The effect of diatomite on some morphological, physiological and yield characteristics of chickpea (Cicer arietinum L.) under different irrigation regimes

Zamani, GholamReza; Ghotbinejad, Davoud; Sayyari, Mohammad Hassan; Nabipour, Zohreh

doi:10.22077/escs.2021.3711.1902

Document Type : Original Article

Authors

¹ Associate Professor, Department of Agronomy and Plant Breeding, Faculty of Agriculture, University of Birjand, Birjand, Iran

² Plant and Environmental Stresses Research Group, University of Birjand, Birjand, Iran

³ Graduated MSc in Agronomy, Department of Agronomy, Faculty of Agriculture, University of Birjand, Birjand, Iran

⁴ Ph.D of Agriculture, Gonabad Agricultural and Natural Resource and Education station, Agricultural and Natural Resources Research Center of Khorasan Razavi, AREEO. Gonabad. Iran.

https://doi.org/10.22077/escs.2021.3711.1902

Abstract

Introduction
Proper management and the use of advanced methods to preserve and store soil moisture and increase water containment capacity are among the most effective measures to increase water use efficiency and thus improve the utilization of water resources of the country. Considering the importance of chickpea as a source of protein and, on the other hand, the irreparable damage of drought stress to chickpea performance, it is very important to adopt methods that can increase the plant tolerance to drought stress. Considering the importance of chickpea as a source of protein and, on the other hand, the irreparable damage of drought stress to chickpea performance, it is very important to adopt methods that can increase the plant tolerance to drought stress. Recently, the use of superabsorbent has increased due to the ability to absorb and maintain water and consequently increase water use efficiency in the soil. Therefore, the aim of this study was to determine the proper amount of diatomite to obtain maximum chickpea yield under drought stress conditions.

Materials and methods
In order to investigate the effect of diatomite on some of the morphological and physiological characteristics of chickpea under different irrigation regimes, a test was conducted in Khaf in the year 1397-1396. This research was conducted as split plot based on randomized complete block design with three replications. The main factor of irrigation regimes was five levels (full irrigation, rainfed, one irrigation only in vegetative stage, one irrigation interval only at reproductive stage, two irrigation intervals, one vegetative stage and one reproductive stage) and factor The subdivisions of Diatomite were in three levels (0, 3.5 t/ha and 7 t/ha). Each plot had 6 planting lines at a distance of 30 cm from each other and 3 m long. In this experiment, diatomite was placed under the seeds next to the ridges at a depth of 20 cm (maximum root density area). Cultivation was done manually on the 15th of Esfand month with a density of 45 plants per square meter and a depth of 5 cm. In this experiment, native chickpea mass of Khaf region was used.

Results and discussion
The results showed that changing the irrigation regime from full to dry farming irrigation reduced Height stem, stem diameter, Number of primary branches, Number of secondary branches, relative water content, seed yield and increased relative electrolyte leakage. Application of diatomite under different irrigation regimes increased all evaluated traits and seed yield. The application of 7 t/ha of diatomite compared to the non-application of diatomite increased 29, 29, 77 and 39 percent of seed yield in irrigation regimes, including dry farming, one irrigation in the vegetative stage, one irrigation in the reproductive stage, two irrigations included vegetative and reproductive stages. The results of interactions showed that the application of 7 t/ha of diatomite under irrigation treatment in the vegetative and reproductive stages in stem diameter, Number of secondary branches, relative water content and relative electrolyte leakage was significantly different from the application of 3.5 t/ha of diatomite. Only in seed yield under irrigation treatment in vegetative and reproductive stages, application of 7 t/ha of diatomite in the joint statistical group with application of 3.5 t/ha of diatomite was included, although it had a higher numerical value.

Conclusion
In general, using diatomite as a superabsorbent while saving the cost of production in arid areas, by maintaining and storing soil moisture and improving soil water permeability can be an effective step towards exploiting limited water resources. And increase grain yield in the harvest. It is also recommended to further study and use different amounts of diatomite in a certain range of moisture stress and also the effect of its use on the amount of nutrients in soil and water.

Keywords

20.1001.1.22287604.1401.15.1.13.7

Main Subjects

Drought stress

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Environmental Stresses in Crop Sciences

The effect of diatomite on some morphological, physiological and yield characteristics of chickpea (Cicer arietinum L.) under different irrigation regimes

References

References

Volume 15, Issue 1
Open Access Policy
April 2022
Pages 161-172

The effect of diatomite on some morphological, physiological and yield characteristics of chickpea (Cicer arietinum L.) under different irrigation regimes

References

References

Volume 15, Issue 1 Open Access PolicyApril 2022Pages 161-172

Volume 15, Issue 1
Open Access Policy
April 2022
Pages 161-172