应用膜下灌排联动技术对提高土壤淋洗效果的影响
收稿日期: 2020-12-10
修回日期: 2021-04-22
网络出版日期: 2021-08-03
基金资助
国家自然科学基金项目(51869027);石河子市重大科技项目(2018ZD03);干旱区滴灌节水兵团科技创新团队项目(2019CB004);兵团南疆重点产业创新发展支撑计划项目(202DB004);师市平台项目:绿洲现代农业灌排技术与产品研发重点实验室(2019PT02)
Effect of drip irrigation under mulch combined with drainage by concealed pipes on soil leaching in Xinjiang
Received date: 2020-12-10
Revised date: 2021-04-22
Online published: 2021-08-03
膜下滴灌结合暗管排水技术是一种复合型节水灌排技术,为了进一步研究在新疆的影响,在新疆生产建设兵团141团安集海地区通过设置膜下滴灌结合暗管排水(T1)、膜下滴灌无暗管排水(T2)和无膜下滴灌无暗管排水(T3)3个不同处理进行棉花田间试验。结果表明:(1) 相同土层下T1、T2、T3处理土壤含水率的变化幅度依次为6.32%、10.03%、14.32%,即:T1
王东旺,王振华,陈林,李文昊 . 应用膜下灌排联动技术对提高土壤淋洗效果的影响[J]. 干旱区研究, 2021 , 38(4) : 1010 -1019 . DOI: 10.13866/j.azr.2021.04.12
Drip irrigation under film combined with subsurface drainage technology is a type of composite water-saving irrigation and drainage technology. We conducted field experiments in the Anjihai area of 141 production and construction corporations of Xinjiang using three different treatments to study the effect of the technology of drip irrigation under mulch combined with the drainage of underground pipes on the soil leaching effect: Drip irrigation under mulch combined with the drainage of underground pipes (T1), drip irrigation under mulch without the drainage of underground pipes (T2), and drip irrigation without the drainage of underground pipes (T3). We found that under the same soil layer, the changes in the soil moisture content of T1, T2, and T3 treatments were 6.32%, 10.03%, and 14.32%, respectively, which indicated that the T1 treatment could better maintain the stability of soil moisture than the T2 and T3 treatments, and the soil water conservation effect of different treatments was T1>T2>T3. The soil salt content of the 0-60 cm soil layer decreased in the T1 treatment, and it was 63.06%, 60.62%, and 48.42% in the 20 cm, 40 cm, and 60 cm soil layers, respectively. The soil salt content of the 20 cm and 40 cm soil layers decreased in the T2 treatment, but it increased in the 60 cm soil layer, indicating that desalination of the surface soil caused salt accumulation in the deep soil layer, and the surface salt returned in the T3 treatment, at the end of growth period. At the end of the cotton-growing period, the content of soil organic matter increased in the 20 cm, 40 cm, and 60 cm soil layers, but it decreased in the T2 and T3 soil layers without concealed pipes. With the increase in soil depth, the permeability of the soil improved within 0-60 cm. The pH and salt content of the water discharged by the concealed pipe were higher than that of the irrigation water, which indicates that the concealed pipe drained away the salt in the soil at the same time, which is helpful for the improvement of soil salinity and alkalinity. The study provides a theoretical basis for the improvement and management of saline, alkali land in Xinjiang.
[1] | 罗毅. 干旱区绿洲滴灌对土壤盐碱化的长期影响[J]. 中国科学: 地球科学, 2014, 44(8):1679-1688. |
[1] | [ Luo Yi. Long term effects of drip irrigation on soil salinization in Arid Oasis[J]. Chinese Science: Earth Science, 2014, 44(8):1679-1688. ] |
[2] | 王久林. 暗管排水技术在灌排渠系中的应用[J]. 东北水利水电, 1988(9):33-36. |
[2] | [ Wang Jiulin. Application of subsurface drainage technology in irrigation and drainage canal system[J]. Water Resources & Hydropower of Northeast China, 1988(9):33-36. ] |
[3] | 万长宇, 张展羽, 冯根祥, 等. 暗管排水条件下微咸水灌溉对土壤水盐运移特征的影响[J]. 灌溉排水学报, 2016, 35(3):37-41. |
