在生长室使用的水培栽培系统的环境条件和植物生长的均匀性与空中二氧化碳控制。

Biotronics Pub Date : 1988-01-01
J K Vessey, E K York, L T Henry, C D Raper
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引用次数: 0

摘要

开发了一种便携式水培系统,可保持循环营养液的温度、pH 值和营养浓度。 水培系统在可控环境室(CER)内使用,用于控制空中环境。 受控环境室配备了一个自动校准系统,用于控制大气中的二氧化碳。 水培室的控制系统能够将酸度保持在 +/- 0.2 pH 单位的范围内,将温度保持在 +/- 0.5 摄氏度的范围内。 在光照期间,二氧化碳控制系统能够将空气中的二氧化碳浓度维持在 +/- 10 ppm 范围内。 在水培室或 CER 中发现的唯一梯度是沿水培室长度方向气温的轻微梯度。 在大豆[Glycine max (L.) Merr.]为期 3 周的无性系发育期间,通过叶片数量和面积、植株干重、植株总氮含量和营养液中的氮耗尽情况对其生长进行了表征。 在 CER 的三个水培室中,不同种群之间的生长特征没有显著差异,每个水培室中不同种群的平均测量值的百分比标准误差几乎都小于 10%。 因此,植物生长的一致性反映了环境条件的一致性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Uniformity of environmental conditions and plant growth in a hydroponic culture system for use in a growth room with aerial CO2 control.

A portable system of hydroponic culture was developed that maintained temperature, pH, and nutrient concentrations of circulating nutrient solutions. The hydroponic system is used within a controlled-environment room (CER) for control of aerial environment. The CER was equipped with an auto-calibrating system for atmospheric CO2 control. The control systems for the hydroponic chambers were able to maintain acidity within +/- 0.2 pH units and the temperature with +/- 0.5 degree C. Mixing time for the 200-liter volume of solution within a hydroponic chamber was less than 12 min. The CO2 control system was able to maintain aerial concentrations within +/- 10 ppm CO2 during the light period. The only gradient found to occur within the hydroponic chambers or CER was a slight gradient in aerial temperature along the length of hydroponic chambers. Growth of soybeans [Glycine max (L.) Merr.] was characterized during a 3-week period of vegetative development by leaf number and area, plant dry weight, total N content of plants, and N depletion from the nutrient solution. The growth characteristics among populations for three hydroponic chambers within the CER were not significantly different, and the percent standard errors of means of the measurements within populations from each chamber were nearly all less than 10%. Thus, the uniformity of plant growth reflected the uniformity of environmental conditions.

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