枝条水力性状对幼年和成年柿树冬春季抽条的影响OA
Influence of hydraulic properties of branches on winter and spring shoot shriveling of young and adult per-simmon trees
通过分析不同树龄柿树冬春季的水分状况和非结构性碳水化合物(NSC)含量的差别,探究幼年柿树抽条更严重的生理机制,为生产实践中减小抽条危害提供理论依据.以1年生和5年生早熟朱柿为研究对象,测定2种树龄柿树的水力脆弱性(P50)和解剖结构,比较其在冬春季(2023年10月-2024年4月)的枝条水分状况和NSC含量,于抽条易发期(2024年3月)进行树体基部切断试验,调查抽条率.结果表明,1年生柿树和5年生柿树枝条P50从10-12月分别上升0.19和0.24 MPa,1年生柿树的枝条水力安全性比5年生柿树更低.1年生柿树枝条木材密度、导管壁厚和导管抗塌陷指数显著低于5年生柿树,皮孔密度、导管直径显著高于5年生柿树.在冬春季大部分时间,1年生柿树枝条凌晨水势、韧皮部和木质部含水量、韧皮部和木质部细胞活力、木质部NSC含量显著低于5年生柿树,枝条导水损失率(PLC)和相对电导率显著高于5年生柿树.1年生柿树3月失水速率显著高于5年生柿树.1年生柿树和5年生柿树1年生枝抽条率分别为56.0%和20.8%.基部切断试验中,相对于同树龄未切断柿树,基部切断柿树枝条凌晨水势、韧皮部和木质部含水量更低,枝条PLC和相对电导率更高.相对于5年生基部切断柿树,1年生基部切断柿树枝条的凌晨水势、韧皮部和木质部含水量更低,枝条PLC和相对电导率更高.总体而言,与5年生柿树相比,1年生柿树枝条抗栓塞能力更弱,使得冬春季维持水分长距离运输的能力更低,枝条失水更快,且树体储水量较少,导致其在冬春季枝条水分状况更差,进而发生更严重的抽条.
By analyzing the differences in water status and nonstructural carbohydrate(NSC)content of persimmon trees of different ages in winter and spring,we explored the physiological mechanisms underlying the worse shoot shriveling of young persimmon trees,which would provide theoretical basis for reducing the shoot shriveling harm in production practice.We measured hydraulic vulnerability(P50)and anatomical structure of one-and five-year-old persimmon tree(Diospyros kaki var.zaoshuzhushi),and compared the water status and NSC content of branches of both age-classes in winter and spring(October 2023-April 2024).We conducted a base-cutting test during shoot shriveling-prone periods(March 2024),to measure shoot shriveling rates.Results showed that the P50 of branches of one-and five-year-old persimmon trees were increased by 0.19 and 0.24 MPa from October to December,respec-tively.The branch hydraulic safety of one-year-old trees was lower than that of five-year-old ones.Wood density,vessel wall thickness,and vessel collapse-resistance index of one-year-old trees were significantly lower than those of five-year-old ones,while the lenticel density and vessel diameter of branches of one-year-old trees were signifi-cantly higher than those of five-year-old ones.During most of the time in winter and spring,the pre-dawn water po-tential of branches,water content of the phloem and xylem,cell vitality of the phloem and xylem,and the xylem NSC contents of one-year-old trees were significantly lower than those of five-year-old ones.However,the branch percentage loss of conductivity(PLC)and relative electric conductivity of the one-year-old trees were significantly higher than those of the five-year-old ones.The water loss rate of the one-year-old trees in March was significantly higher than that of the five-year-old ones.The shoot shriveling rates of the one-and five-year-old persimmon trees were 56.0%and 20.8%,respectively.In the base-cutting test,the branch pre-dawn water potential and the water content in phloem and xylem of the cutting trees were lower,while their branch PLC and relative electric conductiv-ity were higher,compared to non-cutting trees with the same age.Compared to five-year-old base-cutting trees,one-year-old base-cutting trees had lower branch pre-dawn water potential and water content in the phloem and xy-lem,but higher PLC and relative electric conductivity.Overall,compared with five-year-old ones,one-year-old persimmon trees have a weaker ability to resist embolism in branches,resulting in lower capacity of maintaining long-distance water transport and faster water loss from branches.Less water storage in the tree body,leading to worse water condition of branches in winter and spring,further caused severe shoot shriveling of the one-year-old persimmon trees.
刘格格;张彦达;黄军保;张拥兵;王林;吕英忠
山西农业大学林学院,山西晋中 030801山西农业大学林学院,山西晋中 030801山西农业大学果树研究所,山西晋中 030801山西农业大学果树研究所,山西晋中 030801山西农业大学林学院,山西晋中 030801山西农业大学果树研究所,山西晋中 030801
抽条柿树水力性状解剖结构非结构性碳水化合物
shoot shrivelingpersimmon treehydraulic traitanatomical structurenonstructural carbohydrate
《生态学杂志》 2026 (2)
500-510,11
中央引导地方科技发展资金项目(YDZJSX2022C008)和2022年度产业引领工程项目(CYYL-22-15-1)资助.
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