| dc.contributor.author.fl_str_mv |
DÉBORA DUARTE DUTRA |
| contributor_str_mv |
Douglas de Araujo |
| dc.subject.por.fl_str_mv |
Análise cromossômica - Evolução - Morfologia cromossômica |
| topic |
Análise cromossômica - Evolução - Morfologia cromossômica |
| description |
Spiders are amongst the most diverse animal groups in the world, with 49.938 species distributed in 131 families. Despite the great diversity, only 835 species (1,6%) have chromosomal data available in the literature. This scarcity of cytogenetic data makes it difficult to discuss chromosomal evolution in most groups of this order, including tiny spider families such as Oonopidae and Theridiosomatidae. The aim of this work was to chromosomally analyze spiders smaller than one centimeter in length, with the aim of contributing to the discussion on the cytotaxonomy and/or chromosomal evolution of the groups. The collections were carried out in Mato Grosso do Sul and by active nocturnal search, in the case of Theridiosomatidae, and by sieving litter, with manual screening of the sieved for the other representatives. In most cases, due to the small size, the entire animal was subjected to colchicine treatment (0,16%, 2h), hypotonic (tap water, 15 min) and fixation in Carnoy I (methanol:acetic acid 3:1, minimum 1h) with the contents of the abdomen partially exposed to facilitate the action of reagents.The slides were prepared with the total content of the abdomen, except for individuals of Epicratinus sp. and Falconina sp. in which the use only of the gonads was possible, and were later stained with Giemsa (3%, 15 min). Altogether 12 species belonging to eight families were analyzed. The results were 2n♀=36 for Otiothops birabeni (Palpimanidae), 2n♂=30, X1X2 for Naatlo sp. (Theridiosomatidae), 2n♂=24, X1X2 in Agyneta sp. (Linyphiidae), 2n♂=22, X1X2 for Coleosoma floridanum, Thymoites sp.1 and Thymoites sp.2 (Theridiidae), 2n♂=28, X1X2 for Falconina sp. (Corinnidae), 2n♂=21, X for Orthobula sp. (Trachelidae), 2n♂=42, X1X2 for Epicratinus sp. (Zodariidae), 2n♂=9, X for Cinetomorpha simplex (Oonopidae), and 2n♂=7, X for Neotrops sp. and Neoxyphinus termitophilus (Oonopidae). The chromosome morphology in most species was telocentric, but chromosomes with two arms were also found. The obtained results contributed to the knowledge about the karyotypic evolution in poor studied groups of Araneomorphae, providing the first records for whole families, as in the case of Palpimanidae and Theridiosomatidae. The relatively high chromosome number found in O. birabeni (2n♀=36) (Palpimanidae, nonentelegyne) agrees with the ancestral karyotype proposed for Entelegynae. The results of Naatlo sp. (2n♂=30, X1X2) revealed an unrecorded diploid number for the superfamily Araneoidea, as well as the rarely recorded presence of two-armed chromosomes. The data obtained in Agyneta sp., C. floridanum, Thymoites sp.1 and Thymoites sp.2 showed the same pattern already described for most of the karyotyped species in Linyphiidae (2n♂=24, X1X2) and Theridiidae (2n♂= 22, X1X2). The diploid number found in Falconina sp. (2n♂=28) chromosomally distinguishes to date the subfamily Castianeirinae from the subfamily Corinninae. The chromosomal data of Orthobula sp. (2n♂=21, X) differ from those found for the other species of Trachelidae already analyzed, agreeing with recently proposed phylogenies. The result found in Epicratinus sp. (2n♂=42, X1X2) was similar in diploid number and Sexual Chromosome System to those already reported for Pax islamita, which belongs to a distinct subfamily and geographic region, suggesting that this karyotype is ancestral to Zodariidae. The karyotype found in Neotrops sp. and N. termitophilus (2n♂=7, X) is probably the ancestor for Oonopidae, while the karyotype data of C. simplex (2n♂=9, X) was a particular case in relation to the other analyzed species of the family and can be considered a possible synapomorphy for the genus. |
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