Bridging the cytogenetic gap in Trichoptera (Insecta): first karyotypic data on Neotropical species and insights into chromosomal evolution in caddisflies

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
María Lovaglio Diez, María J Bressa, Sergio G Rodríguez Gil, Alba G Papeschi, Julieta V Sganga
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Abstract

Abstract Trichoptera are a diverse group of insects with aerial adults and aquatic immature stages. Despite their importance in freshwater environments, fundamental aspects of their biology are unknown, and no chromosomal studies have been performed in Neotropical species. The aim of this study was to provide the first cytogenetic analysis of four Trichoptera species from the Neotropics. We analysed the meiotic development and chromosome behaviour in Smicridea (Rhyacophylax) pampeana Flint (Annulipalpia: Hydropsychidae), Marilia flexuosa Ulmer (Integripalpia: Odontoceridae), Triplectides misionensis Holzenthal (Integripalpia: Leptoceridae), and Grumicha grumicha (Vallot) (Integripalpia: Sericostomatidae) by conventional cytogenetic procedures. The chromosome numbers are 2n = 31/32 (female/male) in S. (R.) pampeana, 2n = 57 (female) in M. flexuosa, 2n = 47 (female) in T. misionensis, and 2n = 35 (female) in G. grumicha. All four species have a simple sex chromosome system Z/ZZ (female/male). Females are the heterogametic sex, and their meiosis is achiasmatic. Our results together with available cytogenetic data provide more information on the karyology of Trichoptera and contribute to the current scientific knowledge of the possible mechanisms involved in chromosomal evolution. Based on all the evidence, we propose the existence of possible positive relationships between biological traits, ecological strategies, and cytogenetic features in Trichoptera.
弥合毛翅目(昆虫科)的细胞遗传学差距:新热带物种的第一个核型数据和对球虱染色体进化的见解
毛翅目昆虫是一种具有空中成虫和水生未成熟期的昆虫。尽管它们在淡水环境中很重要,但其生物学的基本方面尚不清楚,并且没有对新热带物种进行染色体研究。本研究的目的是首次对新热带地区的四种毛翅目昆虫进行细胞遗传学分析。采用常规的细胞遗传学方法,分析了短叶蝉(Rhyacophylax)、pampeana Flint (annulpalpia: Hydropsychidae)、Marilia flexuosa Ulmer (integripia: dodontoceridae)、Triplectides misionensis Holzenthal (integripia: Leptoceridae)和Grumicha Grumicha (Vallot) (integripia: Sericostomatidae)的减数分裂发育和染色体行为。染色体数目为:pampeana s (R.) 2n = 31/32(雌/雄),M. flexuosa(雌)2n = 57, T. misionensis(雌)2n = 47, G. grumicha(雌)2n = 35。这四个物种都有一个简单的性染色体系统Z/ZZ(雌性/雄性)。雌性是异配型的,它们的减数分裂是不对称的。我们的研究结果与现有的细胞遗传学数据一起提供了更多关于毛翅目核核学的信息,并有助于当前有关染色体进化可能机制的科学知识。基于这些证据,我们认为毛翅目昆虫的生物学性状、生态策略和细胞遗传学特征之间可能存在正相关关系。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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