Z6×ðÁú¿­Ê±

FL6000Ë«µ÷ÖÆÒ¶ÂÌËØÓ«¹âÕÉÁ¿ÒÇ

FL6000Ë«µ÷ÖÆÒ¶ÂÌËØÓ«¹âÒÇÊÇFL3500Ë«µ÷ÖÆÒ¶ÂÌËØÓ«¹âÒǵÄ×îÐÂÉý¼¶°æ£¬×¨ÃÅÓÃÓÚ¶ÔÀ¶ÂÌÔå»òÂÌÔåµÈ΢Ôå£¬Ò¶ÂÌÌå»òÀàÄÒÌåÐü¸¡Îï¾ÙÐйâÏàÖúÓÃÉîÈë»úÀíÑо¿µÄÇ¿Ê¢¿ÆÑй¤¾ß¡£ÒÇÓþ߱¸Ë«Í¨µÀÕÉÁ¿¿ØÖÆ£¬¿É¿ØÖÆÕÉÁ¿ÑùÆ·µÄζÈ£¬²¢Å䱸µ¥·­×ª¹â£¨STF£©£¬ÄÚÖöàÖÖ¿ÉÓû§×ÔÐÐÐ޸ĵÄÕÉÁ¿³ÌÐò£¬¿É¾ÙÐÐÏÖÔÚ¹ú¼ÊÉϹØÓÚÒ¶ÂÌËØÓ«¹âµÄÖÖÖÖÉîÈë»úÀíÑо¿¡£Æä½¹µã½á¹¹ÊÇ°üÀ¨ÁËÒ»¸öÐü¸¡Òº±ê×¼ÑùÆ·±­µÄ¹âѧÕÉÁ¿Í·£¬ÄÚÖÃ3×éLED¹âÔ´ºÍ1¸ö1MHz/16λ AD ת»»µÄPIN¶þ¼«¹ÜÐźżì²âÆ÷¡£ADת»»µÄÔöÒæºÍ»ý·Öʱ¼ä¿ÉÒÔͨ¹ýÈí¼þ¿ØÖÆ¡£¼ì²âÆ÷ÕÉÁ¿Ò¶ÂÌËØÓ«¹âÐźŵÄʱ¼äÇø·ÖÂʿɸߴï4 ?s£¨¿ìËÙ°æΪ1?s£©¡£

Ó¦ÓÃÁìÓò£º

¡¤Ö²Îï¹âºÏÌØÕ÷ºÍ´úлÔÓÂÒɸѡ

¡¤ÉúÎïºÍ·ÇÉúÎïвÆȵļì²â

¡¤Ö²ÎвÆÈÄÜÁ¦»òÕßÒ׸ÐÐÔÑо¿

¡¤´úлÔÓÂÒÑо¿

¡¤¹âºÏϵͳÊÂÇé»úÀíÑо¿

¡¤ÊÜвÆÈÖ²Îï¹âºÏÐÄÀíÓ¦¶ÔÕ½ÂÔÑо¿

µä·¶ÑùÆ·£º

¡¤À¶Ô壨À¶Ï¸¾ú£©

¡¤ÂÌÔå

¡¤Ò¶ÂÌÌåÐü¸¡Îï

¡¤ÀàÄÒÌåÐü¸¡Îï

¡¤Ö²ÎïËéƬ

¹¦Ð§Ìص㣺

¡¤ÄÚÖÃÒ¶ÂÌËØÓ«¹âÓÕµ¼ÕÉÁ¿¡¢PAM£¨Âö³åµ÷ÖÆ£©ÕÉÁ¿¡¢OJIP¿ìËÙÓ«¹â¶¯Á¦Ñ§ÕÉÁ¿¡¢QA¨CÔÙÑõ»¯¶¯Á¦Ñ§¡¢S״̬ת»»¡¢Ò¶ÂÌËØÓ«¹â´ãÃðµÈÕÉÁ¿³ÌÐò£¬ÊÇÌìÏÂÉϹ«ÈϵĹ¦Ð§×îΪÖÜÈ«µÄÒ¶ÂÌËØÓ«¹âÒÇ

¡¤Ë«µ÷ÖÆÊÖÒÕ£¬¿ÉË«É«µ÷ÖÆÕÉÁ¿¹â£¬¾ß±¸µ÷Öƹ⻯ѧ¹âºÍÒ»Á¬¹â»¯Ñ§¹â£¬¿É¾ÙÐÐSTF£¨µ¥ÖÜת¹âÉÁ£©¡¢TTF£¨Ë«ÖÜת¹âÉÁ£©ºÍMTF£¨¶àÖÜת¹âÉÁ£©¼°¶¨ÖÆFRRÊÖÒÕ£¨Fast Repetition Rate£©ÕÉÁ¿

