Sergio L Mosquera Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
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Biography and Research Information
OverviewAI-generated summary
Sergio L. Mosquera's research investigates microbial communities and their ecological roles, particularly in wood-associated ecosystems and under simulated extraterrestrial conditions. His work includes studying the assembly of archaeal, bacterial, and fungal communities along salinity gradients, identifying broadly distributed but locally abundant taxa. Mosquera also examines the expression of key microbial genes, such as the dsrAB operon in *Desulfotalea psychrophila*, under simulated Martian conditions including temperature and sulfate mineral composition. He has a h-index of 1 with 3 total publications and 3 total citations. His recent work includes collaborations with V. F. Chevrier and Mack Ivey at the University of Arkansas at Fayetteville.
Metrics
- h-index: 1
- Publications: 3
- Citations: 3
Selected Publications
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Detection of dsrAB operon expression in <i>Desulfotalea psychrophila</i> cells subjected to simulated Martian conditions of temperature and regolith's sulphate minerals composition (2023)
Collaboration Network
Top Collaborators
- Assembly of wood-inhabiting archaeal, bacterial and fungal communities along a salinity gradient: common taxa are broadly distributed but locally abundant in preferred habitats
- Assembly of wood-inhabiting archaeal, bacterial and fungal communities along a salinity gradient: common taxa are broadly distributed but locally abundant in preferred habitats
- Assembly of wood-inhabiting archaeal, bacterial and fungal communities along a salinity gradient: common taxa are broadly distributed but locally abundant in preferred habitats
- Assembly of wood-inhabiting archaeal, bacterial and fungal communities along a salinity gradient: common taxa are broadly distributed but locally abundant in preferred habitats
- Detection of dsrAB operon expression in <i>Desulfotalea psychrophila</i> cells subjected to simulated Martian conditions of temperature and regolith's sulphate minerals composition
- Detection of dsrAB operon expression in <i>Desulfotalea psychrophila</i> cells subjected to simulated Martian conditions of temperature and regolith's sulphate minerals composition
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