Abstract
Chlorination is an effective method to prevent and reduce emitter clogging caused by algae and bacteria in drip irrigation system. The optimal chlorination schemes should be developed to alleviate the potential negative effect of chlorination on soil properties and crop growth. A 2-year experiment was conducted to evaluate the effects of chlorine injection concentrations and duration on soil urease and alkaline phosphatase activities and production of maize for drip irrigation while applying secondary sewage effluent. The experiments were designed with injection concentrations of free chlorine residual at the end of laterals ranging from 0 to 8 mg L−1 and injection duration ranging from 0.5 to 3 h for each irrigation event. The control experiments with groundwater were applied in both seasons. Sewage application increased the residual Cl in soil while chlorination did not cause a substantial chlorine accumulation in the root zone. Compared to enzyme activities measured prior to sowing, soil enzyme activities were generally enhanced by sewage application with or without chlorination. The effects of chlorine concentration and injection duration on plant biomass, nitrogen uptake, enzyme activities, and yield of maize were insignificant although chlorination weakened the increment of soil enzyme activities to some extent. The yield of maize ranged from 12.1 to 13.3 Mg ha−1 and from 10.1 to 10.7 Mg ha−1 in the 2015 and 2016 seasons, respectively. For the treatments with chlorine injected, the yield of maize peaked at 0 mg L−1 in 2015, while the yield of maize peaked at 1.3 mg L−1 of free chlorine residual at the end of laterals and the 3 h chlorine duration in 2016. The results suggested that chlorination is safe for field crops with precipitation leaching.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Australian Water Association (2000) Primary industries—rationale and background information (irrigation and general water uses, stock drinking water, aquaculture and human consumers of aquatic foods). In: ANZECC/ARMCANZ (Australian and New Zealand Environment and Conservation Council and Agriculture and Resource Management Council of Australia and New Zealand): Australian and New Zealand Guidelines for Fresh and Marine Water Quality. vol 3, Department of the Environment, Australian Government, Sydney, Australia
Ayers RS, Westcot DW (1994) Water quality for agriculture. FAO irrigation and drainage paper 29 Rev. 1. FAO, Rome
Beijing Water Authority (2013) Beijing water resources bulletin. Beijing Water Authority, Beijing
Capra A, Scicolone B (1998) Water quality and distribution uniformity in drip/trickle irrigation systems. J Agric Eng Res 70(4):355–365. https://doi.org/10.1006/jaer.1998.0287
Carrow RN, Duncan RR, Huck MT (2008) Turfgrass and landscape irrigation water quality: assessment and management. CRC Press, Boca Raton
Chen W, He Z, Yang X, Mishra S, Stoffella PJ (2010) Chlorine nutrition of higher plants: progress and perspectives. J Plant Nutr 33:943–952. https://doi.org/10.1080/01904160903242417
Chen W, Lyu S, Jiao W, Wang M, Chang AC (2013) Reclaimed water: a safe irrigation water source? Environ Dev 8: 74–83. https://doi.org/10.1016/j.envdev.2013.04.003
Dehghanisanij H, Yamamoto T, Ahmad BO, Fujiyama H, Miyamoto K (2005) The effects of chlorine on emitter clogging induced by algae and protozoa and the performance of drip irrigation. Trans ASAE 48:519–527. https://doi.org/10.13031/2013.18326
Ebrahimizadeh MA, Amiri MJ, Eslamian SS (2009) The effects of different water qualities and irrigation methods on soil chemical properties. Res J Environ Sci 3:497–503. https://doi.org/10.3923/rjes.2009.497.503
Elgallal M, Fletcher L, Evans B (2016) Assessment of potential risks associated with chemicals in wastewater used for irrigation in arid and semiarid zones: a review. Agric Water Manag 177:419–431. https://doi.org/10.1016/j.agwat.2016.08.027
English SD (1985) Filtration and water treatment for microirrigation: drip/trickle irrigation in action. In: International Drip/Trickle Irrigation Congress: Proceeding of international drip/trickle irrigation congress. ASAE, St. Joseph, Michigan, pp 50–68