¡¤±ê×¼°æʱ¼äÇø·ÖÂÊ´ï4?s£¬¿ìËÙ°æ¸ü¸ß´ï1?s£¬ÊÇÏÖÔÚʱ¼äÇø·ÖÂÊ×î¸ßµÄÒ¶ÂÌËØÓ«¹âÒÇ

¡¤¿ØÖƵ¥Î»ÎªË«Í¨µÀ£¬¿ÉÅþÁ¬Î¶ȴ«¸ÐÆ÷ÓÃÓÚζȿØÖÆ¡¢ÅþÁ¬ÑõÆøÕÉÁ¿µ¥Î»ÓÃÓÚÏ£¶û·´Ó¦ÕÉÁ¿µÈ

¡¤¾ß±¸¼«¸ßѸËÙ¶È£¬×îµÍ¼ì²â¼«ÏÞΪ100ng Chla/L

¡¤ÕÉÁ¿¹â¡¢¹â»¯¹â¡¢±¥ºÍµ¥·´×ª¹â¹âÔ´ÑÕÉ«¡¢Ç¿¶È¾ù¿É¶¨ÖÆ

¡¤Ö÷»úÅ䱸²ÊÉ«´¥ÃþÏÔʾÆÁ£¬¿ÉʵʱÉó²éÓ«¹âÇúÏßͼ

ÊÖÒÕ²ÎÊý£º

¡¤ÊµÑé³ÌÐò£ºKautskyÒ¶ÂÌËØÓ«¹âÓÕµ¼Ð§Ó¦ÕÉÁ¿£»PAM£¨Âö³åµ÷ÖÆ£©Ó«¹â´ãÃð¶¯Á¦Ñ§ÕÉÁ¿£»OJIP¿ìËÙÓ«¹â¶¯Á¦Ñ§ÕÉÁ¿£»QA¨CÔÙÑõ»¯¶¯Á¦Ñ§£»S״̬ת»»£»¿ìËÙÒ¶ÂÌËØÓ«¹âÓÕµ¼

• Ó«¹â²ÎÊý£º

¨²PAMÓ«¹â´ãÃð¶¯Á¦Ñ§ÕÉÁ¿£ºÕÉÁ¿Ó«¹â´ãÃð¶¯Á¦Ñ§ÇúÏß£¬¿ÉÅÌËãF₀£¬Fm£¬Fv£¬F₀¡¯£¬Fm¡¯£¬Fv¡¯£¬QY(II)£¬NPQ£¬¦µPSII£¬Fv/Fm£¬Fv¡¯/Fm¡¯£¬Rfd£¬qN£¬qP£¬ETRµÈ50¶àÏîÒ¶ÂÌËØÓ«¹â²ÎÊý£»

¨²OJIP¿ìËÙÓ«¹â¶¯Á¦Ñ§ÕÉÁ¿£ºÕÉÁ¿OJIP¿ìËÙÓ«¹â¶¯Á¦Ñ§ÇúÏß£¬¿ÉÅÌËãF₀¡¢FJ¡¢Fi¡¢Fm¡¢Fv¡¢VJ¡¢Vi¡¢Fm / F₀¡¢Fv / F₀¡¢Fv / Fm¡¢M0¡¢Area¡¢Fix Area¡¢SM¡¢SS¡¢N¡¢Phi_P₀¡¢Psi_₀¡¢Phi_E₀¡¢Phi_D₀¡¢Phi_Pav¡¢ABS / RC¡¢TR₀ / RC¡¢ET₀ / RC¡¢DI₀ / RCµÈ20¶àÏîÏà¹Ø²ÎÊý£»

¨²QA¨CÔÙÑõ»¯¶¯Á¦Ñ§£¨QA- reoxidation kinetics£©£ºÕÉÁ¿QA¨CÔÙÑõ»¯¶¯Á¦Ñ§ÇúÏß£¬ÓÃÓÚÄâºÏQA¨CÔÙÑõ»¯Àú³ÌÖпìÏࣨFast phase£©¡¢ÖÐÐÄÏࣨMiddle phase£©ºÍÂýÏࣨSlow phase£©¸÷×ÔµÄÕñ·ù£¨A1£¬A2£¬A3£©ºÍʱ¼ä³£Êý£¨T1£¬T2£¬T3£©

¨²S״̬ת»»£¨S-state test£©£ºÕÉÁ¿S-state testÓ«¹âË¥¼õÇúÏß£¬ÓÃÓÚÄâºÏÅÌËãÎÞ»îÐÔ¹âϵͳII £¨PSII_X£©·´Ó¦ÖÐÐÄÊýÄ¿

¨²ÉÁ¹âÓ«¹âÓÕµ¼£¨Flash Fluorescence Induction£¬FFL£¬½öÏÞ¿ìËٰ棩£ºÓÃÓÚÄâºÏÅÌËãÓÐÓÃÌìÏßÃæ»ý¡¢ÌìÏßÁ¬Í¨ÐÔµÈ

