Grant Falvo
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View article: Supplementary material to "ABCFlux v2: Arctic–boreal CO <sub>2</sub> and CH <sub>4</sub> monthly flux observations and ancillary information across terrestrial and freshwater ecosystems"
Supplementary material to "ABCFlux v2: Arctic–boreal CO <sub>2</sub> and CH <sub>4</sub> monthly flux observations and ancillary information across terrestrial and freshwater ecosystems" Open
View article: ABCFlux v2: Arctic–boreal CO <sub>2</sub> and CH <sub>4</sub> monthly flux observations and ancillary information across terrestrial and freshwater ecosystems
ABCFlux v2: Arctic–boreal CO <sub>2</sub> and CH <sub>4</sub> monthly flux observations and ancillary information across terrestrial and freshwater ecosystems Open
Measurements of surface-atmosphere carbon dioxide (CO2) and methane (CH4) fluxes have been relatively sparse across the Arctic tundra and boreal biomes, causing significant uncertainties in carbon budget estimates from the region. While th…
View article: Record 2024 winter carbon emissions coincide with record warmth across boreal forest, tundra, and wetland ecosystems
Record 2024 winter carbon emissions coincide with record warmth across boreal forest, tundra, and wetland ecosystems Open
The warming Arctic could accelerate climate change as permafrost soil carbon is released as greenhouse gas emissions from boreal forest, tundra, and wetland ecosystems. Record climate conditions are increasingly common, with the 2023–2024 …
View article: Agricultural Management Legacy Effects on Switchgrass Growth and Soil Carbon Gains
Agricultural Management Legacy Effects on Switchgrass Growth and Soil Carbon Gains Open
Switchgrass ( Panicum virgatum L.) is a native North American grass currently considered a high‐potential bioenergy feedstock crop. However, previous reports questioned its effectiveness in generating soil organic carbon (SOC) gains, with …
View article: Nature-based climate solutions can help mitigate the radiative forcing that follows deforestation
Nature-based climate solutions can help mitigate the radiative forcing that follows deforestation Open
Widespread expansion of agriculture and forestry has altered the surface of the Earth, the composition of the atmosphere, and as a result, the climate. Here we quantify the radiative forcing caused by the historical deforestation of an eco…
View article: Combining Eddy Covariance Towers, Field Measurements, and the <scp>MEMS</scp> 2 Ecosystem Model Improves Confidence in the Climate Impacts of Bioenergy With Carbon Capture and Storage
Combining Eddy Covariance Towers, Field Measurements, and the <span>MEMS</span> 2 Ecosystem Model Improves Confidence in the Climate Impacts of Bioenergy With Carbon Capture and Storage Open
Carbon dioxide removal technologies such as bioenergy with carbon capture and storage (BECCS) are required if the effects of climate change are to be reversed over the next century. However, BECCS demands extensive land use change that may…
View article: Long‐term changes in soil carbon and nitrogen fractions in switchgrass, native grasses, and no‐till corn bioenergy production systems
Long‐term changes in soil carbon and nitrogen fractions in switchgrass, native grasses, and no‐till corn bioenergy production systems Open
Cellulosic bioenergy is a primary land‐based climate mitigation strategy, with soil carbon (C) storage and nitrogen (N) conservation as important mitigation elements. Here, we present 13 years of soil C and N change under three cellulosic …