NASA利用(yong) FluorPen 研究(jiu)太空植(zhi)物生長(chang)適應(ying)性

NASA  利(li)用(yong) FluorPen  葉(ye)綠(lv)素熒(ying)光(guang)成(cheng)像儀研究(jiu)太空植(zhi)物生長(chang)適應(ying)性，詳(xiang)情請(qing)鏈接(jie)：

https://blogs.nasa.gov/kennedy/2017/08/

John “JC” Carver, a payload integration engineer with NASA Kennedy Space Center’s Test and Operations Support Contract, uses a FluorPen to measure the chlorophyll fluorescence of Arabidopsis thaliana plants inside the growth chamber of the Advanced Plant Habitat (APH) Flight Unit No. 1. Half the plants were then harvested. Photo credit: NASA/Leif Heimbold

FluorPen 手(shou)持式葉(ye)綠(lv)素熒(ying)光(guang)儀集(ji)成(cheng)了 PAM（脈(mai)沖(chong)調制）熒光(guang)測量技(ji)術及(ji) OJIP 快(kuai)速熒(ying)光(guang) 動(dong)力(li)學(xue)測量技(ji)術等，是(shi)目前世(shi)界(jie)上便(bian)攜(xie)性(xing)zui強(qiang)、集(ji)成(cheng)度(du)zui高、功(gong)能zui全面(mian)、的 葉(ye)綠(lv)素熒(ying)光(guang)測量儀器！

體(ti)積zui小(xiao)，僅手(shou)機(ji)大(da)小(xiao)；

種類zui全：有(you)固(gu)定葉(ye)夾(jia)式、分離葉(ye)夾(jia)式、探頭式及(ji)適用(yong)於野外長(chang)期監(jian)測的 Monitoring FluorPen，還有(you)適於藻類測量監測的 AquaPen 等

功(gong)能zui全：內(nei)置(zhi)光(guang)合(he)有(you)效(xiao)輻射、即(ji)時(shi)葉(ye)綠(lv)素熒(ying)光(guang)、光(guang)量(liang)子產(chan)量(liang)、Kautsky 誘(you)導效(xiao)應、 2 套(tao)熒(ying)光(guang)淬(cui)滅、3 套光(guang)響(xiang)應曲線及(ji) OJIP-test 等共(gong) 10 種測量程序協(xie)議（Protocols）

參(can)數(shu)zui多：測量參數(shu)達(da) 60 余(yu)個(ge)，其(qi)中(zhong) OJIP-test 在(zai) 1 秒時(shi)間內(nei)測量記錄近(jin) 500 個

           葉(ye)綠(lv)素熒(ying)光(guang)數(shu)據(ju)並(bing)通(tong)過軟件即(ji)使計算(suan)出 26 個(ge)葉(ye)綠(lv)素熒(ying)光(guang)參(can)數(shu)；

時(shi)空信(xin)息(xi)：可(ke)選(xuan)配即插式 GPS（版本(ben)內(nei)置(zhi) GPS），輸出(chu)帶時(shi)間戳(chuo)和(he)經緯(wei)度(du)的“三 維”數(shu)據(ju)

FluorPen 可(ke)以(yi)應(ying)用於生長(chang)箱（氣(qi)候(hou)室(shi)）、實(shi)驗室、野(ye)外及(ji)各種條(tiao)件(jian)下的植(zhi)物（包括 藻(zao)類等低(di)等植(zhi)物）生理(li)生態(tai)學(xue)研究(jiu)測量，成為目前zui方便(bian)、zui流(liu)行(xing)的葉(ye)綠(lv)素熒(ying)光(guang)測量儀器。

科學(xue)家(jia)在北(bei)極地區應用(yong) FluorPen  監(jian)測研究(jiu)地衣類植(zhi)物對(dui)氣(qi)候(hou)變化(hua)的響(xiang)應

近(jin)期部(bu)分參(can)考文獻：

AJIGBOYE O. O., LU CH., MURCHIE E. H., ET AL. (2017). Altered gene expression by sedaxane increases PSII efficiency, photosynthesis and growth and improves tolerance to drought in wheat seedlings. Pesticide Biochemistry and Physiology. Volume 137. Pages 49-61. DOI: 10.1016/j.pestbp.2016.09.008

