Abstract
Chickpea growth, development and grain yield are affected by a range of climatic and environmental factors. Experiments were conducted across four sowing dates from mid-April to the end of May, over two years at Trangie in central western New South Wales (NSW), and Leeton, Wagga Wagga and Yanco (one year) in southern NSW, to examine the influence of sowing time on biomass accumulation, grain yield and plant yield components. Climatic and experimental location data were recorded during the growing seasons. Early sowing (mid-April) resulted in taller plants, higher bottom and top pod heights, fewer pods, more unfilled pods and greater biomass accumulation, but low harvest index due to reduced grain yield compared with late sowing (end of May). Grain number was positively correlated with grain yield and was the main yield component accounting for most of the variation in yield. There was largely a positive correlation between biomass and yield, especially with delayed sowing except for Leeton experiments. This study concludes that sowing around the end of April in central western NSW and mid-May in southern NSW is conducive to higher grain yield as it minimises exposure to abiotic stresses at critical growth periods and allows efficient conversion of biomass to grain yield.
Highlights
Chickpea (Cicer arietinum L.) is a cool-season legume grown over a wide range of environments mainly in the arid and semi-arid regions of the world, where it often encounters hostile climatic conditions
Plant height was correlated with both bottom and top pod heights, while biomass was strongly correlated with both plant height and top pod height
The 2018 and 2019 seasons in southern and central western New South Wales (NSW) were very challenging for growing chickpea due to low growing season rainfall
Summary
Chickpea (Cicer arietinum L.) is a cool-season legume grown over a wide range of environments mainly in the arid and semi-arid regions of the world, where it often encounters hostile climatic conditions. Its numerous nutritional and farming system benefits are well documented. Chickpea is a source of essential proteins and amino acids in human diets [1] and provides valuable energy and proteins in animal feed [2]. Within farming systems, it is a useful break crop for weed control and prevention of soil- and stubble-borne disease outbreaks. Its ability to fix atmospheric nitrogen improves soil fertility, providing benefits for subsequent cereal crops. Chickpeas are grown in approximately 17.8 million ha across 56 countries [3]
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