植物效率分析儀
能夠完整測(cè)定葉綠素OJIP熒光誘導(dǎo)動(dòng)力學(xué)曲線的連續(xù)激發(fā)式熒光儀
主要應(yīng)用范圍:
植物生理學(xué)、植物生態(tài)學(xué)、農(nóng)學(xué)、園藝學(xué)、林學(xué)、環(huán)境科學(xué)、植物病理學(xué)、藻類生物學(xué)等領(lǐng)域。
測(cè)定參數(shù):
全新軟件可直接計(jì)算出FO,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/CSM等五十個(gè)葉綠素?zé)晒鈪?shù)。準(zhǔn)確記錄葉綠素?zé)晒庹T導(dǎo)動(dòng)力學(xué)曲線的快相部分,每秒鐘可以連續(xù)記錄10萬次熒光蹤跡數(shù)據(jù),在1秒鐘內(nèi)完整測(cè)定葉綠素的OJIP熒光誘導(dǎo)動(dòng)力學(xué)曲線。
全新的葉綠素?zé)晒饫碚撛忈?/span>
Handy PEA植物效率分析是葉綠素?zé)晒鈨x的一種,屬于連續(xù)激發(fā)式熒光儀。Handy PEA是PEA植物效率分析儀系列儀器中功能強(qiáng)大,價(jià)格中等,國(guó)內(nèi)用戶數(shù)量非常龐大的。
圖1 典型的葉綠素?zé)晒庹T導(dǎo)動(dòng)力學(xué)曲線 圖2 快速葉綠素?zé)晒庹T導(dǎo)動(dòng)力學(xué)曲線
與傳統(tǒng)的脈沖調(diào)制式熒光儀不同,Handy PEA具有超高的時(shí)間分辨率,分辨率高達(dá)105,是能夠準(zhǔn)確記錄O-J-I-P快速葉綠素?zé)晒庹T導(dǎo)動(dòng)力學(xué)曲線的儀器。OJIP曲線可以在1秒鐘內(nèi)完成準(zhǔn)確測(cè)定。OJIP曲線的數(shù)據(jù)分析使用基于JIP-Test的分析方法,該方法由PEA植物效率分析儀的創(chuàng)始人Strasser教授創(chuàng)建。
通過OJIP曲線我們可以準(zhǔn)確的分析光合機(jī)構(gòu)在逆境下,是否受到傷害?光合機(jī)構(gòu)哪個(gè)部位受到傷害?受傷害的程度多大?既可以進(jìn)行定性分析,也可以對(duì)傷害程度進(jìn)行定量分析。
儀器發(fā)明人Strasser教授簡(jiǎn)介:
圖3 工作中的Strasser教授 圖4 Strasser教授受邀在漢莎科技集團(tuán)指導(dǎo)用戶實(shí)驗(yàn)
R.T.Strasser是瑞士日內(nèi)瓦大學(xué)教授,的光合作用研究專家,是日內(nèi)瓦大學(xué)生物能學(xué)和微生物學(xué)重點(diǎn)實(shí)驗(yàn)室的主任,地中海沙漠植被恢復(fù)項(xiàng)目評(píng)估專家組成成員,主要從事光合作用和光合模擬研究。
高等植物,藻類通用的熒光儀
圖5 用于高等植物的Handy PEA探頭 圖6 用于藻類樣品的Handy PEA探頭
Handy PEA植物效率分析儀,標(biāo)配高等植物探頭,非常方便的進(jìn)行葉片O-J-I-P快速葉綠素?zé)晒庹T導(dǎo)動(dòng)力學(xué)曲線的測(cè)定,也可以選配藻類樣品探頭,測(cè)定藻類的OJIP曲線。
測(cè)定高等植物的探頭測(cè)定不受葉面積的影響,HPEA/LC暗適應(yīng)夾(葉夾),測(cè)定直徑為4mm,對(duì)于小于4mm的植物葉片,Handy PEA通過數(shù)據(jù)標(biāo)準(zhǔn)化進(jìn)行處理,不影響數(shù)據(jù)的準(zhǔn)確性。
測(cè)定藻類的樣品探頭HPEA/LPA2具有*的分辨率,很低的藻類樣品即可進(jìn)行準(zhǔn)確的測(cè)定,如硅藻,在肉眼幾乎分辨不出存在的情況下,即可測(cè)定完整準(zhǔn)確的OJIP曲線。
便攜的用戶體驗(yàn)
圖7 便攜性優(yōu)異的Handy PEA用于田間測(cè)定
Handy PEA植物效率分析儀全套設(shè)備重量不足1kg,有背帶,方便進(jìn)行野外操作,即使是女科研人員也可以一個(gè)人完成所有的操作。
測(cè)定數(shù)據(jù)快速,儀器標(biāo)配20個(gè)暗適應(yīng)夾(6g),可以一次進(jìn)行不少于20個(gè)樣品的暗適應(yīng)處理,測(cè)定一個(gè)樣品的時(shí)間為2s左右。可以在極短的時(shí)間內(nèi)完成大量的測(cè)定,獲取大量的有價(jià)值的數(shù)據(jù)。在大數(shù)據(jù)時(shí)代,Handy PEA必然會(huì)進(jìn)一步體現(xiàn)出它的強(qiáng)大功能。
功能強(qiáng)大的軟件
圖 8 友好的Handy PEA軟件界面
軟件界面友好,操作簡(jiǎn)單,具有篩選的功能,可以在大數(shù)據(jù)時(shí)代,用于優(yōu)良品種、抗性品種的篩選。進(jìn)行分組、分類、平均、規(guī)律等分析。
強(qiáng)大的售后服務(wù)團(tuán)隊(duì)
在駱兵博士帶領(lǐng)的所有的售后服務(wù)工程師都具有碩士研究生及其以上學(xué)歷,并具有使用該儀器做實(shí)驗(yàn)3年以上的實(shí)戰(zhàn)經(jīng)驗(yàn)。
