Handy PEANövény hatékonysági elemző

A klorofil teljes mérésének képességeOJIPFolyamatos stimulált fluorescáns indukált dinamikai görbék

Fő alkalmazási terület:

Növényfiziológia, növényökológia, agrárművészet, kertészet, erdészet, környezettudomány, növénypatológia, algábiológia és egyéb területek.

Megmérési paraméterek:

Új szoftver közvetlenül kiszámíthatóF_o，F_m，F_v，F_v/F_m，F_t，F_J，F_I，F_P，T_m, ψ_o， φ_Eo， φ_Do，V_t，V_J，WK，PI_ABS，PI_CS，ABS/RC，TRo/RC，ETo/RC，DIo/RC，RC/CSo，RC/CS_MVárjon ötven klorofil fluorescencia paramétereket. A klorofil fluorescencia indukált dinamikai görbe gyors fázisú részének pontos rögzítése másodpercenként folyamatos rögzítése10millió fluorescencia nyom adatok, a1A klorofil teljes mérése másodpercen belülOJIPFluorescencia indukált dinamikai görbe.

Új klorofil fluorescencia elmélet értelmezése

Handy PEAA növény hatékonyságának elemzése a klorofil fluorescánsméter egyfajta, amely a folyamatos stimulációs fluorescánsméterhez tartozik.Handy PEAIgen.PEAA növényi hatékonysági elemző sorozat eszközei erőteljesek, közepes árak, a hazai felhasználók száma nagyon nagy.

A hagyományos impulzusmodulált fluorescánsokkal ellentétben,Handy PEANagy időfelbontású, akár nagy felbontású10⁵pontosan rögzíthető.O-J-I-PGyors klorofil fluorescencia indukciós dinamikai görbék eszköze. Szinte minden növény99%(a)OJIPA görbe lehet1Pontos mérés másodpercen belül.OJIPA görbe adatelemzés használata alapjánJIP-TestAz elemzési módszer, amelyPEAA növényi hatékonysági elemzők alapítójaStrasserprofesszor létrehozása.

keresztülOJIPKörbe tudjuk pontosan elemezni a fotoszintézis rendszer ellentétes körülmények között sérült? Melyik része sérült? Mennyire sérült? A károsodások mennyiségi és minőségi elemzése is lehetséges.

Eszköz feltalálóStrasserA professzor profilja:

R．T．StrasserSvájci Genfi Egyetem professzora, a nemzetközi tiltott szótár fotoszintézis kutatási szakértője, a Genfi Egyetem Bioenergia és Mikrobiológia Főbb Laboratóriumának igazgatója, az ENSZ Földközi-tengeri Sivatagi Vegetáció Felújítási Programjának értékelő szakértője, főleg a fotoszintézis és a fotoszintézis szimulációs kutatásával foglalkozik.

Általános fluorescánsméterek magasabb szintű növények, algák

5. ábra Handy PEA szondák magas szintű növényekhez 6. ábra Handy PEA szondák algámintákhoz

Handy PEANövény hatékonysági elemző, magas színvonalú növényi szondval, nagyon kényelmes lapokO-J-I-PGyors klorofil fluorescencia indukált dinamikai görbe meghatározása, az algák minta szondával is rendelkezhető, hogy meghatározza az algákOJIPA görbe.

A magasabb szintű növények szonda mérésének meghatározása nem befolyásolja a levelek területét,HPEA/LCSötét adaptációs csatlakozó (lap csatlakozó), meghatározott átmérője4mmKevesebb, mint4mmnövényi levelek,Handy PEAAz adatok szabványosítása nem befolyásolja az adatok pontosságát.

Alga-minta-szondák meghatározásaHPEA/LPA2Nagyon magas felbontású, nagyon alacsony algáminták pontos mérést végezhetnek, mint például a szilikon algák, amelyek szinte megkülönböztethetetlenek a puszta szemmel.OJIPA görbe.

