Plantarray是一款基于称重的高通量、多传感器生理表型平台以及植物逆境生物学研究通用平台。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、无损的方式针对植物对不同处理的反应、预测植物生长和生产力进行定量比较，广泛应用于生物胁迫和非生物胁迫以及植物栽培加速育种研究等，胁迫研究涵盖干旱胁迫、盐胁迫、重金属胁迫、热、冷胁迫、光胁迫以及灌溉/养分、CO₂指示、植物健康等领域的研究。

利用Plantarray植物功能生理表型研究系统发表的部分文章

1、Drought response behavior of risk-taking and conserving spring barley cultivars

2、Testing the Plant DiTech Phenoty** Platform for Use in Controlled Water Deficit Experiments

3、Methods for Functional Physiological Phenoty** and High-Order Data Quantification

4、Develo** and integrating the Plant Phenomics Community: Support for the 2022 Conference of the North American Plant Phenoty** Network

5、Presence and future of plant phenoty** approaches in biostimulant research and development

6、A telemetric, gravimetric platform for real-time physiological phenoty** of plant–environment interactions

7、High-throughput phenoty** of maize growth dynamics under nitrogen and water stress

8、 Functional phenoty**: understanding the dynamic response of plants to drought stress

9、Generating high-throughput functional phenoty** data to support crop modelling in designing drought resilient crop cultivars

10、Dynamic physiological phenoty** of drought-stressed pepper plants treated with “productivity-enhancing” and “survivability-enhancing” biostimulants

11、Quantitative and comparative analysis of whole-plant performance for functional physiological traits phenoty**: new tools to support pre-breeding and plant stress …

12、Melatonin seed priming improves early establishment and water stress tolerance of peanut

13、Agronomic and Physiological Traits Response of Three Tropical Sorghum (Sorghum bicolor L.) Cultivars to Drought and Salinity

14、Interplay between abiotic (drought) and biotic (virus) stresses in tomato plants

15、Inhibition of gibberellin accumulation by water deficiency promotes fast and long‐term 'drought avoidance'responses in tomato

16、Unraveling the genetic architecture of two complex, stomata-related drought-responsive traits by high-throughput physiological phenoty** and GWAS in cowpea …

17、Sounds emitted by plants under stress are airborne and informative

18、A High-Throughput Physiological Functional Phenoty** System for Time-and Cost-Effective Screening of Potential Biostimulants

19、Mutations in the tomato gibberellin receptors suppress xylem proliferation and reduce water loss under water-deficit conditions

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

21、Detection of potassium deficiency and momentary transpiration rate estimation at early growth stages using proximal hyperspectral imaging and extreme gradient …

22、Modifying root-to-shoot ratio improves root water influxes in wheat under drought stress

23、Combining functional physiological phenoty** and simulation model to estimate dynamic water use efficiency and infer transpiration sensitivity traits

23、Functional physiological phenoty** with functional map**: A general framework to bridge the phenotype-genotype gap in plant physiology

24、Drought response of water-conserving and non-conserving spring barley cultivars

25、Smartphone Lidar Reliably Estimates Leaf Nitrogen Concentration and Shoot Biomass on Leafy Vegetable Crops

26、Adaptive Wild Introgression Mediate Temporal Wheat Root Water Influxes under Drought Stress through Plant-Atmospheric Interrelations

27、Cross‐Generational Effect of Water Deficit Priming on Physiology of Peanut Plants Under Water Stress

28、Tomato yellow leaf curl virus (TYLCV) promotes plant tolerance to drought

Phenotypic plasticity in response to drought stress: Comparisons of domesticated tomato and a wild relative

29、Guard cell activity of PIF4 and HY5 control transpiration

30、The potential of dynamic physiological traits in young tomato plants to predict field-yield performance

31、Scientific advances in biostimulation reported in the 5th biostimulant world congress

32、Whole-Plant Physiological Identification and Quantification of Disease Progression