CHEKANOV К., SCHASTNAYA E., SOLOVCHENKO A., ET AL. (2017). Effects of CO2 enrichment onprimary photochemistry, growth and astaxanthin accumulation in the chlorophyte Haematococcus pluvialis. Journal of Photochemistry and Photobiology B: Biology. Volume 171. DOI 10.1016/j.jphotobiol.2017.04.028

DUARTE B., PEDRO S., MARQUES J. C., ET AL. (2017). Zostera noltii development probing using chlorophyll a transient analysis (JIP-test) under field conditions: Integrating physiological insights into a photochemical stress index. Ecological Indicators. Volume 76. DOI: 10.1016/j.ecolind.2017.01.023

HERNÁNDEZ-CLEMENTE R., NORTH P.R.J., HORNERO A., ET AL. (2017). Assessing the effects offorest health on sun-induced chlorophyll fluorescence using the FluorFLIGHT 3-D radiative transfer model to account for forest structure, Remote Sensing of Environment,. Volume 193. Pages165-179. DOI: 10.1016/j.rse.2017.02.012

LEE M. W., HUFFAKER A., CRIPPEN D., ET AL. (2017). Plant Elicitor Peptides Promote Plant Defenses against Nematodes in Soybean. Molecular Plant Pathology. DOI: 10.1111/mpp.12570

MAR A. B. AND QADERI M. M. (2017). Light quality and quantity regulate aerobic methane emissions from plants. Physiol Plantarum. Volume 159. DOI:10.1111/ppl.12514

PARADISO R., ARENA C., DE MICCO V., ET AL. (2017). Changes in Leaf Anatomical Traits Enhanced Photosynthetic Activity of Soybean Grown in Hydroponics with Plant Growth-Promoting Microorganisms. Frontiers in Plant Science. Volume 8. DOI: 10.3389/fpls.2017.00674

PTUSHENKO V.V., PTUSHENKO O.S., SAMOILOVA O.P., ET AL. (2017). The analysis ofphotoprotection and apparent non-photochemical quenching of chlorophyll fluorescence in Tradescantia leaves based on the rate of irradiance-induced changes in optical transparence. Biochemistry (Moscow).Volume 82. DOI: 10.1134/S0006297917010072

PUGLIELLI G., REDONDO-GÓMEZ S., GRATANI L., ET AL. (2017). Highlighting the differential role of leaf paraheliotropism in two Mediterranean Cistus species under drought stress and well-watered onditions. Journal of Plant Physiology. Volume 213. DOI: 10.1016/j.jplph.2017.02.015

PUSHKAREVA E., KVÍDEROVÁ J., ŠIMEK M.,ET AL. (2017). Nitrogen fixation and diurnal changes of photosynthetic activity in Arctic soil crusts at different development stage. European Journal of Soil Biology. Volume 79. Pages 21-30. DOI: 10.1016/j.ejsobi.2017.02.002

SELVARAJ, M.G., ISHIZAKI, T., VALENCIA, M., ET AL. (2017). Overexpression of an Arabidopsis thaliana galactinol synthase gene improves drought tolerance in transgenic rice and increased grain yield in the field. Plant Biotechnol. J. DOI: 10.1111/pbi.12731

SINGH M., KUSHWAHA K. B., SINGH, S., ET AL. (2017). Sulphur alters chromium (VI) toxicity in Solanum melongena seedlings: Role of sulphur assimilation and sulphur-containing antioxidants. Plant Physiology and Biochemistry. Volume 112. DOI: 10.1016/j.plaphy.2016.12.024

SINGH S. & PRASAD S. M. (2017) Effects of 28-homobrassinoloid on key physiological attributes of Solanum lycopersicum seedlings under cadmium stress: Photosynthesis and nitrogen metabolism. Plant Growth Regul J. Volume 82. DOI:10.1007/s10725-017-0248-5

TRIPATHI D. K., MISHRA R. K., SINGH S., ET AL. (2017). Nitric Oxide Ameliorates Zinc Oxide Nanoparticles Phytotoxicity in Wheat Seedlings: Implication of the Ascorbate–Glutathione Cycle. Frontiers in Plant Science. Volume 8. DOI: 10.3389/fpls.2017.00001