Szuper hordozható felhasználói élmény

7. ábra Kiváló hordozhatóságú Handy PEA terepi méréshez

Handy PEANövény hatékonysági elemző teljes berendezések elégtelen súly1kgVannak hátszalagok, könnyű a terepi műveletek, még a női kutatók is elvégezhetik az összes műveletet egyedül.

Gyors mérési adatok, műszerek szabványosítása20Sötét adapter (6gLegalább egyszer lehet20A minta sötét adaptációs kezelése, a minta időtartamának meghatározása2sBalra és jobbra. Rengeteg mérést lehet elvégezni rendkívül rövid idő alatt, és nagy mennyiségű értékes adatot lehet megszerezni. A Big Data korában,Handy PEATovábbra is megmutatja erős funkcióját.

Hatékony szoftver

8. ábra Barát Handy PEA szoftver felület

A szoftver barát felület, egyszerű kezelés, szűrő funkcióval rendelkezik, a nagy adatok korában a kiváló fajták és ellenálló fajták szűrésére használható. Csoportosítás, osztályozás, átlag, szabályozás stb.

Erős értékesítés utáni szolgáltatási csapat

Az összes értékesítés utáni szerviz mérnökök vezetett Dr. Camellia mesterképzéssel és magasabb, és van kísérletek a műszer3Több mint éves háborús tapasztalat.

Az értékesítés utáni szolgáltatások mind elméleti előadásokat nyújthatnak a műszerről, mind a műszer használata során előforduló hibákra és elkerülhető megoldásokra specializálódhatnak, sok értékes tapasztalatot is bemutathatnak, vagy megvalósíthatják a felhasználók meglévő anyagait, adatelemzést végezhetnek, hogy segítsenek a felhasználóknak rövid idő alatt a műszert tudományos kutatásra.

Hatalmas mennyiségű irodalmi támogatás (a szókincs letiltása az új irodalom kérjük, nézze meg a WeChat nyilvános számát "Lufthansa Technology Group")

2015év

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Sárga ősz,Zhao Szun,Liu Chunmei,Várj!. Árnyékkezelés hatása a vasfarok bázisa, a gyors klorofil fluorescencia tulajdonságai[J].林 ipari osztály Tanulás, 2015, 51(6).

Tenger védelme,Masukje,Kirin,Várj!. Na^+Az aszály okozta pamutlap fotoszintézis rendszerkárosodásának felszívódásának enyhítő hatása[J].Ökológiai újság, 2015, 35(19): 6549-6556.

Liu Yan Yan,Shaoxi tenger,Liu Deming,Várj!. A cukorbin hatása a rézzöld mikrokiszta növekedésére és a fotoszintézis rendszerére[J].Vízbiológiai újság, 2015, 39(1): 149-154.

Lu három,Duguo épület,Liu Zhijun,Várj!. A fűborítás hatása az almalap mikroszerkezetére és a fényrendszer működésére[J].Kína mezőgazdasági tudománya, 2015, 48(1): 130-139.

Zilin,Mana,Wu Wenwen,Várj!. Fiziológiai válasz és árvíz-ellenállás értékelése a fűfajták árvíz-nyomásra[J].Kertészeti újság, 2015, 42(7): 1273-1284.

Jücseng,Fehér,Fizetni tavaszi,Várj!. A gyökér területi víztárolási szabályozás hatása az almalap fotoszintézis tulajdonságaira és az antioxidans aktivitásra[J].Kertészeti újság, 2015, 42(5): 817-825.

Yangon,Zhao Shijie,Xu Hua Ling,Várj!. A sónyomás hatása a különböző sokszoros arany és ezüst virág fotoszintézis tulajdonságaira[J].Kína mezőgazdasági tudománya, 2015, 48(16): 3275-3286.

Yang,Csen Kó,Jú Jing. A kalcium alkalmazásának hatása a leprásfák növekedésére és a biológiai biokémiai hatására a sztroncium nyomása alatt[J].Nukleáris mezőgazdasági újság, 2015, 29(2): 405-411.

2016év

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.

Checovich M L, Galatro A, Moriconi J I, et al. The stay-green phenotype of TaNAM-RNAi wheat plants is associated with maintenance of chloroplast structure and high enzymatic antioxidant activity[J]. Plant Physiology and Biochemistry, 2016, 104: 257-265.

