引用本文: | 杨期和, 袁培华, 廖富林, 叶万辉, 尹小娟.假槟榔种子催芽技术和脱水耐性的研究[J].广西植物,2007,(6):913-917.[点击复制] |
YANG Qi-He, YUAN Pei-Hua, LIAO Fu-Lin,
YE Wan-Hui, YIN Xiao-Juan.Technology of accelerating germination and desiccation tolerance in Archontophoenix alexandrae seeds[J].Guihaia,2007,(6):913-917.[点击复制] |
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摘要: |
为提高假槟榔的人工种植技术,对其种子做了不同的化学催芽处理,以寻求种子的有效催芽方法,并对种子脱水耐性进行了探讨。结果表明:20%过氧化氢和98%浓硫酸浸泡5 min,0.3%亚硝酸钠和0.2%硝酸钾溶液浸种24 h后,发芽率显著升高,速度显著加快,尤以浓硫酸和硝酸钾处理效果为好; 200~1 000 mg/L赤霉素和20~100 mg/L激动素溶液浸泡24 h也显著促进种子萌发,但催芽效果与溶液浓度有关。成熟种子轻度脱水,发芽率有所上升,但含水量下降至17%以下,发芽率急剧下降,当含水量下降10%以下,发芽力完全丧失。由此可见,种子很可能是中间型种子。 |
关键词: 假槟榔 种子 催芽 脱水耐性 |
DOI: |
分类号:Q945 |
基金项目: |
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Technology of accelerating germination and desiccation tolerance in Archontophoenix alexandrae seeds |
YANG Qi-He1, YUAN Pei-Hua1, LIAO Fu-Lin1,
YE Wan-Hui2*, YIN Xiao-Juan1
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1.Jiaying College, Meizhou 514015, China;2.South China Botanical Garden,
The Chinese Academy of Sciences, Guangzhou 510650, China
1.Jiaying College, Meizhou 514015, China; 2.South China Botanical Garden,
The Chinese Academy of Sciences, Guangzhou 510650, China
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Abstract: |
In order to improve the artificial planting technology of Archontophoenix alexandrae,different chemical treatments to accelerate seed germination were carried out to seek efficient methods of accelerating germination, the seed desiccation tolerance were also investigated in this study. The results showed that soaking in solutions of 20% H2O2 and 98% H2SO4 for 5 min,0.3% NaNO2 and KNO3 for 24h all could improve germination percentage and velocity,especially in 98% H2SO4 and 0.3% NaNO2 solution. Soaking in 200~1 000 mg/L GA and 20~100 mg/L KT solution for 24 h could also accelerate germination,but the efficiency of accelerating was related to the concentration of solutions. The germination percentage of mature seeds increaced slightly after slight desiccation,but decreased significantly when the seed moisture content reduced to below 17% and then fully lost when below 10%,so the seeds tend to be intermediate. |
Key words: Archontophoenix alexandrae seed accelerating germination desiccation tolerance |