产品应用

相关产品

相关产品资讯

您现在的位置:首页 > 产品应用 > 应用文献 > 应用文献

LI-6800最新应用文献列表

来源:北京力高泰科技有限公司 发布时间:2019-12-16 14:45:30 点击数:614 使用提问 咨询价格


使用LI-6800发表的文献(截至到2019年12月10日)
来源:Google学术
 
Stinziano J R, Morgan P B, Lynch D J, et al. The rapid A–Ci response: photosynthesis in the phenomic era[J]. Plant, Cell & Environment, 2017, 40(8): 1256-1262.
 
Zhang J, Wang N, Miao Y, et al. Identification of SLAC1 anion channel residues required for CO2/bicarbonate sensing and regulation of stomatal movements[J]. Proceedings of the National Academy of Sciences, 2018, 115(44): 11129-11137.
 
Evans J R, Morgan P B, von Caemmerer S. Light quality affects chloroplast electron transport rates estimated from Chl fluorescence measurements[J]. Plant and Cell Physiology, 2017, 58(10): 1652-1660.
 
Busch F A. Photosynthetic gas exchange in land plants at the leaf level[M]//Photosynthesis. Humana Press, New York, NY, 2018: 25-44.
 
Jablonski A, Kruger E L, Townsend P A. Comparative responses of solar-induced fluorescence (SIF) and leaf photosynthetic parameters to short term atmospheric CO2 enrichment[C]//AGU Fall Meeting Abstracts. 2017.
 
Taylor S H, Long S P. Phenotyping photosynthesis on the limit–a critical examination of RACiR[J]. New Phytologist, 2019, 221(2): 621-624.
 
Poirier-Pocovi M, Bailey B N. Sensitivity analysis of four crop water stress indices to ambient environmental conditions and stomatal conductance[J]. Scientia Horticulturae, 2020, 259: 108825.
 
Wilson L A, Hammond W M, Adams H D. It's a dry heat: Quantifying effects of increasing atmospheric moisture demand on native Oklahoma trees[J]. 2019.
 
Kim-Hak D, Hoffnagle J, Lynch D, et al. High Precision Continuous and Real-Time Measurement of Oxygen Using Cavity Ring-Down Spectroscopy for Photosynthetic Light-Response Studies[C]//AGU Fall Meeting Abstracts. 2018.
 
Onsay D, Massa G D, Smith T. Researching Plant Growth in Amended Martian Regolith Simulant, Photosynthetic Rates of Plants, Seed Surface Decontamination by Plasma Methods, New Crop Development, and Porous Concrete Media[J]. 2019.
 
Morgan P B, McDermitt D, Johnson M, et al. Rapid response curves and survey measurements: U.S. Patent Application 15/811,210[P]. 2018-5-17.
 
Coursolle C, Otis Prud'Homme G, Isabel N. Measuring Rapid A-Ci Curves in Boreal Conifers: Black Spruce and Balsam fir[J]. Frontiers in plant science, 2019, 10: 1276.
 
Walker B J, Busch F A, Driever S M, et al. Survey of tools for measuring in vivo photosynthesis[M]//Photosynthesis. Humana Press, New York, NY, 2018: 3-24.
Guo H, York L M. Maize with fewer nodal roots allocates mass to more lateral and deep roots that improve nitrogen uptake and shoot growth[J]. Journal of experimental botany, 2019.
 
Ju Y, Yue X, Zhao X, et al. Physiological, micro-morphological and metabolomic analysis of grapevine (Vitis vinifera L.) leaf of plants under water stress[J]. Plant Physiology and Biochemistry, 2018, 130: 501-510.
 
Vulova S, Kuhlemann L M, Tetzlaff D, et al. Assessment of evapotranspiration from urban vegetation across space and time: a case study in Berlin[C]//2019 10th International Workshop on the Analysis of Multitemporal Remote Sensing Images (MultiTemp). IEEE, 2019: 1-4.
 
Evans J R, Morgan P B, von Caemmerer S. Light Quality Affects Chloroplast Electron Transport Rates Estimated from Chlorophyll Fluorescence Measurements[J]. Plant and Cell Physiology, 2017.
 
McClain A M, Sharkey T D. Building a better equation for electron transport estimated from chlorophyll fluorescence: Accounting for non‐photosynthetic light absorption[J]. New Phytologist, 2019.
 