Chen B, Wang Y. Proteomic and Physiological Studies Provide Insight into Photosynthetic Response of Rice (Oryza sativa L.) Seedlings to Microgravity[J]. Photochemistry and photobiology, 2016, 92(4): 561-570.

Cocetta G, Francini A, Trivellini A, et al. Effect of washing treatments on chlorophyll a fluorescence and vitamin C content in minimally processed lamb’s lettuce during storage[J]. AGROCHIMICA, 2016, 60(1): 1-14.

Cocozza C, de Miguel M, Pšidová E, et al. Variation in Ecophysiological Traits and Drought Tolerance of Beech (Fagus sylvatica L.) Seedlings from Different Populations[J]. Frontiers in Plant Science, 2016, 7.

Dana S, Herdean A, Lundin B, et al. Each of the chloroplast potassium efflux antiporters affects photosynthesis and growth of fully developed Arabidopsis rosettes under short‐day photoperiod[J]. Physiologia plantarum, 2016, 158(4): 483-491.

El-Mahrouk M E, Dewir Y H, Murthy H N, et al. Effect of photosynthetic photon flux density on growth, photosynthetic competence and antioxidant enzymes activity during ex vitro acclimatization of Dieffenbachia cultivars[J]. Plant growth regulation, 2016, 79(1): 29-37.

Farias M E, Martinazzo E G, Bacarin M A. Chlorophyll fluorescence in the evaluation of photosynthetic electron transport chain inhibitors in the pea[J]. Revista Ci ência Agronundefinedocirc; mica, 2016, 47(1): 178-186.

Faseela P, Puthur J T. Chlorophyll a fluorescence changes in response to short and long term high light stress in rice seedlings[J]. Indian Journal of Plant Physiology, 2016: 1-4.

Guo J, Xu W, Yu X, et al. Cuticular wax accumulation is associated with drought tolerance in wheat near-isogenic lines[J]. Frontiers in Plant Science, 2016, 7.

Guo R, Lim W A, Ki J S. Genome-wide analysis of transcription and photosynthesis inhibition in the harmful dinoflagellate Prorocentrum minimum in response to the biocide copper sulfate[J]. Harmful Algae, 2016, 57: 27-38.

Gururani M A, Ganesan M, Song I J, et al. Transgenic turfgrasses expressing hyperactive Ser599Ala Phytochrome A mutant exhibit abiotic stress tolerance[J]. Journal of plant growth regulation, 2016, 35(1): 11-21.

HABIBI G. Effect of foliar-applied silicon on photochemistry, antioxidant capacity and growth in maize plants subjected to chilling stress[J]. Acta agriculturae Slovenica, 2016, 107(1): 33-43.

Heliopoulos N S, Galeou A, Papageorgiou S K, et al. Modified in situ antimicrobial susceptibility testing method based on cyanobacteria chlorophyll a fluorescence[J]. Journal of microbiological methods, 2016, 121: 1-4.

Holland V, Fragner L, Jungcurt T, et al. Girdling interruption between source and sink in Quercus pubescens does not trigger leaf senescence[J]. Photosynthetica, 2016, 54(4): 589-597.

Holland V, Koller S, Lukas S, et al. Drought-and frost-induced accumulation of soluble carbohydrates during accelerated senescence in Quercus pubescens[J]. Trees, 2016, 30(1): 215-226.

Hosseinzadeh S R, Amiri H, Ismaili A. Effect of vermicompost fertilizer on photosynthetic characteristics of chickpea (Cicer arietinum L.) under drought stress[J]. Photosynthetica, 2016, 54(1): 87-92.

Hü ther C M, Martinazzo E G, Rombaldi C V, et al. Effects of flooding stress in ‘Micro-Tom’tomato plants transformed with different levels of mitochondrial sHSP23. 6[J]. Brazilian Journal of Biology, 2016 (AHEAD): 0-0.

