Plant Efficiency Analyzer

Capable of fully measuring chlorophyllOJIPContinuous excitation fluorescence analyzer for fluorescence induced kinetic curve

Main application scope：

Fields such as plant physiology, plant ecology, agriculture, horticulture, forestry, environmental science, plant pathology, algal biology, etc.

Measurement parameters:

The new software can directly calculateFO，Fm，Fv，Fv/Fm，Ft，FJ，FI，FP，Tm, ψO， φEo， φDo，Vt，VJ，WK，PIABS，PICS，ABS/RC，TRO/RC，ETO/RC，DIO/RC，RC/CSO，RC/CSMWait for fifty chlorophyll fluorescence parameters. Accurately record the fast phase of the chlorophyll fluorescence induction kinetics curve, which can be continuously recorded every second10Ten thousand fluorescence trace data, in1Complete determination of chlorophyll within secondsOJIPFluorescence induced kinetic curve.

A New Interpretation of Chlorophyll Fluorescence Theory

Handy PEAPlant efficiency analysis is a type of chlorophyll fluorescence analyzer, which belongs to continuous excitation fluorescence analyzer.Handy PEAcorrectPEAThe plant efficiency analyzer series has powerful functions, moderate prices, and a very large number of domestic users.

Figure 1 Typical chlorophyll fluorescence induction kinetics curve Figure 2 Rapid chlorophyll fluorescence induction kinetics curve

Unlike traditional pulse modulated fluorescence meters,Handy PEAFeaturing ultra-high temporal resolution, with a resolution of up to10⁵It can accurately recordO-J-I-PInstrument for rapid chlorophyll fluorescence induction kinetics curve.OJIPThe curve can be1Complete accurate measurements within seconds.OJIPThe data analysis of curves is based onJIP-TestThe analysis method is developed byPEAFounder of Plant Efficiency AnalyzerStrasserProfessor created.

pass throughOJIPWe can accurately analyze whether the photosynthetic mechanism is damaged under adversity by analyzing the curve? Which part of the photosynthetic system is damaged? What is the extent of the injury? It can be used for both qualitative analysis and quantitative analysis of the degree of injury.

Instrument inventorStrasserProfessor Introduction:

Figure 3 Professor Strasser at Work Figure 4 Professor Strasser Invited to Guide User Experiments at Lufthansa Technology Group

R．T．StrasserHe is a professor at the University of Geneva in Switzerland, an internationally renowned expert in photosynthesis research, and the director of the Key Laboratory of Bioenergy and Microbiology at the University of Geneva. He is also a member of the evaluation expert team for the United Nations Mediterranean Desert Vegetation Restoration Project, mainly engaged in photosynthesis and photosynthetic simulation research.

Fluorescent instrument commonly used for higher plants and algae

Figure 5 Handy PEA probe for higher plants Figure 6 Handy PEA probe for algae samples

Handy PEAPlant efficiency analyzer, equipped with advanced plant probes as standard, very convenient for leaf analysisO-J-I-PRapid determination of chlorophyll fluorescence induction kinetics curve, and optional algae sample probe can also be used to measure the activity of algaeOJIPCurve.

The probe for measuring higher plants is not affected by leaf area,HPEA/LCDark adaptation clip (leaf clip), with a measured diameter of4mmFor less than4mmThe leaves of plants,Handy PEAProcessing through data standardization does not affect the accuracy of the data.

Sample probe for measuring algaeHPEA/LPA2With extremely high resolution, accurate measurements can be made on very low algae samples, such as diatoms, which can be determined completely and accurately even when their presence is almost indistinguishable to the naked eyeOJIPCurve.

Portable user experience

Figure 7 Handy PEA with excellent portability for field testing

Handy PEAInsufficient weight of the complete set of equipment for plant efficiency analyzer1kgWith straps, it is convenient for field operations, even female researchers can complete all operations alone.

Fast data measurement, standard equipment20A dark adaptation clip（6g）It can be done at least once20The dark adaptation treatment of a sample, measuring the time of a sample2sabout. It can complete a large number of measurements in a very short period of time and obtain a wealth of valuable data. In the era of big data,Handy PEAIt will inevitably further demonstrate its powerful functionality.

Powerful software with powerful functions

Figure 8 Friendly Handy PEA software interface

The software interface is user-friendly, easy to operate, and has a filtering function, which can be used for screening excellent and resistant varieties in the era of big data. Conduct analysis such as grouping, classification, averaging, and regularity.

Powerful after-sales service team

All the after-sales service engineers led by Dr. Luo Bing have a master's degree or above and are capable of using the instrument for experiments3More than years of practical experience.

