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Lori Bruhwiler
NOAA BoulderMeeting roles in:
Constraints on Western U.S. drought responses from in-situ and space-based CO2 observations
Machine learning-based analysis of oil and gas methane emissions in the Gulf of Mexico using publicly available satellite data
Attributing 2019–2024 methane growth using TROPOMI satellite observations
Role of atmospheric chemistry in monitoring changes in the CH4 Budget
Contemporary Arctic-boreal Zone Carbon Dioxide and Methane Flux Budgets and their Radiative Impact
Reduced U.S. Methane Emissions During the COVID-19 Pandemic: Insights from Atmospheric Observations and Process-Based Inventories
Integrating Satellite and Isotopic Observations in CarbonTracker-CH4 for Improved Methane Emission Estimates during 2019-2024
Investigating the capability of atmospheric δD-CH4 in reducing the uncertainty in the global methane budget and understanding spatio-temporal variability of surface fluxes from atmospheric δD-CH4 simulation
Constraining the Global Methane Sink through Joint Assimilation of CH4 and CO
Next-Generation Modeling of Global Natural Methane Fluxes: Integrating Multi-scale Observations with Knowledge-Guided Machine Learning
Carbon-I: Imaging the Carbon Cycle from Space — From point-source detection to global flux inversions.
Microbial driver of 2006 – 2023 CH4 growth indicated by trends in atmospheric δD-CH4 and δ13C-CH4
The Evidence for a Feedback between Tropical Wetland Emissions of Methane and Changing Climate
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