空间有限环境下的蔬菜种植

Jie He
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引用次数: 19

摘要

含有大多数人体必需营养成分的蔬菜易腐烂,不能储存。为了确保像新加坡这样空间有限的城市的蔬菜供应,有不同的种植方法来生产蔬菜。其中包括低成本的城市社区园艺和创新的屋顶和垂直农场,结合了各种技术,如水培、水培和空气栽培。然而,在空间有限的新加坡,为了大规模的蔬菜生产,我们需要发展农业系统,不仅要将单位土地的生产力提高许多倍,而且要全年生产各种蔬菜,无论是现在还是未来。这可以通过一体化垂直气培农业系统来解决。控制根区(RZ)环境,如冷却根区、改变矿质养分和使用气培法提高根区二氧化碳含量,可以进一步提高作物生产力,而不是更有效地利用土地面积所能实现的。我们亦可以在垂直气培耕作系统中采用节能发光二极管(led),以促进植物生长均匀,并缩短生长周期,提高有限空间的利用率,从而以具成本效益的方式提高蔬菜产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Farming of Vegetables in Space-Limited Environments
Vegetables that contain most of the essential components of human nutrition are perishable and cannot be stocked. To secure vegetable supply in space limited cities such as Singapore, there are different farming methods to produce vegetables. These include low-cost urban community gardening and innovative rooftop and vertical farms integrated with various technologies such as hydroponics, aquaponics and aeroponics. However, for large-scale vegetable production in space-limited Singapore, we need to develop farming systems that not only increase productivity many-fold per unit of land but also produce all types of vegetable, all year-round for today and the future. This could be resolved through integrated vertical aeroponic farming system. Manipulation of root-zone (RZ) environments such as cooling the RZ, modifying mineral nutrients and introducing elevated RZ CO2 using aeroponics can further boost crop productivity beyond what can be achieved from more efficient use of land area. We could also adopt energy saving light emitting diodes (LEDs) for vertical aeroponic farming system to promote uniform growth and to improve the utilisation of limited space via shortening the growth cycle, thus improving vegetable production in a cost-effective manner.
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