Brijesh K. Tiwari scite author profile

A growing global population, combined with factors such as changing socio-demographics, will place increased pressure on the world’s resources to provide not only more but also different types of food. Increased demand for animal-based protein in particular is expected to have a negative environmental impact, generating greenhouse gas emissions, requiring more water and more land. Addressing this “perfect storm” will necessitate more sustainable production of existing sources of protein as well as alternative sources for direct human consumption. This paper outlines some potential demand scenarios and provides an overview of selected existing and novel protein sources in terms of their potential to sustainably deliver protein for the future, considering drivers and challenges relating to nutritional, environmental, and technological and market/consumer domains. It concludes that different factors influence the potential of existing and novel sources. Existing protein sources are primarily hindered by their negative environmental impacts with some concerns around health. However, they offer social and economic benefits, and have a high level of consumer acceptance. Furthermore, recent research emphasizes the role of livestock as part of the solution to greenhouse gas emissions, and indicates that animal-based protein has an important role as part of a sustainable diet and as a contributor to food security. Novel proteins require the development of new value chains, and attention to issues such as production costs, food safety, scalability and consumer acceptance. Furthermore, positive environmental impacts cannot be assumed with novel protein sources and care must be taken to ensure that comparisons between novel and existing protein sources are valid. Greater alignment of political forces, and the involvement of wider stakeholders in a governance role, as well as development/commercialization role, is required to address both sources of protein and ensure food security.

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Application of Natural Antimicrobials for Food Preservation

Tiwari

Valdramidis²,

O'Donnell

et al. 2009

J. Agric. Food Chem.

707

394

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Ultrasound: A clean, green extraction technology

Tiwari

2015

TrAC Trends in Analytical Chemistry

758

372

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Application of Novel Extraction Technologies for Bioactives from Marine Algae

Kadam

Tiwari

O’Donnell

2013

J. Agric. Food Chem.

433

315

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Marine algae are a rich source of bioactive compounds. This paper outlines the main bioactive compounds in marine algae and recent advances in novel technologies for extracting them. Novel extraction technologies reviewed include enzyme-assisted extraction, microwave-assisted extraction, ultrasound-assisted extraction, supercritical fluid extraction, and pressurized liquid extraction. These technologies are reviewed with respect to principles, benefits, and potential applications for marine algal bioactives. Advantages of novel technologies include higher yield, reduced treatment time, and lower cost compared to traditional solvent extraction techniques. Moreover, different combinations of novel techniques used for extraction and technologies suitable for thermolabile compounds are identified. The limitations of and challenges to employing these novel extraction technologies in industry are also highlighted.

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Brijesh K. Tiwari

Effect of thermal processing on anthocyanin stability in foods; mechanisms and kinetics of degradation

Future Protein Supply and Demand: Strategies and Factors Influencing a Sustainable Equilibrium

Application of Natural Antimicrobials for Food Preservation

Ultrasound: A clean, green extraction technology

Application of Novel Extraction Technologies for Bioactives from Marine Algae

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