The Impact of Organochlorine Pesticides (OCPs) on Environment Health

Saiful Jamal; Indang  Dewata; Abdul  Razak; Nurhasan  Syah

doi:10.33860/jik.v17i2.2601

Authors

Saiful Jamal
farajanail@gmail.com
Master of Environmental Science, Postgraduate, Universitas Negeri Padang, Indonesia
Indang Dewata Master of Environmental Science, Postgraduate, Universitas Negeri Padang, Indonesia
Abdul Razak Master of Environmental Science, Postgraduate, Universitas Negeri Padang, Indonesia
Nurhasan Syah Master of Environmental Science, Postgraduate, Universitas Negeri Padang, Indonesia

Keywords:

pestisicde, organoclhorine, environment

Abstract

Pesticides are toxic chemicals used mainly in agriculture to control pests and increase production. The use of pesticides is increasing with the development of special agricultural areas in the Nagari Sungai Nanam Solok district. Organochlorine pesticides are still used to control diseases on agricultural land, while the use of organochlorine pesticides has been prohibited due to the persistent effects they produce. The research aims to look at the potential environmental impacts caused by the use of specialized organochlorines on public water resources that are vital to daily life. The study used random purposive sampling techniques to determine respondents' characteristics and the water sources used. This study's respondents comprised 85 people obtained from the village group in the Nagari Sungai Nanam district of Solok. In contrast, the water samples were obtained from Galian wells and Pamsimas facilities. The results of the study showed that the level of risk of 8 (eight) means used by society could be determined by using the IKL form: there are two means (25%) at the high-risk level, three means (37.5%) at the medium-risk level, and three means (37.5%) at the low-risk level. As a result of the water sample testing, eight sampling sites found a concentration of lindane that exceeded the threshold of 0.45 ug/L lindane in the sample L.2771 (a water well in Jorong Pasa) and 0.62 ug/LL in the L.2775 sample (well water in Jorong Taratak Pauh). This condition describes the potential for higher pollution of wells due to organochlorine-like pesticides or other types that can harm health and the environment. The high use of pesticides, if not limited, will be a danger in the future for the surrounding community, which can lead to death, so an in-depth study is needed regarding the effect of pesticide use on the health conditions of the community and its environment.

References

Swacita IBN. Pestisida dan Dampaknya Terhadap Lingkungan. SimdosUnudAcId [Internet]. 2017;5. Available from: https://simdos.unud.ac.id/uploads/file_pendidikan_1_dir/85b4ff189dadfdaa360ee6200603c0ad.pdf

Suhartono S, Kartini A, Subagio HW, Budiyono, Utari A, Suratman S, et al. Pesticide exposure and thyroid function in elementary school children living in an agricultural area, Brebes District, Indonesia. Int J Occup Environ Med. 2018;9(3):137–44.

Prananditya R, Oginawati K. Pertanian Hulu Sungai Citarum Identification and Distribution of Organochlorine Pollutant in the Ambient Air of Agricultural Area of Citarum River Upstream. J Tek Lingkung. 2016;22(April):73–82.

Jayashree R, Vasudevan N. Persistence and distribution of endosulfan under field condition. Environ Monit Assess. 2007;131(1–3):475–87.

Noerdin D, Hardian A, Herlina H, Astuti W, Pramuditha L. Residu Pestisida pada Air Sungai dan Air Sumur di Sentra Perkebunan Bandung. In: Seminar Nasional Ilmu Pengetahuan dan Teknologi (IPTEK) Jendral Achmad Yani. 2015. p. 382–7.

Novera Yenita R, Amin B, Jose C. Analisis Kadar Residu Pestisida Organofosfat dan Antioksidan Pada Bayam (Amaranthus sp) di Perkebunan Kartama Kecamatam Marpoyan Damai Pekanbaru. J Ilmu Lingkung. 2012;6(2):1978–5283.

Kiloes AM, Hardiyanto N, Sulsityaningrum A, Anwarudin Syah MJ. Strategi Pengembangan Agribisnis Bawang Merah di Kabupaten Solok (Shallot Agribusiness Development Strategy in Solok Regency). J Hortik. 2019 May 17;28(2):269.

Pratama DA, Setiani O, Darundiati YH. Studi Literatur : Pengaruh Paparan Pestisida Terhadap Gangguan Kesehatan Petani. J Ris Kesehat Poltekkes Depkes Bandung. 2021;13(1):160–71.