33、A hyperspectral-physiological phenomics system: measuring diurnal transpiration rates and diurnal reflectance

34、Dynamic physiological response of tef to contrasting water availabilities

35、Low Si combined with drought causes reduced transpiration in sorghum Lsi1 mutant

36、From Selfies to Science–Precise 3D Leaf Measurement with iPhone 13 and Its Implications for Plant Development and Transpiration

37、The tomato DELLA protein PROCERA acts in guard cells to promote stomatal closure

The tomato DELLA protein PROCERA acts in guard cells to promote stomatal closure

I Nir, H Shohat, I Panizel, N Olszewski, A Aharoni… - The Plant …, 2017 - academic.oup.com

Plants employ stomatal closure and reduced growth to avoid water deficiency damage. Reduced
levels of the growth-promoting hormone gibberellin (GA) lead to increased tolerance to …

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38、Leveraging'golden-hour'WUE for develo** superior vegetable varieties with optimal water-saving and growth traits

39、Continuous seasonal monitoring of nitrogen and water content in lettuce using a dual phenomics system

40、Precision phenoty** of a barley diversity set reveals distinct drought response strategies

41、Evaluating Evapotranspiration in a Commercial Greenhouse: A Comparative Study of Microclimatic Factors and Machine-Learning Algorithms

42、Leaf hydraulic maze: Abscisic acid effects on bundle sheath, palisade, and spongy mesophyll conductance

43、On the interpretation of four point impedance spectroscopy of plant dehydration monitoring

44、Understanding water conservation vs. profligation traits in vegetable legumes through a physio-transcriptomic-functional approach

45、Tree tobacco (Nicotiana glauca) cuticular wax composition is essential for leaf retention during drought, facilitating a speedy recovery following rewatering

46、Risk‐management strategies and transpiration rates of wild barley in uncertain environments

JCR:Q1IF:6.40 Citations:20604 中科院:生物学2区

47、A High-Throughput gravimetric phenoty** platform for real-time physiological screening of plant–environment dynamic responses

48、Leaf hydraulic maze; Differential effect of ABA on bundle-sheath, palisade, and spongy mesophyll hydraulic conductance

49、Research progress of crop seed quality detection based on spectral imaging technology

50、Allele Mining in Cowpea (Vigna Unguiculata) Subspecies and Close Relatives

51、Cuticular Wax Composition is Essential for Plant Recovery Following Drought with Little Effect under Optimal Conditions

52、Multiple gibberellin receptors contribute to phenotypic stability under changing environments

53、Check for updates Chapter 1 An Overview of High-Throughput Crop Phenoty**: Platform, Image Analysis, Data Mining, and Data Management Wanneng Yang, Hui …

54、Leaf hydraulic maze; Differential effect of ABA on vascular bundle-sheath, palisade, and spongy mesophyll controlling hydraulic conductance

55、Role of guard-cell ABA in determining steady-state stomatal aperture and prompt vapor-pressure-deficit response

56、Examination of Plant Physiological Monitoring Alongside in-Vivo Four-Point-Probe Impedance Spectroscopy of Live Tobacco Plants

Coupled functional physiological phenoty** and simulation model to estimate dynamic water use efficiency and infer transpiration sensitivity traits

57、 Tomato Yellow Leaf Curl Virus (TYLCV) Promotes Plant Tolerance to Drought. Cells 2021, 10, 2875

58、Functional physiological phenoty** and transcriptome analysis provide new insight into strawberry growth and water consumption

59、Salt tolerance strategies of the ancient Andean crop quinoa

60、Role of guard-cell ABA in determining maximal stomatal aperture and prompt vapor-pressure-deficit response

61、A tale of two pumps: Blue light and ABA alter Arabidopsis leaf hydraulics via bundle sheath cells' H+-pumps and channels

62、5 Allele Mining in Cowpea (Vigna