Textual Authority and Gender Justice: Interpretation of the Verse of Women's Testimony in Qs. Al-Baqarah (2): 282 from a Hermeneutical Perspective by Khaled M. Abou El-Fadlaled M. Abou El-Fadl

Authors

  • Eka Sulistiyawati Pascasarjana Universitas Islam Negeri Sunan Ampel Surabaya, Indonesia
  • Ach. Faidi Rasyadi Universitas Islam Negeri Sunan Kalijaga, Yogyakarta, Indonesia
  • Rahmat Universitas Islam Internasional Darullughah Wadda’wah, Pasuruan, Indonesia

DOI:

https://doi.org/10.61166/bunyan.v3i2.49

Keywords:

Women’s testimony, Qs. Al-Baqarah (2): 282, Khaled M. Abou El-Fadl hermeneutics

Abstract

Many women are now experts in the fields of finance, business and muamalah, recognized globally, so there is no reason to prevent them from being witnesses. Witness eligibility should be based on competency, not gender. This verse needs to be understood contextually, by distinguishing between fixed religious teachings and those that can be adapted to the times. The main focus of this research is to explore the meaning of this verse, which is often debated regarding the role of women's testimony which is only half that of men's testimony. This research uses a qualitative research method with a type of library research, which relies on a study of literature and works relevant to this theme, including the hermeneutical thinking of Khaled M. Abou El-Fadl. The results of this research show that according to Abou El-Fadl, the interpretation of this verse must not only be seen from the historical context, but must also consider the principles of justice and equality in Islam. Thus, this research provides a new perspective in understanding gender justice in Islam, as well as how the authority of the text can be reviewed to create a fairer interpretation for women.

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References

Ain, N. (2019). Theorems in Qur’an about the creation of insects and its diversity in Taman Undaan Surabaya. Journal Intellectual Sufism Research (JISR), 1(2), 5-10.

Akrom, M. F. K., & Rhain, A. (2023). Queen of Ants In the Qur'an Surah An-Naml verse 18. Proceeding ISETH (International Summit on Science, Technology, and Humanity), 1388-1391.

Ali, R. M. M., Bashir, M. H., Haq, S. U., Ali, B., Akbar, F. A., Fatima, H., ... & Mehmood10, K. (2024). The house fly (Musca domestica l.): A comprehensive review of Biology, Genetics, Disease vector potential, and Methods of control. European Chem. Bull, 13(Regular Issue 5), 10 – 25. DOI: 10.53555/ecb/2024.13.05.02.

Alsaad, R. (2023). Control study of Musca domestica (Diptera, Muscidae) in Misan Province. F1000Research, 12, 459.

Asril, M., Rini, I. A., Oktaviani, I., & Mushaliyah, M. (2022). Tracking the source of antimicrobial production from house fly (Musca domestica): right-wing of fly or gut system?-a mini-review. Elkawnie: Journal of Islamic Science and Technology, 7(2), 225-238.

Atta, R. M. (2014). Microbiological studies on fly wings (Musca domestica) where disease and treat. World Journal of Medical Sciences, 11(4), 486-489.

Banjo, A. D., Lawal, O. A., & Adeduji, O. O. (2005). Bacteria and fungi isolated from housefly (Musca domestica L.) larvae. African Journal of biotechnology, 4(8), 780-784.

Bertelloni, F., Bresciani, F., Cagnoli, G., Scotti, B., Lazzerini, L., Marcucci, M., ... & Ebani, V. V. (2023). House flies (Musca domestica) from swine and poultry farms carrying antimicrobial resistant Enterobacteriaceae and Salmonella. Veterinary Sciences, 10(2), 118.

Boulesteix, G., Le Dantec, P., Chevalier, B., Dieng, M., Niang, B., & Diatta, B. (2005, April). Role of Musca domestica in the transmission of multiresistant bacteria in the centres of intensive care setting in sub-Saharan Africa. In Annales Francaises D'anesthesie et de Reanimation (Vol. 24, No. 4, pp. 361-365).

Claresta, I., Sari, D. D., Nurohmi, S., & Damayanti, A. Y. (2020). The right-wing of fly (Musca domestica) as a neutralization of drinks contaminated by microbe. Journal of nutritional science and vitaminology, 66(Supplement), S283-S285.

Fajar, M. (2025). Flies in the Qur'an Perspective of Tafsir Ilmi. Jurnal Cakrawala Akademika, 1(5), 1675-1683.

Geden, C. J., Nayduch, D., Scott, J. G., Burgess IV, E. R., Gerry, A. C., Kaufman, P. E., ... & Machtinger, E. T. (2021). House fly (Diptera: Muscidae): biology, pest status, current management prospects, and research needs. Journal of Integrated Pest Management, 12(1), 39.

Greenburg, B. (1973). Flies and Disease. Vol. 11, Biology and Disease Transmission.

Iqbal, W., Malik, M. F., Sarwar, M. K., Azam, I., Iram, N., & Rashda, A. (2014). Role of housefly (Musca domestica, Diptera; Muscidae) as a disease vector; a review. Journal of Entomology and Zoology studies, 2(2), 159-163.

Issa, R. (2019). Musca domestica acts as transport vector hosts. Bulletin of the National Research Centre, 43(1), 1-5.

Jamaludin, M. A., Khairuzzaman, M. W., & Sani, M. S. A. (2021). Black soldier fly larvae as animal feed: implications on the halal status of meat products. Halalsphere, 1(1), 32-42.

Khamesipour, F., Lankarani, K. B., Honarvar, B., & Kwenti, T. E. (2018). A systematic review of human pathogens carried by the housefly (Musca domestica L.). BMC public health, 18, 1-15.

