1833年小蜂属四种的核型分析(膜翅目:小蜂科)

Q3 Agricultural and Biological Sciences

Russian Entomological Journal Pub Date : 2020-09-01 DOI:10.15298/rusentj.29.2.17

V. Gokhman, A. V. Timokhov

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引用次数: 1

摘要

世界动物群中的4000种[Timokhov, 2019]。在天葵科中，先前研究了属于Trissolcus Ashmead属(1893)和Telenomus Haliday属(1833)的Telenominae亚科6个成员的核型(参见Gokhman, Timokhov，[2019])。尽管所有被检测的物种似乎都具有相同的单倍体染色体数，n = 10，但至少该家族的一些成员在核型结构的某些细节上可能存在差异[Gokhman, Timokhov, 2019]。此外，对于这两个被研究的端尾目物种，要么染色体数目仍然是唯一已知的染色体型特征，如T. turesis Walker, 1836 [= chloropus (Thomson, 1861)] [Gokhman, 2009]，要么现有的染色体组描述包含明显的错误，例如，存在假定的“性染色体”，如T. fariai Costa Lima, 1927 [Dreyfus, Breuer, 1944]。利用染色体形态计量学，我们最近研究了包括T. turesis在内的四种染色体的核型。这项工作的结果如下。

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Karyotypes of four species of the genus Telenomus Haliday, 1833 (Hymenoptera: Scelionidae)

4000 species in the world fauna [Timokhov, 2019]. Among the Scelionidae, karyotypes of six members of the subfamily Telenominae that belong to the genera Trissolcus Ashmead, 1893 and Telenomus Haliday, 1833 were previously studied (see Gokhman, Timokhov, [2019] for review). Although all examined species appeared to have the same haploid chromosome number, n = 10, at least some members of the family can differ in certain details of their karyotype structure [Gokhman, Timokhov, 2019]. Moreover, for both studied Telenomus species, either the chromosome number remains the only known karyotypic feature, as in T. turesis Walker, 1836 [= chloropus (Thomson, 1861)] [Gokhman, 2009], or the existing description of the chromosome set contains apparent errors, e.g. presence of the putative “sex chromosomes”, as in T. fariai Costa Lima, 1927 [Dreyfus, Breuer, 1944]. Using chromosome morphometrics, we have recently studied karyotypes of four members of the genus Telenomus including T. turesis. The results of this work are given below.

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来源期刊

Russian Entomological Journal Agricultural and Biological Sciences-Insect Science

CiteScore

1.20

自引率

0.00%

发文量