The risk of SARS-2 establishing itself in animal reservoirs

Lead Research Organisation: University of Nottingham
Department Name: School of Veterinary Medicine and Sci

Abstract

The current SARS-2 pandemic is primarily driven by human to human spread, yet its origins began in wildlife and the virus displays a propensity for repeated spill over from humans to other animal species. The establishment of infection spreading from animal to animal in farmed mink in Europe has highlighted that the virus is quite capable of establishing itself in new animal reservoirs. Should the species it establishes in be a wild animal rather than an easily culled domestic one this creates a permanent re-infection risk for the human population, greatly complicating efforts to minimise COVID-19s impact
Southern India is a prime hotspot for zoonotic spillovers with a dense human population and a tropical climate with high species diversity and density in the animal population. Ample opportunity exists for human/wildlife interactions and the sharing of pathogens. This project will focus on identifying whether SARS-2 spill over is occurring into the wild animal population in the Indian State of Kerala. The project will use established pan-coronavirus PCR and deep sequencing methods used successfully to identify coronaviruses in wild animals to determine whether animals in this location are contracting SARS-2 from the human population and whether it is establishing independent circulation. This project will in addition identify any other coronaviruses present filling a crucial knowledge gap in preparation for the next pandemic.
The sheer variety of wildlife present in Kerala means that it is not feasible to sample all species, this project will focus on those groups (bats and small carnivores) with a known propensity for SARS-2 infection , those likely to carry SARs like viruses (the sarbecovirus genus) naturally and those in close contact with the human population

Publications

10 25 50
 
Description We have not detected SARS-COV-2 in any of the 300 animals tested (Rufous horseshoe bat, lesser woolly horseshoe bat, common palm civet, bonnett macaque). This is reassuring in that some of these species (macaques in urban and village sites in particular) are considered very high risk for potential spill over (and are very susceptible in experimental conditions).
Exploitation Route The work has highlighted that sustained transmission in Indian wildlife does not appear to be happening (despite sporadic reports of individual cases in a leopard). Given the lack of data from this part of the world this is a useful and reassuring piece of data on high risk species (like macaques) and will be published over the next year
Sectors Agriculture

Food and Drink

Environment

Healthcare

 
Title Database of Indian Wildlife samples 
Description Database of metadata (species, sample site, date of collection), testing results and sequencing data (when available) for samples collected as part of this project 
Type Of Material Database/Collection of data 
Year Produced 2022 
Provided To Others? No  
Impact The database is still being populated but can be made available when complete or developed further for other data repository 
URL https://sars2.scigenom.com/
 
Description International Conference on Livestock, Companion Animals and Wildlife Coronaviruses 2023 
Form Of Engagement Activity A formal working group, expert panel or dialogue
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Professional Practitioners
Results and Impact Scientific meeting focused on coronaviruses in animals
Year(s) Of Engagement Activity 2023
URL https://uk-icn.co.uk/events/international-conference-on-livestock-companion-animals-and-wildlife-cor...