The authors' combined statistical and economic models on specific aspects and properties of biochar will be useful for future field experiment proposals, farmers purchasing biochar, and decision-makers working to incentivize agricultural advances.
In GCB-Bioenergy, October 8, 2020, https://onlinelibrary.wiley.com/doi/full/10.1111/gcbb.12765
Kenneth B. Medlock III, Caroline A. Masiello, Jennifer Kroeger, Ghasideh PourhashemOctober 8, 2020
This study presents an integrated framework for hurricane risk assessment of petroleum infrastructure under changing climatic conditions, calculating risk in terms of monetary loss.
Rachel A. Meidl, Ted Loch-Temzelides, Majid Ebad Sichani, Katherine Anarde, Kendall Capshaw, Jamie Padgett, Pedram Hassanzadeh, Philip BedientJuly 16, 2020
The authors examine the role that government policy can play in accelerating production and use of biochar at commercial scale, such as providing commercial financial incentives, nonfinancial policy support and research and development funding. The article also includes broad recommendations for the development of policy that maximizes the net benefits of biochar adoption.
Shih Yu (Elsie) Hung, Kenneth B. Medlock III, Caroline A. Masiello, Ghasideh PourhashemDecember 21, 2018
Regional air quality and health cost models are used to assess how reductions in soil nitric oxide (NO) emissions from the use of biochar could influence U.S. air quality and health costs.
Kenneth B. Medlock III, Caroline A. Masiello, Daniel Cohan, Ghasideh PourhashemJuly 26, 2017
This study affirms that employing strategies to maintain soil organic carbon stock early within a biofuel program supports climate change mitigation. Such strategies can guide farmers to best manage soil carbon within the biofuel production life cycle.
Paul R. Adler, Sabrina Spatari, Ghasideh PourhashemOctober 17, 2015