環境因子がサンゴの骨格成長と光合成に 与える影響に関する実験的研究
Contents
1.2. v ERE
3. E 1 7 E
4. EM dm 2 Nakamura 3cm s 20em s 20cmys 1 2 3 4 5
5. 5 8 31mls 1L 5 6 2 4 2 3 3 2 4 umom C PSU 2009 8 5 3 200 210 24 8 25 4 33 8 34 1 12 00 13 00 14 00 15 00 16 00 17 00 18 00 m 560 ZIRE mmol 400 12 00 13 00 14 00 15 00 16 00 17 00 18 00 Time 2
6. 2 PG Westech 155 Westech WED
7. 2 4 5 2 2 h m IP OP mmol 12 30 13 30 14 30 15 30 18 JE fii a AA A h D m IP OP mmol 12 30 13 30 14 35 15 35 B 5 2 2 4 79 5 2 IP OP TP OP
8. 3 CO
9. 0 up DD dm
10. Calcify fluid gt
11. 1 EUR FX 42
12. VET zi 2 ER 2 3 E H CP
13. 12 0 15cm s 2
14. 5 Ne McConnaughey 3 4 h m IP OP mmol 4 888cm s 6 11cm s 8 24cm s 63 2
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16. 2552588258 E T bL EOR
17. D 15 LC Goreau Goreau 94 E
18. R 2 2 1 2 2 1 14 Fluor Cam H
19. 2 3 3 4 3 1 5 8 5 8 Ta EE p UE 7 did Es SOT iS Ei AER 2009 9 28 3 200 210 24 3 26 1 34 351 0 50 11 50 15 55 2009 8 21 3 200 210 25 1 26 3 33 9 34 3 0 50 13 10 18 15 2009 7 6 3 200 210 25 259 34 34 5 0 50 12 00 18 00 2009 9 3 3 200 210 25 1 26 0 34 3 35 0 50 10 30 18 45 2009 9 3 2 200 210 24 5 25 6 34 5 34 9 0 50 10 55 19 05 6 200999 2 200 210 24 9 26 2 34 34 3 0 50 11 15 19 30 2009 8 18 2 0 24 3 25 3 33 7 34 1 0 50 22 30 4 23 81
20. 79 Goreau pCO McConnaughey Ca ATPase Ca H HCO CO 53 3 2 9 77
21. RE E eon E 2 t 0 23 00 0 00 1 00 2 00 3 00 4 00 IP SD PPT E E E E OP 4 0 Qul peer a d UO E 5 3 2 g 86 5 3 3 6
22. 6 1 cm s cm s ES 0 0 3 2 3 05 FISY 3 5 6 1 4 9 4 5 7 10 30 8 2 7 4 14 5 11 6 3 6 6 1 E 10 4 14 5 6 2 6 2 s CE XR R umol m2 S e A cd 2010 16 2 200 210 252 257 348 35 0 2010 18 2 200 210 252 265 339 34 32 2010 1 7 2 200 210 25 6 26 1 33 8 33 9 3 5 2010 17 2 200 210 24 8 25 4 34 4 5 2010 1 14 2 200 210 24 9 263 33
23. 5 t FE XN xh Eke E Eg EE H JE e k 117 C6 1 E 8 8 1 8 1 1 6 16 molm 7s 4
24. 2005 2007 H RTA L o TU T 19 S E F 29C 30 HE 6
25. 1 2 _ DE 69 5 1 Y wu 42
26. ATPase 67 b
27. X 3 lt IP OP 4 1 14 25 20 Bi 15 10 E 5 A 0 5 10 B 4 1 14 IP OP 4 4 TIP 7 4 mmol m h OP 10 9mmol m h IP IP
28. 5 2 1 koc 1 30 J R 26 3
29. 1 3 4 IH 1 4 2 5 3 4
30. IP 0 35 mmolm h IP 9 1 IP OP 5 4 2 12 12 10 10 E T oe 8 2 8 D Up 8 2 E 6 6 0 2017x 5 3381 o7 y U 7 E 6 P 0 316x 5 1464 amp e Ed R 0 8943 3 10 m h D 10 5 0 5 15 20 OP mmol 5 4 2 IP OP 15 20 10 mz h 10 5 0 3 OP mmol x 5 4 2 1 5 1 3 4 EEE E
