机构地区:[1]扬州大学/江苏省作物遗传生理国家重点实验室培育点/粮食作物现代产业技术协同创新中心,扬州225009 [2]扬州大学环境科学与工程学院,扬州225009 [3]中国科学院南京土壤研究所/土壤与可持续农业国家重点实验室,南京210008
出 处:《中国生态农业学报》2016年第9期1231-1238,共8页Chinese Journal of Eco-Agriculture
基 金:国家自然科学基金面上项目(31471437;31371563);中国科学院知识创新方向项目(KZCX2-EW-414);江苏高校优势学科建设工程项目资助~~
摘 要:利用稻田开放式空气中臭氧浓度增加(FACE,Free Air gas Concentration Enrichment)平台,以常规粳稻‘武粳15’和杂交粳稻‘陵风优18’为供试材料,设置大气背景臭氧浓度(Ambient)和高臭氧浓度(比Ambient增高21%,模拟21世纪中叶臭氧浓度)两个水平,研究臭氧胁迫对大田生长水稻成熟期稻米加工、外观、蒸煮/食味和营养品质的影响及其种间差异。结果表明,近地层臭氧浓度增高使稻米糙米率、精米率和整精米率均不同程度下降,其中精米率降幅达显著水平。与Ambient相比,臭氧胁迫使两品种稻米垩白米率、垩白大小和垩白度平均分别增加15.0%(P=0.10)、42.0%(P<0.05)和60.5%(P<0.05)。臭氧胁迫使稻米胶稠度平均降低7.1%(P<0.05),但对两品种稻米直链淀粉和糊化温度均无显著影响。稻米RVA谱测定结果显示,臭氧胁迫对稻米最高黏度值、崩解值、冷胶黏度值、消减值和回复值均无显著影响。臭氧胁迫使两品种稻米蛋白质浓度呈增加趋势,但均未达显著水平。方差分析表明,多数情况下,两品种间稻米诸品质性状存在显著差异,但品种与臭氧的互作对所有测定指标均无显著影响,说明两品种稻米品质对臭氧胁迫的响应无明显差异。本试验在开放稻田条件下运行,适度臭氧胁迫使稻米垩白明显增加,胶稠度显著下降,但对其他米质指标影响较小,两品种趋势一致。Tropospheric ozone has been assumed to be the most phytotoxic air pollutant, which has created a severe concern for environmental pollution due to its negative impact on crop production. However, high ozone concentration also affects crop quality, which has so far not been treated in sufficient detail. Rice(Oryza sativa L.) is one of the most important food crops in the world, providing a significant proportion of human daily dietary needs. The accurate assessment of the impact of elevated concentration of surface layer ozone on rice quality is critical for reducing uncertainties in predicting future global food secu-rity. Using a Free-Air gas Concentration Enrichment(FACE) facility in Xiaoji Town(which is in Jiangdu County, Jiangsu Province, China), we conducted a field experiment to investigate the impacts of ozone stress on rice grain quality, including processing quality, appearance quality, cooking/eating quality and nutritional quality. Two rice cultivars(a conventional japonica cultivar ‘Wujing 15' and a hybrid japonica cultivar ‘Lingfengyou 18') were exposed to either ambient or elevated ozone concentration(ca. 21% above ambient values) from tillering to harvest. The results showed that elevated ozone resulted in a small decrease in brown rice percentage, milled rice percentage and head rice percentage, with the effect on milled rice percentage significant at the 0.05 level. Averaged across the two cultivars, elevated ozone concentration increased chalky grain percentage, area of chalkiness and degree of chalkiness by 15.0%(P = 0.10), 42.0%(P 0.05) and 60.5%(P 0.05), respectively. On average, elevated ozone concentration decreased gel consistency by 7.1%(P 0.05), while no significant effect was observed on amylose concentration and gelatinization temperature for both cultivars. Measurements of RVA profile(Rapid Visco Analyser) indicated no significant changes in maximum viscosity, breakdown, cold viscosity, setback, and return due to elevated ozone. Elevated
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