Riley Balikian scite author profile

Cassava (Manihot esculenta Crantz) production will need to be improved to meet future food demands in Sub‐Saharan Africa. The selection of high‐yielding cassava cultivars requires a better understanding of storage root development. Additionally, since future production will happen under increasing atmospheric CO2 concentrations ([CO2]), cultivar selection should include responsiveness to elevated [CO2]. Five farmer‐preferred African cassava cultivars were grown for three and a half months in a Free Air CO2 Enrichment experiment in central Illinois. Compared to ambient [CO2] (~400 ppm), cassava storage roots grown under elevated [CO2] (~600 ppm) had a higher biomass with some cultivars having lower storage root water content. The elevated [CO2] stimulation in storage root biomass ranged from 33% to 86% across the five cultivars tested documenting the importance of this trait in developing new cultivars. In addition to the destructive harvests to obtain storage root parameters, we explored ground penetrating radar as a nondestructive method to determine storage root growth across the growing season.

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Riley Balikian

Progress Towards an Updatable Medium-Scale Bedrock Topography Map of Illinois

Multi-sector Approaches to Reduce Child under-5 Stunting: a Cross-sectional Study of Child Stunting and Underweight in Southern Ethiopia

Shoreline Classification and Erosion Characterization on the Illinois Coast of Lake Michigan Using Synthetic Aperture Radar

Evaluation of the effects of elevated CO₂ concentrations on the growth of cassava storage roots by destructive harvests and ground penetrating radar scanning approaches

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Riley Balikian

Progress Towards an Updatable Medium-Scale Bedrock Topography Map of Illinois

Multi-sector Approaches to Reduce Child under-5 Stunting: a Cross-sectional Study of Child Stunting and Underweight in Southern Ethiopia

Shoreline Classification and Erosion Characterization on the Illinois Coast of Lake Michigan Using Synthetic Aperture Radar

Evaluation of the effects of elevated CO2 concentrations on the growth of cassava storage roots by destructive harvests and ground penetrating radar scanning approaches

Contact Info

Product

Resources

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Evaluation of the effects of elevated CO₂ concentrations on the growth of cassava storage roots by destructive harvests and ground penetrating radar scanning approaches