文章摘要
卢颖林1,陈迪文1,江 永1,黄 莹1,敖俊华1,周文灵1,黄振瑞1,王亚彪2.硅对铝胁迫下甘蔗幼苗的缓解效应研究[J].广东农业科学,2016,43(5):87-91
查看全文    HTML 硅对铝胁迫下甘蔗幼苗的缓解效应研究
Alleviating effects of silicon on sugarcane seedlings under aluminum stress
  
DOI:10.16768/j.issn.1004-874X.2016.05.017
中文关键词:   甘蔗  铝胁迫  缓解效应  根系形态
英文关键词: silicon  sugarcane  aluminum stress  alleviating effect  root morphology
基金项目:资源循环利用与耕地保育重点实验室开放基金(ZHS2013-04);广东省科技计划项目(2014B070706005);国家现代农业产业技术体系甘蔗专项(CARS-20-3-1)
作者单位
卢颖林1,陈迪文1,江 永1,黄 莹1,敖俊华1,周文灵1,黄振瑞1,王亚彪2 1. 广州甘蔗糖业研究所/ 广东省甘蔗改良与生物炼制重点试验室广东 广州 5103162. 广东广垦糖业集团有限公司广东 湛江 524022 
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中文摘要:
      铝毒是酸性土壤地区普遍存在的实际问题,如何解决铝毒对作物的伤害是一个难点。采用营养液培养法,通过测定分析铝胁迫条件下不同浓度硅处理对甘蔗幼苗生长及生理指标的变化,研究硅对甘蔗幼苗铝毒的缓解效应。结果表明,铝胁迫处理(T1)与空白对照相比,甘蔗株高和干物质量显著下降,根系形态参数包括根总长、根直径、根体积和根表面积显著减少,根系活力、叶片SPAD 值和超氧化物歧化酶(SOD)显著降低,丙二醛(MDA)含量和电导率显著升高,说明铝胁迫下,甘蔗植株的正常生长和生理活动均受到损害;而向营养液中添加1~2 mmol/L 硅酸钠处理(T2、T3),相比T1 处理,甘蔗株高、干物质量显著增加,根系形态各项参数得到显著改善,甘蔗根系活力和叶片SPAD 值显著提高,叶片丙二醛含量和电导率显著降低,表明硅能有效缓解铝对蔗苗的毒害。
英文摘要:
      Aluminum(Al) toxicity is a practical problem in the acid soil area of Southern China,and is not easy to solve it for crops. In this paper,the effects of silicon on the growth and physiological indexes of sugarcane seedlings with different SiO32- treatments under Al3+ stress were studied by using the nutrient solution culture. Results showed that under the Al stress( T1),compared with the normal( CK),all of the plant height,dry weight,root length,root diameter,root volume and root surface area decreased significantly. Similarly,root activity,leaf SPAD value and superoxide dismutase( SOD) decreased significantly. But the content of malondialdehyde( MDA) and electrical conductivity increased significantly. It indicated that the normal growth and physiological activity of sugarcane plants were damaged under aluminum stress. While with a range of 1-2 mmol/L sodium silicate solution added to the nutrient solution,compared to T1,both the plant height and dry matter weight increased,root morphology parameters were significantly improved,and root activity and leaf SPAD value also increased significantly,yet MDA content and electric conductivity decreased significantly. It indicated that silicon could effectively relieve aluminum toxicity on sugarcane seedling.
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