Research on the effect of straw mulching on the soil moisture by field experiment in the piedmont plain of the Taihang Mountains

LI Man; ZHANG Wei; HE Yu-jiang; WANG Gui-ling

Volume 5 Issue 3

Sep. 2017

Turn off MathJax

Article Contents

Article Navigation > Journal of Groundwater Science and Engineering > 2017 > 5(3): 286-295

LI Man, ZHANG Wei, HE Yu-jiang, et al. 2017: Research on the effect of straw mulching on the soil moisture by field experiment in the piedmont plain of the Taihang Mountains. Journal of Groundwater Science and Engineering, 5(3): 286-295.

Citation:

LI Man, ZHANG Wei, HE Yu-jiang, et al. 2017: Research on the effect of straw mulching on the soil moisture by field experiment in the piedmont plain of the Taihang Mountains. Journal of Groundwater Science and Engineering, 5(3): 286-295.

Citation:

PDF( 666 KB)

Research on the effect of straw mulching on the soil moisture by field experiment in the piedmont plain of the Taihang Mountains

1Institute of Hydrogeology and Environmental Geology, CAGS, Shijiazhuang 050061, China.

Publish Date: 2017-09-28

Abstract

Abstract

To reveal the influencing effect of the long-term straw mulching on the soil moisture, this paper employed the field experiment data in 2010 of a typical area of Taihang Mountains plain, observed the soil moisture dynamic regularities under different mulching patterns by virtue of depressimeter and neutron probe, analyzed the characteristics of soil water content and storage in different depths and seasons under the long-term straw mulching. The results showed that the long-term straw mulching can keep the soil moisture conservation of the deep, while decreased the shallow. (1) The long-term straw mulching can changed the type of soil water movement. If no straw mulching, the type is mainly evaporation-infiltration. And with straw mantle the type would change into infiltration. The number of zero flux plane would be reduced or absent. (2) The long-term straw mulching can increase the soil water reserves of the whole soil profile with the depth between 0 cm and 220 cm. But the soil water content of the layer from 30 cm to 80 cm decreased and the soil water content of the layer from 80 cm to 220 cm increased instead., The effect of soil moisture conservation on winter wheat is not obvious; (3) With no straw mulching, the depth of infiltration recharge by rainfall or irrigation is shallower than 80 cm. In a straw mulching, the influence depth is can extend to 120 cm; (4) With no straw mulching , there is a deep layer on the depth of 220 cm between March and June, while this layer will disappear with a long-term straw mulching.
- Straw mulching,
- Soil moisture,
- Soil water content,
- Deep layer,
- Soil moisture conservation

FullText(HTML)

References(17)

References

Hayden E C. 2015. California faces arid future. Nature, 526 (7571): 14-5 .

LIU Li-jing, GAO Huan-wen, et al. 2004. Experimental study on effect of mulch cover on rainwater infiltration. Journal of China Agricultural University, 9(5): 12-15 .

Berdugo M, Soliveres S, et al. 2014. Vascular plants and biocrusts modulate how abiotic factors affect wetting and drying events in drylands. Ecosystems, 17(7): 1242-1256 .

WU Qing-hua, WANG Gui-ling, et al. Estimating groundwater recharge of Taihang Mountain Piedmont in Luancheng County, Hebei Province, China. Geological Science and Technology Information, 31(2): 99-105 .

ZHU Zi-xi, ZHAO Guo-qiang, et al. 2000. Study of water dynamics and water use efficiency in mulched winter wheat field. Eco-agriculture Research, 8(1): 34-37 .

WANG Hui, LIU Qian-ru, et al. 2011. Grain yield and soil water content of super-high-yield summer maize under straw mulching. Journal of Soil and Water Conservation, 25(5): 261-264 .

WU Qing-hua, ZHANG Wei, et al. 2009. Study on soil water dynamics evolvement law under straw mulching condition. Agricultural Research in the Arid Areas, 27(4): 76-82 .