Jordan R K. Comparative Ecophysiology of Two High-elevation Southern Appalachian Conifers: The Importance of the Winter Season[D]. Appalachian State University, 2018.
 
Guha A, Han J, Cummings C, et al. Differential ecophysiological responses and resilience to heat wave events in four co-occurring temperate tree species[J]. Environmental Research Letters, 2018, 13(6): 065008.
 
Ashe P, Shaterian H, Akhov L, et al. Contrasting Root and Photosynthesis Traits in a Large-Acreage Canadian Durum Variety and Its Distant Parent of Algerian Origin for Assembling Drought/Heat Tolerance Attributes[J]. Frontiers in chemistry, 2017, 5: 121.
 
Lantz A T, Solomon C, Gog L, et al. Isoprene suppression by CO2 is not due to triose phosphate utilization (TPU) limitation[J]. Frontiers in Forests and Global Change, 2019, 2.
 
Slot M, Krause G H, Krause B, et al. Photosynthetic heat tolerance of shade and sun leaves of three tropical tree species[J]. Photosynthesis research, 2019, 141(1): 119-130.
 
Clark D. Stimulation and Observation of Leaf Stomata Using a Light Microscope[J]. Microscopy Today, 2019, 27(4): 18-23.
 
Ceciliato P H O, Zhang J, Liu Q, et al. Intact leaf gas exchange provides a robust method for measuring the kinetics of stomatal conductance responses to abscisic acid and other small molecules in Arabidopsis and grasses[J]. Plant methods, 2019, 15(1): 38.
 
Ikawa H, Sakai H, Chen C P, et al. High mesophyll conductance in the high-yielding rice cultivar Takanari quantified with the combined gas exchange and chlorophyll fluorescence measurements under free-air CO2 enrichment[J]. Plant Production Science, 2019 (just-accepted).
 
Caplan J S, Galanti R C, Olshevski S, et al. Water relations of street trees in green infrastructure tree trench systems[J]. Urban Forestry & Urban Greening, 2019, 41: 170-178.
 
Suchoff D H, Perkins-Veazie P, Sederoff H W, et al. Grafting the Indeterminate Tomato Cultivar Moneymaker onto Multifort Rootstock Improves Cold Tolerance[J]. HortScience, 2018, 53(11): 1610-1617.
 
Tominaga J, Shimada H, Kawamitsu Y. Direct Measurement Solves Overestimation of Intercellular CO2 Concentration in Leaf Gas-Exchange Measurements[J]. Journal of Experimental Botany, 2018.
 
田中佑. 個葉ガス交換測定とその応用[J]. 日本作物学会紀事, 2016, 85(3): 339-346.
 
Rakocevic M, Batista E R. TROCAS GASOSAS FOLIARES DE CAFEEIROS APÓS O EXPERIMENTO FACE: COMPARAÇÃO DE MEDIÇÕES REALIZADAS COM LICOR 6400 E LC-PRO[J]. X Simpósio de Pesquisa dos Cafés do Brasil, 2019.
 
Verma K K, Wu K C, Singh P, et al. The protective role of silicon in sugarcane under water stress: photosynthesis and antioxidant enzymes[J]. Biomed J Sci Tech Res, 2019, 15(2): 1-7.
 
Jiao X C, Song X M, Zhang D L, et al. Coordination between vapor pressure deficit and CO 2 on the regulation of photosynthesis and productivity in greenhouse tomato production[J]. Scientific Reports, 2019, 9(1): 8700.
 
赵子豪, 宋琦, 李利, 等. 南方四季杨雌雄幼苗对镉胁迫光合生理响应的差异[J]. Journal of Forest and Environment, 2019, 39(2): 201-207.
 
崔波, 程邵丽, 袁秀云, 等. 低温胁迫对白及光合作用及叶绿素荧光参数的影响[J]. 热带作物学报, 2019, 40(5): 891-897.
 
Verma K K, Liu X H, Wu K C, et al. The Impact of Silicon on Photosynthetic and Biochemical Responses of Sugarcane under Different Soil Moisture Levels[J]. Silicon, 2019: 1-13.
 
Pilon C, Snider J L, Sobolev V, et al. Assessing stomatal and non-stomatal limitations to carbon assimilation under progressive drought in peanut (Arachis hypogaea L.)[J]. Journal of plant physiology, 2018, 231: 124-134.
 