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32. m 48 3 2 22 3 2 5 IP OP 8 11 13100 14 00 15 00 16 00 17 00 18 00 19 00 20 00 IP OP mmol m h E E 20130 21 30 22 30 23 30 0 30 1 30 2 30 3 30 4 30 5 30 6 30 7 30 8 80 9 80 2 x7 gq sssssssss aee 4 dM MN MMC EN Time B 3 2 5 IP 22 IP
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35. x IP ATPase E wi 68 5
36. 1 E E FB 83 h m IP OP mmol 13 40 14 40 15 40 16 40 17 40 53 2b h m IP OP mmol 12 30 13 30 14 30 15 30 16 30 17 30 X 5 3 2 c 84 A CN Co IP OP mmol m h N 11 00 12 00 13 00 14 00 15 00 16 00 17 00 18 00 5 3 2 d IP OP mmol m h 11 25 12 25 13 25 14 25 15 25 16 25 17 25 18 25 53 2 e 85 h m IP OP mmol 11 45 12 45 13 45 14 45 15 45 16 45 17 45 18 45 5 3 2f 14
37. Y Y L HL 3 4 94 5 5 1 II 5 Zh FTR 2E
38. 1 E X 0282 5 fs 05 II vp E HZ E lt s EE
39. CO 107 6 1 2 BOT 6 1 1 2 6 1 1 Bd 6 1 2
40. OP OP Goreou 9 li 76 5 2 IP OP 5 2 1 1 2
41. 99 Ca ATPase ATPase ATP x 4 1 10 1000nmolm7s 65
42. CO 24 E s s C ES E E Lr 8 oo Bep 0 B
43. 1 022 g cm 2 94 gem 2 2 2 B 2 2 5
44. s india ibiq TT 2 1 1 2 1 2 2 1 3 2 1 4 12 2CT 2e 2 1 1 2H2O 4H 2e 2 1 2 HO 1 20 2 20H 2 1 3 2HO 2e 20H 2 1 4
45. KIZ E o TERZ 3 K 113 1
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53. IP OP IP OP 1 5 59 4 43 5 04 4 33 1 HH NA NA 4 64 7 41 HE 3 426 4 345 3 58 4 52 2 2 90 4 34 3 43 5 00 3 B 2 38 3 55 2 84 5 60 3 HH 2 30 3 95 2 29 2 06 mmol m h 5 13 5 13 TP OP 1 6 14 5 30 1 4 74 5 70 4 84 5 45 2 42 4 54 mmol m h 3 200 210umolm s IP OP 5 14 5 14 IP OP IP OP 7 41 10 87 2 98 5 18 mmol m h 100 1 IP 1
54. 1 3 1 4 1 IP OP PR AME Spmolkg h 1 IP Smolkg h
55. H N D DOLIA S
56. z 8 2 8 2 3 2 354 7 cm 350 6 cm 2 3 mmol m h 119 2 3 8 3 IP IP P IP OP HERO POP
57. IP 3 2 1 3 3 lv SE 3 2 1 1 3 1 KOZ 1 2 1 24 3 2 1 3 3 3
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59. EL og 1 ELS 1 2 FE Lv v N 3 127
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61. onn 5B 106 1 6 9 1041040
62. 115 s fecti 3 1 E FH m TAG 4 EDJ
63. 30 80 time s 3 2 1 2 3 4 5 6 7 11 20 11 24 11 24 12 8 12 8 12 14 12 17 12 21 12 21 1 4 1 4 1 8 1 87 1 14 8 9 10 11 12 13 14 1 14 1 18 1 18 1 21 1 217 1 29 1 29 2 5 2 52 12 2 12 2 19 2 19 2 26 15 16 17 18 19 20 21 2 26 3 5 3 5 3 13 3 13 4 22 4 227 5 A 574 5712 5 12 5 22 5 227 5 30 3 1 2 II 8 3 8 4 K 8 5
64. H 105 IP OP 1 OP IP 1 5 6 3 ERRUER TII 1 120ml RI
65. 1 30 1 30 1 200 molm s 400cm 8L 1 40 100 molkg 1 5 ET 10 20 ATT 05 2 2 6 L 1
