林业科学研究2026,Vol.39Issue(2):191-199,9.DOI:10.12403/j.1001-1498.20250110
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
Variation Characteristics of Calcium Forms in Leaves of Schima superba at Different Altitudes in Wuyi Mountain Nature Reserve
摘要
Abstract
[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.关键词
木荷/海拔梯度/钙形态/土壤理化性质/环境因子Key words
Schima superba/altitude gradient/calcium form/soil physical and chemical properties/environmental factors分类
农业科技引用本文复制引用
赖正轩,卢慧,柏雨萱,黄斗昌,郑德祥..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[J].林业科学研究,2026,39(2):191-199,9.基金项目
国家自然科学基金面上项目(32071760) (32071760)
