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描述:利用Granier熱擴(kuò)散傳感器(TDP)原理,把2根熱電偶探針直接插入邊材,上面的探針包含1個電加熱器,下面的探針作為參照,測量加熱探針和參照探針之間的溫差dT。根據(jù)dT和零莖流時的dTm,應(yīng)用Granier模型,可以直接得到每個時刻的莖流速率,再根據(jù)邊材面積...
系統(tǒng)功能
采用熱擴(kuò)散技術(shù)測量植物莖干莖流速度,特別適用于莖干較粗的樹木和高大植物。若配合其它傳感器使用,可測量環(huán)境因子(空氣溫濕度,光合有效輻射、土壤溫濕度等)影響下的植物莖流。
工作原理
利用Granier熱擴(kuò)散傳感器(TDP)原理,把2根熱電偶探針直接插入邊材,上面的探針包含1個電加熱器,下面的探針作為參照,測量加熱探針和參照探針之間的溫差dT。根據(jù)dT和零莖流時的dTm,應(yīng)用Granier模型,可以直接得到每個時刻的莖流速率,再根據(jù)邊材面積求出莖流通量。
對于郁閉冠層下長勢一致的樹木,每棵樹只需一個傳感器。對于不規(guī)則冠層或混合樹種,大樹的莖流速率在樹周不同方向上存在差異,一棵樹需要使用多個傳感器才能準(zhǔn)確測量莖流。直徑在75~150 mm的樹木,每棵樹通常需安裝2套傳感器;直徑在150~440 mm的樹木,每棵樹安裝4套傳感器。
系統(tǒng)特點
雙探針,Granier磚利設(shè)計
探針易插拔,可重復(fù)使用
恒溫加熱,采用熱擴(kuò)散方法,而不是準(zhǔn)確度較差的熱脈沖方法
可以連續(xù)測量(熱脈沖方法不可以,有等待周期)
應(yīng)用案例
(1)西北農(nóng)林科技大學(xué) 秦嶺
參考文獻(xiàn)
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3.Ferro, A. M., T. Adham, et al. (2013). "Performance of deep-rooted phreatophytic trees at a site containing total petroleum hydrocarbons." International Journal of Phytoremediation 15(3): 232-244.
4.Juzwik, J., J.-H. Park, et al. (2013). Biotic agents responsible for rapid crown decline and mortality of hickory in northeastern and north central USA. Proceedings of the 18th Central Hardwoods Forest Conference GTR-NRS-P.
5.Park, J.-H., J. Juzwik, et al. (2013). "Multiple Ceratocystis smalleyi infections associated with reduced stem water transport in bitternut hickory." Phytopathology 103(6): 565-574.
6.Pinto Jr, O. B., G. L. Vourlitis, et al. (2013). "Transpiration by the heat dissipation probe method in transition Amazon-Savannah forest." Revista Brasileira de Engenharia Agrícola e Ambiental 17(3): 268-274.
7.Sullivan, P. L., V. Engel, et al. (2013). "The influence of vegetation on the hydrodynamics and geomorphology of a tree island in Everglades National Park (Florida, United States)." Ecohydrology.
8.Zhang, Y., Y. Shen, et al. (2013). "Characteristics of the water–energy–carbon fluxes of irrigated pear ( Pyrus bretschneideri Rehd ) orchards in the North China Plain." Agricultural Water Management 128: 140-148.
9.Zhou, Y., J. Wenninger, et al. (2013). "Groundwater–surface water interactions, vegetation dependencies and implications for water resources management in the semi-arid Hailiutu River catchment, China–a synthesis." Hydrology and Earth System Sciences 17(7): 2435-2447.
10.趙曉偉, 趙平, et al. (2013). "木荷樹干夜間水分補(bǔ)充的季節(jié)動態(tài)及其與樹形特征和葉片生物量的關(guān)系." 植物生態(tài)學(xué)報 37(3): 239-247.
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