66. 0 35 day E 207 4 298 4 year E 10 13cm W 5 10cm 10cm 30cm 2 3 3 2 3 3 1 3 0mmol m h 1 LU JA CAE 30 3 89g 1 4 year 3 3 IP
67. 465 p26 31 http www photosynthesis jp keikou html fluorescence http hostgk3 biology tohoku ac jp Hikosaka fluorescence html http www cc u ryukyu ac jp hidakom 1994 45 10 Z p 573 623 Fujimura H Oomori T Maehira T Miyahira K 2001 Change of coral carbon metabolism influenced by coral bleaching Galaxea 3 pp 41 50 LS ERE PRAE 1997 8 EE CO gt Kenneth Schneider Oren Levy Svy Dubinsky and Jonathan Erez 2009 In situ diel cycles of photosynthesis and calcification in hermatypic corals Limnol Oceanogr 54 6 p1995 2002 Goreau T F 1959 The physiology of skeleton formation in corals I A method for me
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96. 8 10 4 1 3 25 SS 4 20 OP AR E JR E 10 DAHANNA NAAA AAAA AAAA AAAA AAAA AAAA Re AAAA E PE E I T E TE TTE T g e 0 13400 14 00 15 00 16 00 17 00 18 00 2 19 097 20 00 5 aus a s sas Oe 11 110 4 1 3 61 OP IP 4 1 4 OP IP 25 nexu cue TOULOUSE x IP 20 OP EC TO TT E 15 TROP 8 amp JO aaa um eue e n HP 0 12 30 13 30 14 30 15 30 16 30 B 4 1 4 4 1 2 2 IP OP 8 10 hi m IP OP mmol
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103. 23 12 p785 793 15 THOMAS J GOREAU JAMES M CERVINO RACHAEL POLLINA 2004 Increased Zooxanthellae Number and Mitotic Index in Electrically Stimulated Corals Symbiosis 37 pp107 120 16 2009 17 Biorock net http www biorock net 152 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 Aurelie Moya Sylvie Tambutte Eric Tambutte Didier Soccola Natacha Caminiti and Denis Allemand 2006 Study of calcification during a daily cycle of the coral Stylophora postillata implications for light enhanced calcification the journal of experimental biology 209 p3413 3419 Hiroyuki Fujimura Tomihiko Higuchi Kazuyo Shiroma Takemitsu Arakaki Asha Mansour Hamdun Yoshikatsu Naono Tamotsu Oomori 2008 Continuous flow complete mixing system for assessing the effects of environmental factors on colony level coral metabolism J Biochem Biophys Methods70 p865 872 Nakamura R van Woesik H Yamasaki 2005 Photoinhibitation of photosynthesis is reduced by water flow in the reef building coral Acropora digitifera Marin Pollution Bulletin 5 pp109 118 1993
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118. ER TN A IP P 4 1 13 m 66 15 m IP OP mmol 5 10 B 4 1 13 IP OP
