美国明尼苏达州东北部驼鹿（Alces alces）和虻类媒介中动脉虫 Elaeophora schneideri 的出现。

Emergence of the arterial worm Elaeophora schneideri in moose (Alces alces) and tabanid fly vectors in northeastern Minnesota, USA.

机构信息

Department of Microbiology, University of Tennessee, M409 Walters Life Sciences, Knoxville, TN, 37996-0845, USA.

Nor-West Animal Clinic, 411 McIrvine Rd, Fort Frances, Ontario, P9A3X7, Canada.

出版信息

Parasit Vectors. 2018 Sep 10;11(1):507. doi: 10.1186/s13071-018-3077-0.

DOI:10.1186/s13071-018-3077-0

PMID:30201046

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6131914/

Abstract

BACKGROUND

Moose (Alces alces) are a culturally and economically valued species in Minnesota. However, the moose population has experienced a sudden, marked decline in their range, including extirpation in the northwest and a 66% decline in the last decade in the northeast portions of the state. Although the exact cause of this decline is unclear, parasitic metastrongylid and filarioid nematode infections are known causes of morbidity and mortality in moose across North America.

METHODS

To determine if these parasitic nematodes could be contributing to the Minnesota moose population decline, we molecularly examined banked tissues obtained from moose that died of known and unknown causes for the presence of nematode DNA. Extracted brain DNA of 34 individual moose was amplified utilizing primers targeting the 18S rRNA gene and internal transcribed spacer regions of nematodes.

RESULTS

DNA sequencing revealed that PCR products obtained from 15 (44.1%) of the moose were 99% identical to Parelaphostrongylus tenuis, a metastrongylid known to cause neurological disease and death. Additionally, brain tissue from 20 (58.8%) individuals yielded sequences that most closely aligned with Elaeophora schneideri, a parasite associated with neurological impairment but previously unreported in Minnesota. Setaria yehi, a common filarioid parasite of deer, was also detected in the brain tissue of 5 (14.7%) moose. Molecular screening of 618 captured tabanid flies from four trapping sites revealed E. schneideri was present (6%) in the Minnesota environment and transmission could occur locally. Prevalence rates among the flies ranged between 0-100% per trapping site, with Chrysops spp. and Hybomitra spp. implicated as the vectors.

CONCLUSIONS

Ultimately, these data confirm that P. tenuis is widespread in the Minnesota moose population and raises the question of the significance of E. schneideri as a contributing factor to morbidity and mortality in moose.

摘要

背景

驼鹿（Alces alces）在明尼苏达州具有文化和经济价值。然而，驼鹿种群的分布范围突然显著减少，包括在西北部地区灭绝，以及在该州东北部地区过去十年减少了 66%。尽管确切的下降原因尚不清楚，但寄生的类圆线虫和丝虫线虫感染是北美的驼鹿发病和死亡的已知原因。

方法

为了确定这些寄生线虫是否可能导致明尼苏达州驼鹿种群减少，我们利用针对线虫 18S rRNA 基因和内部转录间隔区的引物，从死于已知和未知原因的驼鹿的储存组织中分子检查了线虫 DNA 的存在。对 34 头驼鹿的脑 DNA 进行了扩增，共获得 15 头（44.1%）驼鹿的 DNA 序列与 Parelaphostrongylus tenuis 完全一致，这是一种已知引起神经疾病和死亡的类圆线虫。此外，20 头（58.8%）驼鹿的脑组织序列与 Elaeophora schneideri 最接近，这是一种与神经损伤相关但以前在明尼苏达州未报告过的寄生虫。在 5 头（14.7%）驼鹿的脑组织中也检测到 Deer 的常见丝状寄生虫 Setaria yehi。从四个诱捕地点捕获的 618 只虻蝇的分子筛选表明，Elaeophora schneideri 存在于明尼苏达州的环境中（6%），并且可以在当地传播。蝇类的患病率在每个诱捕点之间为 0-100%，其中 Chrysops spp. 和 Hybomitra spp. 被认为是传播媒介。

结论

最终，这些数据证实 P. tenuis 在明尼苏达州的驼鹿种群中广泛存在，并提出了 E. schneideri 是否是导致驼鹿发病和死亡的一个因素的问题。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b830/6131914/7268a3b674b6/13071_2018_3077_Fig1_HTML.jpg

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美国明尼苏达州东北部驼鹿（Alces alces）和虻类媒介中动脉虫 Elaeophora schneideri 的出现。

Emergence of the arterial worm Elaeophora schneideri in moose (Alces alces) and tabanid fly vectors in northeastern Minnesota, USA.

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