[Cost-effectiveness analysis of chemical treatment with drones for Oncomelania hupensis control in marshland and lake areas].

Q3 Medicine

中国血吸虫病防治杂志 Pub Date : 2024-10-24 DOI:10.16250/j.32.1915.2024128

Y Chen, X Xu, D Wen, B Dai, L Gao, R Zhang, Q Huang, L Li, F Zha, L Fang, P Zhang, S Zhang, C Cao

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引用次数: 0

Abstract

Objective: To evaluate the molluscicidal effect and cost of spraying molluscicides with drones against Oncomelania hupensis snails in marshland and lake areas, so as to provide new insights into field snail control in China.

Methods: A marshland and lake setting measuring approximately 12 000 m² was selected in Wanzhi District, Wuhu City on June 2023 as the test field, and assigned to four groups, of 3 000 m² in each group. Environmental cleaning was not conducted in groups A or B, which were given 5% niclosamide ethanolamine salt granules sprayed with knapsack-type sprayers and drones at a dose of 40 g/m², and environmental cleaning was conducted in groups C and D, which were given 5% niclosamide ethanolamine salt granules sprayed with drones and knapsack-type sprayers at a dose of 40 g/m², respectively. O. hupensis snails were surveyed before chemical treatment and 1, 3, 5, 7, 14 days post-treatment. The uniformity of chemicals was determined on the day of treatment, and the snail mortality, corrected snail mortality and density of living snails were calculated and compared among groups. The cost of molluscicides, labor fees of environmental cleaning and chemical treatment and cost of equipment were calculated, and the cost for a 1% reduction in the mean density of living snails was calculated 14 days post-treatment.

Results: The mean densities of living snails and mortality rates of snails were 1.82 to 2.85 snails/0.1 m² and 1.41% to 2.94% in groups A, B, C and D before chemical treatment, and the mortality and corrected mortality of snails were 55.75%, 49.32%, 85.94% and 87.50%, and 55.00%, 48.47%, 85.70% and 87.29% in groups A, B, C and D 14 days post-treatment. There was a significant difference in the mortality of snails among the four groups 14 days post-treatment (χ² = 38.735, P < 0.005), and there was a higher snail mortality in Group D than in Group A (χ² = 16.876, P < 0.005), and higher in Group C than in Group B (χ² = 20.508, P < 0.005). The density of living snails reduced by 55.00%, 43.94%, 90.43% and 87.14% 14 days post-treatment relative to pre-treatment in groups A, B, C and D, respectively. The test for uniformity of chemicals showed that the mean dose of molluscicides were 57.34, 55.21, 40.19 g/m² and 32.37 g/m² in groups A, B, C and D, respectively, and the minimal standard deviation (7.07) and coefficient of variation (0.18) of mean doses were seen in Group C. The costs for chemical treatment were 0.33 Yuan in groups A and B and 1.53 Yuan in groups C and D, respectively. The costs for a 1% reduction in the mean density of living snails were 17.82, 22.47, 50.73 Yuan and 52.56 Yuan in groups A, B, C, and D 14 days post-treatment, respectively.

Conclusions: The molluscicidal effect and cost of spraying 5% niclosamide ethanolamine salt granules with drones are comparable to manual spraying, and chemical treatment with drones are high in uniformity of molluscicides, time- and labor-saving, and feasible for applications in complex environments, which deserves widespread applications in the field of snail control.

