Jahcub Trew scite author profile

Freshwater environments are fragmented and heterogeneous in space and time. Long term persistence thus necessitates at least occasional dispersal of aquatic organisms to locate suitable habitats. However, the insubstantial movements of many require zoochory-hitchhiking a ride with more mobile animals. We review evidence for waterbird-mediated zoochory of freshwater bryozoans, a group that provides an excellent model for addressing this issue. The feasibility of long distance transport by waterbirds of bryozoan propagules (statoblasts) is evaluated in relation to statoblast resistance to extreme conditions and waterbird gut retention times, flight durations and distances. We highlight genetic evidence for colonization following waterbird-mediated transport. The consequences of zoochory for biodiversity are manifold. Taxa that release statoblasts show lower levels of genetic differentiation, genetic divergence and haplotype diversity than those whose statoblasts are retained in situ (hence less available for zoochory). Zoochory may also disseminate pathogens and parasites when infected host stages are transported. Such co-dispersal may explain some disease distributions and is supported by viability of infected statoblasts. Zoochory can also be expected to influence local and regional population and community dynamics, food web structure and stability, and organismal distributions, and abundances. Finally, zoochory may influence host-parasite coevolution and disease dynamics across the landscape with the benefits to parasites depending on their life history (e.g., simple vs. complex life cycles, generalists vs. specialists). Our synthesis highlights the complex ecological and evolutionary impacts of zoochory of freshwater organisms and raises questions for future research.

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Comparative Genomics of Microsporidia

Williams

Trew

2022

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Antimicrobial Resistance in Aquaculture Environments: Unravelling the Complexity and Connectivity of the Underlying Societal Drivers

Thornber

Bashar

Ahmed³

et al. 2022

Environ. Sci. Technol.

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Food production environments in low-and middleincome countries (LMICs) are recognized as posing significant and increasing risks to antimicrobial resistance (AMR), one of the greatest threats to global public health and food security systems. In order to maximize and expedite action in mitigating AMR, the World Bank and AMR Global Leaders Group have recommended that AMR is integrated into wider sustainable development strategies. Thus, there is an urgent need for tools to support decision makers in unravelling the complex social and environmental factors driving AMR in LMIC food-producing environments and in demonstrating meaningful connectivity with other sustainable development issues. Here, we applied the Driver-Pressure-State-Impact-Response (DPSIR) conceptual framework to an aquaculture case study site in rural Bangladesh, through the analysis of distinct social, microbiological, and metagenomic data sets. We show how the DPSIR framework supports the integration of these diverse data sets, first to systematically characterize the complex network of societal drivers of AMR in these environments and second to delineate the connectivity between AMR and wider sustainable development issues. Our study illustrates the complexity and challenges of addressing AMR in rural aquaculture environments and supports efforts to implement global policy aimed at mitigating AMR in aquaculture and other rural LMIC foodproducing environments.

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Genomic screening of 16 UK native bat species through conservationist networks uncovers coronaviruses with zoonotic potential

Tan

Trew

Peacock

et al. 2023

Preprint

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While the COVID-19 pandemic, caused by SARS-CoV-2, has renewed genomic surveillance efforts in wildlife, there has been limited characterisation of bat-borne coronaviruses in Europe. We collected 48 faecal samples from all but one of the 17 bat species breeding in the UK, through an extensive network of bat rehabilitators and conservationists, and screened them for coronaviruses using deep RNA sequencing. We assembled nine novel, high-quality coronaviral genomes, comprising four alphacoronaviruses from Myotis daubentonii and Pipistrellus pipistrellus, a Middle East respiratory syndrome (MERS)-related coronavirus from Plecotus auritus, and four closely-related sarbecoviruses isolated from both horseshoe bat species Rhinolophus hipposideros and R. ferrumequinum. We further used in vitro assays to demonstrate that at least one of these sarbecoviruses can bind ACE2, the receptor used by SARS-CoV-2 to infect human cells, which was also supported using in silico structural and sequence analyses. Although this sarbecovirus can enter human cells in vitro when ACE2 is over-expressed, our analyses indicate that it is unlikely to infect humans and would require adaptations to do so. Our findings highlight the importance of working collaboratively with conservation networks to enable larger, coordinated viral surveillance efforts and prevent the emergence of zoonoses from wildlife.

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No evidence for environmental transmission risk of SARS-CoV-2 in the UK’s largest urban river system: London as a case study

Ransome

Hobbs

Jones

et al. 2022

Preprint

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The presence of SARS-CoV-2 in untreated sewage has been confirmed in many countries but its incidence and infection risk in contaminated freshwaters is still poorly understood. The River Thames in the UK receives untreated sewage from 57 Combined Sewer Overflows (CSOs), with many discharging dozens of times per year. We investigated if such discharges provide a pathway for environmental transmission of SARS-CoV-2. Samples of wastewater, surface water, and sediment collected close to six CSOs on the River Thames were assayed over 8 months for SARS-CoV-2 RNA and infectious virus. Bivalves were sampled as sentinel species of viral bioaccumulation. Sediment and water samples from the Danube and Sava rivers in Serbia, where raw sewage is also discharged in high volumes, were assayed as a positive control. We found no evidence of SARS-CoV-2 RNA or infectious virus in UK samples, in contrast to RNA positive water and sediment samples from Serbia. Furthermore, we show that infectious SARS-CoV-2 inoculum is stable in Thames water and sediment for < 3 days, while RNA remained detectable for at least seven days. This indicates that dilution of wastewater likely limits environmental transmission, and that infectivity should be embedded in future risk assessments of pathogen spillover.

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Jahcub Trew

Waterbird-Mediated Dispersal and Freshwater Biodiversity: General Insights From Bryozoans

Comparative Genomics of Microsporidia

Antimicrobial Resistance in Aquaculture Environments: Unravelling the Complexity and Connectivity of the Underlying Societal Drivers

Genomic screening of 16 UK native bat species through conservationist networks uncovers coronaviruses with zoonotic potential

No evidence for environmental transmission risk of SARS-CoV-2 in the UK’s largest urban river system: London as a case study

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