武夷山自然保护区不同海拔梯度木荷叶片钙形态变化特征OA
Variation Characteristics of Calcium Forms in Leaves of Schima superba at Different Altitudes in Wuyi Mountain Nature Reserve
[目的]探讨武夷山不同海拔梯度下木荷叶片钙形态的分布特征及其与环境因子的关系,为亚热带地区林地生态保护与可持续经营提供理论依据.[方法]在武夷山自然保护区海拔800~1 700 m 范围内设置10个梯度样地,采集木荷成熟叶片和对应土壤样品,测定硝酸钙/氯化钙(AIC-Ca)、水溶性钙(H2O-Ca)、果胶酸钙(NaCl-Ca)、磷酸钙(HAC-Ca)、草酸钙(HCl-Ca)和硅酸钙(Res-Ca)共 6种钙形态含量,结合土壤理化指标(pH、有效钙等),通过方差分析、相关性分析和冗余分析(RDA)揭示其分异规律.[结果](1)钙形态分布呈现显著海拔分异(p<0.05):AIC-Ca在海拔 1 201~1 400 m 含量较高;H2O-Ca在海拔 900和1 200 m含量较高,由于该海拔内种间竞争压力大,需要活性钙动态调节环境适应;Res-Ca在海拔 800~1 000 m 时占比较高,形成钙沉积库,目的在于发挥抗氧化功能和调节植物体有机酸平衡.(2)冗余分析表明,海拔与所有钙形态呈负相关,土壤有效钙与各钙形态正相关,pH 与 AIC-Ca、NaCl-Ca 呈负相关,与其他形态正相关.[结论]木荷通过钙形态的协同分配实现对环境的适应,其分异格局受海拔梯度与土壤有效钙共同驱动.研究结果为亚热带山地植被钙代谢调控机制及生态适应性研究提供科学依据.
[Objective]To explore the distribution characteristics of calcium forms in leaves of Schima su-perba along an altitude gradient in the Wuyi Mountain and to examine their relationship with environmental factors,thereby providing a theoretical basis for ecological protection and sustainable forest management in subtropical areas.[Method]Ten elevation-gradient plots were set up across 800~1 700 m in the Wuyi Mountain Nature Reserve.Mature leaves and corresponding soil samples of S.superba were collected.The contents of six calcium forms,including calcium nitrate/calcium chloride(AIC-Ca),water-soluble calci-um(H2O-Ca),calcium pectinate(NaCl-Ca),calcium phosphate(HAC-Ca),calcium oxalate(HCl-Ca)and calcium silicate(Res-Ca),were determined.Combined with soil physical and chemical indexes(pH,avail-able calcium,etc.),the differentiation rules were revealed by variance analysis,correlation analysis and re-dundancy analysis(RDA).[Results](1)Leaf Ca forms showed significant altitude differentiation:AIC-Ca reached its highest proportion at 1 201~1 400 m;H2O-Ca reached its highest proportion at 900 and 1 200 m,coinciding with stronger interspecific competition within this altitude gradient,suggesting a greater re-quirement for active calcium to adjust to environmental conditions.Res-Ca accounted for a relatively high proportion at 800~1 000 m,indicating a"deposited"Ca pool,that may support antioxidant function and reg-ulate the balance of organic acids in plants.(2)Redundancy analysis showed that altitude was negatively correlated with all calcium forms,soil available calcium was positively correlated with each Ca forms,pH was negatively correlated with AIC-Ca and NaCl-Ca,and positively correlated with other forms.[Conclu-sion]S.superba appears to adapt to changing environments through the synergistic distribution of calcium forms,with patterns primarily driven by altitude and soil available Ca.These findings provide a scientific basis for the study of calcium metabolism regulation mechanism and ecological adaptability of subtropical mountain vegetation.
赖正轩;卢慧;柏雨萱;黄斗昌;郑德祥
福建农林大学林学院,福建 福州 350002福建农林大学林学院,福建 福州 350002福建农林大学林学院,福建 福州 350002顺昌县埔上林业工作站,福建 顺昌 353205福建农林大学林学院,福建 福州 350002
农业科技
木荷海拔梯度钙形态土壤理化性质环境因子
Schima superbaaltitude gradientcalcium formsoil physical and chemical propertiesenvironmental factors
《林业科学研究》 2026 (2)
191-199,9
国家自然科学基金面上项目(32071760)
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