Feigin A, Ravina I, Shalhere J (1991) Irrigation with treated sewage effluent. Management for environmental protection. Advanced series in agricultural sciences, vol 17. Springer, Berlin, pp 1–216
Feng J, Li Y, Wang W, Song X (2018) Effect of optimization forms of flow path on emitter hydraulic and anti-clogging performance in drip irrigation system. Irrig Sci 36(1):37–47. https://doi.org/10.1007/s00271-017-0561-9
Guan SY (1986) Soil enzyme and its research methods. Beijing Agriculture Press, Beijing (in Chinese)
Hills DJ, Tajrishy MA, Tchobanoglous G (2000) The influence of filtration on ultraviolet disinfection of secondary effluent for microirrigation. Trans ASAE 43(6):1499–1505. https://doi.org/10.13031/2013.3049
Jnad I, Lesikar B, Kenimer A, Sabbagh G (2001) Subsurface drip dispersal of residential effluent: I. Soil chemical characteristics. Trans ASAE 44:1149–1157. https://doi.org/10.13031/2013.6443
Li Y, Li J (2010) Effect of chlorination on yield and nitrogen uptake of tomato and emitter clogging in a drip irrigation system with sewage effluent. Trans CSAE 26(2):18–24. https://doi.org/10.3969/j.issn.1002-6819.2010.02.004 (In Chinese with English abstract)
Li J, Chen L, Li Y (2009) Comparison of clogging in drip emitters during application of sewage effluent and groundwater. Trans ASABE 52(4):1203–1211. https://doi.org/10.13031/2013.27797
Li J, Chen L, Li Y, Yin J, Zhang H (2010) Effects of chlorination schemes on clogging in drip emitters during applications of sewage effluent. Appl Eng Agric 26:565–578. https://doi.org/10.13031/2013.32067
Li J, Li Y, Zhang H (2012) Tomato yield and quality and emitter clogging as effected by chlorination schemes of drip irrigation systems applying sewage effluent. J Integr Agric 11(10):1744–1754. https://doi.org/10.1016/S2095-3119(12)60179-8
Li Y, Li J, Zhang H (2014) Effects of chlorination on soil chemical properties and nitrogen uptake for tomato drip irrigated with secondary sewage effluent. J Integr Agric 13(9):2049–2060. https://doi.org/10.1016/S2095-3119(13)60692-9
Liu W, Zhao J, Ouyang Z, Söderlund L, Liu G (2005) Impacts of sewage irrigation on heavy metal distribution and contamination in Beijing, China. Environ Int 31(6):805–812. https://doi.org/10.1016/j.envint.2005.05.042
Lyu S, Chen W, Zhang W, Fan Y, Jiao W (2016) Wastewater reclamation and reuse in China: opportunities and challenges. J Environ Sci 39(1):86–96. https://doi.org/10.1016/j.jes.2015.11.012
Ma G, Chen M, Li C, Shi W, Feng Q (1993) Effects of Cl on transformation of nitrogenous fertilizers, microbes and enzyme activities in soil. J Zhejiang Agric Univ 19(4):437–440
Mass EV (1990) Crop salt tolerance. In: Tanji KK (ed) Agricultural salinity assessment and management. American Society of Civil Engineers, New York
Ministry of Agriculture of People’s Republic of China (2006) NY/T 1121.17-2006: soil test. Part 17: method for determination of soil chloride iron content, China (in Chinese)
Nakayama FS, Bucks DA (1981) Emitter clogging effects on trickle irrigation uniformity. Trans ASAE 24(1):77–80. https://doi.org/10.13031/2013.34203
Nukaya AW, Hashimoto H (2000) Effects of nitrate, chlorine and sulfate ratios and concentration in the nutrient solution on yield, growth and mineral uptake characteristics of tomato plants grown in closed rockwool system. Acta Hortic 511:165–171. https://doi.org/10.17660/ActaHortic.2000.511.19
Parker MB, Gaines TP, Gascho GJ (1985) Chloride effects on corn. Commun Soil Sci Plant Anal 16(12):1319–1333. https://doi.org/10.1080/00103628509367690
Pedrero F, Kalavrouziotis I, Alarcón JJ, Koukoulakis P, Asano T (2010) Use of treated municipal wastewater in irrigated agriculture—review of some practices in Spain and Greece. Agric Water Manag 97(9):1233–1241. https://doi.org/10.1016/j.agwat.2010.03.003
Pitts DJ, Haman DZ, Smajstrla AG (2003) Causes and prevention of emitter plugging in microirrigation systems. Bulletin vol 258. The Institute of Food and Agricultural Sciences, University of Florida, Gainesville
