Ecological risk assessment of pesticides based on earthworms in soils on the southeast slopes of Mount Cameroon

Soil & Environmental Health Pub Date : 2023-10-29 DOI:10.1016/j.seh.2023.100047

Daniel Brice Kenko Nkontcheu , Agathe Lambou Fotio , Aimerance Donhachi Kenfack , Geraud Canis Tasse Taboue , Derick Atemlefac Acha , Eric Bertrand Fokam

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引用次数: 1

Abstract

Agrochemicals misuse is common in developing countries with many environmental implications. This work assessed the ecological risk of pesticides, including insecticides, fungicides and herbicides based on earthworms in soils at the lower slopes of Mount Cameroon using the Pesticide Risk in the Tropics to Man, Environment and Trade (PRIMET) model. PRIMET was developed in 2008 in The Netherlands for use in tropical regions. Data on usage scheme and ecotoxicological information were collected and keyed into PRIMET for three main outputs: Predicted Environmental Concentration (PEC), No Effect Concentration (NEC), and Exposure Toxicity Ratio (ETR = PEC/NEC). Pesticides predicted for no acute and no chronic risk to earthworms included fipronil and chlorothalonil. Several pesticides were predicted for an acute risk to earthworms, and they comprised acetamiprid, imidacloprid, lambda-cyhalothrin, and carbendazim when used on maize (PEC = 2.69 mg kg⁻¹; ETR = 5) and tomato (PEC = 16.15 mg kg⁻¹; ETR = 30); 2, 4-D and abamectin when used on tomato and ethoprophos. Insecticides exhibiting a possible chronic risk to earthworms comprised acetamiprid, cypermethrin, emamectin benzoate, imidacloprid, indoxacarb, lambda-cyhalothrin, oxamyl, and thiametoxam. The majority of fungicides assessed (83%) posed a possible chronic terrestrial risk, with carbendazim at the top position when applied on tomato (PEC = 16.15 mg kg⁻¹; ETR = 81). Some herbicides predicted for possible chronic risk based on earthworms included 2, 4-D, diuron, glyphosate, ethoprophos, and metaldehyde. Pesticides with the highest risk to earthworms comprised chlorpyrifos-ethyl, imidacloprid, ethoprophos, and nicosulfuron. The riskiest pesticides should hereby be regulated or replaced by less risky ones. The measurement of pesticide residues in water and food in the various agroecological zones of Cameroon is necessary to shed more light on pesticide ecotoxicology.

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喀麦隆山东南坡土壤蚯蚓农药生态风险评价

农用化学品滥用在发展中国家很普遍，对环境有许多影响。这项工作利用热带地区农药对人类、环境和贸易的风险(PRIMET)模型，基于喀麦隆山低坡土壤中的蚯蚓，评估了杀虫剂(包括杀虫剂、杀菌剂和除草剂)的生态风险。PRIMET于2008年在荷兰开发，用于热带地区。收集有关使用方案和生态毒理学信息的数据并将其输入PRIMET，以获得三个主要输出:预测环境浓度(PEC)，无影响浓度(NEC)和暴露毒性比(ETR = PEC/NEC)。预测对蚯蚓没有急性和慢性风险的农药包括氟虫腈和百菌清。预测几种农药对蚯蚓有急性危险，分别是对虫脒、吡虫啉、高效氯氰菊酯和多菌灵(PEC = 2.69 mg kg - 1;ETR = 5)和番茄(PEC = 16.15 mg kg−1;etr = 30);2,4 - d和阿维菌素用于番茄和乙硫磷。可能对蚯蚓造成慢性危害的杀虫剂包括醋虫脒、氯氰菊酯、甲维菌素苯甲酸酯、吡虫啉、茚虫威、高效氯氰菊酯、恶氨酰和噻虫胺。大多数被评估的杀菌剂(83%)可能构成慢性陆地风险，多菌灵在番茄上使用时位居首位(PEC = 16.15 mg kg - 1;etr = 81)。一些基于蚯蚓预测可能具有慢性风险的除草剂包括2,4 - d、迪乌隆、草甘膦、乙氧丙磷和三聚乙醛。对蚯蚓危害最大的农药包括乙基毒死蜱、吡虫啉、乙硫磷和尼科磺隆。因此，风险最大的农药应该受到监管，或者被风险较小的农药所取代。对喀麦隆不同农业生态区的水和食物中的农药残留进行测量是必要的，以进一步阐明农药生态毒理学。

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来源期刊

Soil & Environmental Health

CiteScore

1.80

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0.00%

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