Hwang J S, Choo Y S. Solute patterns and diurnal variation of photosynthesis and chlorophyll fluorescence in Korean coastal sand dune plants[J]. Photosynthetica, 1-14.

Jisha K C, Puthur J T. Seed priming with BABA (β-amino butyric acid): a cost-effective method of abiotic stress tolerance in Vigna radiata (L.) Wilczek[J]. Protoplasma, 2016, 253(2): 277-289.

Jisha K C, Puthur J T. Seed Priming with Beta-Amino Butyric Acid Improves Abiotic Stress Tolerance in Rice Seedlings[J]. Rice Science, 2016, 23(5): 242-254.

Jurczyk B, Pociecha E, Kościelniak J, et al. Different photosynthetic acclimation mechanisms are activated under waterlogging in two contrasting Lolium perenne genotypes[J]. Functional Plant Biology, 2016, 43(10): 931-938.

Karimi H R, Nasrolahpour-Moghadam S. Study of sex-related differences in growth indices and eco-physiological parameters of pistachio seedlings (Pistacia vera cv. Badami-Riz-e-Zarand) under salinity stress[J]. Scientia Horticulturae, 2016, 202: 165-172.

Karlsons A, Osvalde A, Andersone-Ozola U, et al. Vermicompost from municipal sewage sludge affects growth and mineral nutrition of winter rye (Secale cereale) plants[J]. Journal of Plant Nutrition, 2016, 39(6): 765-780.

Kim Y H, Kim M D, Park S C, et al. Transgenic potato plants expressing the cold‐inducible transcription factor SCOF‐1 display enhanced tolerance to freezing stress[J]. Plant Breeding, 2016, 135(4): 513-518.

Kulundžić A M, Kovač ević J, Vuletić M V, et al. Impact of abiotic stress on photosynthetic efficiency and leaf temperature in sunflower[J]. Poljoprivreda (Osijek), 2016, 22(2): 17-22.

Kulundžić A M, Vuletić M V, Jocić S, et al. Effect of different soil water content effect on genotype expession in photosynthetic efficiency and leaf temperature in sunflower[J]. Genetika-Belgrade, 2016, 48(3): 971-982.

Kumar A, Singh M, Verma K K. Fluoride Inhibits Root Water Transport and Affects Morpho-Physio-Biochemical Characteristics in Guar (Cyamopsis tetragonoloba)[J]. Indian Journal of Agricultural Biochemistry, 2016, 29(2): 227-230.

Kumar A, Singh M, Verma K K. Phytotoxicity of Fluoride in Guar (Cyamopsis tetragonoloba) Cultivars and its Effect on Morpho-Physiological and Biochemical Traits[J]. Indian Journal of Agricultural Biochemistry, 2016, 29(2): 219-223.

Le T B, Truong Q B. Quick assessment of the invasiveness of non‐native plant species by using eco‐physiological parameters in Tram Chim National Park, Vietnam[J]. Weed Biology and Management, 2016, 16(4): 177-185.

Leplat F, Jensen J, Madsen P. Genomic Prediction of Manganese Efficiency in Winter Barley[J]. The Plant Genome, 2016, 9(2).

LI C, LI H, LIU Q, et al. Comparison of root development and fluorescent physiological characteristics of sweet potato exposure to drought stress in different growth stages[J]. 2016.

Li H, Liu J, Zhang L, et al. Antioxidant responses and photosynthetic behaviors of Kappaphycus alvarezii and Kappaphycus striatum (Rhodophyta, Solieriaceae) during low temperature stress[J]. Botanical Studies, 2016, 57(1): 21.

Li L, Li X Y, Zeng F J, et al. Chlorophyll a fluorescence of typical desert plant Alhagi sparsifolia Shap. at two light levels[J]. Photosynthetica, 2016, 54(3): 351-358.

Li M F, Guo S J, Yang X H, et al. Exogenous gamma-aminobutyric acid increases salt tolerance of wheat by improving photosynthesis and enhancing activities of antioxidant enzymes[J]. Biologia plantarum, 2016, 60(1): 123-131.

