ProfessorsProfessors of Wesleyan UniversityFrederick M. Cohan

Frederick M. Cohan

Wesleyan University

H-index: 48

North America-United States

About Frederick M. Cohan

Frederick M. Cohan, With an exceptional h-index of 48 and a recent h-index of 27 (since 2020), a distinguished researcher at Wesleyan University, specializes in the field of Origins of bacterial diversity.

His recent articles reflect a diverse array of research interests and contributions to the field:

Searching for bacterial plastitrophs in modified Winogradsky columns

Two plant-growth-promoting Bacillus species can utilize nanoplastics

Genotyping and multivariate regression trees reveal ecological diversification within the Microcystis aeruginosa Complex along a wide environmental gradient

Genomes reveal the cohesiveness of bacterial species taxa and provide a path towards describing all of bacterial diversity.

Biogeography of American northwest hot spring A/B′-lineage Synechococcus populations

Ecotype Simulation 2: an improved algorithm for efficiently demarcating microbial species from large sequence datasets

16 Genomes Reveal the Cohesiveness of Bacterial Species Taxa And Provide a Path Towards Describing All

Riccardo Baroncelli

Frederick M. Cohan Information

University	Wesleyan University
Position	___
Citations(all)	10978
Citations(since 2020)	2516
Cited By	9690
hIndex(all)	48
hIndex(since 2020)	27
i10Index(all)	77
i10Index(since 2020)	53
Email	Access Email
University Profile Page	Wesleyan University
Google Scholar	View Google Scholar Profile

Frederick M. Cohan Skills & Research Interests

Origins of bacterial diversity

Top articles of Frederick M. Cohan

Title	Journal	Author(s)	Publication Date
Searching for bacterial plastitrophs in modified Winogradsky columns	Frontiers in Microbiomes	Fatai A Olabemiwo Claudia Kunney Rachel Hsu Chloe De Palo Thaddeus Bashaw ...	2024/3/20
Two plant-growth-promoting Bacillus species can utilize nanoplastics	Science of The Total Environment	Fatai A Olabemiwo Ama Hagan Melanie Cham Frederick M Cohan	2024/1/10
Genotyping and multivariate regression trees reveal ecological diversification within the Microcystis aeruginosa Complex along a wide environmental gradient	Applied and Environmental Microbiology	Gabriela Martínez de la Escalera Angel M Segura Carla Kruk Badih Ghattas Frederick M Cohan ...	2022/2/8
Genomes reveal the cohesiveness of bacterial species taxa and provide a path towards describing all of bacterial diversity.		Frederick M Cohan	2021
Biogeography of American northwest hot spring A/B′-lineage Synechococcus populations	Frontiers in Microbiology	Eric D Becraft Jason M Wood Frederick M Cohan David M Ward	2020/2/24
Ecotype Simulation 2: an improved algorithm for efficiently demarcating microbial species from large sequence datasets	BioRxiv	Jason M Wood Eric D Becraft Daniel Krizanc Frederick M Cohan David M Ward	2020/2/12
16 Genomes Reveal the Cohesiveness of Bacterial Species Taxa And Provide a Path Towards Describing All		Frederick M Cohan	2020/12/9
Riccardo Baroncelli		Omar Belgacem Andrew M Borman Paul Bridge Kenneth Bruce Vera Bussas ...	2020/12/9
Broadscale phage therapy is unlikely to select for widespread evolution of bacterial resistance to virus infection	Virus Evolution	Frederick M Cohan Matthew Zandi Paul E Turner	2020/7
Differentiation strategies of soil rare and abundant microbial taxa in response to changing climatic regimes	Environmental microbiology	Yuting Liang Xian Xiao Erin E Nuccio Mengting Yuan Na Zhang ...	2020/4