考虑到准确测定内果皮的发育情况,超高密度台栽橄榄果园(塞维利亚曼萨尼亚)幼苗对不同水分胁迫水平的反应

IF 5.9 1区 农林科学 Q1 AGRONOMY
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引用次数: 0

摘要

橄榄树是抗旱性极强的树种。可以利用这一特性在调节缺水灌溉计划时减少需水量。然而,产量对缺水的反应与施加水胁迫的时间和程度有关。坑硬化通常被用作减少灌溉的阶段,但在田间条件下却无法测量。这项工作旨在描述水分胁迫条件对台栽橄榄树产量反应的影响,同时考虑到内果皮发育的准确测定。实验于 2020 年至 2023 年期间在一个两年生超高密度台栽橄榄果园(cv Manzanilla de Sevilla)中进行。三种灌溉处理(重复六次)分别为对照组,2020 和 2021 年整个季节无水胁迫条件,2022 和 2023 年轻度水胁迫以降低活力;调节亏缺灌溉(RDI),基于坑硬化期间的中度至重度水胁迫,使用正午茎干水势测量;雨水灌溉。在 2021 年、2022 年和 2023 年的整个季节,利用破坑压力确定内果皮的发育情况。试验期间测量了水分关系、植株生长、花序和果实数量、产量和果实质量。与对照组相比,雨养处理的树冠体积限制了产量,但 RDI 处理的树冠体积没有限制产量。RDI和Rainfed处理的花序数和花序结实率未受影响,仅在2023年严重水分胁迫时有所降低。RDI 的产量反应与对照相似,施水量减少了 50%,正午茎干水势显著变负。雨水浇灌的果树不适合用于餐桌生产,因为补水不能使果实恢复到足够的商业大小。内果皮的生长能力一直保持到季节结束。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Response of young super-high density table olive orchard (Manzanilla de Sevilla) to different water stress levels considering an accurate determination of endocarp development

Olive trees are extremely drought-resistant species. This particularity could be used to reduce water needs in regulated deficit irrigation scheduling. However, the yield response to water deficit is linked to the moment and the level of water stress imposed. Pit hardening has been commonly used as the stage to decrease irrigation, but it is not measured under field conditions. The aim of this work is to describe the impact of water stress conditions on yield response for table olive trees, considering an accurate determination of the endocarp development. The experiment was performed from the 2020 to the 2023 seasons on a two-year-old super-high density table olive orchard (cv Manzanilla de Sevilla). The three irrigation treatments (six repetitions) were: Control, no water stress conditions throughout the season in 2020 and 2021, and mild water stress to reduce vigour in 2022 and 2023; Regulated deficit irrigation (RDI), based on a moderate to severe water stress during pit hardening, using midday stem water potential measurements; and Rainfed. Endocarp development was established using the pit-breaking pressure throughout the 2021, 2022 and 2023 seasons. Water relations, vegetative growth, number of inflorescence and fruits, yield and fruit quality were measured during the experiment. Crown volume limited yield in Rainfed treatments but not in RDI, compared to Control. The number of inflorescences and inflorescence set was not affected in RDI and Rainfed, only reduced in severe water stress in 2023. RDI presented a similar yield response to Control, with a reduction of 50 % on applied water and a significant more negative midday stem water potential. The Rainfed trees were unsuitable for table production because rehydration did not recover fruit size enough to be commercial. Endocarp maintained the capacity of growing until the end of the season.

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来源期刊
Agricultural Water Management
Agricultural Water Management 农林科学-农艺学
CiteScore
12.10
自引率
14.90%
发文量
648
审稿时长
4.9 months
期刊介绍: Agricultural Water Management publishes papers of international significance relating to the science, economics, and policy of agricultural water management. In all cases, manuscripts must address implications and provide insight regarding agricultural water management.
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