Li X, Jiang D, Liu F. Winter soil warming exacerbates the impacts of spring low temperature stress on wheat[J]. Journal of Agronomy and Crop Science, 2016, 202(6): 554-563.

Li X, Tan D X, Jiang D, et al. Melatonin enhances cold tolerance in drought‐primed wild‐type and abscisic acid‐deficient mutant barley[J]. Journal of pineal research, 2016, 61(3): 328-339.

Li Z K, Dai G Z, Juneau P, et al. Capsular polysaccharides facilitate enhanced iron acquisition by the colonial cyanobacterium Microcystis sp. isolated from a freshwater lake[J]. Journal of phycology, 2016, 52(1): 105-115.

Linkosalo T, el-Khouri H, Mundefinedauml; kipundefinedauml; undefinedauml; R, et al. Increased atmospheric CO2 concentration enhances the development of photosynthetic capacity beyond the temperature effect for silver birch in simulated future climate[J]. Scandinavian Journal of Forest Research, 2016: 1-7.

Liu B, Lei C, Jin J, et al. Physiological responses of two moss species to the combined stress of water deficit and elevated N deposition (II): Carbon and nitrogen metabolism[J]. Ecology and Evolution, 2016, 6(21): 7596-7609.

Manzari Tavakkoli M, Roosta H R, Hamidpour M. Effects of Alkali Stress and Growing Media on Growth and Physiological Characteristics of Gerbera Plants[J]. Journal of Agricultural Science and Technology, 2016, 18(2): 453-466.

Masabni J, Sun Y, Niu G, et al. Shade Effect on Growth and Productivity of Tomato and Chili Pepper[J]. HortTechnology, 2016, 26(3): 344-350.

Matorin D N, Protopopov F F, Sadvakasova A K, et al. Estimation of biophysical characteristics for Chlamydomonas reinhardtii pigment mutants with an M-PEA-2 fluorometer[J]. Biophysics, 2016, 61(4): 606-613.

Matysiak B, Gabryszewska E. The effect of in vitro culture conditions on the pattern of maximum photochemical efficiency of photosystem II during acclimatisation of Helleborus niger[J]. Plant Cell, Tissue and Organ Culture (PCTOC), 2016, 125(3): 585-593.

Mechora Š, Čalasan A Ž, Felicijan M, et al. The impact of selenium treatment on some physiological and antioxidant properties of Apium repens[J]. Aquatic Botany, 2016.

Meng L L, Song J F, Wen J, et al. Effects of drought stress on fluorescence characteristics of photosystem II in leaves of Plectranthus scutellarioides[J]. Photosynthetica, 2016, 54(3): 414-421.

Michel-Lopez C Y, Espadas-Gil F, Fuentes-Ortiz G, et al. Bioaccumulation and changes in the photosynthetic apparatus of Prosopis juliflora exposed to copper[J]. Botanical Sciences, 2016, 94(2): 323-330.

Mlinarić S, Dunić J A, Štolfa I, et al. High irradiation and increased temperature induce different strategies for competent photosynthesis in young and mature fig leaves[J]. South African Journal of Botany, 2016, 103: 25-31.

Mouradi M, Farissi M, Bouizgaren A, et al. Effects of water deficit on growth, nodulation and physiological and biochemical processes in Medicago sativa-rhizobia symbiotic association[J]. Arid Land Research and Management, 2016, 30(2): 193-208.

Muszyńska E, Hanus-Fajerska E. Evaluation of Scabiosa ochroleuca L. vitality after introduction on post-flotation wastes1[J]. Ochrona Srodowiska i Zasob ów Naturalnych, 2016, 27(1): 37-41.

Nam S H, An Y J. Paper-disc method: An efficient assay for evaluating metal toxicity to soil algae[J]. Environmental Pollution, 2016, 216: 1-8.

Oliwa J, Kornas A, Skoczowski A. Morphogenesis of sporotrophophyll leaves in Platycerium bifurcatum depends on the red/far-red ratio in the light spectrum[J]. Acta Physiologiae Plantarum, 2016, 38(10): 247.

