Reduction of Imidacloprid and Tebuconazole in Oryza Sativa Plantation Applying Strains of Trichoderma Spp.

Q3 Chemical Engineering

Chemical engineering transactions Pub Date : 2021-07-01 DOI:10.3303/CET2187106

Ana N. Sandoval, Leidy J. Sanchez, Yeravi M. Saavedra, K. Calla, R. Alba, Herry Lloclla

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引用次数: 1

Abstract

The objective of this research was to assess the reduction of imidacloprid and tebuconazole in soil plantations of Oryza sativa applying strains of Trichoderma spp. Regarding the methodology, 3 treatments were used; strain 1 (TS1), 2 (T163+TS1) and 3 (T163), 19 pots of 15 x 15 cm with 3.5 kg soil were used. One pot was used for the control group (without treatment) and eighteen pots were used for experimental groups (6 pots for each strain). 5 seeds Oryza sativa of Esperanza variety (MQR78) were planted in each pot on 2 cm to the soil surface, irrigation was carried out using drench technique every 24 hours for 90 days. For Trichoderma spp inoculation it was added 40 ml of strain 1, strain 2 and strain 3 in 18 pots with Oryza sativa seeds, identifying that the root measured 2 centimeters (6 pots for each strain). Likewise, the fungus strains were inoculated after 45 days to nourish the soil and a soil sample was taken after 45 days to identify the absorption of tebuconazole (fungicide) and imidacloprid (insecticide), finally the height of the plant (cm) was measured in each experimental strain, the plant was measured from the ground level to the tip of the longest leaf. The results showed that strain 1 reduced 12.39 mg / kg of imidacloprid and 17.31 mg / kg of tebuconazole. Regarding the percentage of decrease efficiency, it was concluded that strain 1 is more efficient with 64.2% for imidacloprid and 64.5% for tebuconazole and finally, strain 3 showed greater height of the Oryza sativa plant with 79.8 cm.

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应用木霉菌株减少水稻种植中吡虫啉和戊康唑的用量。

本研究旨在评价施用木霉菌株对水稻(Oryza sativa)土壤人工林中吡虫啉(imidcloprid)和戊康唑(tebuconazole)的减少效果。菌株1 (TS1)、2 (T163+TS1)和3 (T163)， 15 × 15 cm 19罐，土壤3.5 kg。对照组1锅(未处理)，试验组18锅(每个菌株6锅)。选用“埃斯佩兰”(Esperanza)品种(MQR78)的5粒水稻种子，每盆距土壤表面2cm处种植，每隔24小时采用滴灌技术进行灌溉，连续灌溉90 d。接种木霉时，将菌株1、菌株2和菌株3各40 ml分别加入18个装有Oryza sativa种子的盆栽中，确定根长2厘米(每个菌株6个盆栽)。同样，45 d后接种菌种对土壤进行滋养，45 d后取土样测定对杀菌剂戊康唑和杀虫剂吡虫啉的吸收量，最后测定每个实验菌种的株高(cm)，植株从地面至最长叶尖测量。结果表明，菌株1对吡虫啉和替布康唑的毒力分别为12.39 mg / kg和17.31 mg / kg。菌株1对吡虫啉和戊唑唑的降毒率分别为64.2%和64.5%，菌株3对水稻植株的降毒率最高，达到79.8 cm。

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

Chemical engineering transactions Chemical Engineering-Chemical Engineering (all)

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

6 weeks

期刊介绍： Chemical Engineering Transactions (CET) aims to be a leading international journal for publication of original research and review articles in chemical, process, and environmental engineering. CET begin in 2002 as a vehicle for publication of high-quality papers in chemical engineering, connected with leading international conferences. In 2014, CET opened a new era as an internationally-recognised journal. Articles containing original research results, covering any aspect from molecular phenomena through to industrial case studies and design, with a strong influence of chemical engineering methodologies and ethos are particularly welcome. We encourage state-of-the-art contributions relating to the future of industrial processing, sustainable design, as well as transdisciplinary research that goes beyond the conventional bounds of chemical engineering. Short reviews on hot topics, emerging technologies, and other areas of high interest should highlight unsolved challenges and provide clear directions for future research. The journal publishes periodically with approximately 6 volumes per year. Core topic areas: -Batch processing- Biotechnology- Circular economy and integration- Environmental engineering- Fluid flow and fluid mechanics- Green materials and processing- Heat and mass transfer- Innovation engineering- Life cycle analysis and optimisation- Modelling and simulation- Operations and supply chain management- Particle technology- Process dynamics, flexibility, and control- Process integration and design- Process intensification and optimisation- Process safety- Product development- Reaction engineering- Renewable energy- Separation processes- Smart industry, city, and agriculture- Sustainability- Systems engineering- Thermodynamic- Waste minimisation, processing and management- Water and wastewater engineering