Development and application of an inexpensive open-source dendrometer for detecting xylem water potential and radial stem growth at high spatial and temporal resolution.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-02-28 eCollection Date: 2024-02-01 DOI:10.1093/aobpla/plae009
Sean M Gleason, Jared J Stewart, Brendan Allen, Stephanie K Polutchko, Jordan McMahon, Daniel Spitzer, David M Barnard
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引用次数: 0

Abstract

There is currently a need for inexpensive, continuous, non-destructive water potential measurements at high temporal resolution (<1 min). We describe here the development and testing of an entirely open-source dendrometer that, when combined with periodic Scholander pressure chamber measurements, provides sub-minute resolution estimates of water potential when placed on tissues exhibiting little or no secondary growth (petioles, monocotyledon stems). The dendrometer can also be used to measure radial growth of stems and branches when placed on dicotyledon and gymnosperm species. The dendrometer can be interfaced directly with a computer in real time in the lab or greenhouse, or connected to a datalogger for long periods of use in the field on batteries. We tested this device on a herbaceous dicotyledon (Helianthus annuus) (petioles and stems) and a monocotyledon (Zea mays) species (stems) for 1 week during dehydration and re-watering treatments under laboratory conditions. We also demonstrated the ability of the device to record branch and trunk diameter variation of a woody dicotyledon (Rhus typhina) in the field. Under laboratory conditions, we compared our device (hereafter 'contact' dendrometer) with modified versions of another open-source dendrometer (the 'optical' dendrometer). Overall, contact and optical dendrometers were well aligned with one another, with Pearson correlation coefficients ranging from 0.77 to 0.97. Both dendrometer devices were well aligned with direct measurements of xylem water potential, with calibration curves exhibiting significant non-linearity, especially at water potentials near the point of incipient plasmolysis, with pseudo R2 values (Efron) ranging from 0.89 to 0.99. Overall, both dendrometers were comparable and provided sufficient resolution to detect subtle differences in stem water potential (ca. 50 kPa) resulting from light-induced changes in transpiration, vapour pressure deficit and drying/wetting soils. All hardware designs, alternative configurations, software and build instructions for the contact dendrometers are provided.

开发和应用廉价的开放源树枝仪,以高时空分辨率检测木质部水势和茎的径向生长。
目前,我们需要在实验室条件下,在脱水和再浇水处理过程中,以较高的时间分辨率对一种双子叶植物(Helianthus annuus)(叶柄和茎)和一种单子叶植物(Zea mays)(茎)进行为期一周的廉价、连续、无损的水势测量。我们还在现场演示了该装置记录木本双子叶植物(Rhus typhina)的枝干直径变化的能力。在实验室条件下,我们将我们的设备(以下简称 "接触式 "测枝仪)与另一种开源测枝仪("光学 "测枝仪)的改进版进行了比较。总体而言,接触式色差计和光学色差计彼此吻合得很好,皮尔逊相关系数从 0.77 到 0.97 不等。两种树枝仪装置都能很好地与木质部水势的直接测量结果保持一致,校准曲线表现出明显的非线性,尤其是在水势接近刚开始发生质解时,假 R2 值(Efron)从 0.89 到 0.99 不等。总体而言,这两种树枝仪的性能相当,分辨率足以检测到光照引起的蒸腾、蒸汽压力不足和土壤干燥/潮湿变化造成的茎干水势(约 50 千帕)的细微差别。提供了接触式测深仪的所有硬件设计、替代配置、软件和安装说明。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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