Physicochemical Characterization and Heavy Metal Contents of Stingless Bee Honey (Trigona itama) from Bekalar Village, Riau

Wahyu Ramadhan; Dela Agung Septriady; Diana Santi

doi:10.55606/ijhs.v6i1.6693

Authors

Wahyu Ramadhan Universitas Abdurrab Pekanbaru Riau
Dela Agung Septriady PT Pertamina Gas Operation Rokan Area
Diana Santi External Relation West Region PT Pertamina Gas

DOI:

https://doi.org/10.55606/ijhs.v6i1.6693

Keywords:

Bekalar Village, Heavy Metals, Physicochemical Properties, Stingless Bee Honey, Tigona Itama

Abstract

Honey is a natural product rich in simple sugars and minor bioactive constituents and is widely recognised for its antioxidant, antibacterial, anti-inflammatory, and wound-healing activities. Stingless bee honey from Trigona itama has become increasingly relevant in Southeast Asia due to its distinctive physicochemical profile and its high content of phenolics and flavonoids, which contribute to functional properties compared with conventional Apis dorsata honey. Despite its growing economic and scientific importance, standardized data on the quality and safety of Trigona itama from specific local environments in Indonesia remain limited. This study evaluated the physicochemical characteristics and heavy metal content of Trigona itama honey originating from Bekalar Village, Siak Regency, Riau, and assessed the quality standards of honey with Standar Nasional Indonesia (SNI) 8664:2018 for honey. A descriptive laboratory design was employed, and honey samples from managed colonies were analysed for moisture, acidity ash content, viscosity, and heavy metal content of Pb, Cd, Hg, and As using validated analytical procedures. The honey demonstrated a moisture content of 28.39 ± 0.03%, acidity content 30.90± 4,74 mLNaOH/Kg, ash content of 0.073 ± 0.03% b/b, viscosity of 68,44 ± 0,725 poise. Heavy metal concentrations were low, with Pb < 0.22 mg/kg, Cd < 0.01 mg/kg, Hg < 0.002 mg/kg, and As < 0.30 mg/kg. These findings confirm that Trigona itama honey from Bekalar village is safe and compositionally consistent with typical stingless bee honey due to Standar Nasional Indonesia (SNI) 8664:2018 for honey, although its high moisture content underscores the need for improved post-harvest handling to support stability and compliance with national quality requirements.

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References

Adityarini, D., Suedy, S. W. A., & Darmanti, S. (2020). Kualitas madu lokal berdasarkan kadar air, gula total, dan keasaman dari Kabupaten Magelang. Buletin Anatomi dan Fisiologi, 5(1), 18–24.

Ahmad, M. S., Azlan, Y. H. N., Rani, A., Mat, N. N. I., & Gan, S. H. (2023). Medicinal properties of stingless bee honey. In Honey: Composition and health benefits (pp. 314–329).

Ameliya, R., Martati, E., & Wulan, S. N. (2023). The physicochemical properties of local Indonesian honey Trigona and Cerana produced in North Lombok, West Nusa Tenggara. Advances in Food Science, Sustainable Agriculture and Agroindustrial Engineering, 65–72.

Apriani, D., Gusnedi, Y. D., & Darvina, Y. (2013). Studi tentang nilai viskositas madu hutan dari beberapa daerah di Sumatera Barat untuk mengetahui kualitas madu. Pillar of Physics, 2(1), 91–98.

Azonwade, F. E., Paraïso, A., Agbangnan Dossa, C. P., Dougnon, V. T., N’tcha, C., Mousse, W., & Baba-Moussa, L. (2018). Physicochemical characteristics and microbiological quality of honey produced in Benin. Journal of Food Quality, 2018, Article 1896057. https://doi.org/10.1155/2018/1896057

Baroroh, H. N. (2020). Pharmacognostic profile of Ageratum conyzoides L. plant and simplicia. Pharmacognosy Journal, 12(5).

Bereksi-Reguig, D., Bouchentouf, S., Allali, H., Adamczuk, A., Kowalska, G., & Kowalski, R. (2022). Trace elements and heavy metal contents in West Algerian natural honey. Journal of Analytical Methods in Chemistry, 2022, Article 7890856. https://doi.org/10.1155/2022/7890856

Bicudo de Almeida-Muradian, L., Barth, O. M., Dietemann, V., Eyer, M., Freitas, A. S., Martel, A. C., Marcazzan, G. L., Marchese, C. M., Mucignat-Caretta, C., & Pascual-Maté, A. (2020). Standard methods for Apis mellifera honey research. Journal of Apicultural Research, 59(3), 1–62. https://doi.org/10.1080/00218839.2020.1738135

Binjamin, B., Hasbullah, M., Ador, K., Gobilik, J., Chin, C. F. S., Lum, M. S., Yaakub, N., & Benedick, S. (2024). Mineral and heavy metal variations and contaminations in raw honey of stingless bees (Heterotrigona itama) from selected geographical areas of origin in Malaysia. Journal of Nutrition Society of Malaysia, 30, 403–415.

Campos, N. A., Holanda, G. H., Recktenvald, M. C., Costa-Junior, W. A., Ronqui, L., Parpinelli, R. S., Froelich, J. D., Bastos, W. R., & Oliveira, D. F. (2024). Mercury in honey of stingless bee species from Brazil’s regions. Journal of Food Composition and Analysis, 129, 106084. https://doi.org/10.1016/j.jfca.2024.106084

Cheng, M. Z. S. Z., Amin, F. A. Z., Zawawi, N., Chan, K. W., Ismail, N., Ishak, N. A., & Esa, N. M. (2023). Stingless bee (Heterotrigona itama) honey and its phenolic-rich extract ameliorate oxidant–antioxidant balance via KEAP1–NRF2 signalling pathway. Nutrients, 15(13), 2835. https://doi.org/10.3390/nu15132835

de Oliveira, D. F., Braga, D. J. N., Costa Júnior, W. A., Holanda, G. H. A., Ronqui, L., Parpinelli, R. S., de Sousa-Filho, I. F., de Azevedo, M. S., de Almeida, R., & Bastos, W. R. (2025). Health risk due to the presence of trace elements in stingless bee honey consumed in Brazil. Journal of Food Composition and Analysis, Article 108073. https://doi.org/10.1016/j.jfca.2025.108073

Faustino, C., & Pinheiro, L. (2021). Analytical rheology of honey: A state-of-the-art review. Foods, 10(8), 1709. https://doi.org/10.3390/foods10081709

Gadge, A. S., Shirsat, D. V., Soumia, P. S., Pote, C. L., Pushpalatha, M., Pandit, T. R., Dutta, R., Kumar, S., Ramesh, S., & Mahajan, V. (2024). Physicochemical, biological, and therapeutic uses of stingless bee honey. Frontiers in Sustainable Food Systems, 7, 1324385. https://doi.org/10.3389/fsufs.2023.1324385

Gebreyes, B. G., Teka, T. A., Tola, Y. B., Tamiru, M., & Kiatoko, N. (2025). The physicochemical properties, biochemical makeup, and health benefits of honey produced from stingless bees. Journal of Food Quality, 2025, Article 7570525. https://doi.org/10.1155/2025/7570525