Aditya-Abha Singh1, Shashi B Agrawal1, Jay P Shahi2, Madhoolika Agrawal1. 1. Department of Botany, Laboratory of Air Pollution and Global Climate Change, Institute of Science, Banaras Hindu University, Varanasi, India. 2. Department of Genetics and Plant Breeding, Institute of Agricultural Sciences, Banaras Hindu University, Varanasi, India.
Abstract
BACKGROUND: Tropospheric ozone (O3 ) is phytotoxic and therefore impacts global food security. In the present study yield responses and kernel quality traits of two maize cultivars [DHM117: normal maize (NM)] and [HQPM1: quality protein maize (QPM)] are investigated. Cultivars were exposed to two doses of elevated O3 , namely NFC + 15 and NFC + 30 ppb O3 above ambient level (NFC, non-filtered chambers) while filtered chambers served as control. RESULTS: Test weight (thousand kernel weight), weight of kernels per square meter and kernel starch content reduced more in NM than QPM due to elevated O3 exposure. Total soluble and reducing sugars increased in both the cultivars being more in NM. Though, endosperm protein showed comparatively more increase in QPM than NM, decline in essential amino acids tryptophan and lysine was higher in QPM. Majority of nutrient elements increased after O3 treatment, while reductions in oil content as well as saturated fatty acids were observed in both test cultivars. Of the two essential fatty acids, omega 3 fatty acid reduced while omega 6 fatty acid contents increased in QPM. Oil became more unsaturated (increase in polyunsaturated fatty acids) upon O3 exposure, thus increasing its reactivity and hence became more prone to auto-oxidation. CONCLUSIONS: Elevated O3 caused losses in yield of maize cultivars and NM showed higher sensitivity than QPM. Kernel quality analysis revealed significant changes in nutritional parameters. Carbohydrate content reduced more in NM, while essential amino acids and saturated fatty acids showed more decline in QPM.
BACKGROUND: Tropospheric ozone (O3 ) is phytotoxic and therefore impacts global food security. In the present study yield responses and kernel quality traits of two maize cultivars [DHM117: normal maize (NM)] and [HQPM1: quality protein maize (QPM)] are investigated. Cultivars were exposed to two doses of elevated O3 , namely NFC + 15 and NFC + 30 ppb O3 above ambient level (NFC, non-filtered chambers) while filtered chambers served as control. RESULTS: Test weight (thousand kernel weight), weight of kernels per square meter and kernel starch content reduced more in NM than QPM due to elevated O3 exposure. Total soluble and reducing sugars increased in both the cultivars being more in NM. Though, endosperm protein showed comparatively more increase in QPM than NM, decline in essential amino acids tryptophan and lysine was higher in QPM. Majority of nutrient elements increased after O3 treatment, while reductions in oil content as well as saturated fatty acids were observed in both test cultivars. Of the two essential fatty acids, omega 3 fatty acid reduced while omega 6 fatty acid contents increased in QPM. Oil became more unsaturated (increase in polyunsaturated fatty acids) upon O3 exposure, thus increasing its reactivity and hence became more prone to auto-oxidation. CONCLUSIONS: Elevated O3 caused losses in yield of maize cultivars and NM showed higher sensitivity than QPM. Kernel quality analysis revealed significant changes in nutritional parameters. Carbohydrate content reduced more in NM, while essential amino acids and saturated fatty acids showed more decline in QPM.
Authors: Yamdeu Joseph Hubert Galani; Emilie Marie Øst Hansen; Ioannis Droutsas; Melvin Holmes; Andrew Juan Challinor; Teis Nørgaard Mikkelsen; Caroline Orfila Journal: Sci Rep Date: 2022-04-05 Impact factor: 4.996