售后服務(wù)既可以提供儀器的理論講座,也可以專門介紹在儀器使用過程中可能出現(xiàn)的錯(cuò)誤及避免方案,還可以介紹大量的寶貴經(jīng)驗(yàn),或者實(shí)測(cè)用戶現(xiàn)有的材料,進(jìn)行數(shù)據(jù)分析,幫助用戶在短時(shí)間內(nèi)將儀器用于科研工作。
數(shù)量巨大的文獻(xiàn)支持
2015年
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2016年
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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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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.
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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 Ciência Agronundefinedocirc;mica, 2016, 47(1): 178-186.
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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.
Hüther 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.
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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.
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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.
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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.
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畢煥改, 董緒兵, 劉培培, 等. CsRCA超表達(dá)對(duì)高溫脅迫下黃瓜幼苗光合作用的影響[J]. 應(yīng)用生態(tài)學(xué)報(bào), 2016, 27(7): 2308-2314.
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李明亮, 李歡, 王凱榮, 等. Cd 脅迫下叢枝菌根對(duì)花生生長(zhǎng), 光合生理及 Cd 吸收的影響[J]. 環(huán)境化學(xué), 2016, 35(11): 2344-2352.
劉常青, 謝慕, 趙劍, 等. 葉綠素?zé)晒鈩?dòng)力學(xué)檢測(cè)塑化劑對(duì)尖細(xì)柵藻的毒性效應(yīng)[J]. 水生生物學(xué)報(bào), 2016, 40(3): 552-556.
邵瑞鑫, 李蕾蕾, 鄭會(huì)芳, 等. 外源一氧化氮對(duì)干旱脅迫下玉米幼苗光合作用的影響[J]. 中國(guó)農(nóng)業(yè)科學(xué), 2016, 49(2): 251-259.
徐芬芬, 柯維忠, 王愛斌, 等. NaCl 預(yù)處理緩解小白菜高溫脅迫的光合生理機(jī)制[J]. 生態(tài)科學(xué), 2016, 35(3): 161-164.
徐金剛, 呂川根, 劉莉, 等. 水稻光氧化突變體 812HS 的光合和抗氧化特性[J]. 作物學(xué)報(bào), 2016, 42(04): 574-582.
徐瀾, 高志強(qiáng), 安偉, 等. 冬麥春播條件下旗葉光合特性, 葉綠素?zé)晒鈪?shù)變化及其與產(chǎn)量的關(guān)系[J]. 應(yīng)用生態(tài)學(xué)報(bào), 2016, 27(1): 133-142.
徐文, 申浩, 郭軍, 等. 旗葉蠟質(zhì)含量不同小麥近等基因系的抗旱性[J]. 作物學(xué)報(bào), 2016, 42(11): 1700-1707.
徐興蓮, 宋熙坤, 岳瑞, 等. 氮限制對(duì)硅藻三角褐指藻光系統(tǒng) Ⅱ 光化學(xué)反應(yīng)的影響[J]. 生態(tài)學(xué)雜志, 2016, 35(1): 183-188.
楊宋琪, 史邵華, 王麗娟, 等. 杜氏鹽藻生長(zhǎng)及 PSⅡ 對(duì)不同磷源的響應(yīng)[J]. Marine Sciences, 2016, 40(10): 1.