Panigrahi S, Pradhan M K, Panda D K, et al. Diminution of photosynthesis in rice (Oryza sativa L.) seedlings under elevated CO2 concentration and increased temperature[J]. Photosynthetica, 2016, 54(3): 359-366.

Parihar S, Soni V. Biophysical characterization of drought tolerance in Wheat (Triticum aestivum L.) through polyphasic chlorophyll fluorescence OJIP analysis[J]. Biotechnological Research, 2016, 2(1): 48-52.

Pociecha E, Dziurka M, Oklestkova J, et al. Brassinosteroids increase winter survival of winter rye (Secale cereale L.) by affecting photosynthetic capacity and carbohydrate metabolism during the cold acclimation process[J]. Plant Growth Regulation, 2016, 80(2): 127-135.

Pociecha E, Rapacz M, Dziurka M, et al. Mechanisms involved in the regulation of photosynthetic efficiency and carbohydrate partitioning in response to low-and high-temperature flooding triggered in winter rye (Secale cereale) lines with distinct pink snow mold resistances[J]. Plant Physiology and Biochemistry, 2016, 104: 45-53.

Prasad R, Shabnam N, Pardha-Saradhi P. Immobilization on cotton cloth pieces is ideal for storage and conservation of microalgae[J]. Algal Research, 2016, 20: 172-179.

Przybysz A, Wrochna M, Malecka-Przybysz M, et al. Enrichment of some leafy vegetables with magnesium[J]. Journal of Elementology, 2016, 21(3).

Reinert F, de Pinho C F, Ferreira M A. Diagnosing the level of stress on a mangrove species (Laguncularia racemosa) contaminated with oil: A necessary step for monitoring mangrove ecosystems[J]. Marine Pollution Bulletin, 2016, 113(1): 94-99.

Rihab B A, Sabrine B O, Lina C, et al. Cadmium effect on physiological responses of the tolerant Chlorophyta specie Picocystis sp. isolated from Tunisian wastewaters[J]. Environmental Science and Pollution Research, 2016: 1-8.

Robakowski P, Bielinis E, Stachowiak J, et al. Seasonal changes affect root prunasin concentration in Prunus serotina and override species interactions between P. serotina and Quercus petraea[J]. Journal of chemical ecology, 2016, 42(3): 202-214.

Salvatori E, Fusaro L, Manes F. Chlorophyll fluorescence for phenotyping drought-stressed trees in a mixed deciduous forest[J]. Annali di Botanica, 2016, 6: 39-49.

Soni V, Dwivedi A. Photoprotection, Phytosynthetic Plasticity and Antioxidant Activity under Drought Stress in Aloe barbadensis Miller[J]. Biotechnological Research, 2016, 2(3): 120-124.

Stamatakis K, Papageorgiou G C. Effects of exogenous β-carotene, a chemical scavenger of singlet oxygen, on the millisecond rise of chlorophyll a fluorescence of cyanobacterium Synechococcus sp. PCC 7942[J]. Photosynthesis research, 2016, 130(1-3): 317-324.

Sun Z W, Ren L K, Fan J W, et al. Salt response of photosynthetic electron transport system in wheat cultivars with contrasting tolerance[J]. Plant, Soil and Environment, 2016, 62(11): 515-521.

Thomson I S I. Sumitahnun Chunthaburee, Sujirat Sakuanrungsirikul, Teerawut Wongwarat, Jirawat Sanitchon, Wattana Pattanagul and Piyada Theerakulpisut[J]. Asian Journal of Plant Sciences, 2016, 15(3-4): 56-65.

Touloupakis E, Cicchi B, Benavides A M S, et al. Effect of high pH on growth of Synechocystis sp. PCC 6803 cultures and their contamination by golden algae (Poterioochromonas sp.)[J]. Applied microbiology and biotechnology, 2016, 100(3): 1333-1341.

Vannini A, Guarnieri M, Paoli L, et al. Bioaccumulation, physiological and ultrastructural effects of glyphosate in the lichen Xanthoria parietina (L.) Th. Fr[J]. Chemosphere, 2016, 164: 233-240.