[3] | [ Wang Changyu, Zhang Zhanyu, Feng Genxiang, et al. Transport feature of soil water-salt by saline water irrigation under subsurface pipe drainage[J]. Journal of Irrigation and Drainage, 2016, 35(3):37-41. ] |
[4] | 张开祥, 马宏秀, 孟春梅, 等. 竖井排盐对南疆枣田土壤盐分运移的影响[J]. 节水灌溉, 2018, 279(11):81-85. |
[4] | [ Zhang Kaixiang, Ma Hongxiu, Meng Chunmei, et al. Effect of shaft salt drainage on soil salt transport in Jujube farmland of Southern Xinjiang[J]. Water Saving Irrigation, 2018, 279(11):81-85. ] |
[5] | 王天宇, 王振华, 陈林, 等. 灌排一体化工程对地下水埋深及作物生长影响的研究综述[J]. 水资源与水工程学报, 2020, 31(4):174-180. |
[5] | [ Wang Tianyu, Wang Zhenhua, Chen Lin, et al. Literature review on the influence of integrated irrigation and drainage project on groundwater depth and crop growth[J]. Journal of Water Resources Water Engineering, 2020, 31(4):174-180. ] |
[6] | 刘广明, 杨劲松, 吕真真, 等. 不同调控措施对轻中度盐碱土壤的改良增产效应[J]. 农业工程学报, 2011, 27(9):164-169. |
[6] | [ Liu Guangming, Yang Jingsong, Lyu Zhenzhen, et al. Effects of different adjustment measures on improvement of light-moderate saline soils and crop yield[J]. Transactions of the CSAE, 2011, 27(9):164-169. ] |
[7] | 徐飞鹏, 李云开, 任树梅. 新疆棉花膜下滴灌技术的应用与发展的思考[J]. 农业工程学报, 2003, 19(1):25-27. |
[7] | [ Xu Feipeng, Li Yunkai, Ren Shumei. Investigation and discussion of drip irrigation under mulch in Xinjiang Uygur Autonomous Region[J]. Transactions of the CSAE, 2003, 19(1):25-27. ] |
[8] | 李显溦, 左强, 石建初, 等. 新疆膜下滴灌棉田暗管排盐的数值模拟与分析Ⅰ: 模型与参数验证[J]. 水利学报, 2016, 47(4):79-86. |
[8] | [ Li Xianwei, Zuo Qiang, Shi Jianchu, et al. Evaluation of salt discharge by subsurface pipes in the cotton field with film mulched drip irrigation in Xinjiang, China I. Calibration to models and parameters[J]. Journal of Hydraulic Engineering, 2016, 47(4):79-86. ] |
[9] | 秦文豹, 李明思, 李玉芳, 等. 滴灌条件下暗管滤层结构对排水、排盐效果的影响[J]. 灌溉排水学报, 2017, 36(7):80-85. |
[9] | [ Qin Wenbao, Li Mingsi, Li Yufang, et al. Proposed gravel filters for pipe-drain to improve the efficacy of the drainage system under drip irrigation[J]. Journal of Irrigation and Drainage, 2017, 36(7):80-85. ] |
[10] | 衡通. 暗管排水对滴灌农田水盐分布的影响研究[D]. 石河子: 石河子大学, 2018. |
[10] | [ Heng Tong. Influence of Pipe Drainage on Water and Salt Distribution in Drip Irrigation Farmland[D]. Shihezi: Shihezi University, 2018. ] |
[11] | 衡通, 王振华, 李文昊, 等. 滴灌条件下排水暗管埋深及管径对土壤盐分的影响[J]. 土壤学报, 2018, 55(1):111-121. |
[11] | [ Heng Tong, Wang Zhenhua, Li Wenhao, et al. Impacts of diameter and depth of drainage pipes in fields under drip irrigation on soil salt[J]. Acta Pedologica Sinica, 2018, 55(1):111-121. ] |
[12] | 王东旺, 吕廷波, 何新林, 等. 不同覆膜宽度对棉花土壤水分及地温的影响研究[J]. 节水灌溉, 2018(12):33-37, 43. |
[12] | [ Wang Dongwang, Lyu Tingbo, He Xinlin, et al. Effects of different film width on soil moisture and soil temperature of cotton[J]. Water Saving Irrigation, 2018(12):33-37, 43. ] |
[13] | 李文昊, 王振华, 郑旭荣, 等. 长期膜下滴灌棉田土壤盐分变化特征[J]. 农业工程学报, 2016, 32(10):67-74. |
[13] | [ Li Wenhao, Wang Zhenhua, Zheng Xurong, et al. Soil salinity variation characteristics of cotton field under long-term mulched drip irrigation[J]. Transactions of the Chinese Society of Agricultural Engineering, 2016, 32(10):67-74. ] |
[14] | 高金花, 张礼绍, 廉冀宁, 等. 膜下滴灌结合暗管技术土壤水盐特性研究[J]. 中国农村水利水电, 2019(9):76-82. |
[14] | [ Gao Jinhua, Zhang Lishao, Lian Jining, et al. Research on the soil water and salt change characteristics of drip irrigation under film combined with drainage technology of underground pipeline[J]. China Rural Water and Hydropower, 2019(9):76-82. ] |