張靖梓, 柏新富, 侯玉平, 等. 山東半島沿海防護(hù)林入侵植物美洲商陸及其伴生種生長(zhǎng)競(jìng)爭(zhēng)力的比較[J]. 林 業(yè) 科 學(xué), 2016, 52(3).
趙生龍, 曾凡江, 張波, 等. 鹽分脅迫對(duì)駱駝刺幼苗葉片性狀的影響[J]. 草業(yè)科學(xué), 2016, 33(9): 1770-1778.
趙雪, 潘婷婷, 畢永紅, 等. 倪氏擬多甲藻葉綠素?zé)晒饣钚詫?duì)環(huán)境因子的響應(yīng)[J]. 水生生物學(xué)報(bào), 2016, 40(1): 116-122.
2017年
Alvarado-Sanabria O, Garcés-Varón G, Restrepo-Díaz 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.
Ballesteros M, Ayerbe J, Casares M, et al. Successful lichen translocation on disturbed gypsum areas: A test with adhesives to promote the recovery of biological soil crusts[J]. Scientific Reports, 2017, 7.
Cambi M, Hoshika Y, Mariotti B, et al. Compaction by a forest machine affects soil quality and Quercus robur L. seedling performance in an experimental field[J]. Forest Ecology and Management, 2017, 384: 406-414.
Chakhchar A, Lamaoui M, Aissam S, et al. Using chlorophyll fluorescence, photosynthetic enzymes and pigment composition to discriminate drought-tolerant ecotypes of Argania spinosa[J]. Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology, 2017: 1-12.
Dąbrowski P, Kalaji M H, Baczewska A H, et al. Delayed chlorophyll a fluorescence, MR 820, and gas exchange changes in perennial ryegrass under salt stress[J]. Journal of Luminescence, 2017, 183: 322-333.
Essemine J, Xiao Y, Qu M, et al. Cyclic electron flow may provide some protection against PSII photoinhibition in rice (Oryza sativa L.) leaves under heat stress[J]. Journal of Plant Physiology, 2017, 211: 138-146.
Franić M, Galić V, Ledenčan T, et al. Changes of chlorophyll a fluorescence parameters in water limited maize IBM population[J]. 52. HRVATSKI I 12. MEĐUNARODNI SIMPOZIJ AGRONOMA, 2017: 208.
Franić M, Galić V, Mazur M, et al. Effects of excess cadmium in soil on JIP-test parameters, hydrogen peroxide content and antioxidant activity in two maize inbreds and their hybrid[J]. Photosynthetica, 1-10.
Ghosh R, Gururani M A, Ponpandian L N, et al. Expression Analysis of Sound Vibration-Regulated Genes by Touch Treatment in Arabidopsis[J]. Frontiers in Plant Science, 2017, 8.
Guida G, Sellami M H, Mistretta C, et al. Agronomical, physiological and fruit quality responses of two Italian long-storage tomato landraces under rain-fed and full irrigation conditions[J]. Agricultural Water Management, 2017, 180: 126-135.
Hemida K A, Eloufey A Z A, Seif El-Yazal M A, et al. Integrated effect of potassium humate and α-tocopherol applications on soil characteristics and performance of Phaseolus vulgaris plants grown on a saline soil[J]. Archives of Agronomy and Soil Science, 2017: 1-16.
Hura K, Ostrowska A, Dziurka K, et al. Photosynthetic apparatus activity in relation to high and low contents of cell wall-bound phenolics in triticale under drought stress[J]. Photosynthetica, 1-7.
Iori V, Pietrini F, Bianconi D, et al. Analysis of biometric, physiological, and biochemical traits to evaluate the cadmium phytoremediation ability of eucalypt plants under hydroponics[J]. iForest-Biogeosciences and Forestry, 2017, 10(2): 416.
Jin L, Che X, Zhang Z, et al. The mechanisms by which phenanthrene affects the photosynthetic apparatus of cucumber leaves[J]. Chemosphere, 2017, 168: 1498-1505.
Jung H, Chung P J, Park S H, et al. Overexpression of OsERF48 causes regulation of OsCML16, a calmodulin‐like protein gene that enhances root growth and drought tolerance[J]. Plant Biotechnology Journal, 2017.
Karimi H R, Nowrozy M. Effects of rootstock and scion on graft success and vegetative parameters of pomegranate[J]. Scientia Horticulturae, 2017, 214: 280-287.
