Soil N and salinity leaching after the autumn irrigation and its impact on groundwater in Hetao Irrigation District, China

Soil water and salinity are crucial factors influencing crop production in arid regions. An autumn irrigation system employing the application of a large volume of water (2200–2600 m 3 ha −1) is being developed in the Hetao Irrigation District of China, since the 1980s with the goal to reduce salini...

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Bibliographic Details
Published in:Agricultural water management 2005-02, Vol.71 (2), p.131-143
Main Authors: Feng, Zhao-Zhong, Wang, Xiao-Ke, Feng, Zong-Wei
Format: Article
Language:English
Subjects:
Agricultural and forest climatology and meteorology. Irrigation. Drainage
agricultural soils
Agronomy. Soil science and plant productions
autumn
Autumn irrigation
Biological and medical sciences
corn
electrical conductivity
Farmlands
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
groundwater contamination
Helianthus annuus
Hetao Irrigation District
irrigation
leaching
losses from soil
N leaching
nitrate nitrogen
NO 3–N
rhizosphere
Salinity
soil salts
soil water content
spring wheat
Triticum aestivum
water pollution
Zea mays
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Summary:Soil water and salinity are crucial factors influencing crop production in arid regions. An autumn irrigation system employing the application of a large volume of water (2200–2600 m 3 ha −1) is being developed in the Hetao Irrigation District of China, since the 1980s with the goal to reduce salinity levels in the root zone and increase the water availability for the following spring crops. However, the autumn irrigation can cause significant quantities of NO 3 − to leach from the plant root zone into the groundwater. In this study, we investigated the changes in soil water content, NO 3–N and salinity within a 150 cm deep soil profile in four different types of farmlands: spring wheat (F W), maize (F M), spring wheat–maize inter-planting (F W–M) and sunflower (F S). Our results showed that (1) salt losses mainly occurred in the upper 60 cm of the soil and in the upper 40 cm for NO 3–N; (2) the highest losses of salt and NO 3–N could be observed in F W, whereas the lowest losses were found in F W–M. NO 3–N concentration, pH and electrical conductivity (EC) in the groundwater were also monitored before and after the autumn irrigation. We found that the autumn irrigation caused the groundwater concentration of NO 3–N to increase from 1.73 to 21.6 mg L −1, thereby, exceeding the standards of the World Health Organization (WHO). Our results suggest that extensive development of inter-planting tillage might be a viable measure to reduce groundwater pollution, and that the application of optimized minimum amounts of water and nitrogen to meet realistic yield goals, as well as the timely application of N fertilizers and the use of slow release fertilizers can be viable measures to minimize nitrate leaching.
ISSN:0378-3774
1873-2283
DOI:10.1016/j.agwat.2004.07.001