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Creating a bio‐based circular economy from Louisiana sugarcane byproducts

  • Published:2024-07-16 Issue:2 Volume:9 Page:
  • ISSN:2471-9625
  • Container-title:Agricultural & Environmental Letters
  • language:en
  • Short-container-title:Agricultural & Env Letters

Author:

Aita G.1,Bhatnagar D.2,Bruni G. O.2,Deliberto M.3,Eggleston G.1,Finger A.4,Gravois K.5,Isied M.6,Judice W.4,Klasson K. T.2,Lima I. M.2,Purswell J. L.7,Souliman M.6,Terrell E.2,Tubaña B. S.8,Waguespack H. L.4,Wang J. J.8ORCID,White P. M.9ORCID

Affiliation:

1. Aubudon Sugar Institute Louisiana State University Agricultural Center St. Gabriel Louisiana USA

2. USDA‐ARS Southern Regional Research Center New Orleans Louisiana USA

3. Department of Agricultural Economics & Agribusiness Louisiana State University Agricultural Center Baton Rouge Louisiana USA

4. American Sugar Cane League, Inc. Thibodaux Louisiana USA

5. Sugar Research Station, Louisiana State University Agricultural Center St. Gabriel Louisiana USA

6. Department of Civil Engineering University of Texas–Tyler Tyler Texas USA

7. USDA‐ARS Poultry Research Unit Mississippi State Mississippi USA

8. Department, School of Plant, Environmental and Soil Sciences Louisiana State University Agricultural Center Baton Rouge Louisiana USA

9. USDA‐ARS Sugarcane Research Unit Houma Louisiana USA

Abstract

AbstractSugarcane (Saccharum officinarum) is Louisiana's number one row crop. Growing and processing sugarcane produces significant amounts of byproducts, including bagasse, crop residue, molasses, filter‐press mud, and boiler fly ash. These products represent an important opportunity to generate value‐added and specialty products and enhance sugarcane's sustainability by facilitating a circular economy, where agricultural by‐products are reused instead of disposing them (linear economy), in order to reduce resource use and energy demand. Examples of value‐added products range from biochar, construction materials, animal feed, biofuels, nanoparticles, and fertilizer. Paramount to the success of the bio‐based circular economy is creating useful products that are sustainable, economically, and environmentally acceptable. Some potential roadblocks to creating a successful bio‐based circular economy from Louisiana's sugarcane by‐products are highlighted.Core Ideas The Louisiana sugar industry produces large amounts of biomass‐derived byproducts each year. Byproducts could be reused, recycled, or reformed instead of being discarded. Creating industries around these products boosts the circular economy.

Funder

Agricultural Research Service

Publisher

Wiley

Reference45 articles.

1. Bioconversion of cane sugar processing by‐products to protein and lipids by black soldier fly (BSF) larvae;Aita G.;International Sugar Journal,2020

2. Prebiotics from energy cane bagasse;Aita G.;Sugar Industry/Zuckerindustrie,2021

3. Blackstrap molasses as a source of bioactive compounds for the green synthesis of nanoparticles;Aita G.;Sugar Industry/Zuckerindustrie,2023

4. American Sugar Cane League Inc. (2023).Louisiana sugarcane statistics.https://amscl.wpenginepowered.com/wp‐content/uploads/2022/08/Louisiana‐Sugarcane‐Statistics.pdf

5. Bose S.(2023).U.S. sustainable aviation fuel production target faces costs margin challenges.Reuters.https://www.reuters.com/sustainability/us‐sustainable‐aviation‐fuel‐production‐target‐faces‐cost‐margin‐challenges‐2023‐11‐01/
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