Karimi H R, Tari F E. Effects of NaHCO3 on photosynthetic characteristics, and iron and sodium transfer in pomegranate[J]. Journal of Plant Nutrition, 2017, 40(1): 11-22.
Koutra E, Grammatikopoulos G, Kornaros M. Microalgal post-treatment of anaerobically digested agro-industrial wastes for nutrient removal and lipids production[J]. Bioresource Technology, 2017, 224: 473-480.
Lan S, Ouyang H, Wu L, et al. Biological soil crust community types differ in photosynthetic pigment composition, fluorescence and carbon fixation in Shapotou region of China[J]. Applied Soil Ecology, 2017, 111: 9-16.
Long A, Zhang J, Yang L T, et al. Effects of Low pH on Photosynthesis, Related Physiological Parameters, and Nutrient Profiles of Citrus[J]. Frontiers in Plant Science, 2017, 8.
Lu X F, Zhang H, Lyu S S, et al. Effects of exogenous phenolic acids on photosystem functions and photosynthetic electron transport rate in strawberry leaves[J]. Photosynthetica, 1-7.
Ma J, Lv C, Xu M, et al. Analysis of chlorophyll a fluorescence and proteomic differences of rice leaves in response to photooxidation[J]. Acta Physiologiae Plantarum, 2017, 39(2): 46.
Marriboina S, Sengupta D, Kumar S, et al. Physiological and molecular insights into the high salinity tolerance of Pongamia pinnata (L.) pierre, a potential biofuel tree species[J]. Plant Science, 2017, 258: 102-111.
Meng Z, Lu T, Zhang G, et al. Photosystem inhibition and protection in tomato leaves under low light[J]. Scientia Horticulturae, 2017, 217: 145-155.
Mirshad P P, Puthur J T. Drought tolerance of bioenergy grass Saccharum spontaneum L. enhanced by arbuscular mycorrhizae[J]. Rhizosphere, 2017, 3: 1-8.
Mirshad P P, Puthur J T. Drought tolerance of bioenergy grass Saccharum spontaneum L. enhanced by arbuscular mycorrhizae[J]. Rhizosphere, 2017, 3: 1-8.
Mlinarić S, Dunić J A, Babojelić M S, et al. Differential accumulation of photosynthetic proteins regulates diurnal photochemical adjustments of PSII in common fig (Ficus carica L.) leaves[J]. Journal of plant physiology, 2017, 209: 1-10.
Munzi S, Sheppard L J, Leith I D, et al. The cost of surviving nitrogen excess: energy and protein demand in the lichen Cladonia portentosa as revealed by proteomic analysis[J]. Planta, 2017: 1-15.
Nazos T T, Kokarakis E J, Ghanotakis D F. Metabolism of xenobiotics by Chlamydomonas reinhardtii: Phenol degradation under conditions affecting photosynthesis[J]. Photosynthesis Research, 2017, 131(1): 31-40.
Nikiforou C, Manetas Y. Ecological stress memory: Evidence in two out of seven species through the examination of the relationship between leaf fluctuating asymmetry and photosynthesis[J]. Ecological Indicators, 2017, 74: 530-534.
Nwoba E G, Moheimani N R, Ubi B E, et al. Macroalgae culture to treat anaerobic digestion piggery effluent (ADPE)[J]. Bioresource Technology, 2017, 227: 15-23.
Park J H, Jung S. Perturbations of carotenoid and tetrapyrrole biosynthetic pathways result in differential alterations in chloroplast function and plastid signaling[J]. Biochemical and Biophysical Research Communications, 2017, 482(4): 672-677.
Pokora W, Aksmann A, Baścik-Remisiewicz A, et al. Changes in nitric oxide/hydrogen peroxide content and cell cycle progression: Study with synchronized cultures of green alga Chlamydomonas reinhardtii[J]. Journal of Plant Physiology, 2017, 208: 84-93.
Pollastrini M, Nogales A G, Benavides R, et al. Tree diversity affects chlorophyll a fluorescence and other leaf traits of tree species in a boreal forest[J]. Tree Physiology, 2017, 37(2): 199-208.
Rajak J, Bawskar M, Rathod D, et al. Interaction of copper nanoparticles and an endophytic growth promoter Piriformospora indica with Cajanus cajan[J]. Journal of the Science of Food and Agriculture, 2017.
Roosta H R, Estaji A, Niknam F. Effect of iron, zinc and manganese shortage-induced change on photosynthetic pigments, some osmoregulators and chlorophyll fluorescence parameters in lettuce[J]. Photosynthetica, 1-10.
