WELCOME TO MY WEBSITE
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I am
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B.S. FROM UNIVERSITY OF DAYTON
M.S. FROM RUTGERS UNIVERSITY PHD FROM TEXAS A&M |
WELCOME TO MY WEBSITE
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I am
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B.S. FROM UNIVERSITY OF DAYTON
M.S. FROM RUTGERS UNIVERSITY PHD FROM TEXAS A&M |
AboutDr. Janice Ryan-Bohac is a leading authority in breeding edible sweetpotatoes for resistance to pests, sustainability, and value-added products like chips, fries, and food ingredients like starch and protein powders. She has released over a dozen sweetpotato varieties and breeding lines with multiple resistance to 14 insects, diseases, and nematodes and developed many breeding lines with high dry matter and high yields for renewable energy and green chemicals. Dr. Ryan-Bohac has authored or co-authored several publications and articles on genetics and breeding and is an internationally recognized sweetpotato breeder. Currently she is developing the ENERGY TUBER or eTuber, a very high yielding, heat tolerant, water-efficient crop for fuel ethanol, ‘drop-in-fuels’ and other industrial green products. CX-1, the first variety developed as a high yielding ENERGY TUBER, is protected under a US Patent. She has conducted g field trials in several states and is optimizing the growing protocols and processing methods to maximize crop yields. |
The Farm |
CAREnergy |
The CAREnergy research farm is in the heart of the agricultural production area of South Carolina. It is located in the warm climate and sandy soils of the Eastern US coastal plain area which stretches from southern NJ, through the midAtlantic states, eastern NC, SC, GA, and much of the state of Florida. These conditions are ideal for our ENERGY TUBER. |
After 9/11, Dr. Ryan-Bohac, like many Americans, decided that this was the ‘wake-up’ call to end the US dependency on Middle Eastern Oil. Like most agricultural scientists, she is seeing the increasing devastation of climate change and its specific impact on agriculture. This has motivated her to work on a feedstock with a significantly lower Carbon Index than corn for bioethanol. In order to focus on the renewable energy, she purchased her own agricultural research breeding farm to pursue the development of a high yielding, sustainable feedstock that can produce cheap sugar and starch. This crop is easily converted to fuel ethanol and other ‘drop-in’ fuels using the same robust, proven, affordable technology for corn ethanol. An analysis of the LCA for this feedstock showed that it has a Carbon Index low enough to qualify as an ABF- Advanced Biofuel Feedstock |