Coupled Irrigation–Drainage Management Practice for HYV Rice Cultivation with Saline-Irrigation Water: Evidence from Lysimeter Experiment

Mohammad Abdul Mojid,Mohammad Ashiqur Rahman,Tanvir Ahmed

doi:10.30560/as.v2n1p95

Mohammad Abdul Mojid, Mohammad Ashiqur Rahman + Show 1 more

Open Access

https://doi.org/10.30560/as.v2n1p95

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Abstract

Irrigation with saline water adversely affects rice production and degrades land productivity in the coastal zones of many countries in the world. This study aimed at developing a suitable irrigation management practice to reduce the harmful effects of salinity on rice production under saline water irrigation. An experiment in raise-bed lysimeters was set in a split-split-plot design with irrigation–drainage practice as the main factor, irrigation water salinity as the sub-factor and rice variety as sub-sub factor; main factor and sub-factor comprised four treatments and the sub-sub factor comprised three treatments, each with three replications. The treatments of the main factor were – T1: 2-5 cm continuous ponding, T2: continuous saturation, T3: changing irrigation water after 3 days of application by maintaining 2-5 cm ponding depth, and T4: changing irrigation water after 5 days of application by maintaining 2-5 cm ponding depth. The sub-factor comprised – SL1: fresh water as control, SL2: saline water of 6 dS m-1, SL3: saline water of 9 dS m-1, and SL4: saline water of 12 dS m-1. The sub-sub factor comprised three salt-tolerant rice varieties V1: Binadhan-8, V2: Binadhan-10, and V3: BRRI dhan-47. The irrigation–drainage practices T2 and T3 provided significantly (p£0.05) improved growth and yield attributes of the rice varieties under salinity water level SL3 and SL4 compared to T1 and T4 treatments. The treatment T3 maintained least exposure of the crop to high degree of salinity and produced satisfactory plant attributes by inhibiting the detrimental effects of salinity. Therefore, T3 is suggested for adoption in practical fields when provision for removing high saline water from the rice fields can be arranged.

Highlights

Salinity is one of the important physical factors that reduce soil fertility and crop productivity by inhibiting plant growth and development (Mojid & Hossain, 2013)
The site is within Agro-Ecological Zone (AEZ) 9 that lays at 24°75' N latitude and 90°50' E longitude; the elevation of the site is 18 m above mean sea level
Continuous ponding (T1) produced the highest number of total tillers under fresh-water (SL1) irrigation and lowest number of total tillers (17) under the highest salinity level (SL4) of irrigation water, confirming the findings of Haq et al (2009) who observed significantly reduced number of total tillers under saline condition compared to non-saline condition

Summary

Introduction

Salinity is one of the important physical factors that reduce soil fertility and crop productivity by inhibiting plant growth and development (Mojid & Hossain, 2013). In Bangladesh, 3.56 Mha of arable lands are currently affected by soil salinity (SRDI, 2016). The current saline area has been predicted to increase by 39% across the south-west coastal belt by 2050 (Dasgupta et al, 2015). The productivity of the saline area is further hindered since there is severe scarcity of fresh water. Sodium (Na) is the dominant cation both in saline soils and irrigation water that affects soil physicochemical characteristics and plant growth (Ribeiro et al, 2014) and causes toxicity on plant species (Abrol et al, 1988) when it is excess in amount

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