Faculté des Sciences, Université Moulay Ismail, B.P. 11201, Zitoune, Meknès, Morocco.
Départment d'Agronomie et d'Amélioration des Plantes, Ecole Nationale d'Agriculture de Meknès, km. 10, Route Haj Kaddour, B.P. S/40, 50001 Meknès, Morocco.
Sci Total Environ. 2018 Nov 15;642:574-581. doi: 10.1016/j.scitotenv.2018.06.108. Epub 2018 Jun 14.
This study was conducted over three consecutive years, 2015, 2016 and 2017, in the Imouzzer Kander region located in northwestern Morocco. The main objective is to evaluate apple tree responses to two sustainable deficit irrigation strategies with 75% (T2) and 50% (T3) of calculated crop evapotranspiration (ETc), compared to a control irrigated with 100% ETc (T1). During the three experiment years, estimated reference evapotranspiration (ET) was 630, 684 and 728 mm, respectively, in 2015, 2016 and 2017. Under the two restricted regimes, shoot length and fruit size evolution were not significantly affected. During the fruit set of 2017, no significant effects of sustainable deficit irrigation on the relative water content were observed, whereas they increased significantly during the fruit-swelling stage for the T3 treatment. Likewise, net CO assimilation (A) was not affected by the irrigation dose, whereas it increased significantly and inversely proportional to the amount of applied water during fruit swelling. Thus, under our experimental conditions, the trees subjected to extreme deficit irrigation (T3) were not stressed at either stage. Moreover, deficit irrigation at 75% ETc increased apple yield significantly. In contrast, deficit irrigation at 50% ETc throughout the cycle was not enough to maintain an acceptable fruit size for the three studied campaigns. However, the best qualitative performance, notably for fruit firmness and sugar content, was attributed to this irrigation regime (T3).
这项研究在摩洛哥西北部的伊穆泽尔-坎德尔地区连续进行了三年,分别是 2015 年、2016 年和 2017 年。其主要目的是评估苹果树对两种可持续亏缺灌溉策略的响应,这两种策略分别为 75%(T2)和 50%(T3)的计算作物蒸散量(ETc),与 100% ETc(T1)的对照灌溉相比。在三年的实验期间,估计的参考蒸散量(ET)分别为 2015 年、2016 年和 2017 年的 630、684 和 728 毫米。在两种受限条件下,枝条长度和果实大小的变化没有显著影响。在 2017 年的果实坐果期,可持续亏缺灌溉对相对水分含量没有显著影响,但在 T3 处理的果实膨胀期,相对水分含量显著增加。同样,净 CO 同化(A)不受灌溉剂量的影响,而在果实膨胀期间,它与施水量成正比显著增加。因此,在我们的实验条件下,处于极端亏缺灌溉(T3)的树木在两个阶段都没有受到胁迫。此外,75% ETc 的亏缺灌溉显著增加了苹果产量。相比之下,整个周期的 50% ETc 亏缺灌溉不足以维持三个研究阶段可接受的果实大小。然而,这种灌溉制度(T3)表现出最佳的质量性能,特别是在果实硬度和糖含量方面。
