Spark Climate Solutions

Evaluation of several unexplored atmospheric methane removal mechanisms

Submitted by

Maarten van Herpen (Acacia Impact Innovation BV)

High-resolution atmospheric chemistry modeling to maximize the effectiveness and minimize unintended consequences of atmospheric methane oxidation enhancement methods

Submitted by

Hannah Horowitz (University of Illinois Urbana-Champaign)

Marker species and aerosol formation from chlorine-initiated oxidation in the remote atmosphere

Submitted by

Jesse Kroll (Massachusetts Institute of Technology)

Ab initio calculation of kinetic isotope effects (KIE) for reaction of CH4 with ▪OH, ▪Cl, and O(1D)– towards improving the constraints for monitoring the atmospheric CH4 cycle

Submitted by

James Farquhar (University of Maryland)

Halogen-Driven Sinks Using a Novel Autonomous Low-Cost Solar Spectrometer Network

Submitted by

Joshua Paul (Butterfly Photonics, Inc.)

Analytical system for CO isotope analysis

Submitted by

Thomas Röckmann (Utrecht University)

Impacts of anthropogenic-driven changes in reactive chlorine on the methane lifetime and its isotopes

Submitted by

Becky Alexander (University of Washington)

Quantifying methane sources and sinks simultaneously

Submitted by

Xueying Yu (Stanford University)

Quantifying methane removal from CO isotope measurements at global scale

Submitted by

Thomas Röckmann (Utrecht University)

Constraining the response of the hydroxyl radical to changes in its drivers with machine learning and satellite proxy data

Submitted by

Daniel Anderson (University of Maryland Baltimore County)

Improved modeling of tropospheric OH to guide methane reduction strategies

Submitted by

Daniel Jacob (Harvard)

Methane loss rate sensitivity to emissions, climate change and variability, and key uncertainties

Submitted by

Arlene Fiore (Massachusetts Institute of Technology)

Influences on Atmospheric Hydroxyl Radicals

Submitted by

Spark

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Problem Statement Repository: Atmospheric Methane Research

Evaluation of several unexplored atmospheric methane removal mechanisms

High-resolution atmospheric chemistry modeling to maximize the effectiveness and minimize unintended consequences of atmospheric methane oxidation enhancement methods

Marker species and aerosol formation from chlorine-initiated oxidation in the remote atmosphere

Ab initio calculation of kinetic isotope effects (KIE) for reaction of CH4 with ▪OH, ▪Cl, and O(1D)– towards improving the constraints for monitoring the atmospheric CH4 cycle

Halogen-Driven Sinks Using a Novel Autonomous Low-Cost Solar Spectrometer Network

Analytical system for CO isotope analysis

Impacts of anthropogenic-driven changes in reactive chlorine on the methane lifetime and its isotopes

Quantifying methane sources and sinks simultaneously

Quantifying methane removal from CO isotope measurements at global scale

Constraining the response of the hydroxyl radical to changes in its drivers with machine learning and satellite proxy data

Improved modeling of tropospheric OH to guide methane reduction strategies

Methane loss rate sensitivity to emissions, climate change and variability, and key uncertainties

Influences on Atmospheric Hydroxyl Radicals