<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "Changing Plant Architecture and Density can Increase Chickpea Productivity and Facilitate for Mechanical Harvesting"^^ . "Tall and erect chickpea cultivar HC 5 (Haryana Chana 5) was primarily bred for inter-cropping with autumn planted sugarcane. Cultivar HC 5 is distinctly different in morphology from traditional bushy or semi-spreading chickpea cultivars and it is found suitable for machine harvesting. However, a general recommended planting density (30 cm × 10 cm) is being followed for cv. HC 5 as well. In this study, we hypothesized that high-density planting can improve crop productivity and also improve the plant architecture for mechanical harvesting. To test this hypothesis, four plant spacing treatments (30 cm × 10 cm, 30 cm × 7.5 cm, 22.5 cm × 10 cm, and 22.5 cm × 7.5 cm) were evaluated in two chickpea cultivars (HC 5 and JAKI 9218) for crop growth, grain yield and the desirable plant traits for mechanical harvesting. The highest grain yield of cv. HC 5 was observed with 22.5 cm × 10 cm spacing that increased the grain yield by 9% (p < 0.05) over plant spacing of 30 cm × 10 cm (conventional); this indicates that high-density planting could increase the productivity of the cv. HC 5. Where grain yield of cv. JAKI 9218 was reduced (p < 0.05) with the increase in planting density over 30 cm × 10 cm. Increased grain yield of cv. HC 5 with 22.5 cm × 10 cm spacing over 30 cm × 10 cm was mainly attributed to increase in plant density (33%); however, all the plant attributes (primary branch, secondary branch, pod plant−1) were reduced as compared to plant spacing of 30 cm × 10 cm. The decrease in intra-row spacing of cv. HC 5 resulted in a strong adverse effect on plant growth and yield parameters as compared to inter-row spacing and thus not recommended. High-density planting increased the plant height (erectness) and ground clearance of cv. HC 5 (height of first pod) (~ 30 cm), an essential prerequisite for mechanical harvesting, but not in cv. JAKI 9218. Hence, cv. HC 5 requires a dense planting for higher yield and appropriate plant structure for mechanical harvesting. Therefore, it is recommended to work out the optimum planting geometry/plant population to realize the potential yield of cultivars bred for mechanical harvesting."^^ . "2019-03" . . . "Springer"^^ . . . "International Journal of Plant Production (TSI)"^^ . . . "17358043" . . . . . . . . . . . . . . . . . . . "S K"^^ . "Chaturvedi"^^ . "S K Chaturvedi"^^ . . "K K"^^ . "Hazra"^^ . "K K Hazra"^^ . . "P M"^^ . "Gaur"^^ . "P M Gaur"^^ . . "G"^^ . "Singh"^^ . "G Singh"^^ . . "U"^^ . "Singh"^^ . "U Singh"^^ . . . . . . "Changing Plant Architecture and Density can Increase Chickpea Productivity and Facilitate for Mechanical Harvesting (PDF)"^^ . . . . . "Changing Plant Architecture and Density can Increase Chickpea Productivity and Facilitate for Mechanical Harvesting (Other)"^^ . . . . . "HTML Summary of #11134 \n\nChanging Plant Architecture and Density can Increase Chickpea Productivity and Facilitate for Mechanical Harvesting\n\n" . "text/html" . . . "Chickpea"@en . .