[15] | Corradini F, Najera F, Casanova M, et al. Effects of maize cultivation on nitrogen and phosphorus loadings to drainage channels in Central Chile[J]. Environmental Monitoring & Assessment, 2015, 187(11):1-17. |
[16] | 李文昊, 王振华, 郑旭荣, 等. 新疆绿洲盐碱地滴灌条件下地下水局部动态对荒地盐分的影响[J]. 干旱区研究, 2016, 33(5):1110-1118. |
[16] | [ Li Wenhao, Wang Zhenhua, Zheng Xurong, et al. Effects of local dynamic change of groundwater on soil salinity in wasteland under drip irrigation in saline or alkaline land of oasis in Xinjiang[J]Arid Zone Research, 2016, 33(5):1110-1118. ] |
[17] | 杨玉辉, 周新国, 李东伟. 暗管排水对南疆高水位膜下滴灌棉田盐分管控及淋洗效果分析[J]. 干旱区研究, 2020, 37(5):1194-1204. |
[17] | [ Yang Yuhui, Zhou Xinguo, Li Dongwei. Analysis of the effect of subsurface pipes on salt control and leaching in drip irrigation under a mulch cotton field at high groundwater level in Southern Xinjiang by subsurface pipes[J]. Arid Zone Research, 2020, 37(5):1194-1204. ] |
[18] | 李开明, 刘洪光, 石培君, 等. 明沟排水条件下的土壤水盐运移模拟[J]. 干旱区研究, 2018, 35(6):1299-1307. |
[18] | [ Li Kaiming, Liu Hongguang, Shi Peijun, et al. Simulation of soil water and salt migration under open-ditch drainage[J]. Arid Zone Research, 2018, 35(6):1299-1307. ] |
[19] | Wang Z, Heng T, Li W, et al. Effects of subsurface pipe drainage on soil salinity in saline-sodic soil under mulched drip irrigation[J]. Irrigation and Drainage, 2020, 69. |
[20] | Peng S, Luo Y, Xu J, et al. Integrated irrigation and drainage practices to enhance water productivity and reduce pollution in a rice production system[J]. Irrigation & Drainage, 2012, 61(3):285-293. |
[21] | 王振华, 衡通, 李文昊, 等. 滴灌条件下排水暗管间距对土壤盐分淋洗的影响[J]. 农业机械学报, 2017, 48(8):253-261. |
[21] | [ Wang Zhenhua, Heng Tong, Li Wenhao, et al. Effects of drainage pipe spacing on soil salinity leaching under drip irrigation condition[J]. Transactions of the Chinese Society for Agricultural Machinery, 2017, 48(8):253-261. ] |
[22] | Munis M F H, Tu L, Ziaf K, et al. Critical osmotic, ionic and physiological indicators of salinity tolerance in cotton (Gossypium hirsutum L. ) for cultivar selection[J]. Pakistan Journal of Botany, 2010, 42(3):1685-1694. |
[23] | 陈丽娟, 冯起, 张新民, 等. 明沟排水洗盐条件下土壤水盐动态模拟研究[J]. 水土保持研究, 2010, 17(1):241-244. |
[23] | [ Chen Lijuan, Feng Qi, Zhang Xinmin, et al. Simulation study on dynamic of soil water and salt of salt leaching with drainage ditch[J]. Research of Soil and Water Conservation, 2010, 17(1):241-244. ] |
[24] | 王少丽, 杨继富, 李杰, 等. 新疆盐渍化灌区水盐平衡现状及对策[J]. 中国农村水利水电, 2006(4):12-15. |
[24] | [ Wang Shaoli, Yang Jifu, Li Jie, et al. Status and countermeasure study on water-salt balance of irrigation district with salinization in Xinjiang Province[J]. China Rural Water and Hydropower, 2006(4):12-15. ] |
[25] | 薛永贵. 暗管排水技术对土地改良和农田生态系统改进的应用效果分析[J]. 农民致富之友, 2017(13):165. |
[25] | [ Xue Yonggui. Application effect analysis of subsurface drainage technology on land improvement and farmland ecosystem improvement[J]. Friends of Farmers Getting Rich, 2017(13):165. ] |
[26] | Bhusal N, Kim H S, Han S G, et al. Photosynthetic traits and plant-water relations of two apple cultivars grown as bi-leader trees under long-term waterlogging conditions[J]. Environmental and Experimental Botany, 2020, 176:104-111. |
[27] | Feng G, Zhang Z, Zhang Z. Evaluating the sustainable use of saline water irrigation on soil water-salt content and grain yield under subsurface drainage condition[J]. Sustainability, 2019, 11(22):6431. |
