In recent years, more and more scholars dedicate on the study of automatic and continuous monitoring plants growth and nutrition status in order to improve the precision of nutrition management.
近年来,许多学者开始致力于研究自动、连续监测植物生长和营养状况信息,把作物的生长情况作为植物栽培标准管理的决策依据。
This diagnosis method is characterized for its portability, stability, non-destruction to plant tissue, continuous monitoring and automatic logging as compared with other methods.
与其它水分诊断方法相比,茎直径变差法具有简便、稳定、无损、连续监测和自动记录的优点。
Compared with other method, this diagnosis method was characterized for its portability, stability, non-destruction to plant tissue continuous monitoring and automatic logging.
与其它水分诊断方法相比,基于茎直径微变化监测的方法具有简便、稳定、无损、连续监测和自动记录的优点。
30 litre couplant tank. automatic pumped supply with full recirculation. visual and electronic level display. continuous couplant monitoring by flow sensor and ultrasonically.
30升的耦合剂储蓄槽。自动化泵槽装置可以将其完全循环利用。可显示直观的电子层面。通过流量传感器和超声波地来对耦合剂进行连续监控。
30 litre couplant tank. automatic pumped supply with full recirculation. visual and electronic level display. continuous couplant monitoring by flow sensor and ultrasonically.
30升的耦合剂储蓄槽。自动化泵槽装置可以将其完全循环利用。可显示直观的电子层面。通过流量传感器和超声波地来对耦合剂进行连续监控。
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