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132. 3 3 1 2 6 3 3 3 1 IP OP 3 6 ER U Ej WY 3 6 uf zt umol m2 s PSU 2009 10 26 2 200 210 24 8 27 34 0 34 3 2009 8 5 3 200 210 24 8 25 4 33 8 34 1 3 3 2 3 3 1 IP OP
133. KEZ 4 2 2 FH I E L 108 ANZ 6 1 2 2 2 id Z 3 1 4 10 16 ECOTECH MARINE VorTech PROPELLER PUMP MP10
134. 2 2009 6 25 14 33 2009 6 25 15 00 104 009 8 12 BK 102 531 E FB XV 2724 61 2501 88 PSU C O 2 Imol kg 2391 81 Abt umol kg 2188 94 EE ds nm HE mA m 2009 6 25 15 33 2009 6 25 16 00 102 514 2345 87 2132 55 2009 6 25 16 33 2009 6 25 17 00 102 529 2298 85 2068 6 2009 10 16 11 46 2009 10 16 11 15 103 161 2660 64 2485 03 2009 10 16 13 10 2009 10 16 12 15 103 179 2625 27 2428 74 2009 10 16 13 52 2009 10 16 13 15 103 338 2585 65 2376 07 3 B 2009 6 25 12 02 2009 6 25 13 02 2009 6 25 12 00 2009 6 25 13 00 102 528 102 527 2411 94 2343 51 2163 92 2009 6 25 14 02 2009 6 25 14 00 102 52 2278 63 2083 58 2 145 Erud onn 105 904 33 9 26 5 26 6
135. 2 5 9 3 2 5 4 2 5 4 1 IP OP 8 9 4 00 6 00 8 00 10 00 12 00 14 00 16 00 9 00 11 00 13 00 15 00 17 00 19 00 21300 23 00 _ 1 00 3 00 3 008 7 00 X 5 4 la 89 h IP mmol hi m IP OP mmol hr ens IP OP mmol 1580 17 30 1 9 30 11 30 1130 13 30 15 30 17 330 19 303 21 30 E 15 30 17 30 19 30 21 30 23 30 4 1 b PAZDRO
136. 1 O 1 2 1 24 3 2 1 3 3 5 9 l 3 Ai cum s 24 50 mA m 50 mA m 11 20 20 8 50 mA m 5 9
137. 90 20 IP OP mmol m h hb IP OP mmol h m IP OP mmol 9 JP OP 0 13 30 15 30 17 30 19 30 21 30 5 4 1 c 91 4 3 IP OP Wr E 1 x M EE IP OP Sip b Sop 1 5 10 3 2
138. PA m OSEE
139. 2 3 2 1 5 5 30 5 5 2 F umol m s C PSU mA m 2009 6 25 3 200 210 26 9 27 1 33 6 33 7 0 12 00 14 00 2009 6 25 3 200 210 26 4 26 8 33 6 33 8 50 15 00 17 00 2009 6 23 3 0 25 5 26 5 33 3 33 4 0 21 47 23 47 2009 7 2 3 0 25 4 25 6 33 4 33 8 0 21 25 23 25 2009 6 24 3 0 24 24 8 332 334 50 20 50 22 50 2009 6 25 2 200 210 25 1 26 1 33 5 33 7 0 15 00 17 00 2009 10 16 2 200 210 23 8 25 3 33 8 34 2 0 11 15 13 15 2009 85 2 200 210 24 8 25 1 33 9 34 50 12 30 14 30 2009 6 24 2 0 25 1 25 2 332 334 0 20 20 22 20 2 2009 6 23 2 0 25 8 26 5 33 3 33 4 50 22 20 0 20 2009 72 2 0 25 1 25 7 33 6 33 8
140. 3 3 3 pH 6 57 4 E 224 3
141. 4 1 5 4 1 5 BARFE OP OP 62 OP OP IP 9 4 1 6 B E 12 30 13 30pime 14 30 15 30 4 1 6 883C 2E FOOD 32 H 4 1 2 3 IP OP 8 10 4 1 7 25 h m CA IP OP mmol 12 30 13 30 14 30 15 30 16 30 17 30 18 30 4 1 7 63 qd T 4 1 8 ht m IP OP mmol 13 30 14 30 15 30 4 1 8