After sales service can provide theoretical lectures on instruments, as well as specialized introductions to possible errors and avoidance solutions during instrument use. It can also introduce a wealth of valuable experience or test existing materials of users for data analysis, helping users to use instruments for scientific research work in a short period of time.

Abundant literature support

2015year

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ATALA C, SCHNEIDER C, BRAVO G, et al. Diferencias anatómicas, fisiológicas y químicas entre poblaciones de Pseudocyphellaria flavicans (Hook. f. & Taylor) Vain. de Chile[J]. Gayana. Botánica, 2015, 72(1): 21-26.

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Hasanpour Z, Karimi H R, Mirdehghan S H. Effects of salinity and water stress on echophysiological parameters and micronutrients concentration of pomegranate (Punica granatum L.)[J]. Journal of Plant Nutrition, 2015, 38(5): 795-807.

He M, Li L, Liu J, et al. Improvement of H 2 photoproduction in Chlorella pyrenoidosa in artificial and natural seawater by addition of acetic acid and control of nutrients[J]. Algal Research, 2015, 10: 104-109.

Heliopoulos N S, Galeou A, Papageorgiou S K, et al. An in situ antimicrobial susceptibility testing method based on in vivo measurements of chlorophyll α fluorescence[J]. Journal of microbiological methods, 2015, 112: 49-54.

Hu Y, Wu Q, Sprague S A, et al. Tomato expressing Arabidopsis glutaredoxin gene AtGRXS17 confers tolerance to chilling stress via modulating cold responsive components[J]. Horticulture research, 2015, 2.

Hura T, Hura K, Ostrowska A, et al. Rapid plant rehydration initiates permanent and adverse changes in the photosynthetic apparatus of triticale[J]. Plant and Soil, 2015, 397(1-2): 127-145.

Janka E, Kundefinedouml; rner O, Rosenqvist E, et al. Using the quantum yields of photosystem II and the rate of net photosynthesis to monitor high irradiance and temperature stress in chrysanthemum (Dendranthema grandiflora)[J]. Plant Physiology and Biochemistry, 2015, 90: 14-22.

Jiménez-Arias D, Pérez J A, Luis J C, et al. Treating seeds in menadione sodium bisulphite primes salt tolerance in Arabidopsis by inducing an earlier plant adaptation[J]. Environmental and experimental botany, 2015, 109: 23-30.

Jurczyk B, Rapacz M, Krępski T. Photosynthetic Apparatus Responses to Short‐term low‐temperature Flooding May Contribute to Freezing Tolerance Changes in Forage Grasses[J]. Journal of Agronomy and Crop Science, 2015, 201(1): 49-56.

Ke Q, Wang Z, Ji C Y, et al. Transgenic poplar expressing Arabidopsis YUCCA6 exhibits auxin-overproduction phenotypes and increased tolerance to abiotic stress[J]. Plant Physiology and Biochemistry, 2015, 94: 19-27.

Khoshbakht D, Asgharei M R. Influence of foliar-applied salicylic acid on growth, gas-exchange characteristics, and chlorophyll fluorescence in citrus under saline conditions[J]. Photosynthetica, 2015, 53(3): 410-418.

Kumar D, Verma P, Singh B P. Variation in antioxidant status and productivity in andigena potato clones[J]. Indian Journal of Plant Physiology, 2015, 20(1): 23-30.

Kumar P, Rouphael Y, Cardarelli M, et al. Effect of nickel and grafting combination on yield, fruit quality, antioxidative enzyme activities, lipid peroxidation, and mineral composition of tomato[J]. Journal of Plant Nutrition and Soil Science, 2015, 178(6): 848-860.

Kumar S, Singh M. Effect of fluoride contaminated irrigation water on eco-physiology, biomass and yield in Gossypium hirsutum L[J]. Trop Plant Res, 2015, 2(2): 134-142.

Lan S, Wu L, Zhang D, et al. Effects of light and temperature on open cultivation of desert cyanobacterium Microcoleus vaginatus[J]. Bioresource technology, 2015, 182: 144-150.

Li X, Cai J, Liu F, et al. Wheat plants exposed to winter warming are more susceptible to low temperature stress in the spring[J]. Plant Growth Regulation, 2015, 77(1): 11-19.

Li X, Hao C, Zhong J, et al. Mechano-stimulated modifications in the chloroplast antioxidant system and proteome changes are associated with cold response in wheat[J]. BMC plant biology, 2015, 15(1): 219.

Li X, Topbjerg H B, Jiang D, et al. Drought priming at vegetative stage improves the antioxidant capacity and photosynthesis performance of wheat exposed to a short-term low temperature stress at jointing stage[J]. Plant and soil, 2015, 393(1-2): 307-318.