Qiu Z, Li J, Zhao W (2017a) Effect of applying sewage effluent with subsurface drip irrigation on soil enzyme activities during the maize growing season. Irrig Drain. https://doi.org/10.1002/ird.2124
Qiu Z, Li J, Zhao W (2017b) Effects of lateral depth and irrigation level on nitrate and Escherichia coli leaching in the North China Plain for subsurface drip irrigation applying sewage effluent. Irrig Sci 35(6):469–482. https://doi.org/10.1007/s00271-017-0553-9
Ravina I, Paz E, Sofer Z, Marcu A, Schischa A, Sagi G (1992) Control of emitter clogging in drip irrigation with reclaimed wastewater. Irrig Sci 13(3):129–138. https://doi.org/10.1007/BF00191055
Rubens DC, Ronaldo SR (2001) Biological clogging of Netafim’s drippers and recovering process through chlorination impact treatment. In: ASAE meeting Presentation Paper Number, p 012231
Santos LNS, Matsura EE, Gonçalves IZ, Barbosa EAA, Nazário AA, Tuta NF, Elaiuy MCL, Feitosa DRC, de Sousa ACM (2016) Water storage in the soil profile under subsurface drip irrigation: evaluating two installation depths of emitters and two water qualities. Agric Water Manag 170(31):91–98. https://doi.org/10.1016/j.agwat.2015.09.025
Song P, Li Y, Zhou B, Zhou C, Zhang Z, Li J (2017) Controlling mechanism of chlorination on emitter bio-clogging for drip irrigation using reclaimed water. Agric Water Manag 184:36–45. https://doi.org/10.1016/j.agwat.2016.12.017
Tabatabai MA (1994) Soil enzyme. In: Weaver RW, Angel S, Bettomley P, Bezdicek D, Smith S, Tabatabai A, Wollum A (eds) Method of soil analysis: Part 2 microbiological and biochemical properties. Soil Science Society of America, Madison, pp 755–833
Tajrishy MA, Hills DJ, Tchobanoglous G (1994) Pretreatment of secondary effluent for drip irrigation. J Irrig Drain Eng ASCE 120:716–731. https://doi.org/10.1061/(ASCE)0733-9437(1994)120:4(716)
Toze S (2006) Reuse of effluent water—benefits and risks. Agric Water Manag 80(1–3):147–159. https://doi.org/10.1016/j.agwat.2005.07.010
Van Donk SJ, Petersen JL, Davison DR (2013) Effect of amount and timing of subsurface drip irrigation on corn yield. Irrig Sci 31(4):599–609. https://doi.org/10.1007/s00271-012-0334-4
Wang Z, Li J, Li Y (2014) Effect of drip irrigation system uniformity and nitrogen applied on deep percolation and nitrate leaching during growing seasons of spring maize in semi-humid region. Irrig Sci 32(3):221–236. https://doi.org/10.1007/s00271-013-0425-x
Yang LS, Zhang YT, Huang XC, Zhang YQ, Zhao YN, Shi XJ (2016) Effects of long-term application of chloride containing fertilizers on the biological fertility of purple soil under a rice-wheat rotation system. Sci Agric Sin 49(4):686–694 (in Chinese)
Zhou B, Li Y, Song P, Zhou Y, Yu Y, Bralts V (2017a) Anti-clogging evaluation for drip irrigation emitters using reclaimed water. Irrig Sci 35(3):181–192. https://doi.org/10.1007/s00271-016-0530-8
Zhou B, Wang T, Li Y, Bralts V (2017b) Effects of microbial community variation on bio-clogging in drip irrigation emitters using reclaimed water. Agric Water Manag 194:139–149. https://doi.org/10.1016/j.agwat.2017.09.006
Zou CM, Gao JS, Wang BR, Shen HP (2004) Effects of long-term application of chloride-containing or sulfur-containing fertilizers on the soil property. J Nanjing Agric Univ 27(1):117–119. (in Chinese)
Acknowledgements
This study was financially supported by the National Natural Science Foundation of China (Grant nos. 51339007 and 51509270) and the National Key Research and Development Project of China (Grant no. 2016YFC0403103).
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
On behalf of all authors, the corresponding author states that there is no conflict of interest.
Additional information
Communicated by Y. Li.
Rights and permissions
About this article
Cite this article
Hao, F., Li, J., Wang, Z. et al. Influence of chlorine injection on soil enzyme activities and maize growth under drip irrigation with secondary sewage effluent. Irrig Sci 36, 363–379 (2018). https://doi.org/10.1007/s00271-018-0589-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00271-018-0589-5