Herbicides with drip irrigation (chemigation) could control the herbicides application accurately as the irrigation technology, and could reduce the harm to humans and the environment. However, the herbicide concentration is not consistent in the advancing process along the drip irrigation tape of different lengths, which not only influences the crop growth and results in herbicide residue. In this study, the crop and environmental effects of chemigation were discussed, potassium permanganate was used to replace herbicides, and a laboratory test was conducted to determine the best application duration. Based on this result, the maize field experiment of chemigation under plastic mulch was carried out to compare the effects of maize growth index, yield and herbicide residue for determining the optimal chemigation mode. The result shows that there is no significant difference in the application uniformity among treatments, but the leaf area index (LAI), yield, and double-ear rate of maize under continuous application (CA) were higher than those under periodic application (PA) and no application (NA) significantly. One month after the application, the acetochlor residue of the two modes was less than 1%, which would not cause pollution to the surrounding environment. And there was a significant linear regression relationship between the length of drip irrigation tape and the optimal application duration under the same acetochlor dosage.
Keywords: chemigation, irrigation mode, maize, environment
DOI: 10.25165/j.ijabe.20231604.7408

Citation: Wang H, Shi W P, Wang W E, Hu X T, Ling G, Wei R. An optimal chemigation duration model based on the crop and environment effects. Int J Agric & Biol Eng, 2023; 16(4): 41-50

chemigation, irrigation mode, maize, environment

Alshemmari H, Al-Shareedah A E, Rajagopalan S, Talebi L A, Hajeyah M. Pesticides driven pollution in Kuwait: The first evidence of environmental exposure to pesticides in soils and human health risk assessment. Chemosphere, 2021; 273: 129688.

Hura C, Leanca M, Rusu L, Hura B A. Risk assessment of pollution with pesticides in food in the Eastern Romania area (1996–1997). Toxicology Letters, 1999; 107(1): 103-107.

Zhao Y Y, Pei Y S. Risk evaluation of groundwater pollution by pesticides in China: a short review. Procedia Environmental Sciences, 2012; 13: 1739-1747.

Benaboud J, Elachouri M. The risk assessment of pollution in groundwater by pesticides at the level of oriental Morocco: Case of the perimeter irrigated by the lower Moulouya. Toxicology Letters, 2010; 196: S317. https://doi.org/10.1016/j.toxlet.2010.03.1003.

Li B, Zhang P. Effects of different populations on leaf area index, dry matter quality and yield of maize. Chinese Agricultural technology extension, 2021; 37(1): 50-52. (in Chinese).

Zhao B M, Zhu Y Y, Zhang Q, Wang L. Efficacy evaluation of applying flumioxazin by drip irrigation for control weeds in film covered cotton field. Agrochemicals, 2020; 59(8): 612-615 (in Chinese).

Yue J, Yang J G, Li R K, Wang P S, Yang W Q, Zhang G J, et al. Study on the technology of water-medicine integrated control of sweet potato root rot. Anhui Agricultural Science Bulletin, 2018; 24(10): 76-136. (in Chinese).

Cheng G, Wei Y C, Wang W C, Zhang L X, Li J Q. Effects of Herbicides Applied with Drip Irrigation Water on Weeds and Tobacco Growth. Henan Agricultural Sciences, 2016; 45(4): 85-90 (in Chinese).

Ma D M, Yang J X. Field efficacy trial of pesticide reduction and pest control techniques against Cotton bollworm. Plant Protection, 2016; 3: 39-40 (in Chinese).

Zhang Q, Song C, Xiang Z B, Liu S Y, Yan S Y, Yang L Q, et al. Effects of 4 typical paddy herbicides on growth of tobacco. Chinese Tobacco Journal, 2013; 19(5): 82-88.

Chen L. Discussion on weed species, harm, occurrence characteristics and selection principle of herbicide in soybean field. Friends of farmers getting rich, 2016; 13: 127.

Li Y, Wang Y S, Yang N, Feng L S, Zou X J, Gong D Z, et al. Effect on stalk rot control and yield of mulching film maize by drip irrigation system with fungicides. Plant Protection, 2021; 47(1): 282-286 (in Chinese).

Ren Y P. Feasibility Evaluation of Applying Abamectin by Drip Irrigation for Control Meloidogyne incognita Disease. 2016; Shandong Agricultural University, Taian (in Chinese).

Li M H, Dong Y Y, Guo Y, Zhuang D F, Yang H S, Shi D, et al. Effect of Different Herbicide on Weed Control in Maize Fields under Shallow Subsurface Drip Irrigation. Journal of Inner Mongolia University for Nationalities (Natural Science Edition), 2020; 35(3): 245-251 (in Chinese).

Mao M. Numerical simulation of atrazine transport in soils under drip irrigation and at field scale. China Agricultural University, Beijing. 2004;

Shi W P. Factors affecting the application of micro-irrigation integrated with water and medicine and optimization of the applicator. Northwest A & F University, Yangling, 2020.

Guo Q N. Degradation of Herbicides Atrazine and acetochlor in soil. Nanjing: Nanjing Agricultural University, 2018. (in Chinese).

Huo, Y L, Zheng L N, Zhai Q X, Zhang Q X, Zhang J P, Lin Y, et al. Relationship between acetochlor deposition and soil microbial and enzyme activities in black soil of maize field. Journal of Jilin Agricultural University, 2020; 1-7. https://doi.org/10.13327/j.jjlau.2020.5175. (in Chinese).

Liu J, Chen K Y, Wang J, Gao Z Y, Shang Z. Research progress of acetochlor herbicide on environmental behavior and pollution removal. Journal of Shandong Jianzhu University, 2019; 34 (5): 60-65 (in Chinese).

Wang X, Hou J W, Liu W R, Bao J. Research progress on degradation of residual amide herbicides. Hubei Agricultural Sciences, 2021; 60(7): 10-14.

Wang K, Huang X C, Zhao L Z, Li K, Hua Z X, Yang L L, et al. Research progress on detection technology of amide herbicide residues. Journal of Food Safety and Quality Inspection, 2019; 10(17): 5590-5596.

Chang X Q, Han M M, Liu D B, Zhang S. Preliminary study on degradation of acetochlor residue in soil by different types of organic fertilizer. Hubei Agricultural Sciences, 2020; 59(24): 113-116. (in Chinese).

Wang Z H. Effects of acetochlor on the growth and physiological and biochemical of maize resistant inbred lines. Shenyang Agricultural University, Shenyang, 2020;

Ge D, Wei X G, Jing Z R, Li B, Gao X N. Characteristics of drought evolution in spring maize growing season in northeast maize planting area based on SPEI. Journal of Hydraulic and Architectural Engineering, 2020; 18(4): 41-47. (in Chinese).

Lu J S, Geng C M, Cui X L, LI M Y, Hu T T. Determination of summer maize leaf critical nitrogen dilution curve based on leaf area index. Transactions of the CSAM, 2021; 52(4): 319-326 (in Chinese).