College of Veterinary Medicine, University of Tennessee, Knoxville, Tennessee, United States of America.
McClung Museum of Natural History and Culture, University of Tennessee, Knoxville, Tennessee, United States of America.
PLoS One. 2024 Aug 27;19(8):e0301250. doi: 10.1371/journal.pone.0301250. eCollection 2024.
Freshwater mussels are integral components of riverine ecosystems, influencing water quality, nutrient cycling, and habitat characteristics. Enigmatic freshwater mussel declines, often characterized by sudden mass mortality events, pose significant challenges to conservation efforts. The Clinch River, a freshwater biodiversity hotspot in Virginia and Tennessee, USA, has experienced several enigmatic mass mortality events since 2016. Studies have reported bacteria associated with moribund Pheasantshell (Actinonaias pectorosa) during mortality events in the Clinch River, specifically Yokenella regensburgei. Despite reports of bacterial infection, little is known about their role as pathogens. Through a multiyear case-control study, combining in-situ experiments, field surveys, histology, bacterial isolation, and high-throughput sequencing, we assessed the role of bacteria in Pheasantshell (Actinonais pectorosa) mortality at three sites in the Clinch River. Between May 2021 and December 2023, we collected 21 wild moribund free-living A. pectorosa and 68 hatchery-reared A. pectorosa maintained in silos at the same sites and investigated differences in pathology and microbiologye between groups. No silo mussels presented clinical signs of disease, or gross or microscopic lesions associated with pathological conditions leading to mortality. Our findings reveal a significant association between Yokenella regensburgei and severe multisystemic and multifocal infiltrative hemocytosis with necrosis, consistent with sepsis. Lesions associated with yokenellosis were of sufficient severity and physiological significance to explain mortality in infected hosts. Although our study does not explain the cause of these infections, it confirms that mussels at our study sites are ultimately dying with an infectious disease and that Y. regensburgei can be pathogenic in free-living mussels. Our results underscore the importance of considering bacterial diseases in wild mussel populations and emphasize the need for further research to elucidate the epidemiology and pathogenicity of Y. regensburgei. Overall, our study highlights the importance of integrated approaches combining pathology, microbiology, and epidemiology in freshwater mussel conservation efforts.
淡水贻贝是河流生态系统的重要组成部分,影响着水质、养分循环和栖息地特征。神秘的淡水贻贝数量减少,其特征通常是突然发生大规模死亡事件,这对保护工作构成了重大挑战。美国弗吉尼亚州和田纳西州的克林奇河(Clinch River)是一个淡水生物多样性热点地区,自 2016 年以来已经发生了几次神秘的大规模死亡事件。研究报告称,在克林奇河中贻贝死亡事件期间,与濒死的圆顶珠蚌(Actinonaias pectorosa)相关的细菌是 Yokenella regensburgei。尽管有报道称存在细菌感染,但对其作为病原体的作用知之甚少。通过一项多年的病例对照研究,结合原位实验、野外调查、组织学、细菌分离和高通量测序,我们评估了细菌在克林奇河三个地点的圆顶珠蚌(Actinonais pectorosa)死亡中的作用。在 2021 年 5 月至 2023 年 12 月期间,我们收集了 21 只野外濒死的自由生活的 A.pectrosa 和 68 只在同一地点的筒仓中饲养的人工养殖的 A.pectrosa,并研究了两组之间的病理学和微生物学差异。筒仓贻贝没有表现出疾病的临床症状,也没有与导致死亡的病理状况相关的肉眼或显微镜下的病变。我们的研究结果表明,Yokenella regensburgei 与严重的多系统和多灶性浸润性血红细胞增多症伴坏死之间存在显著关联,与败血症一致。与 yokenellosis 相关的病变具有足够的严重程度和生理意义,可以解释感染宿主的死亡。尽管我们的研究并未解释这些感染的原因,但它证实了我们研究地点的贻贝最终是死于传染病,并且 Y. regensburgei 可以在自由生活的贻贝中引起疾病。我们的研究结果强调了在野生贻贝种群中考虑细菌疾病的重要性,并强调需要进一步研究来阐明 Y. regensburgei 的流行病学和致病性。总的来说,我们的研究强调了在淡水贻贝保护工作中结合病理学、微生物学和流行病学的综合方法的重要性。