142. pH D pH 22 6 2 2 7 2 2 7 2 2 8 pH 20 2 2 2 8 250 150 _ CO aq gt mV 100 0 500 1000 1500 2000 2500 3000 3500 4000 HCI uL 2 2 7 2200 mol kg 0mV pH7 236m V pH3 Ar 2 02 B
143. 4 TP OP 3 2 7 10 2 7 O uad 2 i e o Tun O lt Remp g Ir e e o Ses c 8 qe l san es 9 e e e e 4 T p e ss 0 7 SAC YAI yI c DEAD IRURE RARE E E ALDEA ANA 2 rue 2 g B lt e 6 s 4 y 0 4501x 2 5436 y 0 152x 2 6336 0 2989 R 0 0905 5 7 11 13 15 17 10 8 6 4 2 0 2 OP ieu m OP mmol m h 32 7 IP OP IP OP IP OP 5
144. 3 1 1 Fo startFo endFo Fm startFm endFm F startFt L1 Fm startFm L1 endFm L1 3 1 1 2 2008 11 20 2009 5 30 18 1 2 1 1L 3 2
145. 39 J 27y 27Y standard x B 3 1 9 3 IL o HL 40 T T T T T 0 4 1 1t 02 standard 1 1 1 1 1 1 08 12 1 09 1 1 09 2 1 095 094 095A 0 4 ml ty 1y 0 2 standard 1 1 1 1 1 08 12 1 09 1 1 09 2 1 09 3 1 09 4 1 09 51 Loa T T T T T T 2t 02 standard L 1 L L 1 il 08 12 1 09 1 1 09 2 1 09 3 1 094 09 5 0 4 wlzy 2y standard 1 1 1 1 1 1 08 12 1 09 1 1 09 2 1 09 3 1 09 4 1 09 51 Loa T T T T T T J m eI 3t 3t 02 standard 1 1 1 1 1 1 08 12 1 09 1 1 09 21 09531 09 41 095A 0 4 ql 3y 3y 02 standard 1 1 1 1 1 1 08 12
146. 60 IP OP 4 3 4 3 Pa fin EAT 2009 11 19 3 390 24 17 26 34 354 12 00 19 00 D 2009 11 20 3 200 210 24 5 254 342 344 13 00 16 00 0 2009 11 4 3 213 367 24 1 25 7 342 344 11 00 21 00 4 1 2 IP OP 3 200 210umol m s TP OP 4 4 4 4 IP OP 3 TP OP 7 4 10 9 3 0 5 2 mmol m h 4 1 2 1 IP OP
147. 74 mmo m h 125 mmol m h 1 1 HZ C 45510 mmol m yea 4551gCaCO m year 3 315cm 3 1 143g CaCO m year CHA 2009 5 2 3 3 2 4 E 260 E 5 1 1 1mmol m h S u mol kg h 3
148. E 5 1 H RO IP gt E FE 2d O 4H H 4 A I I IP dox 3 H c
149. d o uu I 1 CO A E E 2d 00H 4 12 00 2 O S Ex c Yi sit F uz umol m2 s mE ys mA m 2009 10 26 2 200 210 24 87 27 0 s cC 2009 10 28 2 200 210 24 0 26 3 50 104 5 6 2 5 6 1 IP 8 8 h m IP OP mmol 12 30 13 30 14 30 15 30 16 30 17 30 18 30 h m IP OP mmol 11 30 12 30 13 30 14 30 15 30 16 30 17 30 E 5 6 1 13 14 16 17 UN ND TP 14 30
150. 2386 53 2322 25 R 8 9 2009 7 18 2009 7 18 18 03 18 00 2296 56 2154 72 2073 26 ES umol kg 2061 07 2009 7 18 2009 7 18 19 01 19 00 2235 35 1983 85 2009 7 18 2009 7 18 20 01 20 00 2267 79 2028 34 2009 7 18 2009 7 18 21 01 21 00 IESUS 2223 54 2017 94 2009 7 18 2009 7 18 22 01 22 00 riii 2263 84 2072 51 2009 7 18 2009 7 18 23 01 23 00 195930 2230 79 2076 81 2009 7 19 2009 7 19 0 01 0 00 0890 2271 02 2123 5 2009 7 19 2009 7 19 1 02 1 00 1055 2235 83 2121 03 