¨²ÌṩÓû§×Ô½ç˵protocol¹¦Ð§£¬¿ÉʵÏÖPSIIÌìÏßÒìÖÊÐÔPSII¦ÁÓëPSII¦ÂÆÊÎö¡¢PSIIÓÐÓÃÌìÏß½ØÃæ»ý£¨s PSII£©µÈ²ÎÊýµÄÕÉÁ¿£¨Ñ¡Å䶨Öƹ¦Ð§£©

¨²QA¨CÔÙÑõ»¯¶¯Á¦Ñ§ÇúÏߺÍS-state testÓ«¹âË¥¼õÇúÏߣ¨Li£¬2010£©

¡¤Ê±¼äÇø·ÖÂÊ£¨²ÉÑùƵÂÊ£©£º¸ßѸËٶȼì²âÆ÷£¬±ê×¼°æʱ¼äÇø·ÖÂÊΪ4?s£¬¿ìËÙ°æΪ1?s

¡¤×îµÍ¼ì²â¼«ÏÞ£º±ê×¼°æ100ng Chla/L£¬¿ìËÙ°æ1¦Ìg Chla/L

¡¤¿ØÖƵ¥Î»£ºÅ䱸²ÊÉ«´¥ÃþÏÔʾÆÁ£¬¿ÉʵʱÉó²éÓ«¹âÇúÏßͼ

¡¤ÕÉÁ¿ÊÒ£º

oÕÉÁ¿¹âÉÁ£º623nmºì³È¹âºÍ460nmÀ¶¹â£¬¹âÉÁʱ¼ä2¨C5?s

oµ¥ÖÜת±¥ºÍ¹âÉÁ£º×î´ó¹âÇ¿170000 ?mol(photons)/m?.s£¬¹âÉÁʱ¼ä20¨C50?s

oÒ»Á¬¹â»¯Ñ§¹â£º×î´ó¹âÇ¿3500 ?mol(photons)/m?.s

oÓ«¹â¼ì²âÆ÷£ºPIN¹âµç¶þ¼«¹Ü

oADת»»Æ÷£º16bit

oÑùÆ·ÊԹܣºµ×Ãæ»ý10¡Á10mm£¬ÈÝ»ý4ml

• ¶¨ÖÆÕÉÁ¿ÊÒ£¨Ñ¡Å䣩£º¿É»®·Ö¶¨ÖÆÕÉÁ¿¹â¡¢±¥ºÍ¹âÉÁºÍ¹â»¯Ñ§¹âÑÕÉ«£¨À¶É«¡¢ÇàÉ«¡¢çúçêÉ«µÈ£©ÒÔ¼°¼ì²â²¨¶Î£¨ChlA£¬ChlB£©

• Ô¶ºìÍâ¹âÔ´£¨Ñ¡Å䣩£ºÓÃÓÚÕÉÁ¿F₀'£¬²¨³¤730nm

¡¤ÑõÆøÕÉÁ¿Ä£¿é£¨Ñ¡Å䣩£ºÕÉÁ¿ÔåÀàµÄÑõÆøÊÍ·Å

¡¤Î¶ȿØÖÆ£¨Ñ¡Å䣩£ºTR 6000ζȵ÷ÀíÆ÷£¬¿ØιæÄ£5¨C60¡æ£¬×¼È·¶È0.1¡æ

• µç´Å½Á°è£¨Ñ¡Å䣩£ºÓÃÓÚÑùÆ·»ìÔÈ£¬±ÜÃâÑùÆ·³Áµí£¬¿ÉÊÖ¶¯µ÷ËÙ»òÈí¼þ×Ô¶¯¿ØÖÆ

• ͨѶ½Ó¿Ú£ºRS232´®¿Ú/USB

FluorWinÈí¼þ£º½ç˵»ò½¨ÉèʵÑé¼Æ»®¡¢¹âÔ´¿ØÖÆÉèÖá¢Êý¾ÝÊä³ö¡¢ÆÊÎö´¦Öóͷ£ºÍͼ±íÏÔʾ

µä·¶Ó¦Óãº

1. ÖпÆԺˮÉúÉúÎïËùÍõÇ¿Ñо¿Ô±Ê¹ÓÃFL3500Ò¶ÂÌËØÓ«¹âÒÇ£¨FL6000֮ǰÐͺţ©ºÍTLÖ²ÎïÈÈÊ͹âϵͳ֤ʵÑÇÏõËáÑÎвÆÈÊ×ÏÈÓ°ÏìSynechocystis sp. PCC 6803 PSIIÊÜÌå²à(Zhan X, et al, 2017)¡£ÕâÖÖ¹âÏàÖúÓÃÉîÈë»úÀíµÄÑо¿¾­³£ÐèÒªÕâÁ½ÖÖÒÇÆ÷À´ÅäºÏÍê³É¡£