Wang Y, Xu C, Wu M, et al. Characterization of photosynthetic performance during reproductive stage in high-yield hybrid rice LYPJ exposed to drought stress probed by chlorophyll a fluorescence transient[J]. Plant Growth Regulation, 1-11.

Wang Z X, Yang Y M, Xu P L, et al. Do Naturally Variegated Leaves have a High Photosynthetic Cost? The Case of (Rupr. & Maxim.) Maxim[J]. Agronomy Journal, 2016, 108(1): 407-414.

Wang Z, Li D, Cao X, et al. Photosynthetic characteristics and inferred changes in thylakoid membrane fluidity determine bloom succession between Anabaena[J]. Journal of Applied Phycology, 2016, 28(4): 2353-2365.

Wu Y, Zheng X J, Li Y. Photosynthetic response of desert plants to small rainfall events in the Junggar Basin, northwest China[J]. Photosynthetica, 2016, 54(1): 3-11.

Xiang L, Hu L, Xu W, et al. Exogenous γ-Aminobutyric Acid Improves the Structure and Function of Photosystem II in Muskmelon Seedlings Exposed to Salinity-Alkalinity Stress[J]. PloS one, 2016, 11(10): e0164847.

Xu T, Su C, Hu D, et al. Molecular distribution and toxicity assessment of praseodymium by Spirodela polyrrhiza[J]. Journal of hazardous materials, 2016, 312: 132-140.

Zanetti L V, Milanez C R D, Gama V N, et al. Leaf application of silicon in young cacao plants subjected to water deficit[J]. Pesquisa Agropecu ária Brasileira, 2016, 51(3): 215-223.

Zhang A O, Cui Z H, Yu J L, et al. Dissipation of excess excitation energy of the needle leaves in Pinus trees during cold winters[J]. International journal of biometeorology, 2016, 60(12): 1953-1960.

Zhao G, Xu H, Zhang P, et al. Effects of 2, 4-epibrassinolide on photosynthesis and Rubisco activase gene expression in Triticum aestivum L. seedlings under a combination of drought and heat stress[J]. Plant Growth Regulation, 1-8.

Zhao S, Ma Q, Xu X, et al. Tomato Jasmonic Acid-Deficient Mutant spr2 Seedling Response to Cadmium Stress[J]. Journal of Plant Growth Regulation, 2016, 35(3): 603-610.

Zhong Y, Li Y, Cheng J J. Effects of selenite on chlorophyll fluorescence, starch content and fatty acid in the duckweed Landoltia punctata[J]. Journal of plant research, 2016, 129(5): 997-1004.

Zhou X P, Xia L, Zhang D, et al. Effect of outdoor conditions on the growth and lipid accumulation of six green algae[J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2016, 38(1): 82-87.

Bihuan,Felkészült katonák,Liu Peibei,Várj!. CsRCAA hiperexpresszió hatása a magas hőmérsékletű nyomás alatt történő uborka fiatal fotoszintézisre[J].Alkalmazott ökológiai újság, 2016, 27(7): 2308-2314.

Chengdan,Sun Kemping,Főforrás,Várj!. Fény vagy sötét körülmények között a baktériumi fertőzés hatása a dohányfotoszintézis[J].Alkalmazott ökológiai újság, 2016, 27(8): 2655-2662.

Geng Qingwei,Xing Hao,Hao Guimei,Várj!. Idegen melatonin az ózon nyomás alatt A "vörös gyöngy" szőlőlevél fotoszintézis hatásai[J].Kertészeti újság, 2016, 43(8): 1463-1472.

Jia Xiaohui,Wang Wenhui,Tong Wei,Várj!. A spontán légkondicionált csomagolás hatása a Kühler körte gyűjtés utáni fiziológiára és tárolási minőségére[J].Kína mezőgazdasági tudománya, 2016, 49(24): 4785-4796.

Vénusz,Csak tanultam,Don Yongjin,Várj!. Az idegen bórsav hatása az uránnyomás következő négy évszakának a bab fiziológiájára és az urángazdagítására[J].Kína mezőgazdasági tájékoztató, 2016, 32(33): 175-181.

