Global patterns in coronavirus diversity

Anthony, Simon J.; Johnson, Christine K.; Greig, Denise J.; Krämer, Sarah; Che, Xiaoyu; Wells, Heather L.; Hicks, Alan C.; Joly, Damien O.; Wolfe, Nathan; Daszak, Peter; Karesh, William B.; Lipkin, W. Ian; Morse, Stephen S.; Mazet, Jonna A. K.; Goldstein, Tracey

doi:10.1093/ve/vex012

Cited by 368 publications

(545 citation statements)

References 61 publications

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“…Although we acknowledge that bats may represent an important share of natural virus reservoirs (Anthony et al 2017, Maxmen 2017, Olival et al 2017) that might eventually pose danger to people, we remain firm in asserting that the risk of virus transmission from bats to humans is small (Kingston 2016, Anthony et al 2017, an aspect that is worryingly neglected in most virological bat-related publications. Moreover, the fact that an increasing number of virus outbreaks is largely attributable to human encroachment in natural areas (Buttke et al 2015, Terraube et al 2017) is rarely publicised.…”

Section: Bats Viruses and Framesmentioning

confidence: 85%

When bats go viral: negative framings in virological research imperil bat conservation

2017

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The recent upsurge in bat-borne virus research has attracted substantial news coverage worldwide. A systematic review of virological literature revealed that bats were described as a major concern for public health in half of all studies (51%), and that their key role in delivering ecosystem services was disregarded in almost all studies (96%). Although research on zoonoses is of the utmost importance, biased framings of bats can undermine decades of conservation efforts. We urge researchers and science communicators to consider the conservation impacts of how research findings are presented to the public carefully, and, whenever possible, to highlight the ecological significance of bats, their dire conservation situation and their importance for human well-being.

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Section: Bats Viruses and Framesmentioning

confidence: 85%

When bats go viral: negative framings in virological research imperil bat conservation

2017

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“…Specific clades of viruses are often primarily associated with closely related bat taxa; for example, the SARS coronaviruses are primarily found in the genus Rhinolophus, which includes a number of cave-roosting species [23,24]. Other viral groups appear to be shared more widely across bat taxa with varying ecological and life-history traits, particularly generalist viruses such as lyssaviruses and mosquito-borne flaviviruses [25].…”

Section: Viral Diversity In Cave-and Non-cave-roosting Batsmentioning

confidence: 99%

“…Standardized field surveillance in targeted sites are beginning to fill these gaps [23]. Our calculated spatial variables rely on an assumption that viral distribution extends across a species' entire geographic range [11,68], although pathogen distribution is likely more constrained to certain bat populations or habitat fragments.…”

Section: Caveats and Future Directionsmentioning

confidence: 99%

A Comparative Analysis of Viral Richness and Viral Sharing in Cave-Roosting Bats

2017

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Caves provide critical roosting habitats for bats globally, but are increasingly disturbed or destroyed by human activities such as tourism and extractive industries. In addition to degrading the habitats of cave-roosting bats, such activities often promote contact between humans and bats, which may have potential impacts on human health. Cave-roosting bats are hosts to diverse viruses, some of which emerged in humans with severe consequences (e.g., severe acute respiratory syndrome coronavirus and Marburg virus). Characterizing patterns of viral richness and sharing among bat species are therefore important first steps for understanding bat-virus dynamics and mitigating future bat-human spillover. Here we compile a database of bat-virus associations and bat species ecological traits, and investigate the importance of roosting behavior as a determinant of viral richness and viral sharing among bat species. We show that cave-roosting species do not host greater viral richness, when accounting for publication bias, diet, body mass, and geographic range size. Our global analyses, however, show that cave-roosting bats do exhibit a greater likelihood of viral sharing, especially those documented in the literature as co-roosting in the same cave. We highlight the importance of caves as critical foci for bat conservation, as well as ideal sites for longitudinal surveillance of bat-virus dynamics.

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“…Again, over eons, bats have evolved to cope with these challenges, often leading to survival despite viral exposure (for a comprehensive list of viruses detected in bats, see 54). Epidemiological studies and field surveys suggest viruses circulate in wild bat populations (12,55) without causing the great morbidity or mortality observed as a result of viral spillovers into humans (Table 1) (14,56). Although the processes through which bats manage to clear viral infections remain poorly understood, possible explanations for the resilience of individual bats to these infections include not only heightened immune function but modulation of inflammation and mechanisms of repair (16).…”

Section: Model For Enhanced Disease Resistancementioning

confidence: 99%

“…Without bats, it is estimated that the United States would spend more than $3 billion a year on pesticides alone (10). Bats are suspected reservoirs for some of the deadliest viral diseases [e.g., Ebola, SARS (severe acute respiratory syndrome), rabies, and MERS (Middle East respiratory syndrome coronavirus); [11][12][13][14], but they appear to be asymptomatic and survive these infections. This suggests that bats have evolved unique immune systems, and potentially the solution to better tolerate these pathogens may lie in uncovering how bats limit their immunopathology upon infection (15,16).…”

Section: Introductionmentioning

confidence: 99%

Bat Biology, Genomes, and the Bat1K Project: To Generate Chromosome-Level Genomes for All Living Bat Species

Teeling

Vernes

Dávalos

et al. 2018

Annu. Rev. Anim. Biosci.

184

191

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Bats are unique among mammals, possessing some of the rarest mammalian adaptations, including true self-powered flight, laryngeal echolocation, exceptional longevity, unique immunity, contracted genomes, and vocal learning. They provide key ecosystem services, pollinating tropical plants, dispersing seeds, and controlling insect pest populations, thus driving healthy ecosystems. They account for more than 20% of all living mammalian diversity, and their crown-group evolutionary history dates back to the Eocene. Despite their great numbers and diversity, many species are threatened and endangered. Here we announce Bat1K, an initiative to sequence the genomes of all living bat species (n ∼ 1,300) to chromosome-level assembly. The Bat1K genome consortium unites bat biologists (>148 members as of writing), computational scientists, conservation organizations, genome technologists, and any interested individuals committed to a better understanding of the genetic and evolutionary mechanisms that underlie the unique adaptations of bats. Our aim is to catalog the unique genetic diversity present in all living bats to better understand the molecular basis of their unique adaptations; uncover their evolutionary history; link genotype with phenotype; and ultimately better understand, promote, and conserve bats. Here we review the unique adaptations of bats and highlight how chromosome-level genome assemblies can uncover the molecular basis of these traits. We present a novel sequencing and assembly strategy and review the striking societal and scientific benefits that will result from the Bat1K initiative.

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Global patterns in coronavirus diversity

Cited by 368 publications

References 61 publications

When bats go viral: negative framings in virological research imperil bat conservation

When bats go viral: negative framings in virological research imperil bat conservation

A Comparative Analysis of Viral Richness and Viral Sharing in Cave-Roosting Bats

Bat Biology, Genomes, and the Bat1K Project: To Generate Chromosome-Level Genomes for All Living Bat Species

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