以色列开发的Plantarray高通量植物生物学研究系统，是一款基于称重的高通量、多传感器植物生理表型平台以及植物逆境生物学研究通用平台，也广泛用于植物种质资源加速育种和精准评价鉴定。该系统可持续、实时测量位于不同环境条件下、阵列中每个植株的土壤-植物-空气（SPAC）中的即时水流动。直接测量根系和茎叶系统水平衡和生物量增加，计算植物生理参数以及植物对动态环境的反馈。系统以有效、易用、无损的方式比较植物对不同处理的反应，定量预测植物生长和生产力，广泛应用于各种植物、作物生物胁迫、非生物胁迫以及植物、作物种质资源调查收集与优异资源发掘、鉴定与评价（含表型评价）、种质创新、栽培生理以及抗性（耐旱、耐盐、耐涝)加速育种研究等，胁迫研究涵盖干旱胁迫、盐胁迫、重金属胁迫、热、冷胁迫、光胁迫、CO2指示、植物健康等领域的研究。以色列开发的Plantarray高通量植物生物学研究系统，是一款基于称重的高通量、多传感器植物生理表型平台以及植物逆境生物学研究通用平台，也广泛用于植物种质资源加速育种和精准评价鉴定。该系统可持续、实时测量位于不同环境条件下、阵列中每个植株的土壤-植物-空气（SPAC）中的即时水流动。直接测量根系和茎叶系统水平衡和生物量增加，计算植物生理参数以及植物对动态环境的反馈。系统以有效、易用、无损的方式比较植物对不同处理的反应，定量预测植物生长和生产力，广泛应用于各种植物、作物生物胁迫、非生物胁迫以及植物、作物种质资源调查收集与优异资源发掘、鉴定与评价（含表型评价）、种质创新、栽培生理以及抗性（耐旱、耐盐、耐涝)加速育种研究等，胁迫研究涵盖干旱胁迫、盐胁迫、重金属胁迫、热、冷胁迫、光胁迫、CO2指示、植物健康等领域的研究。

Functional physiological phenotyping with functional mapping: A general framework to bridge the phenotype-genotype gap in plant physiology

AK Pandey, L Jiang, M Moshelion, SC Gosa, T Sun… - Iscience, 2021 - Elsevier

… Exemplified here is the PlantArray system that collects dynamic data of environmental parameters(eg temperature, radiation), stress strength (soil water content) and system weight from hundreds of plants simultaneously, which are translated into critical whole-plant water …

Detection of Potassium Deficiency and Momentary Transpiration Rate Estimation at Early Growth Stages Using Proximal Hyperspectral Imaging and Extreme Gradient …

S Weksler, O Rozenstein, N Haish, M Moshelion… - Sensors, 2021 - mdpi.com

… images. PlantArray 3.0 was used to control fertigation, log ambient conditions, and
calculate transpiration rates … images. PlantArray 3.0 was used to control fertigation,
log ambient conditions, and calculate transpiration rates …

Pepper Plants Leaf Spectral Reflectance Changes as a Result of Root Rot Damage

S Weksler, O Rozenstein, N Haish, M Moshelion… - Remote Sensing, 2021 - mdpi.com

… The pots' weight was logged every three minutes by computerized weighing lysimeters, usingPlantArray 3.0 (www.plantditech.com) … PlantArray 3.0 was also used for logging daily photosynthetic active radiation (PAR) and vapor pressure deficit (VPD) …

Predicting tomato field-yield using continuous monitoring of young tomato water status

S Gosa, A Koch, I Shenhar, J Hirschberg, D Zamir… - bioRxiv, 2021 - biorxiv.org

… The data were analyzed using SPAC-analytics (Plant-Ditech), a web-based software program 135 that allowed us to view and analyze the real-time data collected from the Plantarray system …
Each pot 141 was placed into a Plantarray plastic drainage container on a lysimeter …

High-resolution analysis of growth and transpiration of quinoa under saline conditions

V Jaramillo Roman, R van de Zedde, J Peller… - Frontiers in plant …, 2021 - frontiersin.org

The Plantarray 3.0 phenotyping platform® was used to monitor the growth and water use of the quinoa varieties Pasto and selRiobamba under salinity (0–300 mM NaCl). Salinity reduced … Plantarray Design and Data Collection. The functional …

Salt tolerance strategies of the ancient Andean crop quinoa

V Jaramillo Roman - 2021 - library.wur.nl

… to salinity: Pasto and selRiobamba. To this end, we implemented the Plantarray 3.0
phenotyping platform® to monitor changes in growth and transpiration with a high
temporal resolution. Salinity reduced the cumulative transpiration …

Wild Wheat Introgression Promotes Temporal Water fluxes Dynamics under Terminal Drought Stress through Plant-Atmospheric Interrelations

H Bacher, Y Sharaby,H Walia,ZPeleg- bioRxiv, 2021 - biorxiv.org

… Whole- Plant Responses to Environmental Stresses, the Hebrew University of
Jerusalem, Rehovot, Israel, equipped with functional phenotyping gravimetric system,
PlantArray 3.0 lysimeter system (Plant-DiTech, Rehovot, Israel) …

High-Throughput physiology-based stress response phenotyping: Advantages, applications and prospective in horticultural plants

Y Li, X Wu, W Xu, Y Sun, Y Wang, G Li, P Xu - Horticultural Plant Journal, 2021 - Elsevier

… 2015). Similarly, a non-destructive, automated, high-throughput system (PlantArray) was developed for water and biostimulant responses phenotyping based on physiologicaltraits (Halperin et al., 2017; Dalal et al., 2019). Theoretically …

On the Interpretation of Four Point Impedance Spectroscopy of Plant Dehydration Monitoring

L Bar-On, Y Shacham-Diamand - IEEE Journal on Emerging …, 2021 - ieeexplore.ieee.org

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