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作 者 ：张霁^1,2;蔡传涛¹;蔡志全¹;刘贵周¹;罗媛¹;杨志雄³

期 刊 ：应用生态学报 2008年 19卷 07期 页码：1455-1461

关键词：云南黄连；

摘 要 ：研究了不同海拔(2 100～2 700 m)下，野生和人工栽培云南黄连的生物量、主要有效
成分含量及产量.结果表明:野生云南黄连根茎和根生物量沿海拔梯度呈上升趋势，但无显
著性差异(P>0.05);人工栽培云南黄连根茎生物量平均值在海拔2 600 m和2 700 m处分
别为87.5 kg·hm^-2和97.0 kg·hm^-2，显著高于海拔2 300 m处(34.8 kg·hm^-2,P<0.05)，且海拔2 300、2 600和2 700 m的人工栽培云南黄连根茎和根生
物量均大于野生云南黄连，但无显著性差异(P>0.05). 野生云南黄连的根茎和根生物
量均与全株生物量呈显著正相关. 野生云南黄连根茎和根小檗碱含量在海拔2 700 m处最高
，分别为4.60%和1.93%; 根茎巴马汀和药根碱含量、根药根碱含量在海拔2 600～2 700 m处最高;根巴马汀含量在2 300 m处最高.人工云南黄连根茎和根小檗碱含量在海拔2 600 m处最高，分别为4.41%和1.90%; 根茎巴马汀含量，根小檗碱、巴马汀和药根碱含量在海拔2 600～2 700 m处最高;根茎药根碱含量在海拔2 300 m处最高.海拔2 600～2 700 m处野生云南黄连根茎和根中各有效成分产量显著高于海拔2 100和2 300 m处(P<0.05). 野生云南黄连分株的根茎生物量、根生物量、叶生物量、总生物量、高度和冠幅沿海拔梯度呈先升后降趋势.增大种植密度和加强人工管理可以提高云南黄连生物量和主要有效成分产量.

Abstract:An investigation was made on the biomass and major active compounds of
wild and cultivated Coptis teetaalong an altitude gradient in Nujiang of Y
unnan. The results showed that the rhizome and root biomass of wild C. te
eta increased from the altitude 2 100 m to 2 700 m, but the difference was not significant. The rhizome biomass of cultivated C. teeta was 87.5 kg·
hm^-2 at 2 600 m and 97.0 kg·hm^-2 at 2 700 m, being much higher tha
n 34.8 kg·hm^-2 at 2 300 m (P<0.05). At the same altitudes (2 300 m,
2 600 m, and 2 700 m), cultivated C. teeta had higher rhizome and root biomass than wild C. teeta, but the difference was not significant. There was a significant positive correlation between the rhizome and root biomass and the whole plant biomass of wild C. teeta. Wild C. teeta had the highest content of berberine in rhizome (4.60%) and root (1.93%) at 2 700 m, plamatinein in rhizome, and jatrorrhizine in rhizome and root at 2 600-2
700 m, and plamatinein in root at 2 300 m; while cultivated C. teetahad th
e highest content of berberine in rhizome (4.41%) and root (1.90%) at 2
600 m, plamatinein in rhizome and root, and berberine and jatrorrhizine in root at 2 600-2 700 m, and jatrorrhizine in rhizome at 2 300 m. The
content of major active compounds in wild C. teeta rhizome and root
were significantly higher at 2 600 m and 2 700 m than at 2 100 m and 2 300 m (P<0.05), and the rhizome biomass, root biomass, leaf biomass, total biomass, height, and canopy diameter of wildC. teeta ramet increased first and decreased then from the altitude 2 100 m to 2 700 m. Increasing planting density and enhancing artificial management could improve the biomass of C. teeta and its major active compounds concentrations.

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