The physiological responses of potato (Solanum tuberosum L. cv. Folva) to partial root-zone drying (PRD) were investigated in potted plants in a greenhouse (GH) and in plants grown in the field under an automatic rain-out-shelter. In the GH, irrigation was applied daily to the whole root system (FI), or to one-half of the root system while the other half was dried, for 9 d. In the field, the plants were drip irrigated either to the whole root system near field capacity (FI) or using 70% water of FI to one side of the roots, and shifted to the other side every 5-10 d (PRD). PRD plants had a similar midday leaf water potential to that of FI, whereas in the GH their root water potential (Psi(r)) was significantly lowered after 5 d. Stomatal conductance (g(s)) was more sensitive to PRD than photosynthesis (A) particularly in the field, leading to greater intrinsic water use efficiency (WUE) (i.e. A/g(s)) in PRD than in FI plants on several days. In PRD, the xylem sap abscisic acid concentration ([ABA](xylem)) increased exponentially with decreasing Psi(r); and the relative [ABA](xylem) (PRD/FI) increased exponentially as the fraction of transpirable soil water (FTSW) in the drying side decreased. In the field, the leaf area index was slightly less in PRD than in FI treatment, while tuber biomass was similar for the two treatments. Compared with FI, PRD treatment saved 30% water and increased crop water use efficiency (WUE) by 59%. Restrictions on leaf area expansion and g(s) by PRD-induced ABA signals might have contributed to reduced water use and increased WUE.

译文

研究了马铃薯 (Solanum tuberosum L. cv. Folva) 对部分根区干燥 (PRD) 的生理响应在温室 (GH) 的盆栽植物和在自动雨淋下在田间种植的植物中进行遮蔽。在GH中,每天对整个根系 (FI) 或根系的一半进行灌溉,而另一半干燥,持续9天。在田间,将植物滴灌到整个根系近场容量 (FI) 或使用70% 的FI水到根的一侧,并每5-10 d (PRD) 转移到另一侧。PRD植物的正午叶水势与FI相似,而在GH中,其根水势 (Psi(r)) 在5 d后显着降低。气孔导度 (g(s)) 对PRD比对光合作用更敏感 (a),尤其是在田间,导致PRD的固有用水效率 (WUE) (即A/g(s)) 比FI工厂在几天内更高。在PRD中,木质部汁液脱落酸浓度 ([ABA](xylem)) 随Psi(r) 的降低呈指数增长; 随着干燥侧可蒸腾土壤水 (FTSW) 的比例降低,相对 [ABA](木质部) (PRD/FI) 呈指数增长。在田间,PRD的叶面积指数略低于FI处理,而两种处理的块茎生物量相似。59% 年,与FI相比,PRD处理可节省30% 水分,提高作物水分利用效率 (WUE)。PRD诱导的ABA信号对叶面积扩张和g(s) 的限制可能有助于减少用水量和增加WUE。

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