王晓婧, 李思嘉, 刘瑞显, 等. 棉花施用脱叶剂对相邻未着药叶片生理活性的影响[J]. 棉花学报, 2019, 31(1): 64-71.
 
Kong W, Yoo M, Noble J D, et al. Molecular changes in Mesembryanthemum crystallinum guard cells underlying the C3 to CAM transition[J]. bioRxiv, 2019: 607333.
 
Peng Y Y, Liao L L, Liu S, et al. Magnesium Deficiency Triggers SGR–Mediated Chlorophyll Degradation for Magnesium Remobilization[J]. Plant physiology, 2019, 181(1): 262-275.
 
高岚, 乐佳兴, 张文, 等. 2 种树龄巴山榧对光照的响应[J]. 北京林业大学学报, 2018, 40(10): 34-42.
 
Xu C, Li Q, Zhao H, et al. Effects of Irrigation Quota on Photosynthetic Characteristics, Yield, and Water Utilization of Spring Maize in Semi-Arid Region[J]. INTERNATIONAL JOURNAL OF AGRICULTURE AND BIOLOGY, 2019, 22(4): 601-610.
 
Salesse-Smith C E, Sharwood R E, Busch F A, et al. Overexpression of Rubisco subunits with RAF1 increases Rubisco content in maize[J]. Nature plants, 2018, 4(10): 802.
 
Avellan A, Yun J, Zhang Y, et al. Nanoparticle size and coating chemistry control foliar uptake pathways, translocation and leaf-to-rhizosphere transport in wheat[J]. ACS nano, 2019.
 
Du Q, Xing G, Jiao X, et al. Stomatal responses to long-term high vapor pressure deficits mediated most limitation of photosynthesis in tomatoes[J]. Acta physiologiae plantarum, 2018, 40(8): 149.
 
Salter W T, Gilbert M E, Buckley T N. A multiplexed gas exchange system for increased throughput of photosynthetic capacity measurements[J]. Plant methods, 2018, 14(1): 80.
 
Rafique M, Ortas I, Rizwan M, et al. Effects of Rhizophagus clarus and biochar on growth, photosynthesis, nutrients, and cadmium (Cd) concentration of maize (Zea mays) grown in Cd-spiked soil[J]. Environmental Science and Pollution Research, 2019: 1-12.
 
Yu K, Goldsmith G R, Wang Y, et al. Phylogenetic and biogeographic controls of plant nighttime stomatal conductance[J]. New Phytologist, 2019, 222(4): 1778-1788.
 
Bian Z, Zhang X, Wang Y, et al. Improving drought tolerance by altering the photosynthetic rate and stomatal aperture via green light in tomato (Solanum lycopersicum L.) seedlings under drought conditions[J]. Environmental and Experimental Botany, 2019, 167: 103844.
 
Li T, Dai J, Zhang Y, et al. Topical shading substantially inhibits vegetative branching by altering leaf photosynthesis and hormone contents of cotton plants[J]. Field Crops Research, 2019, 238: 18-26.
 
Li T, Zhang Y, Dai J, et al. High plant density inhibits vegetative branching in cotton by altering hormone contents and photosynthetic production[J]. Field crops research, 2019, 230: 121-131.
 
Avramova V, Meziane A, Bauer E, et al. Carbon isotope composition, water use efficiency, and drought sensitivity are controlled by a common genomic segment in maize[J]. Theoretical and applied genetics, 2019, 132(1): 53-63.
 
Mega R, Abe F, Kim J S, et al. Tuning water-use efficiency and drought tolerance in wheat using abscisic acid receptors[J]. Nature plants, 2019, 5(2): 153.
 
Habermann E, Dias de Oliveira E A, Contin D R, et al. Warming and water deficit impact leaf photosynthesis and decrease forage quality and digestibility of a C4 tropical grass[J]. Physiologia plantarum, 2019, 165(2): 383-402.
 
Reeves G, Singh P, Rossberg T A, et al. Natural variation within a species for traits underpinning C4 photosynthesis[J]. Plant physiology, 2018, 177(2): 504-512.
 
Du Q, Liu T, Jiao X, et al. Leaf anatomical adaptations have central roles in photosynthetic acclimation to humidity[J]. Journal of experimental botany, 2019.
 
Avenson T J, Saathoff A J. Sub-saturating multiphase flash irradiances to estimate maximum fluorescence yield[M]//Photosynthesis. Humana Press, New York, NY, 2018: 105-120.
 
