一种新型促性腺微孢子虫(clinchi Microsporidium n.sp .)感染美国克林奇河下降的山贝(Actinonaias pectorosa) (uniinidae)种群

S. Knowles, E. Leis, J. Richard, R. Cole, Rose E. Agbalog, Joel G. Putnam, T. Goldberg, D. Waller
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引用次数: 6

摘要

淡水贻贝是全球最濒危的动物群体之一,但其数量下降的原因往往是神秘的,人们对疾病的作用知之甚少。2018年,我们在调查美国弗吉尼亚州和田纳西州克林奇河正在发生的贻贝大量死亡事件的流行病学调查中收集了野生成年山鸡壳(Actinonaias pectorosa)和毛鸭壳(Actinonaias ligamentina)。组织病理学和透射电镜显示一种新型的微孢子虫寄生于山鸡卵巢。小亚基rRNA基因测序得到1333 bp的序列,与cristatellae Pseudonosema (AF484694.1;86.36%;e值= 0),一种感染淡水苔藓虫(Cristatella mucedo)的微孢子虫。小孢子虫在65%(17/26)的雌山鸡壳(A. pectorosa)和0(0/2)的雌山鸡鼻(A. ligamentina)中检出,发生在死亡和非死亡部位。我们的研究结果表明,克林奇河的山鸡壳中存在一种新的寄生虫,克林奇小孢子虫,虽然可能不是导致大规模死亡的原因,但可能会降低这一不断下降的种群的繁殖力和招募,并威胁到重新引入的成功。因此,对克林奇氏微孢子虫的监测和对亲鱼及其后代微孢子虫的评估是谨慎的。
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A Novel Gonadotropic Microsporidian Parasite (Microsporidium clinchi n. sp.) Infecting a Declining Population of Pheasantshell Mussels (Actinonaias pectorosa) (Unioinidae) from the Clinch River, USA
Freshwater mussels of the order Unionida are among the most endangered animal groups globally, but the causes of their population decline are often enigmatic, with little known about the role of disease. In 2018, we collected wild adult pheasantshell (Actinonaias pectorosa) and mucket (Actinonaias ligamentina) during an epidemiologic survey investigating an ongoing mussel mass mortality event in the Clinch River, Virginia and Tennessee, USA. Histopathology and transmission electron microscopy showed a novel microsporidian parasite primarily infecting the ovary of pheasantshell. Sequencing of the small subunit rRNA gene produced a 1333 bp sequence with the greatest similarity to Pseudonosema cristatellae (AF484694.1; 86.36%; e-value = 0), a microsporidium infecting the freshwater bryozoan (Cristatella mucedo). Microsporidia were observed in 65% (17/26) of the examined female pheasantshell (A. pectorosa) and in no (0/2) female muckets (A. ligamentina) and occurred at mortality and non-mortality sites. Our findings indicate that a novel parasite, Microsporidium clinchi n. sp., is present in pheasantshell in the Clinch River, and while likely not a cause of mass mortality, could reduce fecundity and recruitment in this declining population and threaten the success of reintroductions. Surveillance of M. clinchi n. sp. and evaluation of broodstock and their progeny for microsporidia would therefore be prudent.
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