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A Forefront Framework for Sustainable Aquaponics Modeling and Design

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  • Mir Sayed Shah Danish

    (Strategic Research Project Center, University of the Ryukyus, 1 Senbaru, Nakagami 903-0213, Okinawa, Japan
    Department of Energy Engineering, Faculty of Engineering, Kabul University, Kabul 1006, Afghanistan)

  • Tomonobu Senjyu

    (Department of Electrical and Electronics Engineering, Faculty of Engineering, University of the Ryukyus, 1 Senbaru, Nakagami 903-0213, Okinawa, Japan)

  • Najib Rahman Sabory

    (Department of Energy Engineering, Faculty of Engineering, Kabul University, Kabul 1006, Afghanistan)

  • Mahdi Khosravy

    (Media Integrated Communication Laboratory, Graduate School of Engineering, Osaka University, 1-1 Yamadaoka, Suita 565-0871, Osaka, Japan)

  • Maria Luisa Grilli

    (Casaccia Research Centre, Energy Technologies and Renewable Sources Department, Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA), Via Anguillarese 301, 00123 Rome, Italy)

  • Alexey Mikhaylov

    (Financial Faculty, Financial University under the Government of the Russian Federation, Leningradsky Ave, 49, 125167 Moscow, Russia)

  • Hemayatullah Majidi

    (Department of Electrical and Electronics Engineering, Faculty of Engineering, Kabul University, Kabul 1006, Afghanistan)

Abstract

Aquaponics systems and technologies are growing primary industries in many countries, with high environmental and socio-economic advantages. Aquaponics is a closed-loop system that produces aquatic animals and plants in a new way using recirculated water and nutrients. With a growing world population expected to reach 9.7 billion by 2050, food production sustainability is a primary issue in today’s world agenda, and aquaponics and aquaculture systems can be potential contributors to the challenge. Observing the climate changes and global warming’s impact on the ecosystem, decreasing aqua animal stocks, and responding to increasing demand are turning points in the sustainability era. In the past 15 years, fish production has doubled, thus denoting that aquaponics transforms into commercial scales with a revolutionized production, high efficiency, and fewer resources’ utilization, thus requiring proper operation and management standards and practices. Therefore, this study aims to shape a new framework for sustainable aquaponics modeling and utilization as the all-in-one solution platform covering technical, managerial, socio-economic, institutional, and environmental measures within the suitability requirements. The proposed model in this study offers a systematic approach to the design and implementation of sustainability-efficient aquaponics and aquaculture systems. Through an exhaustive coverage of the topic, this research effort can be counted as a practical reference for researchers, scholars, experts, practitioners, and students in the context of aquaponics and aquaculture studies.

Suggested Citation

  • Mir Sayed Shah Danish & Tomonobu Senjyu & Najib Rahman Sabory & Mahdi Khosravy & Maria Luisa Grilli & Alexey Mikhaylov & Hemayatullah Majidi, 2021. "A Forefront Framework for Sustainable Aquaponics Modeling and Design," Sustainability, MDPI, vol. 13(16), pages 1-13, August.
  • Handle: RePEc:gam:jsusta:v:13:y:2021:i:16:p:9313-:d:617553
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    References listed on IDEAS

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    1. Rosamond L. Naylor & Ronald W. Hardy & Alejandro H. Buschmann & Simon R. Bush & Ling Cao & Dane H. Klinger & David C. Little & Jane Lubchenco & Sandra E. Shumway & Max Troell, 2021. "A 20-year retrospective review of global aquaculture," Nature, Nature, vol. 591(7851), pages 551-563, March.
    2. Berg, Hakan & Michelsen, Petra & Troell, Max & Folke, Carl & Kautsky, Nils, 1996. "Managing aquaculture for sustainability in tropical Lake Kariba, Zimbabwe," Ecological Economics, Elsevier, vol. 18(2), pages 141-159, August.
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