TRIPATHI D. K., SINGH S., SINGH S., ET AL. (2017). Nitric oxide alleviates silver nanoparticles (AgNps)-induced phytotoxicity in Pisum sativum seedlings. Plant Physiology and Biochemistry. Volume 110. DOI: 10.1016/j.plaphy.2016.06.015

TRIPATHI D. K., SINGH S., SINGH V. P., ET AL. (2017). Silicon nanoparticles more effectively alleviated UV-B stress than silicon in wheat (Triticum aestivum) seedlings, Plant Physiology and Biochemistry. Volume 110. DOI: 10.1016/j.plaphy.2016.06.026

ZORIN B., PAL-NATH D., LUKYANOV A.,ET AL. (2017). Arachidonic acid is important for efficient use of light by the microalga lobosphaera incisa under chilling stress. Biochimica et Biophysica Acta- Molecular and Cell Biology of Lipids. DOI 10.1016/j.bbalip.2017.04.008

AHMED S., ARIYARATNE M., PA J., ET AL. (2016). Altered expression of polyamine transporters reveals a role for spermidine in the timing of flowering and other developmental response pathways., Plant Science. DOI: 10.1016/j.plantsci.2016.12.002

AJIGBOYE O. O., BOUSQUET L., MURCHIE E. H. ET AL.(2016). Chlorophyll fluorescence parameters allow the rapid detection and differentiation of plant responses in three different wheat pathosystems. Functional Plant Biology. Volume 43. Pages 356–369. DOI: 10.1071/FP15280

ATHAR H. R., AMBREEN S., JAVED M. ET AL. (2016). Influence of sub-lethal crude oil concentration on growth, water relations and photosynthetic capacity of maize (Zea mays L.) plants.Environmental Science and Pollution Research. Volume 23, Issue 18, Pages 18320–18331. DOI: 10.1007/s11356-016-6976-7

BARÁNYIOVÁ I. AND KLEM K. (2016). Effect of application of growth regulators on the physiological and yield parameters of winter wheat under water deficit. Plant, Soil and Environment. Volume 62, No. 3, Pages 114–120. DOI: 10.17221/778/2015-PSE

CHEKANOV K., LUKYANOV A., BOUSSIBA S. ET AL. (2016). Modulation of photosynthetic activity and photoprotection in Haematococcus pluvialis cells during their conversion into haematocysts and back. Photosynthesis Research. Volume 128, Issue 3, Pages 313–323. DOI:10.1007/s11120-016-0246-x

CHOI H. G., MOON B. Y. AND KANG N. J. (2016). Correlation between Strawberry (Fragaria ananassa Duch.) Productivity and Photosynthesis-Related Parameters under Various Growth Conditions. Frontiers in Plant Science. Volume 7. DOI: 10.3389/fpls.2016.01607

DUARTE B., CABRITA M. T., GAMEIRO C. ET AL. (2016). Disentangling the photochemical salinity tolerance in Aster tripolium L. : Connecting biophysical traits with changes in the fatty acid composition. Plant biology. DOI: 10.1111/plb.12517

ESTEBAN R., ROYO B., URARTE E. ET AL. (2016). Both Free Indole-3-Acetic Acid and Photosynthetic Performance are Important Players in the Response of Medicago truncatula to Urea and Ammonium Nutrition Under Axenic Conditions. Frontiers in Plant Science. Volume 7. DOI: 10.3389/fpls.2016.00140

FROSI G., BARROS V. A., OLIVEIRA M. T., ET AL. (2016). Symbiosis with AMF and leaf Pi supply increases water deficit tolerance of woody species from seasonal dry tropical forest. Journal of Plant Physiology. Volume 207. DOI: 10.1016/j.jplph.2016.11.002

HIDRI R., BAREA J.M., MAHMOUD O. MB. ET AL. (2016). Impact of microbial inoculation on biomass accumulation by Sulla carnosa provenances, and in regulating nutrition, physiological and antioxidant activities of this species under non-saline and saline conditions. Journal of Plant Physiology. Volume 201, Pages 28–41. DOI: 10.1016/j.jplph.2016.06.013

