MEANS TO INCREASE EFFICIENCY OF ARTIFICIAL SOIL USED FOR ROOT CROPS CULTIVATION IN A SPACE GREENHOUSE

Q4 Biochemistry, Genetics and Molecular Biology

Aviakosmicheskaia i ekologicheskaia meditsina = Aerospace and environmental medicine Pub Date : 2023-01-01 DOI:10.21687/0233-528x-2023-57-4-97-105

Yu.А. Berkovich, А.М. Beliak, М.R. Bagretsova, D.V. Korshunov, L.I. Savostianova, S.О. Smolianina

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Abstract

The most promising method of root supply in space greenhouses (SG) operating in microgravity is porous membranes together with a capillary-porous salt-saturated artificial soil (AS). AS is a critical consumable that cannot be recycled in space missions. One of the options for increasing the specific harvest of cultures with extended period of commercial vegetation, carrot as an example, can co-cropping with fast-growing greens at the beginning of cultivation. Purpose of this work is experimental testing a technology of co-cropping carrot and leaf vegetables to see whether it will and better the AS efficiency. In a series of 3 experiments carrots were cultivated under a lighting unit with red and white LEDs (PFD in the range of 300 to 600 µmol(m2•s) in root modules stuffed with granular or fiber AS. Co-cultures were lettuce, Japanese turnip and basil. It was demonstrated that PFD at 450 – 550 µmol(m2•s) and water potential in the root zone at [(–0.5) – (–0.8) kPa] are favorable to the carrot and lie within the ranges recommended for cultivation of leaf vegetables in space greenhouses. No negative allelopathic effect was noted during carrot co-cropping with lettuce or Japanese turnip. Carrot cultivation with the Japanese turnip saved the specific, per a crop biomass unit, energy expenditure for lighting. Co-cropping with the Japanese turnip reduced the specific AS expenditure about 4 times; co-cropping with the lettuce reduced AS expenditure in 2.5 times.

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提高空间温室块根作物人工土壤栽培效率的方法

在微重力环境下，空间温室(SG)根系供应最有前途的方法是多孔膜和毛细管-多孔盐饱和人工土壤(AS)。AS是一种重要的消耗品，不能在太空任务中回收利用。以胡萝卜为例，通过延长商业植被种植期来增加特定收获的一种选择是在种植初期与速生蔬菜混种。本研究的目的是对胡萝卜与叶菜混作技术进行试验测试，以了解该技术是否能提高AS效率。在一系列3个实验中，胡萝卜在红白led照明单元(PFD在300至600µmol(m2•s)范围内)下在填充颗粒状或纤维AS的根模块中培养。共同培养的是生菜、日本萝卜和罗勒。结果表明，450 ~ 550µmol(m2•s)的PFD和[(- 0.5)~ (- 0.8)kPa]的根区水势有利于胡萝卜生长，处于空间温室叶菜栽培的推荐范围内。胡萝卜与生菜、萝卜混种无负化感作用。胡萝卜栽培用日本萝卜节省了具体的，每一作物单位生物量，用于照明的能量消耗。与大头菜混作可减少约4倍的特定AS支出;与生菜共作可减少2.5倍的AS消耗。

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来源期刊

Aviakosmicheskaia i ekologicheskaia meditsina = Aerospace and environmental medicine Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)

CiteScore

0.60

自引率

0.00%

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