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PubMed Publications| Keyword search (4,164 papers available) |  |
"Walsh DA" Authored Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Eutrophication and Warming Drive Algal Community Shifts in Synchronised Time Series of Experimental Lakes | Garner RE; Taranu ZE; Higgins SN; Paterson MJ; Gregory-Eaves I; Walsh DA; | 40704779 BIOLOGY |
| 2 | Water Quality and Land Use Shape Bacterial Communities Across 621 Canadian Lakes | Onana VE; Beisner BE; Walsh DA; | 39868666 BIOLOGY |
| 3 | Vulnerability of Arctic Ocean microbial eukaryotes to sea ice loss | Jackson VLN; Grevesse T; Kilias ES; Onda DFL; Young KF; Allen MJ; Walsh DA; Lovejoy C; Monier A; | 39572565 BIOLOGY |
| 4 | A genome catalogue of mercury-methylating bacteria and archaea from sediments of a boreal river facing human disturbances | Lawruk-Desjardins C; Storck V; Ponton DE; Amyot M; Walsh DA; | 38922750 BIOLOGY |
| 5 | A multiyear time series (2004-2012) of bacterial and archaeal community dynamics in a changing Arctic Ocean | Kraemer SA; Ramachandran A; Onana VE; Li WKW; Walsh DA; | 38282643 BIOLOGY |
| 6 | Publisher Correction: A genome catalogue of lake bacterial diversity and its drivers at continental scale | Garner RE; Kraemer SA; Onana VE; Fradette M; Varin MP; Huot Y; Walsh DA; | 37821571 BIOLOGY |
| 7 | A genome catalogue of lake bacterial diversity and its drivers at continental scale | Garner RE; Kraemer SA; Onana VE; Fradette M; Varin MP; Huot Y; Walsh DA; | 37524802 BIOLOGY |
| 8 | Geospatial analysis reveals a hotspot of fecal bacteria in Canadian prairie lakes linked to agricultural non-point sources | Oliva A; Onana VE; Garner RE; Kraemer SA; Fradette M; Walsh DA; Huot Y; | 36653256 BIOLOGY |
| 9 | Degradation pathways for organic matter of terrestrial origin are widespread and expressed in Arctic Ocean microbiomes | Grevesse T; Guéguen C; Onana VE; Walsh DA; | 36566218 BIOLOGY |
| 10 | A resistome survey across hundreds of freshwater bacterial communities reveals the impacts of veterinary and human antibiotics use | Kraemer SA; Barbosa da Costa N; Oliva A; Huot Y; Walsh DA; | 36338036 BIOLOGY |
| 11 | Comparing microscopy and DNA metabarcoding techniques for identifying cyanobacteria assemblages across hundreds of lakes | MacKeigan PW; Garner RE; Monchamp MÈ; Walsh DA; Onana VE; Kraemer SA; Pick FR; Beisner BE; Agbeti MD; da Costa NB; Shapiro BJ; Gregory-Eaves I; | 35287928 BIOLOGY |
| 12 | Rethinking microbial infallibility in the metagenomics era | O' Malley MA; Walsh DA; | 34160589 BIOLOGY |
| 13 | A Novel Freshwater to Marine Evolutionary Transition Revealed within Methylophilaceae Bacteria from the Arctic Ocean | Ramachandran A; McLatchie S; Walsh DA; | 34154421 BIOLOGY |
| 14 | Role of organic matter and microbial communities in mercury retention and methylation in sediments near run-of-river hydroelectric dams. | Millera Ferriz L, Ponton DE, Storck V, Leclerc M, Bilodeau F, Walsh DA, Amyot M | 33609815 BIOLOGY |
| 15 | Sediment Metagenomes as Time Capsules of Lake Microbiomes. | Garner RE; Gregory-Eaves I; Walsh DA; | 33148818 BIOLOGY |
| 16 | A large-scale assessment of lakes reveals a pervasive signal of land use on bacterial communities. | Kraemer SA, Barbosa da Costa N, Shapiro BJ, Fradette M, Huot Y, Walsh DA | 32770118 BIOLOGY |
| 17 | Modelling Free-Living and Particle-Associated Bacterial Assemblages across the Deep and Hypoxic Lower St. Lawrence Estuary. | Cui TT, Dawson TJ, McLatchie S, Dunn K, Bielawski J, Walsh DA | 32434843 BIOLOGY |
| 18 | Diversity and biogeography of SAR11 bacteria from the Arctic Ocean. | Kraemer S, Ramachandran A, Colatriano D, Lovejoy C, Walsh DA | 31501503 BIOLOGY |
| 19 | The NSERC Canadian Lake Pulse Network: A national assessment of lake health providing science for water management in a changing climate. | Huot Y, Brown CA, Potvin G, Antoniades D, Baulch HM, Beisner BE, Bélanger S, Brazeau S, Cabana H, Cardille JA, Del Giorgio PA, Gregory-Eaves I, Fortin MJ, Lang AS, Laurion I, Maranger R, Prairie YT, Rusak JA, Segura PA, Siron R, Smol JP, Vinebrooke RD, Walsh DA | 31419692 BIOLOGY |
| 20 | Genomic evidence for the degradation of terrestrial organic matter by pelagic Arctic Ocean Chloroflexi bacteria. | Colatriano D, Tran PQ, Guéguen C, Williams WJ, Lovejoy C, Walsh DA | 30271971 BIOLOGY |