KANECHI M., MAEKAWA A., NISHIDA Y. AND MIYASHITA, E. (2016). Effects of pulsed lighting based light-emitting diodes on the growth and photosynthesis of lettuce leaves. Acta Hortic. Volume 1134. DOI:  10.17660/ActaHortic.2016.1134.28

LV DW., ZHU GR., ZHU D. ET AL. (2016). Proteomic and phosphoproteomic analysis reveals the response and defense mechanism in leaves of diploid wheat T. monococcum under salt stress and recovery. Journal of Proteomics. Volume 143, Pages 93–105. DOI: 10.1016/j.jprot.2016.04.013

LÓPEZ-LÓPEZ M., CALDERÓN R., GONZÁLEZ-DUGO V., ET L . (2016). Early Detection andQuantification of Almond Red Leaf Blotch Using High-Resolution Hyperspectral and Thermal Imagery. Remote Sens. Volume 8. DOI:10.3390/rs8040276

MALIK V.M., LOBO J.M., STEWART C. ET AL. (2016). Growth irradiance affects ureide accumulation and tolerance to photoinhibition in Eutrema salsugineum (Thellungiella salsuginea).Photosynthetica. Volume 54. DOI:10.1007/s11099-015-0164-8

MAR A. B. AND QADERI M. M. (2016). Light quality and quantity regulate aerobic methane emissions from plants. Physiol Plantarum. DOI: 10.1111/ppl.12514

MISHRA R. K. KUMAR J., SRIVASTAVA P. K., ET AL. (2016). PSII photochemistry, oxidative damage and anti-oxidative enzymes in arsenate-stressed Oryza sativa L. seedlings. Volume 33. DOI: 10.1080/02757540.2016.1265516

NAUŠ J., ŠMECKO S. AND ŠPUNDOVÁ M. (2016). Chloroplast avoidance movement as a sensitive indicator of relative water content during leaf desiccation in the dark. Photosynthesis Research. Volume 129, Issue 2, Pages 217–225. DOI: 10.1007/s11120-016-0291-5

OYIGA B. C., SHARMA R. C., SHEN J., (2016). Identification and Characterization of Salt Tolerance of Wheat Germplasm Using a M*riable Screening Approach. J Agro Crop Sci, 202: 472–485. DOI: 10.1111/jac.12178

PANEQUE M, DE LA ROSA J. M., FRANCO-NAVARRO J. D., ET AL. (2016). Effect of biocharamendment on morphology, productivity and water relations of sunflower plants under non-irrigation conditions, CATENA, Volume 147. DOI: 10.1016/j.catena.2016.07.037

PEDRANZANI H., RODRÍGUEZ-RIVERA M., GUTIÉRREZ M. ET AL. (2016). Arbuscular mycorrhizalsymbiosis regulates physiology and performance of Digitaria eriantha plants subjected to abiotic stresses by modulating antioxidant and jasmonate levels. Mycorrhiza. Volume 26, Issue 2, Pages 141–152. DOI: 10.1007/s00572-015-0653-4

PTUSHENKO V. V. AND SOLOVCHENKO A. E. (2016). Tolerance of the photosynthetic apparatus to acidification of the growth medium as a possible determinant of CO2-tolerance of the symbiotic microalga DESMODESMUS sp. IPPAS-2014. Biochemistry Moscow. Volume 81.DOI:10.1134/S0006297916120142

RUIZ-LOZANO J. M., AROCA R., ZAMARREÑO Á. M. ET AL. (2016. Arbuscular mycorrhizal symbiosis induces strigolactone biosynthesis under drought and improves drought tolerance in lettuce and tomato. Plant, Cell and Environment. Volume 39, Pages 441–452. DOI: 10.1111/pce.12631

WATANABE T., ORIKASA T, SHONO H. ET AL. (2016). The influence of inhibit avoid water defect responses by heat pretreatment on hot air drying rate of spinach, Journal of Food Engineering, Volume 168. DOI: 10.1016/j.jfoodeng.2015.07.014

SOLOVCHENKO A.,GORELOVA O., SELYAKH I., ET AL. (2016). Nitrogen availability modulates CO2 tolerance in a symbiotic chlorophyte. Algal Research. 2016. 16. 177-188. DOI 10.1016/j.algal.2016.03.002

