Measurements are reported of ultrasonic acoustic emissions (AEs) measured from sapwood samples of Thuja occidentalis L. and Tsuga canadensis (L.) Carr. during air dehydration. The measurements were undertaken to test the following three hypotheses: (a) Each cavitation event produces one ultrasonic AE. (b) Large tracheids are more likely to cavitate than small tracheids. (c) When stem water potentials are >−0.4 MPa, a significant fraction of the water content of sapwood is held by `capillary forces.' The last two hypotheses were recently discussed at length by M. H. Zimmermann. Experimental evidence consistent with all three hypotheses was obtained. The evidence for each hypothesis respectively is: (a) the cumulative number of AEs nearly equals the number of tracheids in small samples; (b) more water is lost per AE event at the beginning of the dehydration process than at the end, and (c) sapwood samples dehydrated from an initial water potential of 0 MPa lost significantly more water before AEs started than lost by samples dehydrated from an initial water potential of about −0.4 MPa. The extra water held by fully hydrated sapwood samples may have been capillary water as defined by Zimmerman.
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机译:据报道,测量了从金钟柏和加拿大Tsuga canadensis(L.)Carr的边材样品中测得的超声波发射(AE)。在空气脱水过程中。进行测量以检验以下三个假设:(a)每次空化事件都会产生一个超声声发射。 (b)大气管比小气管更容易空化。 (c)当茎干水势> -0.4 MPa时,边材的水分的很大一部分被“毛细管力”保持。 M. H. Zimmermann最近详细讨论了最后两个假设。获得了与所有三个假设一致的实验证据。每个假设的证据分别是:(a)AE的累积数量几乎等于小样本中的气管数量; (b)在脱水过程开始时,每个AE事件损失的水分比结束时要多,并且(c)从初始水势为0 MPa脱水的边材样品在AEs开始之前损失的水分比从初始水势约为-0.4 MPa。完全水合的边材样品所保留的多余水可能是齐默尔曼(Zimmerman)定义的毛细管水。
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