低温层积处理对钠盐胁迫下黑果枸杞种子萌发的影响OA
Effect of low temperature stratification treatment on seed germination of Lycium ruthenicum under sodium salt stress
[目的]探讨低温层积处理对钠盐胁迫下黑果枸杞种子萌发特性的调控作用,为盐碱地生态修复提供技术支撑.[方法]采用室温干燥与低温层积 2 种预处理方式,设置不同浓度NaCl溶液(0.2%~1.4%)及复合盐溶液(0.4%~2.0%)模拟盐胁迫环境,系统分析种子萌发参数及恢复能力.[结果]在NaCl胁迫下,0.4%NaCl处理时,低温层积出苗率达峰值(较对照组提高 2.67%),出苗势为 87.33%;而室温干燥在 0.8%NaCl处理下出苗率最高(68.00%).在复合盐胁迫下,0.8%浓度处理时,低温层积出苗势达 87.33%,出苗指数较对照组显著提高 10.01%(P<0.05);室温干燥出苗率较对照提高 42.00%.盐胁迫解除后种子恢复萌发,萌发率随盐浓度的升高而增加,在 1.4%NaCl和 2.0%复合盐处理下分别达最大值(38.10%和 39.44%),表明具备强逆境恢复能力.0.6%NaCl浓度和 0.8%复合盐浓度为萌发抑制临界点,超过后出苗指标显著下降(P<0.05).[结论]低温层积通过打破种子休眠和激活内源活性,显著增强了黑果枸杞对钠盐胁迫的适应性.0.4%NaCl与0.8%复合盐分别为 2 种处理下的最适促萌浓度.研究结果可为盐碱地黑果枸杞人工育苗的盐浓度调控及预处理技术优化提供了关键参数,对荒漠化治理与生态修复实践具有重要指导意义.
[Objective]In this study,the effect of low temperature stratification treatment on seed germination characteristics of Lycium ruthenicum under sodium salt stress was investigated,which provided technical support for ecological restoration in saline-alkali land.[Method]Different concentrations of NaCl solution(0.2%-1.4%)and complex salt solution(0.4%-2.0%)were used to simulate the salt stress environment,and the germination parameters and recovery ability of seeds were systematically analyzed.[Result]Under NaCl stress,under 0.4%NaCl treatment,the seedling emergence rate of low temperature stratification reached the peak(2.67%higher than that of control group),and the seedling emergence potential was 87.33%.The seedling emergence rate was the highest(68.00%)when 0.8%NaCl was treated at room temperature.Under combined salt stress,the seedling emergence potential of low temperature stratification reached 87.33%when 0.8%concentration was treated,and the seedling emergence index was significantly increased by 10.01%compared with the control group(P<0.05).The rate of room temperature drying was increased by 42.00%compared with control.After salt stress relief,the recovery germination rate of seeds increased with the increase of salt concentration,and reached the maximum value(38.10%and 39.44%)under 1.4%NaCl and 2.0%combined salt treatment,respectively,indicating that the seeds had the ability to recover from strong stress.The critical points of germination inhibition were 0.6%NaCl concentration and 0.8%compound salt concentration,and the germination index decreased significantly after the concentration exceeded(P<0.05).[Conclusion]By breaking seed dormancy and activating endogenous activity,low temperature stratification significantly enhanced the adaptability of Lycium ruthenicum to sodium stress.0.4%NaCl and 0.8%compound salt were the optimal germination promoting concentrations under the two treatments,respectively.The research results provided key parameters for salt concentration regulation and pretreatment technology optimization of artificial cultivation of Lycium ruthenicum seedlings in saline-alkali land,and had important guiding significance for desertification control and ecological restoration practice.
成彩霞;赵晶忠;赵玉红
张掖市林业科学研究院,甘肃 张掖 734000甘肃省祁连山水源涵养林研究院,甘肃 张掖 734000甘肃省祁连山水源涵养林研究院,甘肃 张掖 734000
农业科技
黑果枸杞室温干燥低温层积钠盐胁迫
Lycium ruthenicumroom temperature dryinglow-temperature stratificationsodium salt stress
《中南林业科技大学学报》 2026 (2)
13-22,10
甘肃省省级林业和草原科技项目(2020kj008,2018kj013)张掖市市级科技计划项目(ZY2024RC11,ZY2024KY01)甘肃省重点研发生态文明专项(25YFF003).
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