| 21 | BioMiCo: a supervised Bayesian model for inference of microbial community structure. | Shafiei M, Dunn KA, Boon E, MacDonald SM, Walsh DA, Gu H, Bielawski JP | 25774293 BIOLOGY |
| 22 | A compendium of multi-omic sequence information from the Saanich Inlet water column. | Hawley AK, Torres-Beltrán M, Zaikova E, Walsh DA, Mueller A, Scofield M, Kheirandish S, Payne C, Pakhomova L, Bhatia M, Shevchuk O, Gies EA, Fairley D, Malfatti SA, Norbeck AD, Brewer HM, Pasa-Tolic L, Del Rio TG, Suttle CA, Tringe S, Hallam SJ | 29087368 BIOLOGY |
| 23 | A compendium of geochemical information from the Saanich Inlet water column. | Torres-Beltrán M, Hawley AK, Capelle D, Zaikova E, Walsh DA, Mueller A, Scofield M, Payne C, Pakhomova L, Kheirandish S, Finke J, Bhatia M, Shevchuk O, Gies EA, Fairley D, Michiels C, Suttle CA, Whitney F, Crowe SA, Tortell PD, Hallam SJ | 29087371 BIOLOGY |
| 24 | Microbial life under ice: Metagenome diversity and in situ activity of Verrucomicrobia in seasonally ice-covered Lakes. | Tran P, Ramachandran A, Khawasik O, Beisner BE, Rautio M, Huot Y, Walsh DA | 29921005 BIOLOGY |
| 25 | Progress and Challenges in Ocean Metaproteomics and Proposed Best Practices for Data Sharing. | Saito MA, Bertrand EM, Duffy ME, Gaylord DA, Held NA, Hervey WJ, Hettich RL, Jagtap PD, Janech MG, Kinkade DB, Leary DH, McIlvin MR, Moore EK, Morris RM, Neely BA, Nunn BL, Saunders JK, Shepherd AI, Symmonds NI, Walsh DA | 30702898 BIOLOGY |
| 26 | Annual nitrification dynamics in a seasonally ice-covered lake. | Massé S, Botrel M, Walsh DA, Maranger R | 30893339 BIOLOGY |
| 27 | Author Correction: A compendium of geochemical information from the Saanich Inlet water column. | Torres-Beltrán M, Hawley AK, Capelle D, Zaikova E, Walsh DA, Mueller A, Scofield M, Payne C, Pakhomova L, Kheirandish S, Finke J, Bhatia M, Shevchuk O, Gies EA, Fairley D, Michiels C, Suttle CA, Whitney F, Crowe SA, Tortell PD, Hallam SJ | 30647409 BIOLOGY |
| Title: | A genome catalogue of mercury-methylating bacteria and archaea from sediments of a boreal river facing human disturbances | ||||
| Authors: | Lawruk-Desjardins C, Storck V, Ponton DE, Amyot M, Walsh DA | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/38922750/ | ||||
| DOI: | 10.1111/1462-2920.16669 | ||||
| Publication: | Environmental microbiology | ||||
| Keywords: | |||||
| PMID: | 38922750 | Category: | Date Added: | 2024-06-26 | |
| Dept Affiliation: |
BIOLOGY
1 Department of Biology, Concordia University, Montreal, Quebec, Canada. 2 Département de sciences biologiques, Université de Montréal, Montreal, Quebec, Canada. |
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Description: |
Methyl mercury, a toxic compound, is produced by anaerobic microbes and magnifies in aquatic food webs, affecting the health of animals and humans. The exploration of mercury methylators based on genomes is still limited, especially in the context of river ecosystems. To address this knowledge gap, we developed a genome catalogue of potential mercury-methylating microorganisms. This was based on the presence of hgcAB from the sediments of a river affected by two run-of-river hydroelectric dams, logging activities and a wildfire. Through the use of genome-resolved metagenomics, we discovered a unique and diverse group of mercury methylators. These were dominated by members of the metabolically versatile Bacteroidota and were particularly rich in microbes that ferment butyrate. By comparing the diversity and abundance of mercury methylators between sites subjected to different disturbances, we found that ongoing disturbances, such as the input of organic matter related to logging activities, were particularly conducive to the establishment of a mercury-methylating niche. Finally, to gain a deeper understanding of the environmental factors that shape the diversity of mercury methylators, we compared the mercury-methylating genome catalogue with the broader microbial community. The results suggest that mercury methylators respond to environmental conditions in a manner similar to the overall microbial community. Therefore, it is crucial to interpret the diversity and abundance of mercury methylators within their specific ecological context. |