Pan Z. The effect of nitrogen and boron on celtuce in hydroponics system and the effect of deficit irrigation on celtuce[J]. 2019.
 
Yonemura S, Kodama N, Taniguchi Y, et al. A high-performance system of multiple gas-exchange chambers with a laser spectrometer to estimate leaf photosynthesis, stomatal conductance, and mesophyll conductance[J]. Journal of plant research, 2019, 132(5): 705-718.
 
Reeves G, Singh P, Rossberg T A, et al. Quantitative variation within a species for traits underpinning C4 photosynthesis[J]. bioRxiv, 2018: 253211.
 
Xu J, Lv Y, Liu X, et al. A general non-rectangular hyperbola equation for photosynthetic light response curve of rice at various leaf ages[J]. Scientific reports, 2019, 9(1): 1-8.
 
Nielsen D C. Habitat Distribution and Frond Reorientation as Photoprotection and Drought-avoidance Mechanisms in Christmas Fern (Polystichum Acrostichoides) in the Southern Appalachian Mountains[D]. Appalachian State University, 2017.
 
Soltani A, Weraduwage S M, Sharkey T D, et al. Elevated temperatures cause loss of seed set in common bean (Phaseolus vulgaris L.) potentially through the disruption of source-sink relationships[J]. BMC genomics, 2019, 20(1): 312.
 
Chen P, Hu H, Zhang Y, et al. Genetic analysis and fine-mapping of a new rice mutant, white and lesion mimic leaf1[J]. Plant growth regulation, 2018, 85(3): 425-435.
 
Hibberd J, Reeves G, Singh P, et al. Quantitative variation within a species for traits underpinning C4 photosynthesis[J]. 2018.
 
Ermakova M, Lopez-Calcagno P E, Raines C A, et al. Overexpression of the Rieske FeS protein of the Cytochrome b6f complex increases C4 photosynthesis[J]. bioRxiv, 2019: 574897.
 
Schyman A. Photosynthesis response to temperatures–A study of fertilized and unfertilized Picea abies: Fotosyntes i respons till temperatur–En studie av gödslad och ogödslad Picea abies[J]. 2018.
 
Barickman T C, Simpson C R, Sams C E. Waterlogging Causes Early Modification in the Physiological Performance, Carotenoids, Chlorophylls, Proline, and Soluble Sugars of Cucumber Plants[J]. Plants, 2019, 8(6): 160.
 
Stinziano J R, Adamson R K, Hanson D T. Using multirate rapid A/Ci curves as a tool to explore new questions in the photosynthetic physiology of plants[J]. New Phytologist, 2019, 222(2): 785-792.
 
Liu X, Feakins S J, Ma X F, et al. Crop breeding has increased the productivity and leaf wax n-alkane concentration in a series of five winter wheat cultivars developed over the last 60 years[J]. Journal of plant physiology, 2019, 243: 153056.
 
Pereira J A, Yu F, Zhang Y, et al. The Arabidopsis Elongator subunit ELP3 and ELP4 confer resistance to bacterial speck in tomato[J]. Frontiers in plant science, 2018, 9: 1066.
 
Kelly G, Egbaria A, Khamaisi B, et al. Guard-Cell Hexokinase Increases Water-Use Efficiency Under Normal and Drought Conditions[J]. Frontiers in Plant Science, 2019, 10.
 
Tatsumi K, Kuwabara Y, MOTOBAYASHI T. Monthly variability in the photosynthetic capacities, leaf mass per area and leaf nitrogen contents of rice (Oryza sativa L.) plants and their correlations[J]. Journal of Agricultural Meteorology, 2019, 75(2): 111-119.
 
Azoulay‐Shemer T, Schwankl N, Rog I, et al. Starch biosynthesis by AGP ase, but not starch degradation by BAM 1/3 and SEX 1, is rate‐limiting for CO 2‐regulated stomatal movements under short‐day conditions[J]. FEBS letters, 2018, 592(16): 2739-2759.

Spielman-Sun E, Avellan A, Bland G D, et al. Nanoparticle surface charge influences translocation and leaf distribution in vascular plants with contrasting anatomy[J]. Environmental Science: Nano, 2019, 6(8): 2508-2519.
 
