Determination of Mercury (Hg) Risk Level (RO) with Exposure through Fish and Drinking Water Consumption in Bulawa Sub-district, Bone Bolango District, Gorontalo Province, Indonesia
| Main Authors: | Tya Nisvi Rahmadhani, NIM. 101511133048, Abdul Rohim Tualeka, NIDN. 0024116603, Pudji Rahmawati, -, Syamsiar S Russeng, -, Atjo Wahyu, -, Ahsan, -, Siprianus Singga, - |
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| Format: | Article PeerReviewed Book |
| Bahasa: | eng |
| Terbitan: |
R.K. Sharma, Institute of Medico-Legal Publications
, 2019
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| Subjects: | |
| Online Access: |
http://repository.unair.ac.id/91666/1/5%202703-2708.pdf http://repository.unair.ac.id/91666/ https://www.ijphrd.com |
Daftar Isi:
- Mercury (Hg) is a liguid metal element, silver at room temperature (259C and has a melting and boiling points at of -38.87fand 35.00C, respectively. In traditional gold mining activities, Mercury (Hg) is used for gold purification (amalgamation). This study aims to determine the level of risk (RO) in the community of Bulawa District who consume fish and drinking water sourced from the waters around traditional mining activities. This type of research is observational with an environmental health risk analysis design. Sampling was calculated using purposive sampling with the inclusion criteria by the researchers and resulted in 100 citizens. The results of the calculation of the level of Risk (RO) of Mercury (Hg) consumption of fish and drinking water in the community of Bulawa District was 0.08 and 0.003, respectively, thus, RO «1, meaning that it does not have an effect on health. However, this value can be used as a reference level of risk level (RO) of Mercury (Hg) in people who consume fish and drinking water from the waters of traditional mining areas in Indonesia. Control measures can be taken to maintain the level of Risk (RO) of Mercury (Hg) «1 through limiting the freguency of consumption and the rate of intake of fish and drinking water from surrounding waters. Warning signs of mercury contamination around mining waters can be also provided.