Carinata, the Sustainable Crop for a Bio-based Economy: Production Recommendations for the Southeastern United States
Vol. 2023 No. 4, UF/IFAS North Florida Research and Education Center
Vol. 2023 No. 4

Carinata, the Sustainable Crop for a Bio-based Economy: Production Recommendations for the Southeastern United States: SS-AGR-384/AG389, 8/2023

UF/IFAS North Florida Research and Education Center
https://doi.org/10.32473/edis-ag389-2023
Published 2023-08-25
Sheeja George
University of Florida
Ian M. Small
University of Florida
Pratap Devkota
University of Florida
Henry Y. Sintim
University of Georgia
Mike J. Mulvaney
Mississippi State University
Ramon Leon
North Carolina State University
Silvana Paula-Moraes
University of Florida
Isaac Esquivel
University of Florida
Rick Bennett
Nuseed
Alison Poknywinski
Nuseed
Dan Geller
University of Georgia
James J. Marois
University of Florida
David L. Wright
University of Florida
Tractor in the distance applying fungicide to a field of Carinata plants.
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Keywords

carinata
advanced biofuel
cover crop benefits

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How to Cite

George, Sheeja, Ian M. Small, Pratap Devkota, Henry Y. Sintim, Mike J. Mulvaney, Ramon Leon, Silvana Paula-Moraes, Isaac Esquivel, Rick Bennett, Alison Poknywinski, Dan Geller, James J. Marois, and David L. Wright. 2023. “Carinata, the Sustainable Crop for a Bio-Based Economy: Production Recommendations for the Southeastern United States: SS-AGR-384/AG389, 8/2023”. EDIS 2023 (4). Gainesville, FL. https://doi.org/10.32473/edis-ag389-2023.
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Abstract

Brassica carinata is a non-food industrial oilseed crop that can be grown in the winter in the southeast US without impacting food, feed, or fiber crops. Carinata is a low carbon advanced renewable fuel feedstock and a good source of animal protein. Carinata research in the SE US through a public-private partnership has developed a comprehensive body of knowledge regarding carinata agronomics, life cycle analysis, best management practices and economics. This article aims to help growers and others interested in carinata to understand its biology, agronomy, and production aspects.

https://doi.org/10.32473/edis-ag389-2023
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References

Baldwin, J. M., S. V. Paula-Moraes, M. J. Mulvaney, and R. L. Meagher. 2020. “Occurrence of Arthropod Pests Associated with Brassica carinata and Impact of Defoliation on Yield.” Global Change Biology Bioenergy, 13: 570–581. https://doi.org/10.1111/gcbb.12801.

George, S., R. Seepaul, D. Geller, P. Dwivedi, N. DiLorenzo, R. Altman, E. Coppola, et al. 2021. “A Regional Interdisciplinary Partnership Focusing on the Development of a Carinata- Centered Bioeconomy.” Global Change Biology Bioenergy, 13: 1018–1029. https://doi.org/10.1111/gcbb.12828.

Iboyi, J. E., M. J. Mulvaney, K. S. Balkcom, R. Seepaul, M. Bashyal, D. Perondi, R. G. Leon, et al. 2021. “Tillage System and Seeding Rate Effects on the Performance of Brassica carinata.” Global Change BiologyBioenergy, 13 (4): 600–617. https://doi.org/10.1111/gcbb.12809.

Mulvaney, M. J., R. G. Leon, R. Seepaul, D. L. Wright, D. L., and T. L. Hoffman. 2019. “Brassica carinata Seeding Rate and Row Spacing Effects on Morphology, Yield, and Oil.” Agronomy Journal, 111: 528–535. https://doi.org/10.2134/agronj2018.05.0316.

Protection to Environment. 2016. 40 C.F.R. 180.1. Accessed February 22, 2016. http://ow.ly/YC66T.

Silveira, M. L. 2014. “Soil and Plant Tissue Testing: SL412/SS625, 4/2020.” EDIS 2020 (2). https://edis.ifas.ufl.edu/ss625.

SPARC. Carinata Scouting Guide. https://sparc-cap.org/wp-content/uploads/2020/02/scouting_v2_web.pdf.

Wright, D. L. 2010. “Production of Biofuel Crops in Florida: Canola, SS AG296, 11/2010.” EDIS 2010 (6). Accessed September 9, 2014. http://ufdcimages.uflib.ufl.edu/IR/00/00/37/32/00001/AG30100.pdf

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