Sustainability index analysis of the black soldier fly (Hermetia illucens) cultivation from food waste substrate

سال انتشار: 1402
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 192

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شناسه ملی سند علمی:

JR_GJESM-9-4_013

تاریخ نمایه سازی: 16 اردیبهشت 1402

چکیده مقاله:

BACKGROUND AND OBJECTIVES: Most food waste is dominated by domestic activities consisting of large numbers of organic pollutants, such as nitrogen and phosphate potentially hazardous to the environment. Domestic waste can be used as a feed source in black soldier fly cultivation with utility in pollutant removal, animal feed production, and compost fertilizer. Therefore, this study aimed to determine sustainability of larvae from black soldier fly cultivation by calculating and analyzing index.METHODS: Data collection was conducted using the scientific judgment of experts and business actors in black soldier fly through Focus Group Discussion and the filling out of questionnaires consisting of ۳۱ attributes connected with environment or ecology, economics, social, and technology dimensions. Furthermore, the data were calculated using the multi-dimensional scale approach with rapid appraisal software. Sustainability status and leverage attributes were analyzed by Monte Carlo analysis, and alternating least-squares algorithm.FINDINGS: Sustainability index for larvae of black soldier fly production was ۸۹.۶۹ percent. The result suggested that the technique in several stages of operation including waste collection, cultivation, harvesting, and commercialization contributed to sustainability development when the elements of strength of each dimension are considered. From the analysis of the four dimensions, economic dimension had ۱۰۰ percent or maximum leverage value. The environmental and social dimensions had the same leverage values of ۹۲.۰۲ percent, while the technological dimension had ۷۴.۷۴ percent. The results indicated that management experiences and techniques, potential for odor generated, family member involvement, productivity level, and managers level, warrant further attention to improve sustainability of black soldier fly production.CONCLUSION: Production, productivity, land conversion, and population were identified as significant or dominating factors impacting the supply framework of black soldier fly production by the intended investigation inside the display ponders. Therefore, study should be encouraged to effectively integrate black soldier fly biomass as a value-added component in an ideal environmental, social, economic, and technical system. The results are significant in providing insights into the possibility of feasible black soldier fly biomass production in Indonesia, which can inform government policies and programs.

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نویسندگان

A.D. Santoso

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

T. Handayani

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

R.A. Nugroho

Department of Biology, Faculty of Mathematics and Natural Sciences, Mulawarman University, Samarinda, Kalimantan Timur, Indonesia

A.I. Yanuar

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

N. Nadirah

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

E.S. Rohaeni

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

E. Widjaja

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

M.A.M. Oktaufik

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

U. Ayuningtyas

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

Y.P. Erlambang

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

R. Herdioso

Research Center for Animal Husbandry, Research Organization for Agriculture and Food, National Research and Innovation Agency. Cibinong Science Center, Indonesia

M.N. Rofiq

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

R. Hutapea

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

A.L. Sihombing

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

B. Rustianto

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

I.M.A.D Susila

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

D. Irawan

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

D. Iskandar

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

S. Indrijarso

Research Centre for Sustainable Production System and Life Cycle Assessment, National Research and Innovation Agency, Indonesia

G.D. Widiarta

Giri BSF Malang Ltd., Malang, East Java, Indonesia

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