Rouphael Y, Cardarelli M, Bonini P, et al. Synergistic Action of a Microbial-based Biostimulant and a Plant Derived-Protein Hydrolysate Enhances Lettuce Tolerance to Alkalinity and Salinity[J]. Frontiers in Plant Science, 2017, 8.
Ruan Y, Li X, Wang Y, et al. Photoinhibition of Leaves with Different Photosynthetic Carbon Assimilation Characteristics in Maize (Zea mays)[J]. American Journal of Plant Sciences, 2017, 8(03): 328.
Rykaczewska K. Impact of heat and drought stresses on size and quality of the potato yield[J]. PLANT SOIL AND ENVIRONMENT, 2017, 63(1): 40-46.
Schwarz V, Andosch A, Geretschlundefinedauml;ger A, et al. Carbon starvation induces lipid degradation via autophagy in the model alga Micrasterias[J]. Journal of Plant Physiology, 2017, 208: 115-127.
Sen P, Ghosh S, Sarkar S N, et al. Pyramiding of three C4 specific genes towards yield enhancement in rice[J]. Plant Cell, Tissue and Organ Culture (PCTOC), 2017, 128(1): 145-160.
Shabnam N, Sharmila P, Pardha-Saradhi P. Impact of ionic and nanoparticle speciation states of silver on light harnessing photosynthetic events in Spirodela polyrhiza[J]. International Journal of Phytoremediation, 2017, 19(1): 80-86.
Sharma C, Mathur S, Tomar R S, et al. Investigating role of Triton X-100 in ameliorating deleterious effects of anthracene in wheat plants[J]. Photosynthetica, 1-8.
Wang R, Diao P, Chen Q, et al. Identification of novel pathways for biodegradation of bisphenol A by the green alga Desmodesmus sp. WR1, combined with mechanistic analysis at the transcriptome level[J]. Chemical Engineering Journal, 2017.
Wang Y, Xu C, Zhang B, et al. Physiological and proteomic analysis of rice (Oryza sativa L.) in flag leaf during flowering stage and milk stage under drought stress[J]. Plant Growth Regulation, 2017: 1-18.
Wei D, Zhang W, Wang C, et al. Genetic engineering of the biosynthesis of glycinebetaine leads to alleviate salt-induced potassium efflux and enhances salt tolerance in tomato plants[J]. Plant Science, 2017, 257: 74-83.
Wu L, Lei Y, Lan S, et al. Photosynthetic recovery and acclimation to excess light intensity in the rehydrated lichen soil crusts[J]. PloS one, 2017, 12(3): e0172537.
Xu Q, Jiang Y, Chu W, et al. Response of Spirodela polyrhiza to cerium: subcellular distribution, growth and biochemical changes[J]. Ecotoxicology and environmental safety, 2017, 139: 56-64.
Xue W, Li X. Moderate shade environment facilitates establishment of desert phreatophytic species Alhagi sparsifolia seedlings by enlarge fine root biomass[J]. Acta Physiologiae Plantarum, 2017, 39(1): 7.
Yang D Q, Luo Y L, Dong W H, et al. Response of photosystem II performance and antioxidant enzyme activities in stay-green wheat to cytokinin[J]. Photosynthetica, 1-11.
Yang X Q, Zhang Q S, Zhang D, et al. Light intensity dependent photosynthetic electron transport in eelgrass (Zostera marina L.)[J]. Plant Physiology and Biochemistry, 2017, 113: 168-176.
Zhang D, Zhang Q S, Yang X Q. Adaptive strategies of Zostera japonica photosynthetic electron transport in response to thermal stress[J]. Marine Biology, 2017, 164(2): 35.
Zobnina V, Lambreva M D, Rea G, et al. The plastoquinol–plastoquinone exchange mechanism in photosystem II: insight from molecular dynamics simulations[J]. Photosynthesis Research, 2017, 131(1): 15-30.
韓燕青, 劉鑫, 胡維平, 等. CO 2 濃度升高對(duì)苦草 (Vallisneria natans) 葉綠素?zé)晒馓匦缘挠绊?/span>[J]. 植物研究, 2017, 37(1): 45-51.
楊勁峰, 魯豫, 劉小華, 等. 施用炭基緩釋肥對(duì)花生光合功能的影響[J]. 植物營(yíng)養(yǎng)與肥料學(xué)報(bào), 2017, 23(2): 408-415.
鄭賓, 趙偉, 徐錚, 等. 不同耕作方式與氮肥類型對(duì)夏玉米光合性能的影響[J]. 作物學(xué)報(bào), 2017: 0.
產(chǎn)地與廠家:英國(guó) Hansatech