Evaluation of salt tolerance in jamun (Syzygium cumini L. Skeels) using morpho-physiological traits and membership function analysis

被引:3
|
作者
Singh, Anshuman [1 ,2 ]
Kumar, Ashwani [1 ]
Kumar, Raj [1 ]
Prakash, Jai [3 ]
Kumar, Neeraj [1 ]
Verma, Arvind Kumar [4 ]
机构
[1] ICAR Res Complex, Cent Soil Salin Res Inst, Karnal 132001, India
[2] ICAR Res Complex, Cent Inst Subtrop Hort, Lucknow 226101, India
[3] ICAR Res Complex, Indian Agr Res Inst, New Delhi 110012, India
[4] ICAR Res Complex, Natl Res Ctr Seed Spices, Ajmer 305206, India
关键词
Indian blackberry; Photosynthesis; Polyembryony; Sodium exclusion; Salinity stress; GAS-EXCHANGE; CHLOROPHYLL FLUORESCENCE; PHYSIOLOGICAL-RESPONSES; SALINITY TOLERANCE; GROWTH-RESPONSES; TISSUE TOLERANCE; CITRUS SEEDLINGS; WATER RELATIONS; NACL SALINITY; ABSCISIC-ACID;
D O I
10.1016/j.scienta.2023.112742
中图分类号
S6 [园艺];
学科分类号
0902 ;
摘要
We assessed the effects of salinity stress on 48 genotypes of jamun (Syzygium cumini L. Skeels) including 20 monoembryonic and 28 polyembryonic types to identify the salt tolerant genotypes and the morphophysiological traits that underpin salt tolerance. Salinity of irrigation water was gradually raised over a period of 21 weeks, from 2.0 to 12.0 dS/m. Control plants were irrigated using fresh water (0.70 dS/m). The experiment was conducted in a Completely Randomized Block Design with four replications. Salinity had a more repressive effect on shoot than on root biomass, regardless of the seedling type, reflecting that roots might tolerate salt concentrations high enough to inhibit the growth of shoots. Salinity had little effects on the maximum quantum yield of photosystem II (F-v/F-m), and the relative leaf chlorophyll in most genotypes evaluated. Salt-induced decreases in photosynthetic assimilation were generally greater in genotypes with inherently high photosynthetic rates. Genotypes with strong capacities for Na+ exclusion (e.g., CSJ-18, and CSJ-19) were generally highly tolerant to salinity stress. Leaf Cl(-)concentrations under saline conditions were lower than Na+ concentrations, suggesting a more effective mechanism for Cl- exclusion. Leaf K+, Ca2+ and Mg2+ levels were not significantly different between control and salt treatments in both mono- and poly-embryonic types. The mean membership function value (MFV) was hardly different between mono- (0.5052) and poly-embryonic (0.5254) types, given quite similar reductions in plant height (similar to 22.0 %), leaf area (<= 14.0 %), leaf (35-40 %), stem (similar to 40 %), and root (24-29 %) biomass, and net photosynthesis (similar to 64 %) as well as increases in leaf Na+ (79-85 %) and Cl- (70-76 %) under saline conditions. Based on mean MFV for all the traits, genotypes CSJ-19, CSJ-18 and CSJ-5 were found to be highly salt tolerant, whereas CSJ-1 and CSJ-31 were ranked as highly salt sensitive. We deduce that maintenance of leaf and root growth, reduced uptake of Na+, and preferential accumulation of K+, Ca2+ and Mg2+ could be the major traits underlying salinity tolerance in jamun.
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页数:19
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