Drought Responses in Three Apple Cultivars Using an Autonomous Sensor-based Irrigation System

IF 1.5 3区农林科学 Q2 HORTICULTURE

Hortscience Pub Date : 2024-04-01 DOI:10.21273/hortsci17520-23

Andrew M. Bierer, Lisa Tang

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Abstract

Irrigation decision support systems evolving in the domestic temperate tree fruit production industry incorporate measures of soil moisture status, which diverges from classic physiological indicators of edaphic stress. This study used an autonomous sensor-based irrigation system to impose a water deficit (soil matric potential targets of –25, –40, –60, and –80 kPa) on ‘Autumn Gala’, ‘CrimsonCrisp’, and ‘Golden Delicious’ apple (Malus domestica) cultivars grafted to ‘Budagovsky 9’ rootstock in the greenhouse (n = 60). It was hypothesized that relationships between physiological plant function, assessed via infrared gas exchange and chlorophyll fluorescence, and the soil matric potential may be used to advance emerging irrigation decision support systems. Complications arising from defoliation by day 11 at –60 and –80 kPa indicate the generation of substrate-specific soil–water relationships in research applications of autonomous sensor-based irrigation systems. ‘Autumn Gala’ carbon assimilation rates at –80 kPa declined from day 0 to day 8 (9.93 and 5.86 μmol⋅m–2⋅s–1 carbon dioxide), whereas the transpiration rate was maintained, potentially reducing observed defoliation as other cultivars increased transpiration to maintain carbon assimilation. Correlation matrices revealed Pearson’s r ≤ |0.43| for all physiological metrics considered with soil matric potential. Nevertheless, exploratory regression analysis on predawn leaf water potential, carbon assimilation, transpiration, stomatal conductance, and nonphotochemical quenching exposed speculatively useful data and data shapes that warrant additional study. Nonlinear piecewise regression suggested soil matric potential may useful as a predictor for the rate of change in predawn leaf water potential upon exposure to a water deficit. The critical point bridging the linear spans, –30.6 kPa, could be useful for incorporating in emerging irrigation decision support systems.

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使用基于传感器的自主灌溉系统研究三种苹果栽培品种对干旱的反应

国内温带果树生产行业不断发展的灌溉决策支持系统采用了土壤水分状况测量方法，这与传统的土壤胁迫生理指标有所不同。本研究使用基于传感器的自主灌溉系统，在温室中对嫁接到 "Budagovsky 9 "砧木上的 "Autumn Gala"、"CrimsonCrisp "和 "Golden Delicious "苹果（Malus domestica）栽培品种（n = 60）施加水分亏缺（土壤母质势目标值为-25、-40、-60和-80 kPa）。根据假设，通过红外气体交换和叶绿素荧光评估的植物生理功能与土壤墒情之间的关系可用于推进新兴的灌溉决策支持系统。在零下 60 千帕和零上 80 千帕条件下，第 11 天出现的落叶现象表明，在基于传感器的自主灌溉系统的研究应用中，会产生特定基质的土壤水分关系。在-80 kPa条件下，'Autumn Gala'的碳同化率从第0天到第8天有所下降（9.93和5.86 μmol-m-2-s-1二氧化碳），而蒸腾速率保持不变，这可能会减少观察到的落叶现象，因为其他栽培品种会增加蒸腾以保持碳同化。相关矩阵显示，所有生理指标与土壤墒情的 Pearson's r ≤ |0.43|。然而，对黎明前叶片水势、碳同化、蒸腾、气孔导度和非光化学淬灭的探索性回归分析揭示了推测有用的数据和数据形状，值得进一步研究。非线性片断回归结果表明，土壤墒情可以预测缺水时黎明前叶片水势的变化率。连接线性跨度的临界点 -30.6 kPa 有助于将其纳入新兴的灌溉决策支持系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Hortscience 农林科学-园艺

CiteScore

3.00

自引率

10.50%

发文量

224

审稿时长

3 months

期刊介绍： HortScience publishes horticultural information of interest to a broad array of horticulturists. Its goals are to apprise horticultural scientists and others interested in horticulture of scientific and industry developments and of significant research, education, or extension findings or methods.