2.ÖпÆԺн®Éú̬ÓëµØÀíÑо¿ËùÅËÏìÁÁÑо¿Ô±¼°Æä¿ÎÌâ×éʹÓÃFL3500Ò¶ÂÌËØÓ«¹âÒÇ£¨FL6000֮ǰÐͺţ©ÉîÈ뿪չÁËÇéÐÎÖÐÖؽðÊô¡¢Ñη֡¢Óж¾»¯ºÏÎï¡¢³ý²Ý¼Á¡¢É±³æ¼Á¡¢¿¹ÉúËصÈÖÖÖÖÓк¦ÎïÖʶÔÔåÀàµÄ¶¾ÀíÑо¿¡£Í¨¹ýFL3500¶ÀÍ̵ĸßÇø·ÖÂÊOJIP¿ìËÙÓ«¹â¶¯Á¦Ñ§ÕÉÁ¿¡¢QA¨CÔÙÑõ»¯¶¯Á¦Ñ§¡¢S״̬ת»»µÈÒ¶ÂÌËØÓ«¹âÕÉÁ¿³ÌÐò£¬ÖÜÈ«Õ¹ÏÖÁ˲î±ðŨ¶ÈÓë´¦Öóͷ£Ê±¼ä¶ÔÔåÀà¹âºÏϵͳÔì³ÉËðÉ˵Ķ¾Àí»úÖƼ°ÆäÉú̬ӰÏì¡£ÏÖÔÚ£¬ÅËÏìÁÁ¿ÎÌâ×éÒѾ­Ê¹ÓÃFL3500£¨FL6000֮ǰÐͺţ©ÔÚ¹ú¼ÊSCIÆÚ¿¯Ó뺣ÄÚ½¹µãÆÚ¿¯ÉϽÒÏþÁ˶þÊ®Óàƪ¸ßˮƽÎÄÕ¡£

²úµØ£º½Ý¿Ë

²Î¿¼ÎÄÏ×£º

1. Manaa A, et al. 2019. Salinity tolerance of quinoa (Chenopodium quinoa Willd) as assessed by chloroplast ultrastructure and photosynthetic performance. Environmental and Experimental Botany 162: 103-114

2. Yu Z, et al. 2019. Sensitivity of Chlamydomonas reinhardtii to cadmium stress is associated with phototaxis. Environmental Science: Processes & Impacts 21: 1011-1020

3. Liang Y, et al. 2019. Molecular mechanisms of temperature acclimation and adaptation in marine diatoms. The ISME journal, DOI: 10.1038/s41396-019-0441-9

4. Orfanidis S, et al. 2019. Solving Nuisance Cyanobacteria Eutrophication Through Biotechnology. Applied Sciences 9(12): 2566

5. Sicora C I, et al. 2019. Regulation of PSII function in Cyanothece sp. ATCC 51142 during a light¨Cdark cycle. Photosynthesis Research 139(1¨C3): 461¨C473

6. Smythers A L, et al. 2019. Characterizing the effect of Poast on Chlorella vulgaris, a non-target organism. Chemosphere 219: 704-712

7. Albanese P, et al. 2018. Thylakoid proteome modulation in pea plants grown at different irradiances: quantitative proteomic profiling in a non©\model organism aided by transcriptomic data integration. The Plant Journal 96(4): 786-800

8. Antal T, Konyukhov I, Volgusheva A, et al. 2018. Chlorophyll fluorescence induction and relaxation system for the continuous monitoring of photosynthetic capacity in photobioreactors. Physiol Plantarum. DOI: 10.1111/ppl.12693

9. Antal T K, Maslakov A, Yakovleva O V, et al. 2018.Simulation of chlorophyll fluorescence rise and decay kinetics, and P700-related absorbance changes by using a rule-based kinetic Monte-Carlo method. Photosynthesis Research. DOI:10.1007/s11120-018-0564-2

10.Biswas S, Eaton-Rye J J, et al. 2018. PsbY is required for prevention of photodamage to photosystem II in a PsbM-lacking mutant of Synechocystis sp. PCC 6803. Photosynthetica, 56(1), 200¨C209.

11.Bonisteel E M, et al. 2018. Strain specific differences in rates of Photosystem II repair in picocyanobacteria correlate to differences in FtsH protein levels and isoform expression patterns. PLoS ONE 13(12): e0209115.

12.Fang X, et al. 2018. Transcriptomic responses of the marine cyanobacterium Prochlorococcus to viral lysis products. Environmental Microbiology, doi: 10.1101/394122.

13.Kuthanov¨¢ Trskov¨¢ E, Belgio E, Yeates A M, et al. 2018. Antenna proton sensitivity determines photosynthetic light harvesting strategy, Journal of Experimental Botany 69(18): 4483-4493