Li világos,Li Jó,Wang Kairong,Várj!. Cdkényszerítés alatt gyűrű a mogyoró növekedése,Fotofiziológia ésCdAbszorpciós hatások[J].Környezetvédelmi kémia, 2016, 35(11): 2344-2352.

Liu Csangqing,Semú,Zhao kard,Várj!. A klorofil fluorescencia-dinamika észleli a plastifikáló anyagok toxikus hatását a finom, éles algákra[J].Vízbiológiai újság, 2016, 40(3): 552-556.

Shaorexin,Lelei,Zheng Hoi Fang,Várj!. Az idegen nitrogén-oxid hatása az aszály nyomása alatt történő kukorica-fiatal fotoszintézisre[J].Kína mezőgazdasági tudománya, 2016, 49(2): 251-259.

Xu Fenfeng,Kovichong,Wang Aibin,Várj!. NaClElőfeldolgozás fotoszintézis fiziológiai mechanizmus enyhíti a kis káposzt magas hőmérsékletű nyomás[J].Ökológiai tudomány, 2016, 35(3): 161-164.

Xu Jingang,Lu Chuanggyűrű,Liu-li.,Várj!. Riz fotooxidációs mutánsok812HSFotoszintézis és antioxidáns tulajdonságok[J].Növénytudományi újság, 2016, 42(04): 574-582.

Xulan,Gao Csi Csang,Anwei,Várj!. Fotoszintézis tulajdonságai téli búza tavaszi ültetési körülmények között,A klorofil fluorescencia paramétereinek változása és a termeléshez való kapcsolata[J].Alkalmazott ökológiai újság, 2016, 27(1): 133-142.

Xu Wen,Shenhao,Guo 军,Várj!. A zászló levél viasztartalma különböző búza közeli génrendszerek szárazság ellenállása[J].Növénytudományi újság, 2016, 42(11): 1700-1707.

Xu Xinglin,Song Xi-kun,Yuri,Várj!. Nitrogén korlátozás a szilícium algák háromszög barna ujj algák fény rendszer Ⅱ A fotokémiai reakciók hatásai[J].Ökológiai magazin, 2016, 35(1): 183-188.

Yang Songqi,Szaohua,Wang Lijuan,Várj!. A sóalgák növekedése ésPSⅡ Válasz a különböző foszfor forrásokra[J]. Marine Sciences, 2016, 40(10): 1.

Zhang Jingzi,Szín gazdag,Hu Yuping,Várj!. A Shandong-félsziget part menti védelmi erdői inváziós növényeinek és kísérői fajainak növekedési versenyképességének összehasonlítása[J].林 ipari osztály Tanulás, 2016, 52(3).

Zhao Szénrong,Csangfan folyó,Zhangbo,Várj!. A sós kényszerítés hatása a teve szúró fiatal lapok tulajdonságaira[J].Főnövénytudomány, 2016, 33(9): 1770-1778.

Zhao Hó,Panting Ting,Biyong vörös,Várj!. A Nite-javasolt poli-metylklorofil fluorescenciaaktivitás a környezeti tényezőkre adott válasza[J].Vízbiológiai újság, 2016, 40(1): 116-122.

2017év

Alvarado-Sanabria O, Garcés-Varón G, Restrepo-Dí az H. Physiological Response of Rice Seedlings (Oryza sativa L.) Subjected to Different Periods of Two Night Temperatures[J]. Journal of Stress Physiology & Biochemistry, 2017, 13(1).

Amiri H, Ismaili A, Hosseinzadeh S R. Influence of Vermicompost Fertilizer and Water Deficit Stress on Morpho-Physiological Features of Chickpea (Cicer arietinum L. cv. karaj)[J]. Compost Science & Utilization, 2017: 1-14.

Bailey M F, Case A L, Caruso C M. Physiological effects of temperature do not explain prevalence of females in populations of gynodioecious Lobelia siphilitica growing in warmer climates[J]. American Journal of Botany, 2017, 104(3): 411-418.

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