Multiomics and optobiotechnological approaches for the development of microalgal strain for production of aviation biofuel and biorefinery

Kumar, Akshay; Baldia, Anshu; Rajput, Deepanshi; Kateriya, Suneel; Babu, Vikash; Dubey, Kashyap Kumar

doi:10.1016/j.biortech.2022.128457

Cited by 15 publications

(2 citation statements)

References 129 publications

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“…To do so, the proliferation of biorefineries is needed due to their potential for converting waste biomass into value-added products and their capability to reduce waste, increase resource efficiency, and create new revenue streams [3]. Even though biorefineries still face some problems that are being studied to be solved [4,5], there are many technological advances that allow the development of biofuels or value-added products based on a large variety of sources such as microalgal [6,7] and seaweed [8], lignin [9], rice straw waste [10] or food waste [11], among others.…”

Section: Discussionmentioning

confidence: 99%

Biotechnology and Bio-Based Products Perceptions in the Community of Madrid: A Representative Survey Dataset

Romero-Luis

Gértrudix

Casado

et al. 2023

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(1) Background: Bioeconomy aims to reduce dependence on non-renewable resources and foster economic growth through the development of new bio-based products and services. Achieving this goal requires social acceptance and stakeholder engagement in the development of sustainable technologies. The objective of this data article is to provide a dataset derived from a survey with a representative sample of 500 citizens over 18 years old based in the Community of Madrid. (2) Methods: We created a questionnaire on the social acceptance of technologies and bio-based products to later gather the responses using a SurveyMonkey panel for the Community of Madrid through an online CAWI survey; (3) Results: A dataset with a total of 82 columns with all responses is the result of this study. (4) Conclusions: This data article provides not only a valuable representative dataset of citizens of the Community of Madrid but also sufficient resources to replicate the same study in other regions.

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Section: Discussionmentioning

confidence: 99%

Biotechnology and Bio-Based Products Perceptions in the Community of Madrid: A Representative Survey Dataset

Romero-Luis

Gértrudix

Casado

et al. 2023

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“…Furthermore, adopting a biorefinery approach would be required to make microalgal biofuels a reality in the future, irrespective of the microalgal strain selected for biofuel production. Microalgal genetic engineering technologies such as proteomics, metabolomics, CRISPR editing, riboswitching, and optoswitching techniques could offer enhanced microalgal biomass quality and yield with integrated biorefining options [191].…”

Section: Recent Advances Challenges and Future Directions For Microal...mentioning

confidence: 99%

Microalgal Feedstock for Biofuel Production: Recent Advances, Challenges, and Future Perspective

et al. 2023

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Globally, nations are trying to address environmental issues such as global warming and climate change, along with the burden of declining fossil fuel reserves. Furthermore, countries aim to reach zero carbon emissions within the existing and rising global energy crisis. Therefore, bio-based alternative sustainable feedstocks are being explored for producing bioenergy. One such renewable energy resource is microalgae; these are photosynthetic microorganisms that grow on non-arable land, in extreme climatic conditions, and have the ability to thrive even in sea and wastewater. Microalgae have high photosynthetic efficiencies and biomass productivity compared to other terrestrial plants. Whole microalgae biomass or their extracted metabolites can be converted to various biofuels such as bioethanol, biodiesel, biocrude oil, pyrolytic bio-oil, biomethane, biohydrogen, and bio jet fuel. However, several challenges still exist before faster and broader commercial application of microalgae as a sustainable bioenergy feedstock for biofuel production. Selection of appropriate microalgal strains, development of biomass pre-concentrating techniques, and utilization of wet microalgal biomass for biofuel production, coupled with an integrated biorefinery approach for producing value-added products, could improve the environmental sustainability and economic viability of microalgal biofuel. This article will review the current status of research on microalgal biofuels and their future perspective.

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Gene Editing Tools for Engineering Beneficial Microorganism in Biofertilizer

Kavya,

Kumari,

Singh

et al. 2024

Metabolomics, Proteomics and Gene Editing Approaches in Biofertilizer Industry

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Multiomics and optobiotechnological approaches for the development of microalgal strain for production of aviation biofuel and biorefinery

Cited by 15 publications

References 129 publications

Biotechnology and Bio-Based Products Perceptions in the Community of Madrid: A Representative Survey Dataset

Biotechnology and Bio-Based Products Perceptions in the Community of Madrid: A Representative Survey Dataset

Microalgal Feedstock for Biofuel Production: Recent Advances, Challenges, and Future Perspective

Gene Editing Tools for Engineering Beneficial Microorganism in Biofertilizer

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