Further experiments on the measurement of leaf wetness

A. Weiss, A.F. Hagen
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引用次数: 25

Abstract

Two experiments on the measurement of leaf wetness are reported. From the results of a previous experiment, a thin (0.28 mm), double sided circuit board sensor was constructed (sensor C). It was compared to the two sensors used in the original experiment, a cotton cloth on a grid network of two independent fine wires (sensor A) and a thick single board painted with gray latex paint (sensor B). As in the initial experiment, sensor A was found to be the superior sensor, while sensor C gave better results than sensor B. Honeydew, the sugary excrement of sucking insects, caused spurious results from sensors B and C, while sensor A appeared to be unaffected. In the second experiment, leaf wetness was measured with the same three sensors in two plots; a plot treated with an insecticide and a non-treated plot. Sensor A was the superior sensor based on the greatest duration of leaf wetness and comparison with visual observations. The hygroscopic nature of the honeydew increased the duration of leaf wetness between the plots by ∼25% as measured by sensor A.

叶片湿度测量的进一步试验
本文报道了两个测定叶片湿度的试验。从先前的实验结果,薄(0.28毫米),双面电路板传感器构建(传感器C)。这是两个传感器相比在最初的实验中,使用网格的两个独立的网络上的棉布细电线(传感器)和一个厚单板涂上灰色乳胶漆(传感器B)。在最初的实验中,传感器被发现上传感器,当传感器C给出更好的结果比传感器B .蜜汁这种昆虫的含糖排泄物会导致传感器B和C产生错误的结果,而传感器A似乎没有受到影响。在第二个试验中,用相同的三个传感器在两个样地测量叶片湿度;用杀虫剂处理过的地块和未处理过的地块。叶片湿润持续时间最长,与目测结果比较,传感器A优于传感器A。根据传感器A的测量,蜜露的吸湿性使地块间叶片湿润的持续时间增加了~ 25%。
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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