Growth and Yield Performance of Chickpea (Cicer arietinum) as Influenced by Irrigation Levels and Genotypes: A Review

E. Kamboj, A. Dhaka, Satish Kumar, Bhagat Singh, V. S. Hooda, Kamal
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Abstract

Chickpea is mostly cultivated under dryland condition and water availability is the major environmental factor affecting crop yield in dryland conditions. In dryland areas, the crop suffers from moisture stress due to the insecurity of rainfall. The combination of stored soil moisture and high temperatures results in the creation of various degrees of moisture stress during the duration of crop growth, therefore restricting the expression of growth and development characteristics, resulting in a significant loss of crop output. The provision of irrigation proves pivotal for the successful cultivation of chickpea crops during key growth stages, including pre-flowering, pod development and seed filling. Consequently, the implementation of supplemental irrigation serves as a strategic measure to offset potential production losses attributed to terminal drought. This agricultural practice is notably employed in diverse regions worldwide, with a pronounced impact observed in areas such as West Asia and Northern India, where it plays a crucial role in augmenting chickpea productivity. Susceptibility to drought stress has restrained chickpea productivity at a global level, thus, the proper selection of early maturing and drought tolerant cultivars along with supplemental irrigation may be helpful to sustain chickpea production.
灌溉水平和基因型对鹰嘴豆(Cicer arietinum)生长和产量的影响:综述
鹰嘴豆大多在旱地条件下种植,在旱地条件下,水分供应是影响作物产量的主要环境因素。在旱地地区,由于降雨不稳定,作物会受到水分胁迫。储存的土壤水分与高温相结合,在作物生长期间造成不同程度的水分胁迫,从而限制了作物生长发育特性的表现,导致作物产量大幅下降。事实证明,在鹰嘴豆作物的关键生长阶段,包括开花前、豆荚发育和种子灌浆期,灌溉是成功种植鹰嘴豆的关键。因此,实施补充灌溉是一项战略措施,可抵消终期干旱可能造成的产量损失。这种农业做法在全球不同地区都有显著应用,在西亚和印度北部等地区影响明显,在提高鹰嘴豆产量方面发挥了至关重要的作用。对干旱胁迫的敏感性在全球范围内限制了鹰嘴豆的产量,因此,适当选择早熟、耐旱的栽培品种并补充灌溉可能有助于维持鹰嘴豆的产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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