Effects of Light Intensity on Ear Differentiation of Barren-Stalk Defective Maize

Xue Mei Zhong; Zhen Sheng Shi; Feng Hai Li; Hai Jiao Huang; Hai Yan Li

doi:10.4028/www.scientific.net/AMR.726-731.4864

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Effects of Environmental Changes on the Physiological Indexes and Yield in Maize
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Effects of Light Intensity on Ear Differentiation of Barren-Stalk Defective Maize
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Applications of Fisheye Imagery in Urban Environment: A Case Based Study in Nanjing
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Accessing the Urbanization Impacts on Township Environment in Semi-Arid Region of Northwest China by Multi-Disciplined Methods
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Analysis on the Change of Arable Land Area and its Driving Force in Hefei City
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Resource Utilization of Medicinal Plant Erigeron breviscapus Cropland
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Effects of Light Intensity on Ear Differentiation...

Effects of Light Intensity on Ear Differentiation of Barren-Stalk Defective Maize

Abstract:

Ear differentiation of different shade-resistance maize were studied under the shade stress using paired near isogenic, easy barren-stalk and not easy barren-stalk hybrids and inbred lines as test materials. The test verified the phenomenon of genetic defective barren stalk of maize preliminarily, revealed the relationship between barren stalk under the shade stress and ear differentiation and light intensity range inducing maize genetic defective barren stalk. Low light stress would make different varieties cause barren stalk and differences among varieties were obvious; easy barren stalk near-isogenic Shennong 98A was the most sensitive to low light stress and the stress intensity should be below 38% shade. Shade resistance of non-barren stalk near-isogenic Shennong 98B was close to normal inbred line Chang 7-2 and its intensity range of light stress were between 38%~60% shade; there were significant differences between hybrids of easy barren stalk D90, D80 and non-easy barren stalk Zheng Dan 958 under the 75% shade; shade stress could make young female ear short, grains per panicle reduce, the number of abortive grain increase and rates of barren stalk increase, which would aggravate with the increase of shade intensity and the reactions of easy barren stalk varieties were much more obvious, even caused 100% barren stalk led by female ear agenesis.