萌芽开花期梨枣对土壤水势的响应

Response of pear-jujube to different soil water potentials during budding and flowering stages

  • 摘要: 本试验选取4年生梨枣(Ziziphus jujuba Mill.)为试验材料, 设置-31~-51 kPa、-41~-84 kPa、-59~-132 kPa和-161 kPa(不灌溉)4个土壤水势水平, 结合茎直径微变化、营养生长与生殖生长量, 分析了梨枣在萌芽开花期对土壤水势的响应。结果表明: 1)在梨枣萌芽期, 土壤水势在-41~-84 kPa范围波动时, 茎直径日最大收缩量最小, 营养生长与生殖生长最旺盛, 是该时期适宜的土壤水势范围; 花芽分化适宜的土壤水势范围为-41~-132 kPa。梨枣萌芽期适当的水分亏缺不影响花芽分化, 但减弱了营养生长量, 优化了营养生长与生殖生长的比例。2)在梨枣开花期, 土壤水势范围为-54~-78 kPa时, 茎直径日最大收缩量最小, 坐果率较高, 为开花期适宜的土壤水势范围; 土壤水势为-79~-114 kPa时坐果率最高。开花期轻度的水分亏缺可显著提高坐果率。3)土壤水势过高或过低都抑制梨枣的营养生长、生殖生长和坐果, 但水涝能促进茎直径生长, 水分缺亏则抑制茎直径生长。4)在平水年, 梨枣的萌芽期无需灌水, 自然降雨即能满足其萌芽展叶、花芽分化的需要, 但开花期, 降雨不能满足梨枣高坐果率的需要。

     

    Abstract: Pear-jujube is widely cultivated in the Loess Plateau Region (LPR) of China where it is used to reforest farmlands. Pear-jujube culture was previously constrained by wasteful use of limited water resources that characterized traditional irrigation, restricting local agricultural development. It was therefore vital to study water demand at different growth stages of pear-jujube. This paper discussed the response of 4-year-old pear-jujube trees to different soil water potentials. Both vegetative and reproductive growth processes were studied in commercial pear-jujube orchards in Mengcha Village of Mizhi County, Shaanxi Province. Four levels of soil water potentials -31~-51 kPa, -41~-84 kPa, -59~-132 kPa and -161 kPa (no irrigation treatment) were set up to determine suitable soil water potentials at budding and flowering stages of pear-jujube. While soil water potential was measured using the equilibrium tensiometer (EQ15), trunk diameter fluctuation was measured using the linear variable displacement transformers (LVDT). The results showed that in different soil water potentials, trunk diameter fluctuation and vegetative and reproductive growths among treatments were significantly different (P < 0.05). During the budding stage, suitable soil water potential was in the range of -41~-84 kPa, in which pear-jujube vegetative and reductive growths were flourished with the least maximum daily shrinkage (MDS) among the treatments. However, the suitable soil water potential for pear-jujube flower bud differentiation was in the range of -41~-132 kPa. Although mild water stress did not adversely affect flower bud differentiation during budding stage, vegetative growth dropped and vegetative-reproductive growth relationship optimized. As at soil water potential range of -54~-78 kPa during flowering stage, MDS dropped to lowest point while fruit setting percent was highest. The most suitable soil water potential at pear-jujube flowering stage was therefore in the range of -54~-78 kPa. Also the most suitable soil water potential for pear-jujube fruit setting was in the range of -79~-114 kPa, in which fruit setting percent was highest. Hence at flowering stage, mild water stress increased fruit setting. At budding and flowering stages, water-logging and severe water-stress limited vegetative and reproductive growths and reduced fruit setting percent. However, water-logging enhanced trunk growth and severe water-stress retarded trunk growth. Furthermore, no real need of irrigating pear-jujube at budding stage was noted during normal years. This was because precipitation was enough for sprouting, lamina opening and flower bud development. However, precipitation alone was not enough at pear-jujube flowering stage during normal years.

     

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