Cotton Responses to Saline Water Irrigation in the Low Plain around the Bohai Sea in China

Abstract

The use of shallow saline groundwater may alleviate the shortage of freshwater resources in the Low Plain around the Bohai Sea in China. The soil salt levels and the responses of cotton seed emergence, growth, and yield to continuous irrigation with saline water were investigated from 212 to 214. Four salinity levels were tested: 1.3 (S1, control), 5.4 (S2), 8.8 (S3), and 12.4 dS/m (S4). Irrigation was initiated when the soil moisture content in the –6 cm layer was below 6% of field capacity. Soil salinity within the cotton root zone increased with an increase in irrigation water salinity, but the effect was not cumulative over the experimental period to because of the leaching effect associated with summer rainfall. The cotton emergence percentage decreased as the irrigation water salinity increased. Compared with S1, the average seedling establishment rates over the three seasons examined decreased by 2.1, 5.1, and 2.2% with S2, S3, and S4, respectively. Large variations in seedling establishment rates were observed between the seasons, and this variability increased with increase in irrigation water salinity. Maximum plant height, leaf area index, and number of fruiting shoots decreased by S3 and S4, and some of these differences were statistically significant (p<.5). Cotton growth was not negatively affected until irrigation water salinity reached 8.8 dS/m. Cotton yields were close to that produced by freshwater irrigation (S1) when the irrigation water salinity was below 8.8 dS/m, but it significantly (p<.5) decreased by 7.3% in 212, 11.1% in 213, and 8.6% in 214 when the irrigation water salinity was 12.4 dS/m, mainly due to the elevated soil osmotic potential. These results show that cotton can be irrigated successfully with water of ≤8.8 dS/m. Furthermore, the mitigation of salt accumulation by heavy rainfall indicates that long-term use of saline water irrigation is feasible in this region.