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Sugarcane Plant Growth and Physiological Responses to Soil Salinity during Tillering and Stalk Elongation

文献类型: 外文期刊

作者: Zhao, Duli 1 ; Zhu, Kai 1 ; Momotaz, Aliya 1 ; Gao, Xinxin 3 ;

作者机构: 1.USDA ARS, Sugarcane Field Stn, Canal Point, FL 33438 USA

2.Guangxi Univ, Coll Agr, Nanning 530004, Guangxi, Peoples R China

3.Yunnan Acad Agr Sci, Yunnan Sugarcane Res Inst, Kaiyuan 661699, Yunnan, Peoples R China

关键词: salinity; sugarcane growth; leaf photosynthesis; photo-assimilate translocation; dry matter accumulation and partitioning; shoot to root ratio

期刊名称:AGRICULTURE-BASEL ( 影响因子:2.925; 五年影响因子:3.044 )

ISSN:

年卷期: 2020 年 10 卷 12 期

页码:

收录情况: SCI

摘要: A pot study was conducted to investigate influences of salinity on sugarcane (Saccharum spp.) plant growth, leaf photosynthesis, and other physiological traits during tillering and stalk elongation. Treatments included two commercial sugarcane cultivars (Canal Point (CP) 96-1252 and CP 00-1101) and an Erianthus with five different soil salt concentrations (0 [Control], 38, 75, 150, and 300 mM of NaCl added). Growth (tillers, plant height, and nodes) and physiological (leaf net photosynthetic rate [Pn], stomatal conductance [g(s)], intercellular CO2 concentration, and leaf water soluble sugar concentrations) characters were determined during the experiment. Responses of sugarcane growth, photosynthesis, and photoassimilate translocation to salinity depended on soil salt concentration. Plant height was the most sensitive while the number of nodes was the most tolerant to soil salinity among the three growth traits measured. CP 96-1252 differed from CP 00-1101 significantly in response of shoot:root ratio to high salt concentration. Leaf Pn of plants treated with the 38 mM salt did not differ from that of the control plant, but plants treated with the 75, 150, and 300 mM salt had 12.7, 18.7, and 35.3% lower leaf Pn, respectively, than the control. The low leaf Pn due to salinity was associated with not only the decrease in g(s,) but also the non-stomatal factors. Results of leaf sugar composition and concentrations revealed that high salt concentration also depressed photoassimilate translocation from leaves to other plant tissues. These findings are important for better understanding of some physiological mechanisms of salinity influence on sugarcane growth and yields.

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