[28] | Satyanarayana T V, Boonstra J. Subsurface drainage pilot area experiences in three irrigated project commands of Andhra Pradesh in India[J]. Irrigation & Drainage, 2010, 56(S1):S245-S252. |
[29] | 张金龙, 张清, 王振宇, 等. 排水暗管间距对滨海盐土淋洗脱盐效果的影响[J]. 农业工程学报, 2012, 28(9):85-89. |
[29] | [ Zhang Jinlong, Zhang Qing, Wang Zhenyu, et al. Effect of subsurface drain spacing on elution desalination for coastal saline soil[J]. Transactions of the Chinese Society of Agricultural Engineering, 2012, 28(9):85-89. ] |
[30] | 石培君, 刘洪光, 何新林, 等. 膜下滴灌暗管排水规律及土壤脱盐效果试验研究[J]. 排灌机械工程学报, 2020, 38(7):726-730. |
[30] | [ Shi Peijun, Liu Hongguang, He Xinli, et al. Experiments on drainage rule and soil desalination effect under mulched subsurface pipe drainage[J]. Journal of Drainage and Irrigation Machinery Engineering, 2020, 38(7) : 726-730. ] |
[31] | 刘玉国, 杨海昌, 王开勇, 等. 新疆浅层暗管排水降低土壤盐分提高棉花产量[J]. 农业工程学报, 2014, 30(16):84-90. |
[31] | [ Liu Yuguo, Yang Haichang, Wang Kaiyong, et al. Shallow subsurface pipe drainage in Xinjiang lowers soil salinity and improves cotton seed yield[J]. Transactions of the Chinese Society of Agricultural Engineering, 2014, 30(16):84-90. ] |
[32] | Bahceci Idris, Nacar A S. Subsurface drainage and salt leaching in irrigated land in south-east Turkey[J]. Irrigation & Drainage, 2008, 58(3):346-356. |
[33] | 李显溦, 左强, 石建初, 等. 新疆膜下滴灌棉田暗管排盐的数值模拟与分析Ⅰ: 模型与参数验证[J]. 水利学报, 2016, 47(4):537-544. |
[33] | [ Li Xianwei, Zuo Qiang, Shi Jianchu, et al. Evaluation of salt discharge by subsurface pipes in the cotton field with film mulched drip irrigation in Xinjiang, China I. Calibration to models and parameters[J]. Journal of Hydraulic Engineering, 2016, 47(4):537-544. ] |
[34] | 辛明亮, 吕廷波, 何新林, 等. 玛河灌区膜下滴灌棉田表层土壤盐分空间变异性[J]. 干旱地区农业研究, 2017, 35(4):74-79. |
[34] | [ Xin Mingliang, Lyu Tingbo, He Xinlin, et al. Spatial variation of surface soil salinity in under-film drip irrigating of cotton field in irrigated areas of Manas River Basin[J]. Agricultural Research in the Arid Areas, 2017, 35(4):74-79. ] |
[35] | 曹玉斌, 何新林, 吕廷波, 等. 基于参考作物法的玛河灌区棉花耗水强度研究[J]. 节水灌溉, 2017(5):90-92. |
[35] | [ Cao Yubin, He Xinlin, Lyu Tingbo, et al. Research on water consumption intensity of cotton at Manasi River irrigation based on reference crop method[J]. Water Saving Irrigation, 2017(5):90-92. ] |
[36] | 赵永成, 虎胆·吐马尔白, 马合木江·艾合买提, 等. 冻融期膜下滴灌棉田土壤温度盐分迁移特征[J]. 干旱地区农业研究, 2016, 34(2):141-145. |
[36] | [ Zhao Yongcheng, Hudan Tumarbay, Mahemujiang Aihemaiti, et al. Study on movement characteristics of soil temperature and salt during freeze-thaw period[J]. Agricultural Research in the Arid Areas, 2016, 34(2):141-145. ] |
[37] | 刘洪光, 何新林, 李明思, 等. 膜下滴灌盐碱地排水工程控盐效果试验研究[J]. 排灌机械工程学报, 2018, 36(4):347-353. |
[37] | [ Liu Hongguang, He Xinlin, Li Mingsi, et al. Experimental study on salt controlling effect in drainage system in saline-alkali land with drip irrigation under mulch[J]. Journal of Drainage and Irrigation Machinery Engineering(JDIME), 2018, 36(4): 347-353. ] |
[38] | 塔吉姑丽·达吾提, 罗浩, 吕双庆, 等. 暗管排水条件下南疆农田排水矿化度和电导率的动态变化研究[J]. 中国农村水利水电, 2020(12):80-87. |
[38] | [ Tajigul Dawut, Luo Hao, Lyu Shuangqin, et al. Research on the dynamic change of conductivity and salinity in the farms of Southern Xinjiang under the underground pipe drainage condition[J]. China Rural Water and Hydropower, 2020(12):80-87. ] |
[39] | 艾天成. 涝渍地土壤改良技术研究与应用[D]. 北京: 中国农业大学, 2004. |
[39] | [ Ai Tiancheng. Study on the Improvement Technique for Waterlogged Land[D]. Beijing: China Agricultural University, 2004. ] |
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