Member Since 1997
Pete A. Raymond
Oastler Professor of Biogeochemistry, Yale School of the Environment
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Global Riverine Land-to-ocean Carbon Export Constrained by Observations and Multi-model Assessment
AGU 2024
biogeosciences | 13 december 2024
Maodian Liu, Peter A. Raymond, Ronny Lauerwald, Qi...
Rivers are a critical component of the global carbon cycle, receiving vast quantities of terrestrial carbon, which is either exchanged with the atmosp...
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Impact of Glacier Retreat on Carbon Burial in Antarctic Peninsula Fjords
AGU 2024
cryosphere | 13 december 2024
Chengzhen Zhou, Hejia Zhang, Maodian Liu, Thomas S...
Marine sediments are global important sinks of carbon. Despite global continental shelves accounting for only 710% of the worlds ocean area, they are ...
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Using radiocarbon analysis to quantify effects of agricultural practices on SOC turnover rates
AGU 2024
biogeosciences | 12 december 2024
Ayesha Ahmed, Jonathan Sanderman, Taniya RoyChowdh...
This project aims to fill in the gaps related to the concept of the soil carbon dilemma. Storing carbon in the form of SOC in agricultural soils is se...
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Unveiling the spatial and temporal variabilities of carbonate chemistry driven by porewater exchange in a saltmarsh-dominated esturary
AGU 2024
biogeosciences | 10 december 2024
Mingyu Zhang, Anne Giblin, Christopher W. Hunt, Na...
Saltmarsh plays a crucial role in mitigating global CO2 increase. It stores carbon not only through organic carbon burial but also through inorganic c...
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Precise Monitoring of Enhanced Weathering in Wastewater Treatment Facilities via a Mass Balance Approach
AGU 2024
global environmental change | 10 december 2024
Rocco D'Ascanio, Elizabeth Vanderkloot, Kevin Vu, ...
Enhanced Weathering has recently emerged as a potential strategy to directly remove atmospheric CO2 to avoid the most catastrophic effects of climate ...
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Catchment-Scale Evaluation of Enhanced Silicate Weathering Effects on In-stream Concentration-Discharge Dynamics
AGU 2024
global environmental change | 09 december 2024
Rob Rioux, Fengchao Sun, Wyatt Tatge, quinn zachar...
Enhanced Silicate Weathering (ESW) is a carbon dioxide removal method that consumes CO2 through the weathering of silicate minerals by carbonic acid, ...
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Investigating Soil Fertility Responses from Enhanced Rock Weathering for Carbon Capture in a Whole Watershed Experiment
AGU 2024
global environmental change | 09 december 2024
quinn zacharias, Fengchao Sun, Robert Rioux, Willi...
Enhanced weathering (e.g., spreading crushed silicate rock on agricultural fields) is a promising approach for carbon sequestration. As rainwater weat...
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Watershed Responses to Enhanced Rock Weathering: Insights from Stream and Groundwater Chemistry
AGU 2024
global environmental change | 09 december 2024
Fengchao Sun, Rob Rioux, William Miller-Brown, Jiu...
Enhanced Rock Weathering (ERW) is a method of capturing CO2 by accelerating the natural weathering processes of silicate rocks, such as basalt. Few st...
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