摘要
To explore genetic variability for two Jerusalem artichoke (Helianthus tuberosus) cultivars, N1 (the sixth-generation cultivated with 75% seawater irrigation for six years) and N7 (a general variety), a experiment was conducted to study the changes in physiological attributes under different concentrations (0%, 10% and 25% of seawater concentration in greenhouse and 0%, 30% and 50% of seawater concentration in the field) of seawater salinity stress. In the greenhouse experiment, decreases of dry growth rate, but increases of dry matter percentage and membrane injury occurred in both the genotypes at 10% and 25% seawater treatments, although lesser cell membrane damage was observed in N1 than N7. N1 accumulated greater contents of Na+, Cl-, soluble sugar and proline in leaves compared with N7. In the field experiment, the yields of shoot, root and tuber, and the contents of total-sugar and inulin in tubers of N1 were higher than those of N7. Lesser degree of salt injury in N1 indicated that the relatively salt-tolerant cultivar had higher K+/Na+ ratio, lower Na+/Ca2+ ratio, and the salt-induced enhancement of osmotic adjustment.
To explore genetic variability for two Jerusalem artichoke cultivated with 75% seawater irrigation for six years) and N7 (Helianthus tuberosus) cultivars, N1 (the sixth-generation (a general variety), a experiment was conducted to study the changes in physiological attributes under different concentrations (0%, 10% and 25% of seawater concentration in greenhouse and 0%, 30% and 50% of seawater concentration in the field) of seawater salinity stress. In the greenhouse experiment, decreases of dry growth rate, but increases of dry matter percentage and membrane injury occurred in both the genotypes at 10% and 25% seawater treatments, although lesser cell membrane damage was observed in N1 than N7. N1 accumulated greater contents of Na^+, Cl^-, soluble sugar and proline in leaves compared with NT. In the field experiment, the yields of shoot, root and tuber, and the contents of total-sugar and inulin in tubers of N1 were higher than those of N7. Lesser degree of salt injury in N1 indicated that the relatively salt-tolerant cultivar had higher K^+/Na^+ ratio, lower Na^+/Ca^2+ ratio, and the salt-induced enhancement of osmotic adjustment.
基金
Supported by the National High Technology Research and Development Program (863 Program) of China(No.2007AA091702)
the National R&D Special Fund for Public Welfare Industry (Agriculture) of China (No.200903001-5)
the Research Program of Nanjing Agricultural University, China (No.KJ08010)
关键词
耐盐品种
海水盐度
菊芋
细胞膜损伤
公差
反应
治疗
海水灌溉
cell membrane stability, genetic variabilities, inorganic ions, malondialdehyde, seawater salinity stress