CHEN Su-ying, ZHANG Xi-ying, et al. 2002. Effect of mulching on growth and soil water dynamics of summer corn field. Agricultural Research in the Arid Areas, 20(4): 55-66 .

BAI Xue-feng, ZHAO Yu-sen, et al. 2014. The effects of straw mulching on soil moisture dynamic change and the maize yield. Journal of Anhui Agriculture Science, 42(36): 12843-12845, 12856 .

LIU Rong-hua, ZHU Zi-xi, et al. 2008. Distribution pattern of winter wheat root system. Chinese Journal of Ecology, 27(11): 2024-2027 .

ZHOU Ling-yun, ZHOU Liu-zong, et al. 1996. The water-saving effects of straw match in field. Eco-argiculture Research, 4(3): 49-52 .

XIA Jun. 2002. A perspective on hydrological base of water security problem and its application study in North China. Progress in Geography, 21(6): 517-526 .

LI Man, HE Yu-jiang, et al. 2014. Research on soil moisture transport mechanism in the piedmont of the Taihang Mountains. Journal of Arid Land Resources and Environment, 28(3): 101-106 .

WANG Bing-guo, JIN Meng-gui, WANG Gui-ling. 2010. Effects of straw mulch on soil water in cropland. China Rural Water and Hydropower, 6: 76-80 .

National Research Council (NRC). 2001. Basic research opportunities in earth science. Washington, DC: National Academy Press .

ZHAO Xiao-feng, ZHAO Feng-ming. 2007. Influence of straw mulching on dryland soil moisture. Journal of Shanxi Agricultural Sciences, 35(9): 46-47 .

JIN Meng-gui, Fang Lian-yu, et al. 2006. Soil water resources and their effective use-with North China Plain as a case．China University of Geosciences Press, 11(1) .

