藏药叠裂黄堇在青海高寒生境下的表型分化与生态策略形成

    Phenotypic Differentiation and Ecological Strategy Formation of Tibetan Medicine Corydalis Dasyptera Under Alpine Habitats in Qinghai Province

    • 摘要:
      目的 揭示高寒藏药植物叠裂黄堇(Corydalis dasyptera)不同生境下的表型分异机制与生态适应策略。
      方法 于青海省7个州市选取高寒草甸、流石滩、阴坡、高山灌丛4类典型高寒生境,共设置 34 个调查样方;系统测定植株高度、盖度、密度等种群参数,并整合单因素方差分析、主成分分析、贝叶斯线性混合模型及广义加性模型进行解析。
      结果 生境类型显著影响叠裂黄堇株高,整体种群呈现植株低矮、群落盖度中等、种群密度偏低的种群特征;主成分分析提取“生长活力梯度”与“环境胁迫梯度”,累计解释率达82.5%,不同生境种群生态位分化明显,其中阴坡生境植株支持竞争型策略,高山灌丛与流石滩趋向胁迫耐受型策略;海拔对植株生长性状存在非线性影响,LOESS回归分析表明植株高度>4000 m显著下降,种群密度呈单峰分布;贝叶斯线性混合模型进一步验证生境类型为关键影响因子,阴坡生境对植株生长具有显著正向作用,其后验均值为3.69,95%CI0.19,6.98;植物性状间存在极显著协同关联,形成“优质生境-高密度-大个体”功能模块;流石滩种群表型可塑性较高,具备更强的异质微环境适应能力。
      结论 本研究构建叠裂黄堇从竞争型至胁迫耐受型的生态策略连续谱,可为高寒植物功能生态学与藏药资源可持续管理提供理论依据。

       

      Abstract:
      OBJECTIVE To reveal the phenotypic differentiation mechanisms and ecological adaptation strategies of the alpine Tibetan medicinal plant Corydalis dasyptera in different habitats.
      METHODS A total of 34 survey plots were set up in 4 typical alpine habitats including alpine meadow, scree slope, shady slope and alpine shrub in 7 prefectures and cities of Qinghai Province. Population parameters such as plant height, coverage and density were systematically analyzed, and one-way analysis of variance(ANOVA), principal component analysis(PCA), Bayesian linear mixed models and generalized additive models(GAMs) were integrated for analysis.
      RESULTS Habitat type significantly affected the plant height of Corydalis dasyptera, and the overall population exhibited characteristics of low plant height, moderate community coverage, and population density. Two gradients namely growth vitality gradient and environmental stress gradient were extracted by principal component analysis, with a cumulative interpretation rate of 82.5%.The niche differentiation of populations in different habitats was obvious. Plants in shady slope habitats adopted competitive strategies, while those in alpine shrub and scree slope habitats tended to adopt stress-tolerant strategies. Altitude had a non-linear effect on plant growth traits. LOESS regression analysis showed that plant height decreased significantly above 4000 m, and population density presented a unimodal distribution. Bayesian linear mixed model further verified that habitat type was the key influencing factor, with shady slopes exerting a significant positive effect on plant growth(posterior mean=3.69, 95% confidence interval of 0.19, 6.98). There were extremely significant synergistic correlations among plant traits, forming a functional module of “high-quality habitat-high density-large individual”. Populations in screes slopes exhibited high phenotypic plasticity and stronger adaptability to heterogeneous microenvironments.
      CONCLUSION This study constructs a continuous spectrum of ecological strategies of Corydalis dasyptera from competitive type to stress-tolerant, providing a theoretical basis for functional ecology of alpine plants and sustainable management of Tibetan medicinal plant resources.

       

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