Spatiotemporal temperature distribution in the canopy of summer-to-autumn flowering chrysanthemum under different zone cooling methods

IF 2 4区农林科学 Q2 AGRONOMY

International Agrophysics Pub Date : 2023-03-09 DOI:10.31545/intagr/159164

D. Yasutake, Tomoyo Yanagisawa, K. Shiraishi, Takuro Suyama, Hiroshi Matsui, G. Yokoyama, T. Hirota

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引用次数: 0

Abstract

. Abstract. Avoiding high-temperature stress effectively can ensure sufficient plant production in hot seasons. Therefore, we proposed the use of zone cooling to decrease the temperatures around the chrysanthemum canopy using a heat pump and duct at the bottom (base cooling), top (top cooling), and above (above-top cooling) the canopy. The spatiotemporal distribution of temperatures (air, leaf, and stem temperatures) was measured under the various zone cooling treatments applied, and compared with those under the treatments which were not subjected to cooling (no cooling) and were entirely cooled (entire cooling). The air temperature around the targeted cooling regions and some plant temperatures declined substantially under the base and top cooling treatments at night, but such a decline was not observed with the above-top cooling treatment. During the day, the cooled region under top cooling was directly affected by solar radiation, but this region was unaffected under the base cooling treatment. The cold air was maintained at the bottom. The results indicate that solar radiation substantially influenced spatiotemporal tem - perature distribution. Moreover, base cooling was found to be the most effective method during both day and night. Thus, this study examines the spatiotemporal temperature distribution under zone cooling methods in the chrysanthemum canopy, thereby advanc-ing our understanding of the fundamental knowledge required for the establishment of a practical zone cooling system.

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不同降温方式下夏秋花菊冠层温度的时空分布

摘要有效避免高温胁迫可以确保植物在炎热季节有充足的产量。因此，我们建议使用区域冷却来降低菊花冠层周围的温度，在冠层底部（底部冷却）、顶部（顶部冷却）和顶部（顶部以上冷却）使用热泵和管道。在应用的各种区域冷却处理下测量温度的时空分布（空气、叶片和茎部温度），并与未进行冷却（未冷却）和完全冷却（完全冷却）的处理下的温度进行比较。在夜间的基础和顶部冷却处理下，目标冷却区域周围的空气温度和一些植物温度显著下降，但在上述顶部冷却处理中没有观察到这种下降。白天，顶部冷却下的冷却区域直接受到太阳辐射的影响，但底部冷却处理下该区域不受影响。冷空气保持在底部。结果表明，太阳辐射对时空温度分布有显著影响。此外，基础冷却被发现是白天和晚上最有效的方法。因此，本研究考察了区域冷却方法下菊花冠层的时空温度分布，从而有助于我们理解建立实用区域冷却系统所需的基本知识。

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

International Agrophysics 农林科学-农艺学

CiteScore

3.60

自引率

9.10%

发文量

审稿时长

3 months

期刊介绍： The journal is focused on the soil-plant-atmosphere system. The journal publishes original research and review papers on any subject regarding soil, plant and atmosphere and the interface in between. Manuscripts on postharvest processing and quality of crops are also welcomed. Particularly the journal is focused on the following areas: implications of agricultural land use, soil management and climate change on production of biomass and renewable energy, soil structure, cycling of carbon, water, heat and nutrients, biota, greenhouse gases and environment, soil-plant-atmosphere continuum and ways of its regulation to increase efficiency of water, energy and chemicals in agriculture, postharvest management and processing of agricultural and horticultural products in relation to food quality and safety, mathematical modeling of physical processes affecting environment quality, plant production and postharvest processing, advances in sensors and communication devices to measure and collect information about physical conditions in agricultural and natural environments. Papers accepted in the International Agrophysics should reveal substantial novelty and include thoughtful physical, biological and chemical interpretation and accurate description of the methods used. All manuscripts are initially checked on topic suitability and linguistic quality.