Jeffrey P Chanton

Overview

Explore the profile of Jeffrey P Chanton including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 67

Citations 993

Followers 0

Related Specialties

Environmental Health

Microbiology

Science

Top 10 Co-Authors

Rachel M Wilson

Malak M Tfaily

Joel E Kostka

Virginia I Rich

Patrick M Crill

Paul J Hanson

Carmody K McCalley

Suzanne B Hodgkins

Ben J Woodcroft

Gene W Tyson

Published In

PLoS One

Environ Sci Technol

Appl Environ Microbiol

Glob Chang Biol

Proc Natl Acad Sci U S A

Affiliations

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Recent Articles

Identifying the Molecular Signatures of Organic Matter Leached from Land-Applied Biosolids via 21 T FT-ICR Mass Spectrometry

Kellerman A, Lin Y, McKenna A, Osborne T, Canion A, Lee Y, et al.

Environ Sci Technol . 2025 Jan; 59(5):2665-2674. PMID: 39869539

Intensification of wastewater treatment residual (i.e., biosolid) applications to watersheds can alter the amount and composition of organic matter (OM) mobilized into waterways. To identify novel tracers of biosolids, characterization...

Complex bacterial diversity of Guaymas Basin hydrothermal sediments revealed by synthetic long-read sequencing (LoopSeq)

Hinkle J, Chanton J, Moynihan M, Ruff S, Teske A

Front Microbiol . 2025 Jan; 15():1491488. PMID: 39839103

Hydrothermal sediments host phylogenetically diverse and physiologically complex microbial communities. Previous studies of microbial community structure in hydrothermal sediments have typically used short-read sequencing approaches. To improve on these approaches,...

A climatically significant abiotic mechanism driving carbon loss and nitrogen limitation in peat bogs

Cory A, Wilson R, Holmes M, Riley W, Li Y, Tfaily M, et al.

Sci Rep . 2025 Jan; 15(1):2560. PMID: 39833269

Sphagnum-dominated bogs are climatically impactful systems that exhibit two puzzling characteristics: CO:CH ratios are greater than those predicted by electron balance models and C decomposition rates are enigmatically slow. We...

Peatland organic matter quality varies with latitude as suggested by combination of FTIR and Ramped Pyrolysis Oxidation

Sparrow K, Chanton J, Hanke U, Kurz M, McNichol A

PLoS One . 2024 Nov; 19(11):e0309654. PMID: 39541290

We employed two compelling and distinct methods, Fourier Transform Infrared Spectroscopy (FTIR) and Ramped Pyrolysis Oxidation (Ramped PyrOx), to examine the quality of organic matter (OM) stored in four peatlands...

Polyphenol rewiring of the microbiome reduces methane emissions

McGivern B, Ellenbogen J, Hoyt D, Bouranis J, Stemple B, Daly R, et al.

bioRxiv . 2024 Nov; PMID: 39484614

Methane mitigation is regarded as a critical strategy to combat the scale of global warming. Currently, about 40% of methane emissions originate from microbial sources, which is causing strategies to...

Microbial polyphenol metabolism is part of the thawing permafrost carbon cycle

McGivern B, Cronin D, Ellenbogen J, Borton M, Knutson E, Freire-Zapata V, et al.

Nat Microbiol . 2024 May; 9(6):1454-1466. PMID: 38806673

With rising global temperatures, permafrost carbon stores are vulnerable to microbial degradation. The enzyme latch theory states that polyphenols should accumulate in saturated peatlands due to diminished phenol oxidase activity,...

Methylotrophy in the Mire: direct and indirect routes for methane production in thawing permafrost

Ellenbogen J, Borton M, McGivern B, Cronin D, Hoyt D, Freire-Zapata V, et al.

mSystems . 2023 Dec; 9(1):e0069823. PMID: 38063415

While wetlands are major sources of biogenic methane (CH), our understanding of resident microbial metabolism is incomplete, which compromises the prediction of CH emissions under ongoing climate change. Here, we...

Elevated temperature alters microbial communities, but not decomposition rates, during 3 years of peat decomposition

Roth S, Griffiths N, Kolka R, Oleheiser K, Carrell A, Klingeman D, et al.

mSystems . 2023 Oct; 8(5):e0033723. PMID: 37819069

Microbial community changes in response to climate change drivers have the potential to alter the trajectory of important ecosystem functions. In this paper, we show that while microbial communities in...

Porewater constituents inhibit microbially mediated greenhouse gas production (GHG) and regulate the response of soil organic matter decomposition to warming in anoxic peat from a Sphagnum-dominated bog

Song T, Liu Y, Kolton M, Wilson R, Keller J, Rolando J, et al.

FEMS Microbiol Ecol . 2023 Jun; 99(7). PMID: 37280172

Northern peatlands store approximately one-third of terrestrial soil carbon. Climate warming is expected to stimulate the microbially mediated degradation of peat soil organic matter (SOM), leading to increasing greenhouse gas...

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Climate drivers alter nitrogen availability in surface peat and decouple N fixation from CH oxidation in the Sphagnum moss microbiome

Petro C, Carrell A, Wilson R, Duchesneau K, Noble-Kuchera S, Song T, et al.

Glob Chang Biol . 2023 Mar; 29(11):3159-3176. PMID: 36999440

Peat mosses (Sphagnum spp.) are keystone species in boreal peatlands, where they dominate net primary productivity and facilitate the accumulation of carbon in thick peat deposits. Sphagnum mosses harbor a...