Relationship between sap flow, maximum daily shrinkage and other ecophysiological parameters in  Prunus avium  subjected to water stress.

Biel C.; Abdelfatah A.; Herralde F. de; Save R.; Aranda X.

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Relationship between sap flow, maximum daily shrinkage and other ecophysiological parameters in Prunus avium subjected to water stress.

机译：水分胁迫下樱桃李的汁液流量，最大日收缩率与其他生理生理指标的关系。

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Sap flow and maximum daily shrinkage (MDS) are two parameters that can be used for irrigation decision-making. An assay was raised under controlled conditions where drought was imposed by irrigation withdrawal in cherry plants to compare their response of MDS with that of other ecophysiological parameters commonly used in water relations studies. Results showed contrasting relationships between MDS and sap flow depending on the degree of water stress that could be due to stomatal regulation. At a daily timescale, trunk diameter variation and sap flow were related to each other via a loop that differs according to tree water status. MDS resulted more sensitive to drought than sap flow, but the simultaneous use of both indicators rendered complementary information sensitive to the water status of the plants.

机译：汁液流量和最大日收缩量（MDS）是可用于灌溉决策的两个参数。在受控条件下提出了一种测定方法，该方法通过对樱桃植物进行灌水灌溉来施加干旱，以比较其对MDS的反应与水关系研究中常用的其他生态生理参数的反应。结果表明，MDS和树液流量之间的对比关系取决于气孔调节可能引起的水分胁迫程度。在每天的时间尺度上，树干直径的变化和树液流量通过一个回路相互关联，该回路根据树木的水状况而有所不同。 MDS对干旱的敏感性比对树液的敏感性更高，但是同时使用两种指标使补充信息对植物的水分状况敏感。

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《Acta Horticulturae》 |2012年第951期|共7页
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Biel C.; Abdelfatah A.; Herralde F. de; Save R.; Aranda X.;
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1. Relationship between sap flow, maximum daily shrinkage and other ecophysiological parameters in Prunus avium subjected to water stress. [J] . Biel C., Abdelfatah A., Herralde F. de, Acta Horticulturae . 2012,第951期

机译：水分胁迫下樱桃李的汁液流量，最大日收缩率与其他生理生理指标的关系。
2. Relationships Between Climatic Variables and Sap Flow, Stem Water Potential and Maximum Daily Trunk Shrinkage in Lemon Trees [J] . Ortuno M., García-Orellana Y., Conejero W., Plant and Soil . 2006,第1a2期

机译：气候变量与柠檬树汁液流量，干水势和树干日最大干缩之间的关系
3. Relationships Between Climatic Variables and Sap Flow, Stem Water Potential and Maximum Daily Trunk Shrinkage in Lemon Trees [J] . Ortuno M., García-Orellana Y., Conejero W., Plant and Soil . 2006,第1a2期

机译：气候变量与柠檬树汁液流量，干水势和树干日最大干缩之间的关系
4. Relationship between Sap Flow, Maximum Daily Shrinkage and Other Ecophysiological Parameters in Prunus avium Subjected to Water Stress [C] . C. Biel, A. Abdelfatah, F. de Herralde, International Workshop on Sap Flow . 2012

机译：SAP流动，灌注禽饲养中SAP流动，最大日收缩和其他生态学参数的关系
5. Adaptive Management in the Chesapeake Bay Total Maximum Daily Load (TMDL) Program: How Do Local Watershed Managers Address Uncertainty and Use Adaptive Management? [D] . Friesner, Richard Kenneth. 2015

机译：切萨皮克湾总最大日负荷（TMDL）程序中的自适应管理：本地流域管理人员如何解决不确定性并使用自适应管理？
6. Relationship between Arterial Inflow Rate and Venous Filling Index of the Lower Extremities Assessed by Air Plethysmography in Subjects with or without Axial Reflux in the Great Saphenous Vein [O] . Yasushi Shiraishi 2014

机译：空气容积描记法评估大隐静脉是否有轴向反流的患者下肢动脉血流速度与静脉充盈指数的关系
7. Daily sap flow and maximum daily trunk shrinkage measurements for diagnosing water stress in early maturing peach trees during the post-harvest period [O] . W. Conejero, J. J. Alarcon, Y. Garcia-Orellana, 2007

机译：每日SAP流动和最大每日树干收缩测量，用于在收获后时期诊断早熟桃树中的水分压力
8. Deschutes River Multi-Parameter Total Maximum Daily Load Effectiveness Monitoring Pilot Project. Water Quality Study Design (Quality Assurance Project Plan) [R] . Collyard, S., Prause, M. V. 2009

机译：德舒特河多参数总日最大负荷效应监测试点项目。水质研究设计（质量保证项目计划）

Relationship between sap flow, maximum daily shrinkage and other ecophysiological parameters in Prunus avium subjected to water stress.

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