Measurement of oxygen consumption in Tenebrio molitor using a sensitive, inexpensive, sensor-based coulometric microrespirometer.

D. Sandstrom, B. Offord
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引用次数: 2

Abstract

Coulometric respirometry is a highly sensitive method for measuring O2 consumption in small organisms but is not in widespread use among physiologists. Here we describe a coulometric microrespirometer based on a digital environmental sensor inside a sealed glass chamber and controlled by an Arduino™ microcontroller. As O2 is consumed, exhaled CO2 is removed, causing pressure to decrease in the chamber. The sensor detects the decreased pressure, and the controller activates electrolytic production of O2, returning pressure to the initial value. O2 consumption is calculated from electrolytic charge transfer. The effects of developmental stage, body mass, and temperature on O2 consumption of Tenebrio molitor beetles were easily measured by the apparatus. This straightforward design is a significant innovation in that it provides continuous data regarding environmental conditions inside the experimental chamber, can be fabricated easily, and is adaptable to a wide range of uses.
使用一种灵敏、廉价、基于传感器的库仑微呼吸计测量tenbrio molitor的耗氧量。
库仑呼吸法是一种高度灵敏的测量小生物耗氧量的方法,但在生理学家中并没有广泛使用。在这里,我们描述了一种基于数字环境传感器的库仑微呼吸计,该传感器位于密封的玻璃腔内,由Arduino™微控制器控制。当氧气被消耗时,呼出的二氧化碳被除去,导致腔内压力降低。传感器检测到压力下降,控制器激活电解生产O2,将压力恢复到初始值。O2消耗量由电解电荷转移计算。该装置可方便地测定发育期、体重和温度对黄粉甲耗氧量的影响。这种简单的设计是一个重大的创新,因为它可以提供关于实验室内环境条件的连续数据,可以很容易地制造,并且适用于广泛的用途。
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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