Sesethu G. Njokweni scite author profile

The notion of a “biobased economy” in the context of a developing country such as South Africa (SA) necessitates the development of technologies that utilize sustainable feedstocks, have simple and robust operations, are feasible at small scale and produce a variety of valuable bioproducts, thus fitting the biorefinery concept. This case study focuses on the microbial production of higher-value products from selected organic waste streams abundant in the South African agricultural sector using microbes adapted to utilize different parts of biomass waste streams. A ruminant-based carboxylate platform based on mixed or undefined anaerobic co-cultures of rumen microorganisms can convert the carbohydrate polymers in the lignocellulosic part of organic waste streams to carboxylic acids that can be upgraded to biofuels or green chemicals. Furthermore, yeast and fungi can convert the simpler carbohydrates (such as the sugars and malic acid in grape and apple pomace) to ethanol and high-value carboxylic acids, such as lactic, fumaric, succinic and citric acid. This review will discuss the combinational use of the ruminal carboxylate platform and native or recombinant yeasts to valorize biomass waste streams through the production of higher-value organic acids with various applications.

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Extraruminal Fermentation of Citrus, Grape and Apple Pomaces: Assessing the Potential to Serve as Feedstock for Production of Volatile Fatty acids

Njokweni

Weimer

Botes

et al. 2020

Waste Biomass Valor

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Sesethu G. Njokweni

Effects of preservation of rumen inoculum on volatile fatty acids production and the community dynamics during batch fermentation of fruit pomace

Valorisation of the invasive species, Prosopis juliflora, using the carboxylate platform to produce volatile fatty acids

Potential Valorization of Organic Waste Streams to Valuable Organic Acids through Microbial Conversion: A South African Case Study

Extraruminal Fermentation of Citrus, Grape and Apple Pomaces: Assessing the Potential to Serve as Feedstock for Production of Volatile Fatty acids

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