Wang Yaxin, Tan Chaolu, Li Yinghao, Meng Fengyan, Du Youwei, Zhang Shuyu, Jiang Wenxin, Feng Naijie, Zhao Liming, Zheng Dianfeng
College of Coastal Agricultural Sciences, Guangdong Ocean University, Zhanjiang 524091, China.
South China, National Saline-Tolerant Rice Technology Innovation Center, Zhanjiang 524008, China.
Metabolites. 2024 Feb 27;14(3):142. doi: 10.3390/metabo14030142.
A large number of dead seedlings can occur in saline soils, which seriously affects the large-scale cultivation of rice. This study investigated the effects of plant growth regulators (PGRs) and nitrogen application on seedling growth and salt tolerance ( L.), which is of great significance for agricultural production practices. A conventional rice variety, "Huang Huazhan", was selected for this study. Non-salt stress treatments included 0% NaCl (CK treatment), CK + 0.05 g N/pot (N treatment), CK + 40 mg·L 5-aminolevulinic acid (5-ALA) (A treatment), and CK + 30 mg·L diethylaminoethyl acetate (DTA-6) (D treatment). Salt stress treatments included 0.3% NaCl (S treatment), N + 0.3% NaCl (NS treatment), A + 0.3% NaCl (AS treatment), and D + 0.3% NaCl (DS treatment). When 3 leaves and 1 heart emerged from the soil, plants were sprayed with DTA-6 and 5-ALA, followed by the application of 0.3% NaCl (/) to the soil after 24 h. Seedling morphology and photosynthetic indices, as well as carbohydrate metabolism and key enzyme activities, were determined for each treatment. Our results showed that N, A, and D treatments promoted seedling growth, photosynthesis, carbohydrate levels, and the activities of key enzymes involved in carbon metabolism when compared to the CK treatment. The A treatment had the most significant effect, with increases in aboveground dry weight and net photosynthetic rates (Pn) ranging from 17.74% to 41.02% and 3.61% to 32.60%, respectively. Stomatal limiting values (Ls) significantly decreased from 19.17% to 43.02%. Salt stress significantly inhibited seedling growth. NS, AS, and DS treatments alleviated the morphological and physiological damage of salt stress on seedlings when compared to the S treatment. The AS treatment was the most effective in improving seedling morphology, promoting photosynthesis, increasing carbohydrate levels, and key enzyme activities. After AS treatment, increases in aboveground dry weight, net photosynthetic rate, soluble sugar content, total sucrose synthase, and amylase activities were 17.50% to 50.79%, 11.39% to 98.10%, 20.20% to 80.85%, 21.21% to 33.53%, and 22.17% to 34.19%, respectively, when compared to the S treatment. In summary, foliar sprays of 5-ALA, DTA-6, and additional nitrogen fertilizer enhanced rice seedling growth, increased photosynthesis, lowered Ls values, and improved seedling salt tolerance. Spraying two regulators, 5-ALA and DTA-6, quantitatively increased the effect of nitrogen fertilizer, with comparable effects on NaCl stress regulation. This study provides the basis for efficient agricultural production.
盐渍土中会出现大量死苗现象,这严重影响了水稻的大规模种植。本研究调查了植物生长调节剂(PGRs)和施氮对水稻(L.)幼苗生长和耐盐性的影响,这对农业生产实践具有重要意义。本研究选用了常规水稻品种“黄华占”。非盐胁迫处理包括0% NaCl(CK处理)、CK + 0.05 g氮/盆(N处理)、CK + 40 mg·L 5-氨基乙酰丙酸(5-ALA)(A处理)和CK + 30 mg·L二乙氨基乙基乙酸酯(DTA-6)(D处理)。盐胁迫处理包括0.3% NaCl(S处理)、N + 0.3% NaCl(NS处理)、A + 0.3% NaCl(AS处理)和D + 0.3% NaCl(DS处理)。当秧苗长出3叶1心时,对植株喷施DTA-6和5-ALA,24小时后在土壤中施加0.3% NaCl(/)。测定了各处理的幼苗形态和光合指标,以及碳水化合物代谢和关键酶活性。我们的结果表明,与CK处理相比,N、A和D处理促进了幼苗生长、光合作用、碳水化合物水平以及碳代谢相关关键酶的活性。A处理效果最显著,地上部干重和净光合速率(Pn)分别提高了17.74%至41.02%和3.61%至32.60%。气孔限制值(Ls)显著从19.17%降至43.02%。盐胁迫显著抑制了幼苗生长。与S处理相比,NS、AS和DS处理减轻了盐胁迫对幼苗的形态和生理损伤。AS处理在改善幼苗形态、促进光合作用、提高碳水化合物水平和关键酶活性方面最有效。与S处理相比,AS处理后地上部干重、净光合速率、可溶性糖含量、总蔗糖合酶和淀粉酶活性分别提高了17.50%至50.79%、11.39%至98.10%、20.20%至80.85%、21.21%至33.53%和22.17%至34.19%。综上所述,叶面喷施5-ALA、DTA-6和额外的氮肥可促进水稻幼苗生长、增加光合作用、降低Ls值并提高幼苗耐盐性。喷施5-ALA和DTA-6这两种调节剂可定量增强氮肥的效果,对NaCl胁迫调节具有类似作用。本研究为高效农业生产提供了依据。