Xu S, Yuan X, Zhang Y, et al. Effect of Elevated CO2 Combined with Two Nitrogen Levels on Photosynthesis, Growth and Leaf Structure in CAM Orchid Phalaenopsis[J]. INTERNATIONAL JOURNAL OF AGRICULTURE AND BIOLOGY, 2019, 22(5): 882-890.

Wu F, Tian K, Wang J, et al. Accumulation and translocation of phenanthrene, anthracene and pyrene in winter wheat affected by soil water content[J]. Ecotoxicology and environmental safety, 2019, 183: 109567.
 
Zotova L, Kurishbayev A, Jatayev S, et al. Genes encoding transcription factors TaDREB5 and TaNFYC-A7 are differentially expressed in leaves of bread wheat in response to drought, dehydration and ABA[J]. Frontiers in plant science, 2018, 9: 1441.

Wang S, Liu J, Zhao T, et al. Modification of Threonine-1050 of SlBRI1 regulates BR Signalling and increases fruit yield of tomato[J]. BMC plant biology, 2019, 19(1): 256.
 
Hao S, Cao H, Wang H, et al. The physiological responses of tomato to water stress and re-water in different growth periods[J]. Scientia horticulturae, 2019, 249: 143-154.
 
Wan J, Zhang P, Wang R, et al. Comparative physiological responses and transcriptome analysis reveal the roles of melatonin and serotonin in regulating growth and metabolism in Arabidopsis[J]. BMC plant biology, 2018, 18(1): 362.
 
Ouyang Z, Tian J, Yan X, et al. Effects of different concentrations of dissolved oxygen or temperatures on the growth, photosynthesis, yield and quality of lettuce[J]. Agricultural Water Management, 2019: 105896.
 
Lantz A T. Control of Isoprene Emission from Plants and Bacteria[D]. Michigan State University, 2019.
 
Shi W, Cheng J, Wen X, et al. Transcriptomic studies reveal a key metabolic pathway contributing to a well-maintained photosynthetic system under drought stress in foxtail millet (Setaria italica L.)[J]. PeerJ, 2018, 6: e4752.
 
Ward E J, Warren J M, McLennan D A, et al. Photosynthetic and Respiratory Responses of Two Bog Shrub Species to Whole Ecosystem Warming and Elevated CO2 at the Boreal-Temperate Ecotone. Front. For. Glob[J]. Frontiers in Forests and Global Change, 2019, 2: 54. 
 
Lian J, Wu J, Xiong H, et al. Impact of polystyrene nanoplastics (PSNPs) on seed germination and seedling growth of wheat (Triticum aestivum L.)[J]. Journal of hazardous materials, 2019: 121620.
 
Du Y, Zhao Q, Chen L, et al. Effect of drought stress on sugar metabolism in leaves and roots of soybean seedlings[J]. Plant Physiology and Biochemistry, 2019.
 
曲玉莹, 曲波, 崔娜, 等. 水分胁迫对 ‘翠鸟’玉簪叶片表皮蜡质及生理特性的影响[J]. 园艺学报, 2019, 46(7): 1344-1350.
 
Fgaier S, de Almeida Lopes M M, de Oliveira Silva E, et al. Xenon lamps used for fruit surface sterilization can increase the content of total flavonols in leaves of Lactuca sativa L. without any negative effect on net photosynthesis[J]. PloS one, 2019, 14(10).
 
Urban L, Aarrouf J, Bidel L P R. Assessing the effects of water deficit on photosynthesis using parameters derived from measurements of leaf gas exchange and of chlorophyll a fluorescence[J]. Frontiers in plant science, 2017, 8: 2068.
 
Jarolmasjed S, Kostick S, Si Y, et al. High-Throughput Phenotyping of Fire Blight Disease Symptoms Using Sensing Techniques in Apple[J]. Frontiers in plant science, 2019, 10: 576.
 
Rodrigues R. Severidade da mancha bacteriana do tomateiro sob ação de Acibenzolar-S-Metil e Paclobutrazol e suas interações fisiológicas[J]. 2019.
 
Hauser F, Ceciliato P H O, Lin Y C, et al. A seed resource for screening functionally redundant genes and isolation of new mutants impaired in CO2 and ABA responses[J]. Journal of experimental botany, 2018, 70(2): 641-651.
 
Yang J. Diurnal and Seasonal Proximally Sensed Photochemical Reflectance Index (PRI) in a High-Stress Semi-Arid Mixed Conifer Forest[J]. 2019.