Li Y, Mattson N S. Effects of seaweed extract application rate and method on post-production life of petunia and tomato transplants[J]. HortTechnology, 2015, 25(4): 505-510.

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Liu R, Ran X, Bai F, et al. Use of chlorophyll a fluorescence to elucidate the toxicity target of N-phenyl-2-naphthylamine on photosynthetic system of Cylindrospermopsis raciborskii (Cyanobacteria)[J]. Phycologia, 2015, 54(1): 12-19.

Lu L, Wu Y, Ding H, et al. The combined and second exposure effect of copper (II) and chlortetracycline on fresh water algae, Chlorella pyrenoidosa and Microcystis aeruginosa[J]. Environmental toxicology and pharmacology, 2015, 40(1): 140-148.

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Mirabdulbaghi M. The physiological and chemical response of stone fruit rootstocks (Prunus L.) to sulphur application under two different soil textures[J]. International Journal of Plant Physiology and Biochemistry, 2015, 7(2): 23-29.

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Santiago E F, Larentis T C, Barbosa V M, et al. Can the chlorophyll-a fluorescence be useful in identifying acclimated young plants from two populations of Cecropia pachystachya Trec.(Urticaceae), under elevated CO2 concentrations? [J]. Journal of fluorescence, 2015, 25(1): 49-57.

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Sedaghati N, Hokmabadi H. Optimizing Pistachio Irrigation Management Using the Relationship between Echo-physiological Characteristics and Water Stress[J]. Journal of Agricultural Science and Technology, 2015, 17(1): 189-200.

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Shabnam N, Sharmila P, Sharma A, et al. Mitochondrial electron transport protects floating leaves of long leaf pondweed (Potamogeton nodosus Poir) against photoinhibition: comparison with submerged leaves[J]. Photosynthesis research, 2015, 125(1-2): 305-319.

Sharma D K, Andersen S B, Ottosen C O, et al. Wheat cultivars selected for high Fv/Fm under heat stress maintain high photosynthesis, total chlorophyll, stomatal conductance, transpiration and dry matter[J]. Physiologia plantarum, 2015, 153(2): 284-298.

Špulák O, Martincová J. The influence of the method of silver fir growing and nutrition on sprouting and chlorophyll fluorescence during spring[J]. J. For. Sci, 2015, 61(2): 80-88.

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Vannini A, Guarnieri M, Bačkor M, et al. Uptake and toxicity of glyphosate in the lichen Xanthoria parietina (L.) Th. Fr[J]. Ecotoxicology and environmental safety, 2015, 122: 193-197.

Viyachaia T, Abdullaha T L, Hassana S A, et al. Development of Cut Chrysanthemum Production in Two Soilless Systems[J]. Agriculture and Agricultural Science Procedia, 2015, 5: 115-121.

Wang X Y, Xu X M, Cui J. The importance of blue light for leaf area expansion, development of photosynthetic apparatus, and chloroplast ultrastructure of Cucumis sativus grown under weak light[J]. Photosynthetica, 2015, 53(2): 213-222.

Wang Y, Yu G, Li K, et al. Responses of photosynthetic properties and antioxidant enzymes in high-yield rice flag leaves to supplemental UV-B radiation during senescence stage[J]. Environmental Science and Pollution Research, 2015, 22(6): 4695-4705.

Warzecha T, Skrzypek E, Sutkowska A. Effect of Fusarium culmorum infection on selected physiological and biochemical parameters of barley (Hordeum vulgare L.) DH lines[J]. Physiological and Molecular Plant Pathology, 2015, 89: 62-69.

Yin Z, Qin Q, Wu F, et al. Quantitative trait locus mapping of chlorophyll a fluorescence parameters using a recombinant inbred line population in maize[J]. Euphytica, 2015, 205(1): 25-35.

Zamani N, Sabzalian M R, Khoshgoftarmanesh A, et al. Neotyphodium endophyte changes phytoextraction of zinc in Festuca arundinacea and Lolium perenne[J]. International journal of phytoremediation, 2015, 17(5): 456-463.

Zhang M, Shan Y J, Kochian L, et al. Photochemical properties in flag leaves of a super-high-yielding hybrid rice and a traditional hybrid rice (Oryza sativa L.) probed by chlorophyll a fluorescence transient[J]. Photosynthesis research, 2015, 126(2-3): 275-284.

Zhang R H, Zhang X H, Camberato J J, et al. Photosynthetic performance of maize hybrids to drought stress[J]. Russian Journal of Plant Physiology, 2015, 62(6): 788-796.

Zhori A, Meco M, Brandl H, et al. In situ chlorophyll fluorescence kinetics as a tool to quantify effects on photosynthesis in Euphorbia cyparissias by a parasitic infection of the rust fungus Uromyces pisi[J]. BMC research notes, 2015, 8(1): 698.