2009 7 19 2009 7 19 2 04 2 00 AEST 2283 12 2165 18 2009 7 19 2009 7 19 3 03 3 00 102 531 2294 73 2181 53 2009 7 19 2009 7 19 4 03 4 00 HERD 2269 31 2179 05 2009 7 19 2009 7 19 5 01 5 00 10556 2303 56 2201 14 2009 7 19 2009 7 19 6 01 6 00 HER 2287 91 2199 58 2009 7 19 2009 7 19 7 00 7 00 Hee 2259 38 2184 18 2009 7 19 2009 7 19 10 15 10 00 132 2333 29 2190 95 E nb mA m 102 543 33 9 27 27 2 2261 43 2096 73 7 784 E 102 544 33 9 26 8 27 9 2324 19 2145 31 7 823 E 102
151. umol m s C PSU mA m 2009 7 18 3 200 210 244 25 7 33 7 34 5 0 2009 7 28 3 200 210 24 27 9 33 3 34 0 2009 8 18 3 200 210 242 26 6 33 7 342 0 2009 12 16 3 200 210 25 0 26 1 33 33 7 0 2009 9 18 3 200 210 24 3 26 1 34 34 7 50 2009 10 4 3 200 210 24 1 25 5 32 9 34 1 S0 2009 10 13 3 200 210 24 8 26 1 33 6 33 9 50 2009 12 18 3 200 210 24 1 25 7 33 6 34 50 2 1 3 1 24 24 88 Le 2 32 2 ES hi m IP OP mmol IP OP mmol m h 50mA m
152. 3 Bir TI 2008 12 6 2009 2 26 II 3 1 3 2009 2 26 2009 5 26 6I 3 1 4 32 sees x 2 50A m2 3 0A m2 c 2 30A m2 3 0Am2 3 SA m2 3 A m2 2 2 0A m2 2 0A m2 x 3 x gt amp SYST QA Q 2 7 ua uo 7 P SP S uy XP OR w a 3 1 3 2009 2 26 II cw KE RE SA m2 m IKRISQE 0A m2 2 26 3 3 3 8 313 3 18 3 23 328 4 2 4 71 4 12 17 4 22 4 27 5 2 57 5 12 5 17 5 22 3 1 4 2009 2 26 2009 5 26
153. IP OP mmol m h oo 10 30 11 30 12 30 13 30 14 30 15 30 time time 6 2 1 a 111 e N IP OP mmol m h 6 4 2 0 10 30 11 30 12 30 13 30 14 30 15 30 time time IP OP mmol m 1 6 2 1 b 13 30 14 30 15 30 time OP W OP 14 5cm s 3 10
154. E P Westech 2 ES CRR s HA 3 NEV FREE 2 H 4 156 Tac E
155. E 4 EA H 87 5 4 IP OP 3 24 12 5 4 1 3
156. 3 1 24 3 3 3 2 2 ximo BL 5 t 0 32 2 3 1 1 1 1 1 1 1 1 t 1 t 2 t 3 t 4 t 5 t 6 t 7 t 8 t 9 45 3 2 1 2 3 RRK 77v 3 ECCO 20 Oumol m s 3 4 3 2 3 3 4 m M umom PSU 2009 10 27 3 200 210 25 4 26 3 33 8
157. 5 19 97
158. IP 5 10 IP OP ERO A Sie Sop 67 7 77 8 B Sr Sr 48 2 46 6 A Sr ER Sor 1 A B Sr Sm 3 0 1 A 4 IP OP 10
159. IP OP IP OP T5 3 C 1 Ar C IP OP 2 2 12 2 2 16 8 4 1 8 4 2 IP OP ame WY IP Ar mol kg h 8 4 1 Cr IP mol kg h 8 4 2 120 8 4 8 3 1 11 20 3l 3 12 8 12 14 4 12 17 12 21 5 6 96 day
160. WE 1 300 mol m 1 4 1t ly 7t 7y 8 1 2 gpI 8 1 8 1 gpI u mol m s 0 42 0 41 0 38 0 41 0 00012 0 00019 0 00015 0 00019 002 2 0 02 0 03 0 04 8 2 2 2 12 2 2 16 IP OP Ikg 1 mol
