John D. Kessler

University of Rochester

H-index: 30

North America-United States

About John D. Kessler

John D. Kessler, With an exceptional h-index of 30 and a recent h-index of 21 (since 2020), a distinguished researcher at University of Rochester, specializes in the field of Chemical Oceanography, Analytical Chemistry, Isotope Geochemistry.

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

Development of a fast‐response system with integrated calibration for high‐resolution mapping of dissolved methane concentration in surface waters

Isotopic Analysis of Dissolved CO2 and CH4 in a Coastal Permafrost Zone

Mechanisms and impacts of Earth system tipping elements

The emission of low pH water from Gulf of Mexico seeps as revealed by δ 13 C–CO 2 and methane oxidation data

Mechanisms and impacts of climate tipping elements

Negligible atmospheric release of methane from decomposing hydrates in mid-latitude oceans

Elevated levels of radiocarbon in methane dissolved in seawater reveal likely local contamination from nuclear powered vessels

Estimating the impact of seep methane oxidation on ocean pH and dissolved inorganic radiocarbon along the US mid‐Atlantic Bight

John D. Kessler Information

University	University of Rochester
Position	Dept of Earth & Environmental Sciences
Citations(all)	4288
Citations(since 2020)	1998
Cited By	3128
hIndex(all)	30
hIndex(since 2020)	21
i10Index(all)	45
i10Index(since 2020)	40
Email	Access Email
University Profile Page	University of Rochester
Google Scholar	View Google Scholar Profile

John D. Kessler Skills & Research Interests

Chemical Oceanography

Analytical Chemistry

Isotope Geochemistry

Top articles of John D. Kessler

Title	Journal	Author(s)	Publication Date
Development of a fast‐response system with integrated calibration for high‐resolution mapping of dissolved methane concentration in surface waters	Limnology and Oceanography: Methods	Jesse T Dugan Thomas Weber John D Kessler	2024/4/1
Isotopic Analysis of Dissolved CO2 and CH4 in a Coastal Permafrost Zone		Shawnee Traylor Sarah Youngs John W Pohlman John D Kessler Kevin Manganini ...	2024/3/7
Mechanisms and impacts of Earth system tipping elements		Seaver Wang Adrianna Foster Elizabeth A Lenz John D Kessler Julienne C Stroeve ...	2023/3
The emission of low pH water from Gulf of Mexico seeps as revealed by δ 13 C–CO 2 and methane oxidation data	Environmental Science: Advances	Sydney I Louden John D Kessler	2023
Mechanisms and impacts of climate tipping elements	Authorea Preprints	Seaver Wang Adrianna Foster Elizabeth A Lenz John D Kessler Julienne Christine Stroeve ...	2022/11/24
Negligible atmospheric release of methane from decomposing hydrates in mid-latitude oceans	Nature Geoscience	DongJoo Joung Carolyn Ruppel John Southon Thomas S Weber John D Kessler	2022/11
Elevated levels of radiocarbon in methane dissolved in seawater reveal likely local contamination from nuclear powered vessels	Science of the Total Environment	DongJoo Joung Carolyn Ruppel John Southon John D Kessler	2022/2/1
Estimating the impact of seep methane oxidation on ocean pH and dissolved inorganic radiocarbon along the US mid‐Atlantic Bight	Journal of Geophysical Research: Biogeosciences	Fenix Garcia‐Tigreros Mihai Leonte Carolyn D Ruppel Angel Ruiz‐Angulo Dong Joo Joung ...	2021/1
Radiocarbon in marine methane reveals patchy impact of seeps on surface waters	Geophysical Research Letters	DongJoo Joung Mihai Leonte David L Valentine Katy J Sparrow Thomas Weber ...	2020/10/28
Dynamics of gas bubbles from a submarine hydrocarbon seep within the hydrate stability zone	Geophysical Research Letters	Binbin Wang Inok Jun Scott A Socolofsky Steven F DiMarco John D Kessler	2020/9/28
Ideas and perspectives: A strategic assessment of methane and nitrous oxide measurements in the marine environment	Biogeosciences Discussions	Samuel T Wilson Alia N Al-Haj Annie Bourbonnais Claudia Frey Robinson W Fulweiler ...	2020/7/23
Final Scientific/Technical Report: Characterizing Ocean Acidification and Atmospheric Emission caused by Methane Released from Gas Hydrate Systems along the US Atlantic Margin		John D Kessler Carolyn D Ruppel	2020/6/22
Surface methane concentrations along the Mid‐Atlantic Bight driven by aerobic subsurface production rather than seafloor gas seeps	Journal of Geophysical Research: Oceans	Mihai Leonte Carolyn D Ruppel Angel Ruiz‐Angulo John D Kessler	2020/5