Impact of Soil Amendments and Improved Alkaline Water on the Physico-chemical Characteristics of the Soil, the Distribution of Salt in the Soil, the Growth, and the Yield of Hybrid Cotton Grown in Sodic Soil with Drip Irrigation

T. Suresh

Anbil Dharmalingam Agricultural College and Research Institute, Trichy-620027, Tamil Nadu, India.

M. Selvamurugan *

Anbil Dharmalingam Agricultural College and Research Institute, Trichy-620027, Tamil Nadu, India.

M. Baskar

Anbil Dharmalingam Agricultural College and Research Institute, Trichy-620027, Tamil Nadu, India.

P. Santhy

Anbil Dharmalingam Agricultural College and Research Institute, Trichy-620027, Tamil Nadu, India.

P. Balasubramaniam

Anbil Dharmalingam Agricultural College and Research Institute, Trichy-620027, Tamil Nadu, India.

*Author to whom correspondence should be addressed.


Abstract

The effects of ameliorated alkali water and soil amendments on the soil properties, growth, and yield of hybrid cotton in sodic soil under drip irrigation were investigated in this field experiment at Anbil Dharmalingam Agricultural College and Research Institute, Trichy, using cotton (RCH-20) as a test crop. The main-plot treatments included drip irrigation with gypsum treatment water and drip irrigation with spent wash treatment water; the sub-plot treatments included soil application of gypsum @ 50% GR (5.2 t ha-1) and a one-time soil application of distillery spent wash at 5 lakh liters ha-1. The treatment without amendments under main plot and sub-plots was used as a control. The experiment was designed in a strip-plot design with four replications. The application of additives through irrigation water or soil dramatically lowered the post-harvest soil's pH. Plots applied with wasted wash had the greatest pH reduction (M1S1) 7.81, followed by those applied with gypsum (M2S2) 7.90 and control (M3S3) 8.15. Because there was more soluble salt present in the spent wash treated plots, there was a little rise in EC. Drip irrigation with distillery spent wash (DSW) treated water and drip irrigation with gypsum treated water, respectively, resulted in ESP decreases of (M2S2) 0.97 and (M1S1) 0.61 over control. Similarly, ESP decreased by 2.63 and 1.31 when gypsum and DSW were applied to the soil, respectively, compared to the control. The organic carbon values ranged from (M3S3) 0.47 to (M2S2) 0.92 percent. In general, an increase in organic carbon content was observed in all the treatments that received amendments (Gypsum& DSW) compared to control. Salt distribution pattern conducted in treatment of distillery spent wash @ 5.0 lakh liters ha-1 significantly increased vertical depth of soil pH ranges (7.56,7.68,7.80,8.30) and decreased EC ranges (1.05,1.02,1.00,0.95) followed by horizontal line soil pH ranges (7.54,7.51,7.49,7.50) and EC ranges (1.04,1.02,1.00,1.02) at 120 DAS after application. In the experimental field recorded vertical depth of soil increased pH and decreased electrical conductivity compared to horizontal distances of soil pH and EC. The physico- chemical properties reduced in treatment one time application of DSW @ 5 lakh liters ha-1 recorded the highest physico-chemical properties followed by the treatment receiving irrigation with gypsum bed treated alkali water and lowest was recorded in the untreated alkali water irrigated through drip system in non- amended soil.

Keywords: Sodicity, gypsum, distillery spent wash, ameliorated alkali water, drip irrigation and salt distribution


How to Cite

Suresh, T., M. Selvamurugan, M. Baskar, P. Santhy, and P. Balasubramaniam. 2024. “Impact of Soil Amendments and Improved Alkaline Water on the Physico-Chemical Characteristics of the Soil, the Distribution of Salt in the Soil, the Growth, and the Yield of Hybrid Cotton Grown in Sodic Soil With Drip Irrigation”. Journal of Advances in Biology & Biotechnology 27 (11):657-63. https://doi.org/10.9734/jabb/2024/v27i111649.