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Biotechnology and Microbial Genomics for Circular Bioeconomy

In: Handbook of Circular Bioeconomy

Author

Listed:
  • Michael Seeger

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    Department of Chemistry & Center of Biotechnology CBDAL, Universidad Técnica Federico Santa María)

  • Constanza C. Macaya

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    Department of Chemistry & Center of Biotechnology CBDAL, Universidad Técnica Federico Santa María)

  • Ariel Vílchez

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    Universidad de La Frontera, Department of Basic Sciences, Faculty of Medicine
    Universidad de La Frontera, Scientific and Technological Bioresource Nucleus BIOREN)

  • Diyanira Castillo-Novales

    (Universidad Técnica Federico Santa María, Department of Chemistry
    Universidad Técnica Federico Santa María, Center of Biotechnology CBDAL
    Pontificia Universidad Católica de Valparaíso, School of Agronomy
    Genomics and Environmental Microbiology (BioGEM), Millennium Nucleus Bioproducts)

  • Mario I. Sepúlveda

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    Department of Chemistry & Center of Biotechnology CBDAL, Universidad Técnica Federico Santa María)

  • Guillermo Bravo

    (Universidad Técnica Federico Santa María, Department of Chemistry
    Universidad Técnica Federico Santa María, Center of Biotechnology CBDAL
    Pontificia Universidad Católica de Valparaíso, School of Agronomy
    Genomics and Environmental Microbiology (BioGEM), Millennium Nucleus Bioproducts)

  • Paulina Vega-Celedón

    (Universidad Técnica Federico Santa María, Department of Chemistry
    Universidad Técnica Federico Santa María, Center of Biotechnology CBDAL
    Pontificia Universidad Católica de Valparaíso, School of Agronomy
    Genomics and Environmental Microbiology (BioGEM), Millennium Nucleus Bioproducts)

  • Roberto E. Durán

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    Department of Chemistry & Center of Biotechnology CBDAL, Universidad Técnica Federico Santa María)

  • Ester G. Rivera

    (Universidad Técnica Federico Santa María, Department of Chemistry
    Universidad Técnica Federico Santa María, Center of Biotechnology CBDAL)

  • Beatriz Cámara

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    Department of Chemistry & Center of Biotechnology CBDAL, Universidad Técnica Federico Santa María)

  • Iván Montenegro

    (Universidad de Valparaíso, Center of Interdisciplinary Biomedical and Engineering Research for Health, Obstetrics and Childcare School, Medicine Faculty
    Genomics and Environmental Microbiology (BioGEM), Millennium Nucleus Bioproducts)

  • Rodrigo Navia

    (Universidad de la Frontera, Department of Chemical Engineering, Faculty of Engineering and Sciences
    Universidad de la Frontera, Centre for Biotechnology and Bioengineering, Faculty of Engineering and Sciences
    Universidad San Sebastián, Faculty of Engineering
    Genomics and Environmental Microbiology (BioGEM), Millennium Nucleus Bioproducts)

  • Ximena Besoain

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    School of Agronomy, Pontificia Universidad Católica de Valparaíso, San Francisco s/n La Palma)

  • Francisca Acevedo

    (Millennium Nucleus Bioproducts, Genomics and Environmental Microbiology (BioGEM)
    Universidad de La Frontera, Department of Basic Sciences, Faculty of Medicine
    Universidad de La Frontera, Scientific and Technological Bioresource Nucleus BIOREN)

Abstract

Worldwide industrialization leads to a high demand for energy and natural resources, high pollution, and greenhouse gas emissions, which are associated with climate change. The circular bioeconomy is based on biological resources that are transformed into services, processes, and products, which are further recycled, minimizing waste/by-products accumulation and environmental pollution. Modern biotechnology uses cellular and molecular processes to develop technologies, products, and services. Microorganisms play a key role in the development of modern biotechnology and participate in diverse fields such as environmental decontamination, agriculture, novel materials, and natural bioproducts. The genomics and bioinformatics of organisms have revolutionized biology, allowing the prediction of biological circuits and pathways for the degradation and synthesis of a wide range of biomolecules and their regulation. Microbial genomics opens the door to biotechnological applications, reducing significantly the research and development efforts. In this review, the sailing routes from the biodiversity through microbial genomics to biotechnological applications of bioremediation, agricultural bioproducts, bioplastics, and natural bioproducts will be analyzed. The contributions of these biotechnological fields to the circular bioeconomy are discussed. Hotspots and achievements in these fields and their potential future developments are highlighted toward a circular bioeconomy, which is essential for the sustainable development of our society.

Suggested Citation

  • Michael Seeger & Constanza C. Macaya & Ariel Vílchez & Diyanira Castillo-Novales & Mario I. Sepúlveda & Guillermo Bravo & Paulina Vega-Celedón & Roberto E. Durán & Ester G. Rivera & Beatriz Cámara & I, 2026. "Biotechnology and Microbial Genomics for Circular Bioeconomy," Natural Resource Management and Policy, in: David Zilberman & Jie Zhuang & Justus Wesseler & Madhu Khanna (ed.), Handbook of Circular Bioeconomy, chapter 0, pages 287-331, Springer.
    • Handle: RePEc:spr:nrmchp:978-3-032-07112-5_15
    DOI: 10.1007/978-3-032-07112-5_15
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