Ma Rui, Shi Yi, Wu Wei, Huang Chong, Xue Fei, Hou Rong, Zhou Yanshan, Gu Jiang, Feng Feifei, Yu Xiang, Liu Jiabin, Li Zusheng, Zhang Long, Lan Guanwei, Chen Chao, Bi Wenlei, Song Xinqiang, Fu Mingxia, Yang Hong, Gu Haijun, Yang Jiandong, Qi Dunwu
Sichuan Key Laboratory of Conservation Biology for Endangered Wildlife, Chengdu Research Base of Giant Panda Breeding, Chengdu, Sichuan, China.
College of Animal Science and Technology, Sichuan Agricultural University, Chengdu, Sichuan, China.
Microbiol Spectr. 2025 Jul;13(7):e0219724. doi: 10.1128/spectrum.02197-24. Epub 2025 Jun 10.
As common parasites in the wild, ticks significantly limit the population growth of wild giant pandas and hinder the process of reintroducing captive giant pandas into their natural habitats. Research on microbial communities and pathogens in ticks infesting giant pandas is limited, emphasizing the need for a comprehensive investigation. To thoroughly investigate the microbial communities in giant panda-infesting ticks, particularly potential pathogens, we analyzed 246 ticks collected from the ears of wild-living giant pandas using 16S rRNA and metagenomic sequencing. We found that the microbial diversity in female ticks was significantly enriched in summer. The microbial community structure carried by ticks is more significantly influenced by seasonal changes than by sex. Metagenomic results indicated that giant pandas have a higher risk of infection in summer and a higher risk of , , and infections in autumn. Over 90% of the ticks carried pathogens, with 82.54% harboring a single potentially pathogenic symbiont and the remaining 17.46% carrying multiple pathogens, all involving . Using the CARD database, we identified a total of 121 antibiotic resistance genes (ARGs), with 76% exhibiting antibiotic efflux mechanisms. Based on the significantly associated ARGs, we provided antibiotic treatment recommendations for infections potentially caused by pathogenic symbionts. This study provides a clear answer to the potential microbial pathogen risks of ticks infesting giant pandas and offers a framework for tick-borne diseases in reintroduced wild panda populations.
Importance: The emergence of tick-borne bacterial diseases poses a serious threat to the population health of wild-living giant pandas. Ticks are obligate hematophagous ectoparasites that survive by feeding on the blood of various animal hosts and spreading pathogens. Although some previous studies have confirmed that wild ticks carried various viruses, the role of wild giant panda-infesting ticks in the bacterial community remains unknown. Here, the identification of the microbial community and antibiotic resistome in giant panda-infesting ticks revealed that most ticks are potentially pathogenic symbionts, including , , and . Tick-borne disease control also needs to take into account the effects of season, sex, and antibiotic efflux resistance genes. Our findings highlight the contribution of the scientific management of tick-borne diseases in the giant panda population.
作为野生环境中的常见寄生虫,蜱虫严重限制了野生大熊猫的种群增长,并阻碍了将圈养大熊猫放归自然栖息地的进程。对寄生于大熊猫的蜱虫体内微生物群落和病原体的研究有限,这凸显了进行全面调查的必要性。为了深入研究寄生于大熊猫的蜱虫体内的微生物群落,特别是潜在病原体,我们使用16S rRNA和宏基因组测序分析了从野生大熊猫耳朵上采集的246只蜱虫。我们发现,雌性蜱虫体内的微生物多样性在夏季显著丰富。蜱虫携带的微生物群落结构受季节变化的影响比性别更为显著。宏基因组结果表明,大熊猫在夏季感染风险较高,在秋季感染[具体病原体1]、[具体病原体2]、[具体病原体3]和[具体病原体4]的风险较高。超过90%的蜱虫携带病原体,其中82.54%携带单一潜在致病共生菌,其余17.46%携带多种病原体,均涉及[具体病原体]。利用CARD数据库,我们共鉴定出121个抗生素抗性基因(ARGs),其中76%表现出抗生素外排机制。基于显著相关的ARGs,我们为潜在由致病共生菌引起的感染提供了抗生素治疗建议。本研究明确了寄生于大熊猫的蜱虫潜在微生物病原体风险,并为放归野生大熊猫种群中的蜱传疾病提供了一个框架。
蜱传细菌性疾病的出现对野生大熊猫的种群健康构成了严重威胁。蜱虫是专性吸血外寄生虫,通过吸食各种动物宿主的血液并传播病原体来生存。尽管先前的一些研究已证实野生蜱虫携带多种病毒,但野生寄生于大熊猫的蜱虫在细菌群落中的作用仍不清楚。在此,对寄生于大熊猫的蜱虫体内微生物群落和抗生素抗性组的鉴定表明,大多数蜱虫是潜在致病共生菌,包括[具体病原体1]、[具体病原体2]和[具体病原体3]。蜱传疾病的控制还需要考虑季节、性别和抗生素外排抗性基因的影响。我们的研究结果突出了大熊猫种群中蜱传疾病科学管理的贡献。