Zhou R, Yu X, Kjundefinedaelig; r K H, et al. Screening and validation of tomato genotypes under heat stress using F v/F m to reveal the physiological mechanism of heat tolerance[J]. Environmental and Experimental Botany, 2015, 118: 1-11.

Gao Jie,Zhang Renhe,Wang Wenbin,class. Drought stress on the leaf photosystem of maize seedlings Ⅱ Performance Impact[J].Journal of Applied Ecology, 2015, 26(5): 1391-1396.

Huang Qiuxian,Zhao Shun,Liu Chunmei,class. The effect of shading treatment on the rapid chlorophyll fluorescence characteristics of oak seedlings grown on iron tailings substrate[J].forest line of business a branch of academic or vocational study study, 2015, 51(6).

Jie Weihai,Ma Shujie,Qi Lin,class. Na^+The alleviating effect of absorption on the damage of photosynthetic system in cotton leaves caused by drought[J].Journal of Ecology, 2015, 35(19): 6549-6556.

Liu Yanyan,Shao Jihai,Liu Deming,class. The effect of Baiqu Cai Hong alkaline on the growth and photosynthetic system of Microcystis aeruginosa[J].Acta Hydrobiologica Sinica, 2015, 39(1): 149-154.

Lv Sansan,Du Guodong,Liu Zhikun,class. The effect of covering grass on the microstructure and photosystem function of apple leaves[J].Agricultural Sciences in China, 2015, 48(1): 130-139.

Qilin,Mana,Wu Wenwen,class. Physiological response and waterlogging tolerance evaluation of fig seedlings under waterlogging stress[J].Acta Horticulturae Sinica, 2015, 42(7): 1273-1284.

Yan Yujing,Bai Jian,Fu Chunxia,class. The effect of root zone water storage regulation on the photosynthetic characteristics and antioxidant enzyme activity of apple leaves[J].Acta Horticulturae Sinica, 2015, 42(5): 817-825.

Yan Kun,Zhao Shijie,Xu Hualing,class. The effect of salt stress on the photosynthetic characteristics of gold and silver with different ploidy levels[J].Agricultural Sciences in China, 2015, 48(16): 3275-3286.

Yang Ye,Chen Ke,Zhu Jing. Effects of Applying Calcium on the Growth and Physiological Biochemistry of Jatropha curcas under Strontium Stress[J].Journal of Nuclear Agriculture, 2015, 29(2): 405-411.

2016year

Abd El–Mageed T A, El-Sherif A M A, Ali M M, et al. Combined effect of deficit irrigation and potassium fertilizer on physiological response, plant water status and yield of soybean in calcareous soil[J]. Archives of Agronomy and Soil Science, 2016: 1-14.

Al-Absi K M, Archbold D D. Apple Tree Responses to Deficit Irrigation Combined with Periodic Applications of Particle Film or Abscisic Acid[J]. Horticulturae, 2016, 2(4): 16.

Ariani A, Francini A, Andreucci A, et al. Over-expression of AQUA1 in Populus alba Villafranca clone increases relative growth rate and water use efficiency, under Zn excess condition[J]. Plant cell reports, 2016, 35(2): 289-301.

Armand N, Amiri H, Ismaili A. Interaction of Methanol Spray and Water‐Deficit Stress on Photosynthesis and Biochemical Characteristics of Phaseolus vulgaris L. cv. Sadry[J]. Photochemistry and photobiology, 2016, 92(1): 102-110.

Bhar A, Gupta S, Chatterjee M, et al. Differential expressions of photosynthetic genes provide clues to the resistance mechanism during Fusarium oxysporum f. sp. ciceri race 1 (Foc1) infection in chickpea (Cicer arietinum L.)[J]. European Journal of Plant Pathology, 2016: 1-17.

Campestre M P, Castagno L N, Estrella M J, et al. Lotus japonicus plants of the Gifu B-129 ecotype subjected to alkaline stress improve their Fe 2+ bio-availability through inoculation with Pantoea eucalypti M91[J]. Journal of plant physiology, 2016, 192: 47-55.

Chalifour A, LeBlanc A, Sleno L, et al. Sensitivity of Scenedesmus obliquus and Microcystis aeruginosa to atrazine: effects of acclimation and mixed cultures, and their removal ability[J]. Ecotoxicology, 2016, 25(10): 1822-1831.

Che X, Zhang Z, Jin L, et al. Effect of Reducing Nitric Oxide in Rumex K-1 Leaves on the Photoprotection of Photosystem II Under High Temperature with Strong Light[J]. Journal of Plant Growth Regulation, 2016, 35(4): 1118-1125.

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