Ulfa EF. Mahasiswa KKN-T UNDIP Laksanakan Program “GEMBADA” Melalui Sosialisasi Dampak Pestisida terhadap Kesehatan di Desa Gempol, Klaten – KKN UNIVERSITAS DIPONEGORO [Internet]. 2022 [cited 2023 Jul 19]. Available from: http://kkn.undip.ac.id/?p=367545

Garcia FP, Ascencio SYC, Oyarzun JCG, Hernandez AC, Alavarado PV. Pesticides: classification, uses and toxicity. Measures of exposure and genotoxic risks. J Res Environ Sci Toxicol [Internet]. 2012;1(11):2315–5698. Available from: http://www.interesjournals.org/JREST

Kim KH, Kabir E, Jahan SA. Exposure to pesticides and the associated human health effects. Sci Total Environ [Internet]. 2017;575:525–35. Available from: http://dx.doi.org/10.1016/j.scitotenv.2016.09.009

Tudi M, Ruan HD, Wang L, Lyu J, Sadler R, Connell D, et al. Agriculture development, pesticide application and its impact on the environment. Int J Environ Res Public Health. 2021;18(3):1–24.

Alfiah S. Dikloro Difenil Trikoloetan (DDT). J Vektora [Internet]. 2011;III(2):149–56. Available from: https://media.neliti.com/media/publications/125404-ID-dikloro-difenil-trikoloetan-ddt.pdf

Aktar W, Sengupta D, Chowdhury A. Impact of pesticides use in agriculture: Their benefits and hazards. Interdiscip Toxicol. 2009;2(1):1–12.

Ihsan T. Dasar Epidemiologi Analisis Host dan Lingkungan Pada Agent Kimia. Vol. 6, Angewandte Chemie International Edition. 2020. 274 p.

Sarkar SK, Bhattacharya BD, Bhattacharya A, Chatterjee M, Alam A, Satpathy KK, et al. Occurrence, distribution and possible sources of organochlorine pesticide residues in tropical coastal environment of India: An overview. Environ Int. 2008;34(7):1062–71.

Edward. Bioaccumulation Of Organochlorines Pesticides (Ocp) Compound In Green Mussells (Perna Viridis) In Jakarta Bay. J Ilmu dan Teknol Kelaut Trop. 2016;8(1):85–97.

Akan J. Organochlorine and Organophosphorus Pesticide Residues in Fish Samples from Lake Chad, Baga, North Eastern Nigeria. Int J Innov Manag Technol. 2014;5(2).

Fosu-Mensah BY, Okoffo ED, Darko G, Gordon C. Assessment of organochlorine pesticide residues in soils and drinking water sources from cocoa farms in Ghana. Springerplus [Internet]. 2016 Dec 1 [cited 2023 Jul 18];5(1):869. Available from: /pmc/articles/PMC4920806/

Shoiful A, Nugroho R, Fujita H, Honda K. Pestisida Organoklorin dalam Air dari Daerah Jabodetabek: Studi Pada Daerah Padat Penduduk. J Air Indones. 2018;8(2).

Ashesh A, Singh S, Linthoingambi Devi N, Chandra Yadav I. Organochlorine pesticides in multi-environmental matrices of India: A comprehensive review on characteristics, occurrence, and analytical methods. Microchem J. 2022 Jun 1;177:107306.

Jayaraj R, Megha P, Sreedev P. Review Article. Organochlorine pesticides, their toxic effects on living organisms and their fate in the environment. Interdiscip Toxicol. 2016;9(3–4):90–100.

Subramaniam K, Solomon RJ. Organochlorine pesticides BHC and DDE in human blood in and around Madurai, India. Indian J Clin Biochem. 2006;21(2):169–72.

Kaiser J. Panel Cautiously confirms Low-Dose Effects Does a Climate Clock Get a Noisy Boost ? 2000;290(October).

Briz V, Molina-Molina JM, Sánchez-Redondo S, Fernández MF, Grimalt JO, Olea N, et al. Differential estrogenic effects of the persistent organochlorine pesticides dieldrin, endosulfan, and lindane in primary neuronal cultures. Toxicol Sci. 2011;120(2):413–27.

The Impact of Organochlorine Pesticides (OCPs) on Environment Health

Authors

Keywords:

Abstract

References

Published

How to Cite

Issue

Section

You are free to:

Most read articles by the same author(s)

Similar Articles

nationalaccreditation

Make a Submission

SidebarMenu

mendeley

Keywords

Information

Statistic

Citation

Address

Contact Info