TIMM C. M., PELLETIER D. A., JAWDY S. S. ET AL. (2016.) Two Poplar-Associated Bacterial Isolates Induce Additive Favorable Responses in a Constructed Plant-Microbiome System. Frontiers in Plant Science. Volume 7. DOI: 10.3389/fpls.2016.00497

WATANABE T., ORIKASA T, SHONO H. ET AL. (2016). The influence of inhibit avoid water defect responses by heat pretreatment on hot air drying rate of spinach, Journal of Food Engineering, Volume 168. DOI: 10.1016/j.jfoodeng.2015.07.014

WEI J., YANG H., CAO H. AND TAN T. (2016) Using polyaspartic acid hydro-gel as water retaining agent and its effect on plants under drought stress. Saudi Journal of Biological Sciences. Volume 23, Pages 654–659. DOI: 10.1016/j.sjbs.2015.08.016

ZANDALINAS S. I., RIVERO R. M., MARTÍNEZ V., ET AL. (2016). Tolerance of citrus plants to the combination of high temperatures and drought is associated to the increase in transpiration modulated by a reduction in abscisic acid levels. BMC Plant BiologyBMC.Volume 16. DOI: 10.1186/s12870-016-0791-7

ZARCO-TEJADA P.J., GONZÁLEZ-DUGO M.V. AND FERERES E. (2016). Seasonal stability ofchlorophyll fluorescence quantified from airborne hyperspectral imagery as an indicator of net photosynthesis in the context of precision agriculture. Remote Sensing of Environment. Volume 179. Pages 89–103. DOI: 10.1016/j.rse.2016.03.024

ANDERSON L. G., DUNN A. M. , ROSEWARNE P. J. AND STEBBING P. D. (2015). Invaders in hot water:a simple decontamination method to prevent the accidental spread of aquatic invasive non-native species. Biological Invasions. Volume 17, Issue 8, Pages 2287–2297. DOI:10.1007/s10530-015-0875-6

ARMADA E., BAREA J.M., CASTILLO P. ET AL. (2015). Characterization and management of autochthonous bacterial strains from semiarid soils of Spain and their interactions with fermented agrowastes to improve drought tolerance in native shrub species. Applied Soil Ecology. Volume 96, Pages 306–318. DOI: 10.1016/j.apsoil.2015.08.008

ARMADA E., AZCÓN R., LÓPEZ-CASTILLO O. M. ET AL. (2015). Autochthonous arbuscular mycorrhizal fungi and Bacillus thuringiensis from a degraded Mediterranean area can be used to improve physiological traits and performance of a plant of agronomic interest under drought conditions. Plant Physiology and Biochemistry. Volume 90, Pages 64–74. DOI: 10.1016/j.plaphy.2015.03.004

BARTÁK M., TRNKOVÁ K., HANSEN E. S. ET AL. (2015). Effect of dehydration on spectral reflectance and photosynthetic efficiency in Umbilicaria arctica and U. hyperborean. Biologia Plantarum. Volume 59, Issue 2, Pages 357–365. DOI: 10.1007/s10535-015-0506-1

BÁRZANA G., AROCA R. AND RUIZ-LOZANO J. M. (2015). Localized and non-localized effects of arbuscular mycorrhizal symbiosis on accumulation of osmolytes and aquaporins and on antioxidant systems in maize plants subjected to total or partial root drying. Plant, Cell and Environment.Volume 38, Issue 8, Pages 1613–1627. DOI: 10.1111/pce.12507

DUARTE B., GOESSLING J.W., MARQUES J.C. AND CAÇADOR I. (2015)Ecophysiological constraints of Aster tripolium under extreme thermal events impacts: Merging biophysical, biochemical and genetic insights. Plant Physiology and Biochemistry. Volume 97, Pages 217–228. DOI: 10.1016/j.plaphy.2015.10.015

KHALID A., ATHAR H., ZAFAR Z. U. ET AL. (2015). Photosynthetic capacity of canola (Brassica napus L.) plants as affected by glycinebetaine under salt stress. Journal of Applied Botany and Food Quality. Volume 88, Pages 78- 86. DOI:10.5073/JABFQ.2015.088.011