Relative Articles

[1]	Muhammad Irfan, Sri Safrina, Erry Koriyanti, Netty Kurniawati, Khairul Saleh, Iskhaq Iskandar, 2023: Effects of climate anomaly on rainfall, groundwater depth, and soil moisture on peatlands in South Sumatra, Indonesia, Journal of Groundwater Science and Engineering, 11, 81-88. doi: 10.26599/JGSE.2023.9280008
[2]	Chao Song, Man Liu, Qiu-yao Dong, Lin Zhang, Pan Wang, Hong-yun Chen, Rong Ma, 2022: Variation characteristics of CO₂ in a newly-excavated soil profile, Chinese Loess Plateau: Excavation-induced ancient soil organic carbon decomposition, Journal of Groundwater Science and Engineering, 10, 19-32. doi: 10.19637/j.cnki.2305-7068.2022.01.003
[3]	GUO Hao, QIAN Yong, YUAN Guang-xiang, WANG Chun-xiao, 2020: Research progress on the soil vapor extraction, Journal of Groundwater Science and Engineering, 8, 57-66. doi: 10.19637/j.cnki.2305-7068.2020.01.006
[4]	GAO Ye-xin, LIU Ji-chao, FENG Xin, ZHANG Ying-ping, ZHANG Bing, 2019: Experimental study on unsaturated soil water diffusivity in different soils in Hebei Piedmont Plain, Journal of Groundwater Science and Engineering, 7, 165-172. doi: 10.19637/j.cnki.2305-7068.2019.02.007
[5]	LUO Wei-qun, JIANG Zhong-cheng, YANG Qi-yong, LI Yan-qing, LIANG Jian-hong, 2018: The features of soil erosion and soil leakage in karst peak-cluster areas of Southwest China, Journal of Groundwater Science and Engineering, 6, 18-30. doi: 10.19637/j.cnki.2305-7068.2018.01.003
[6]	SHANG Man-ting, LIU Pei-gui, LEI Chao, LIU Ming-chao, WU Liang, 2017: Effect of climate change on the trends of evaporation of phreatic water from bare soil in Huaibei Plain, China, Journal of Groundwater Science and Engineering, 5, 213-221.
[7]	ZHANG Sheng, ZHANG Cui-yun, HE Ze, CHEN Li, YIN Mi-ying, NING Zhuo, SUN Zhen-hua, ZHEN Shi-jun, ZHANG Fa-wang, 2017: Application of bioremediation in oil contaminated soil, Journal of Groundwater Science and Engineering, 5, 116-123.
[8]	ZHANG Sheng, ZHANG Cui-yun, HE Ze, CHEN Li, ZHANG Fa-wang, YIN Mi-ying, NING Zhuo, SUN Zhen-hua, ZHEN Shi-jun, 2016: Application research of enhanced in-situ micro-ecological remediation of petroleum contaminated soil, Journal of Groundwater Science and Engineering, 4, 157-164.
[9]	LI Jie-biao, SU Rui, YANG Jing-zhi, ZHOU Zhi-chao, JI Rui-li, ZHANG Ming, GAO Yu-feng, 2016: Distribution characteristics of tritium in the soil in Beishan area of Gansu Province, Journal of Groundwater Science and Engineering, 4, 131-140.
[10]	WANG Shi-qin, SONG Xian-fang, WEI Shou-cai, SHAO Jing-li, 2016: Application of HYDRUS-1D in understanding soil water movement at two typical sites in the North China Plain, Journal of Groundwater Science and Engineering, 4, 1-11.
[11]	CUI Xiang-xiang, FEI Yu-hong, ZHANG Zhao-ji, LI Ya-song, 2015: Distribution and migration of lead in soil of Xiao River, Shijiazhuang, Hebei Province, Journal of Groundwater Science and Engineering, 3, 98-104.
[12]	XU Guang-ming, QI Jian-feng, BI Pan, BAI Gao-feng, 2015: Distribution and evolution features of salinized soil in Hebei Plain, Journal of Groundwater Science and Engineering, 3, 21-29.
[13]	CHENG Yan-pei, YUE Chen, ZHANG Jian-kang, YI Qing, WEN Xue-ru, LI Yong-chao, 2014: Influence of fluctuations of frozen soil in North Asia on groundwater and assessment on resources, Journal of Groundwater Science and Engineering, 2, 71-77.
[14]	LIU Chun-lei, YANG Hui-feng, WANG Gui-ling, 2014: Back calculation of soil hydraulic parameters based on HYDRUS-1D, Journal of Groundwater Science and Engineering, 2, 46-53.
[15]	Kudryavtsev S A, Kazharskii A V, Goncharova E D, Berestianyi I B, 2014: Study of moisture migration in clay soils considering rate of freezing, Journal of Groundwater Science and Engineering, 2, 35-40.
[16]	GU Ming-xu, LIU Yu, HAN Chong, SHANG Lin-qun, JIANG Xian-qiao, WANG Lin-ying, 2014: Analysis of impact of outfalls on surrounding soil and groundwater environment, Journal of Groundwater Science and Engineering, 2, 54-60.
[17]	Le SONG, Yan-pei CHENG, 2014: Optimization Research of Water-Soil Resources in Huanghua, Journal of Groundwater Science and Engineering, 2, 86-94.
[18]	Qing YI, Yan-pei CHENG, Jian-kang ZHANG, 2014: Analysis on the Salt Content Characteristics of Southern Saline-Alkali Soil in Datong Basin and Its Causes, Journal of Groundwater Science and Engineering, 2, 63-72.
[19]	Zhao Wang, Jiansheng Shi, Zhaoji Zhang, Yuhong Fei, 2013: Organic Contamination of Soil and Goundwater in the Piedimont Plain of the Taihang Mountains, Journal of Groundwater Science and Engineering, 1, 74-81.
[20]	Guiling Wang, Wenjing Lin, Wei Zhang, Qi Fan, Qinghua Wu, 2013: Study on Movement Evolution Law of Soil Water in Condition of Agronomic Water Saving Irrigation, Journal of Groundwater Science and Engineering, 1, 33-45.