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[无人机化学防治沼泽湖区钉螺的成本-效果分析]。

目的：评价无人机对沼泽湖区钉螺的杀螺效果和成本，为中国野外钉螺防治提供新的思路。方法：于2023年6月在芜湖市万治区选取约1.2万m2的湿地和湖泊作为试验田，分为4组，每组3 000 m2。A组和B组不进行环境清洁，分别给予5%硝氯胺乙醇胺盐颗粒，使用背包式喷雾器和无人机喷洒，剂量为40 g/m2； C组和D组分别给予5%硝氯胺乙醇胺盐颗粒，使用无人机和背包式喷雾器喷洒，剂量为40 g/m2。分别于化学处理前和处理后1、3、5、7、14 d对钉螺进行调查。测定处理当日药剂均匀性，计算各组钉螺死亡率、校正钉螺死亡率和活螺密度并进行比较。计算杀螺剂成本、环境清洗和化学处理人工费用及设备费用，计算处理后14 d平均活螺密度降低1%的成本。结果：化学处理前A、B、C、D组钉螺平均活密度为1.82 ~ 2.85只/0.1 m2，钉螺死亡率为1.41% ~ 2.94%，处理后14 D A、B、C、D组钉螺死亡率和校正死亡率分别为55.75%、49.32%、85.94%和87.50%，处理后14 D A、B、C、D组钉螺死亡率分别为55.00%、48.47%、85.70%和87.29%。治疗14 D后4组钉螺死亡率差异有统计学意义（χ2 = 38.735, P < 0.005），其中D组钉螺死亡率高于a组（χ2 = 16.876, P < 0.005）， C组钉螺死亡率高于B组（χ2 = 20.508, P < 0.005）。处理14 D后，A、B、C、D组钉螺活密度分别较处理前降低55.00%、43.94%、90.43%、87.14%。化学药剂均一性检验结果显示，A、B、C、D组杀螺剂平均剂量分别为57.34、55.21、40.19、32.37 g/m2， C组平均剂量标准差最小（7.07），变异系数最小（0.18），化学药剂处理费用A、B组分别为0.33元、C、D组分别为1.53元。a、B、C、D组平均钉螺密度每降低1%，处理后14 D的成本分别为17.82元、22.47元、50.73元、52.56元。结论：无人机喷洒5%氯硝沙胺乙醇胺盐颗粒的杀螺效果和成本与人工喷洒相当，且无人机化学处理杀螺剂均一性高，省时省力，适用于复杂环境，值得在防螺领域广泛应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

中国血吸虫病防治杂志 Medicine-Medicine (all)

CiteScore

1.30

自引率

0.00%

发文量

7021

期刊介绍： Chinese Journal of Schistosomiasis Control (ISSN: 1005-6661, CN: 32-1374/R), founded in 1989, is a technical and scientific journal under the supervision of Jiangsu Provincial Health Commission and organised by Jiangsu Institute of Schistosomiasis Control. It is a scientific and technical journal under the supervision of Jiangsu Provincial Health Commission and sponsored by Jiangsu Institute of Schistosomiasis Prevention and Control. The journal carries out the policy of prevention-oriented, control-oriented, nationwide and grassroots, adheres to the tenet of scientific research service for the prevention and treatment of schistosomiasis and other parasitic diseases, and mainly publishes academic papers reflecting the latest achievements and dynamics of prevention and treatment of schistosomiasis and other parasitic diseases, scientific research and management, etc. The main columns are Guest Contributions, Experts‘ Commentary, Experts’ Perspectives, Experts' Forums, Theses, Prevention and Treatment Research, Experimental Research, The main columns include Guest Contributions, Expert Commentaries, Expert Perspectives, Expert Forums, Treatises, Prevention and Control Studies, Experimental Studies, Clinical Studies, Prevention and Control Experiences, Prevention and Control Management, Reviews, Case Reports, and Information, etc. The journal is a useful reference material for the professional and technical personnel of schistosomiasis and parasitic disease prevention and control research, management workers, and teachers and students of medical schools. 　　 The journal is now included in important domestic databases, such as Chinese Core List (8th edition), China Science Citation Database (Core Edition), China Science and Technology Core Journals (Statistical Source Journals), and is also included in MEDLINE/PubMed, Scopus, EBSCO, Chemical Abstract, Embase, Zoological Record, JSTChina, Ulrichsweb, Western Pacific Region Index Medicus, CABI and other international authoritative databases.