宿主可塑性支持水产养殖引入的病毒传播到生态系统工程师。

Host plasticity supports spread of an aquaculture introduced virus to an ecosystem engineer.

机构信息

School of Biological, Earth and Environmental Sciences, University College Cork, Cork, Ireland.

Aquaculture and Fisheries Development Centre and Environmental Research Institute, University College Cork, Cork, Ireland.

出版信息

Parasit Vectors. 2020 Oct 1;13(1):498. doi: 10.1186/s13071-020-04373-y.

DOI:10.1186/s13071-020-04373-y

PMID:33004060

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7528252/

Abstract

BACKGROUND

The common cockle Cerastoderma edule plays an important ecological role in the marine ecosystem both as an infaunal engineer (reef forming and bioturbation) and a food source for protected bird species in its European range. Cockle beds are found in close proximity to aquaculture and fisheries operations, which can be "hot spots" for infectious agents including viruses and bacteria. Ostreid herpesvirus-1 microVar (OsHV-1 μVar) has spread to many Pacific oyster Crassostrea gigas culture sites globally, where it has been associated with significant mortalities in this cultured bivalve. Knowledge on the impact of the virus on the wider ecosystem, is limited. As the likelihood of released virus dispersing into the wider aquatic ecosystem is high, the plasticity of the virus and the susceptibility of C. edule to act as hosts or carriers is unknown.

METHODS

In this study, wild C. edule were sampled biweekly at two C. gigas culture sites over a four-month period during the summer when OsHV-1 μVar prevalence is at its highest in oysters. C. edule were screened for the virus molecularly (PCR, qPCR and Sanger sequencing) and visually (in situ hybridisation (ISH)). The cockle's ability to act as a carrier and transmit OsHV-1 μVar to the oyster host at a temperature of 14 ℃, when the virus is considered to be dormant until water temperatures exceed 16 ℃, was also assessed in laboratory transmission trials.

RESULTS

The results demonstrated that OsHV-1 μVar was detected in all C. edule size/age cohorts, at both culture sites. In the laboratory, viral transmission was effected from cockles to naïve oysters for the first time, five days post-exposure. The laboratory study also demonstrated that OsHV-1 μVar was active and was successfully transmitted from the C. edule at lower temperatures.

CONCLUSIONS

This study demonstrates that OsHV-1 μVar has the plasticity to infect the keystone species C. edule and highlights the possible trophic transmission of the virus from cockles to their mobile top predators. This scenario would have important implications, as a greater geographical range expansion of this significant pathogen via migratory bird species may have an impact on other species that reside in bird habitats most of which are special areas of conservation.

摘要

背景

普通贻贝 Cerastoderma edule 在海洋生态系统中扮演着重要的生态角色，既是底栖生物工程师（造礁和生物搅动），也是其欧洲分布范围内受保护鸟类物种的食物来源。贻贝床与水产养殖和渔业作业密切相关，这些作业可能是包括病毒和细菌在内的传染病原体的“热点”。牡蛎疱疹病毒 1 微变体（OsHV-1 μVar）已传播到全球许多太平洋牡蛎 Crassostrea gigas 养殖地点，在那里它与这种养殖双壳类动物的大量死亡有关。关于该病毒对更广泛生态系统影响的知识有限。由于释放的病毒扩散到更广泛的水生生态系统的可能性很高，因此该病毒的可塑性以及贻贝作为宿主或载体的易感性尚不清楚。

方法

在本研究中，在夏季，当牡蛎中 OsHV-1 μVar 的流行率最高时，在两个月的时间里，在两个太平洋牡蛎养殖地点每隔两周对野生贻贝进行采样。通过分子（PCR、qPCR 和 Sanger 测序）和视觉（原位杂交（ISH））方法对贻贝进行病毒筛查。还评估了在 14°C 的温度下，当病毒被认为处于休眠状态，直到水温超过 16°C 时，贻贝作为载体并将 OsHV-1 μVar 传播给牡蛎宿主的能力，在实验室传播试验中。

结果

结果表明，在两个养殖地点的所有贻贝大小/年龄组中均检测到 OsHV-1 μVar。在实验室中，首次在接触后五天从贻贝向无经验的牡蛎传播了病毒。实验室研究还表明，OsHV-1 μVar 具有活性，并能在较低温度下成功从贻贝中传播。

结论

本研究表明，OsHV-1 μVar 具有感染关键物种 C. edule 的可塑性，并强调了病毒从贻贝到它们的移动顶级捕食者的可能营养传播。这种情况将产生重要影响，因为通过迁徙鸟类传播这种重要病原体的地理范围的更大扩展可能会对居住在鸟类栖息地的其他物种产生影响，而这些栖息地中的大多数都是特殊的保护区。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0fac/7528252/5a35e4570940/13071_2020_4373_Fig1_HTML.jpg

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宿主可塑性支持水产养殖引入的病毒传播到生态系统工程师。

Host plasticity supports spread of an aquaculture introduced virus to an ecosystem engineer.

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CONCLUSIONS

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