连续亏缺灌溉与根系分区灌溉对苹果幼树根系生长的影响

Effects of continuous deficit irrigation and partial root-zone irrigation on root growth of young apple tree

  • 摘要: 利用传统盆栽方法, 于2007年5~10月在山东省烟台市农业科学院果树研究所实验果园进行了常规灌溉Conventional irrigation, CI, 在树盘两侧按100%的蒸发量(直径为120 mm的蒸发皿测定)进行灌溉、根系分区灌溉(Partial root-zone irrigation, PRI, 灌溉水量为CI的50%, 树盘两侧交替灌溉)和连续亏缺灌溉(Continuous deficit irrigation, CDI, 灌溉水量为CI的50%, 树盘两侧均匀灌溉)试验, 研究了3种灌溉模式对2龄苹果幼树(品种为“长富2号”)根系生长的影响。结果表明: PRI处理的根长比CI和CDI处理长, CDI处理最短; PRI处理显著促进了直径<2 mm的吸收根的生长, 但吸收根对增加总根干物质量贡献不显著。3种灌溉处理的苹果幼树根系生物量积累近似“S”形曲线。由于PRI处理的土壤含水量适宜, 土壤通气性较好, 其根系活力、生长速度和最终根干物质量都明显大于其他处理; CI处理土壤水分过于充足, 根系生长出现避水性, 因而根系生长相对缓慢, 根系活力下降, 根生物量介于CDI和PRI之间; CDI处理因土壤持续干旱, 根系活力和根干物质量最小。3种灌溉处理的根冠比随灌溉时间的增加呈下降趋势, CI的下降幅度大于CDI和PRI, PRI的根冠比最大(处理90 d时以CDI处理的根冠比最大), CI的根冠比最小, CDI介于二者之间。说明在供水量减少50%的情况下, PRI灌水方式可促进苹果幼树根系的生长, 而持续湿润或干燥均不利于根系的生长。

     

    Abstract: A study was conducted to evaluate the effects of different irrigation patterns on root growth in 2-year-old apple trees (Malus pumila Mill. cv. Changfu No. 2). In the traditional pot experiments, the 2-year-old apple trees were subjected to conventional irrigation (CI; i.e., irrigation amount is 100% evaporation, measured with 120 mm diameter pans, on both sides of the root system), continuous deficit irrigation (CDI; i.e., irrigation amount is 50% CI on both sides of the root system), and partial root-zone irrigation (PRI; i.e., irrigation amount is 50% CI alternatively on one side of the root system) in Experimental Orchard of Fruit Research Institute, Yantai Academy of Agricultural Sciences in May to October of 2007. The results show that root length under PRI treatment is longer than that under CI treatment. Apple root length is shortest under CDI treatment. PRI treatment significantly promotes growth of absorbing roots with diameters less than 2 mm without obvious increase in total root dry weight. Curves of root biomass accumulation in young apple trees follow a typical sigmoid curve, corresponding to the three irrigation treatments. It is noted that high apple root growth rate and maximum root weight coincide with extremely high root vitality under PRI treatment. This is attributed to the good soil aeration, resulting from suitable soil moisture conditions. Compared with PRI, slower root growth rate and lower root vitality are observed under CI treatment due to beyond suitable soil water content. This coincides with lower root biomass, ranging between the other two treatments. Both root activity and root weight are the lowest under CDI treatment, probably due to persistent dry soils. For the three irrigation treatments, root-shoot ratios decline with increasing treatment time. Root-shoot ratio is highest under PRI treatment and lowest under CI treatment. PRI is most beneficial to root growth in young apple trees under 50% reduction in water supply.

     

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