Macovei, L., & Zurek, L. (2006). Ecology of antibiotic resistance genes: characterization of enterococci from houseflies collected in food settings. Applied and Environmental Microbiology, 72(6), 4028-4035.

Mufid, A., Sattar, A., & Rifai, I. A. (2023). Track Dating Hadith Fly Wings: A Study of Harald Motzki’s Isnad cum Matn Method and Science. ESENSIA: Jurnal Ilmu-Ilmu Ushuluddin, 24(1), 15-29.

Mushtaq, K., & Rafeh, A. (2024). Factual Study of Qur'anic Fauna and Flora. Tanazur, 5(2), 430-459.

Nasution, I. F. A., Mufid, A., Kisno, K., Amin, M., Jayanto, I., Sumanti, S. T., ... & Bashori, I. A. (2020). Animals Mentioned In The Islam's Prophetic Traditions: A Review Of The Scientific Evidence. International Journal of Pharmaceutical Research, 12(4).

Nayduch, D., & Burrus, R. G. (2017). Flourishing in filth: house fly–microbe interactions across life history. Annals of the Entomological Society of America, 110(1), 6-18.

Nayduch, D., Neupane, S., Pickens, V., Purvis, T., & Olds, C. (2023). House flies are underappreciated yet important reservoirs and vectors of microbial threats to animal and human health. Microorganisms, 11(3), 583.

Olagunju, E. A. (2022). Housefly: Common zoonotic diseases transmitted and control. Journal of Zoonotic Diseases, 6(1), 1-10.

Park, R., Dzialo, M. C., Spaepen, S., Nsabimana, D., Gielens, K., Devriese, H., ... & Verstrepen, K. J. (2019). Microbial communities of the house fly Musca domestica vary with geographical location and habitat. Microbiome, 7, 1-12.

Phoku, J. Z. (2015). Investigation of fungal dissemination by Housefly (Musca domestica L.) and contamination of food commodities in selected rural areas in South Africa. University of Johannesburg (South Africa).

Phoku, J. Z., Barnard, T. G., Potgieter, N., & Dutton, M. F. (2014). Fungi in housefly (Musca domestica L.) as a disease risk indicator—A case study in South Africa. Acta Tropica, 140, 158-165.

Riyaz, M. (2021). A Comprehensive Account on the Insect Diversity Potrayed in the Holy Qur'an. Journal of Islam and Science, 8(2), 118-127.

Robinson, N. (2018). Islam: Ants, Birds, and Other Affable Creatures in the Qur’an, Hadith, and Sufi Literature. In The Routledge Handbook of Religion and Animal Ethics (pp. 80-90). Routledge.

Rochmad, R., Fitriani, F., Sylvia, N., Shopia, A., & Dyah, Y. (2023). Al-I'jāz al-Ilmī'an Khalqi aż-żubab fī Al-Qur'an'inda Ṭanṭāwī Jauharī: الإعجاز العلمي عن خلق الذباب في القرآن عند طنطاوي جوهري. ZAD Al-Mufassirin, 5(1), 166-183.

Sasaki, T., Kobayashi, M., & Agui, N. (2000). Epidemiological potential of excretion and regurgitation by Musca domestica (Diptera: Muscidae) in the dissemination of Escherichia coli O157: H7 to food. Journal of medical entomology, 37(6), 945-949.

Scott, J. G., Warren, W. C., Beukeboom, L. W., Bopp, D., Clark, A. G., Giers, S. D., ... & Liu, N. (2014). Genome of the house fly, Musca domestica L., a global vector of diseases with adaptations to a septic environment. Genome biology, 15, 1-17.

Soltani, A., Jamalidoust, M., Hosseinpour, A., Vahedi, M., Ashraf, H., & Yousefinejad, S. (2021). First molecular-based detection of SARS-CoV-2 virus in the field-collected houseflies. Scientific Reports, 11(1), 13884.

Tajudeen, A. L. (2020). Halal certification of insect-based food: a critique. IJIBE (International Journal of Islamic Business Ethics), 5(2), 100-112.

Tlili, S. (2024). An Islamic case for insect ethics. In Animals and religion (pp. 112-116). Routledge.

Tlili, S. (2024). Recent Debates on Insect Ethics and Welfare. Animals and Religion.

World Health Organization. (2024, September 26). Vector-bone diseases. https://www.who.int/news-room/fact-sheets/detail/vector-borne-diseases.

Yarger, A. M., Jordan, K. A., Smith, A. J., & Fox, J. L. (2021). Takeoff diversity in Diptera. Proceedings of the Royal Society B, 288(1942), 20202375.

Yassin, D. M. S., Al-Dulaimi, F. A. M. A., Yassin, M. S., & Al-Dulaimi, F. A. M. A. (2021). Quranic scientific and health miracles in creating flies, and its role in confronting atheism. PalArch’s Journal of Archaeology of Egypt/Egyptology, 18(4), 4141-4163.

Zinger, O. (2016). Tradition and Medicine on the Wings of a Fly. Arabica, 63(1-2), 89-117.

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Published

2025-12-10

How to Cite

Eka Sulistiyawati, Ach. Faidi Rasyadi, & Rahmat. (2025). Textual Authority and Gender Justice: Interpretation of the Verse of Women’s Testimony in Qs. Al-Baqarah (2): 282 from a Hermeneutical Perspective by Khaled M. Abou El-Fadlaled M. Abou El-Fadl. Al-Bunyan: Interdisciplinary Journal of Qur’an and Hadith Studies, 3(2), 148–159. https://doi.org/10.61166/bunyan.v3i2.49

Issue

Vol. 3 No. 2 (2025)

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Articles

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