JIMÉNEZ J. D. L. C., CARDOSO J. A., DOMINGUEZ M. ET AL. (2015). Morpho-anatomical traits of root and non-enzymatic antioxidant system of leaf tissue contribute to waterlogging tolerance in Brachiaria grasses. Grassland Science. Volume 61, Pages 243–252. DOI:10.1111/grs.12095

MARQUEZ-GARCIA B., SHAW D., COOPER J. W. ET AL. (2015). Redox markers for drought-induced nodule senescence, a process occurring after drought-induced senescence of the lowest leaves in soybean (Glycine max). Annals of Botany. Volume 116, Pages 497–510. DOI: 10.1093/aob/mcv030

DYAKOV M.Y., INSAROVA I.D., KHARABADZE, D.E., PTUSHENKO V. V., and SHTAER, O. V. (2015).Influence of extreme ambient temperatures and anaerobic conditions on Peltigera aphthosa (L.) Willd. viability. Life sciences in space research 7: pp. 66-72, doi:10.1016/j.lssr.2015.10.002

KOSOVÁ K., VÍTÁMVÁS P., HLAVÁČKOVÁ I. ET AL. (2015). Responses of two barley c*rs differing in their salt tolerance to moderate and high salinities and subsequent recovery. Biologia Plantarum. Volume 59, Pages 106-114. DOI: 10.1007/s10535-014-0465-y

SOLOVCHENKO A., GORELOVA O., SELYAKH I., ET AL. (2015). A novel CO2-tolerant symbioticDesmodesmus (Chlorophyceae, Desmodesmaceae): acclimation to and performance at a high carbon dioxide level. Algal Research. Volume 11. DOI 10.1016/j.algal.2015.04.011

PTUSHENKO V. V., AVERCHEVA O. V., BASSARSKAYA E. M., BERKOVICH Y. A., EROKHIN, A. N.,SMOLYANINA S. O., and ZHIGALOVA, T. V. (2015). Possible reasons of a decline in growth of Chinese cabbage under a combined narrowband red and blue light in comparison with illumination byhigh-pressure sodium lamp. Scientia Horticulturae, 194: pp. 267-277, doi:10.1016/j.scienta.2015.08.021

OREKHOV D.I., V., YAKOVLEVA S. N., GORYACHEV F. F., PROTOPOPOV F.F., and ALEKSEEV, A.A.(2015). The use of parameters of Chlorophyll a fluorescence induction to evaluate the state of plants under anthropogenic load. Biophysics, 2015, Vol. 60, No. 2, pp. 263–268, doi: 10.1134/S0006350915020128

FESENKO I. A., ARAPIDI G. P., SKRIPNIKOV A. Y., ET AL. (2015). Specific pools of endogenous peptides are present in gametophore, protonema, and protoplast cells of the moss Physcomitrella patens. Pesticide Biochemistry and Physiology. Volume 15, Pages 1-16. DOI10.1186/s12870-015-0468-7

HUMPLÍK J. F., LAZÁR D., FÜRST T. ET AL. (2015). Automated integrative high-throughput phenotyping of plant shoots: a case study of the cold-tolerance of pea (Pisum sativumL.). Plant Methods. Volume 11, Pages 1-11. DOI 10.1186/s13007-015-0063-9

TRIPATHI D. K., SINGH V. P., PRASAD S. M. ET AL. (2015). Silicon-mediated alleviation of Cr(VI) toxicity in wheat seedlings as evidenced by chlorophyll florescence, laser induced breakdown spectroscopy and anatomical changes. Ecotoxicology and Environmental Safety, Volume 113, Pages 133-144.   DOI:10.1016/j.ecoenv.2014.09.029

WU X., TANG Y., LI C. ET AL. (2015.) Chlorophyll Fluorescence and Yield Responses of Winter Wheat to Waterlogging at Different Growth Stages. Plant Production Science. Volume 18, Issue 3. DOI:  10.1626/pps.18.284

ZMIENKO A., GORALSKI M., SAMELAK-CZAJKA A. ET AL. (2015). Time course transcriptional profiling of senescing barley leaves. Genomics Data. Volume 4, Pages 78–81. DOI: 10.1016/j.gdata.2015.03.0063