161. I q II 1 3 33 82765 9 IL 0 f amp O E 3 1 6 3 50mA m 2 50mA m IL 0 2 0 3 0 4 0 5 0 6 I 0 2 0 3 0 4 0 5 0 6 0 0 0 1 0 0 0 1 11 25 12 6 e F E cN 2 0 05A m2 2 0 05A m2 3 0A m2 o 3_0A m2 e 00 01 02 03 070 i 02 03 day k day 12 21 12 14 a ti x Hm Lug 4 e QS t cN 2 _0 05A m2 2_ 0 05A m2 3 0A m2 S 3 0A m2 e el 070 070 0 1 02
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163. 9 Rahmadi Prasetyo 2006 53 1196 1200 10 2007 16 11 AFE 1993 p20 22 12 KA 2004 51 p 1071 1075 13 2001 12 p18 20 14 1991
164. 1 http wwwsoc nii ac jp jcrs 2 2004 3 2005 161 27 6 pp372 378 4 1990 436 5 p6 16 5 x 6 2008 7 2006 21 1 COE 8 2003 2005
165. 10 4143 12 8578 5 778 5 9623 6 17 4 5334 4 7307 7 8507 6 0234 124 6 2598 ku g 6 4105 2009 1 30 2009 2 5 2009 2 12 2009 2 25 2009 2 26 2009 3 5 2009 3 13 2009 4 22 1 022 1 022 1 022 1 022 1 022 1 022 1 022 1 022 g cm g cm g cm g cm g cm g cm g cm g cm VELUM NA 4 1317 4 1882 NA 4 258 4 315 4 392 4 775 7y NA 5 2074 5 291 NA NA 5 403 NA 5 692 11t NA 3 6621 3 7189 NA 3 796 3 848 3 921 4 274 NA 10 0148 10 1252 NA 10 24 10 358 NA 11 659 1 NA 6 1939 6 2752 NA 6 367 6 442 6 533 6 926 15 NA 6 0408 6 0895 NA 6 135 6 174 6 229 6 589 19t NA 4 5647 4 6711 4 812 5 044 5 15 5 273 5 82 19y NA 11 5117 11 7174 NA 11 927 12 119 12 33 13 384 27t NA 3 5023 3 521 NA 3 536 3 532 NA NA 27y NA 5 5815 5 5929 NA 5 614 5 627 5 658 5 909 1t NA 4 1317 4 1882 NA 7 984 8 19 8 421 9 576 ly NA 5 2074 5 291 NA 7 548 7 705 7 891 8 682 2t NA 3 6621 3 7189 NA 6 509 6 571 6 687 7 294 2y NA 10 0148 10 1252 NA 2 904 2 924 2 963 3 072 3t NA 6 1939 6 2752 NA 5 300 5 392 5 509 5 968 3y NA 6 0408 6 0895 NA 13 702 13 891 14 112 15 31
166. lt E I I hk T 8 SE BR f ROS I 1 H G
167. 104 179 342 25 8 27 3 2577 13 2250 91 8 065 Erud d 103 192 342 253 27 7 2479 55 2149 77 8 082 d Eod 104 196 344 253 27 3 2517 88 2156 63 8135 50 bcd 103 007 34 254 272 2616 59 229739 8 054 E k 103 183 34 1 25 7 274 2559 39 22053 8112 E g 104 036 34 1 25 6 27 2603 46 2276 09 8 075 149 2009 9 9 2009 9 9 I 3 26 5 2549 47 2187 73 8 135 lods 104 181 34 2 253 6 2009 9 9 2009 9 0 5 27 3 250323 2109 89 20 1630 103 03 25 5 27 3 2010 1 6 15 30 2010 1 6 13 00 104 153 8 14 3062 42 Imol kg 2796 45 2010 1 6 15 59 2010 1 6 14 00 103 189 3004 25 2722 79 2010 1 6 16 28 2010 1 6 15 00 103 33 2945 29 2638 57 2010 1 6 16 58 2010 1 6 16 00 103 08 2898 68 2578 23 2010 1 7 10 04 2010 1 7 11 03 2010 1 7 10 00 2010 1 7 11 00 104 151 103 171 2985 57 2936 93 2775 81 2688 4 2010 1 7 12 01 2010 1 7 12 00 103 315 2880 22 2615 98 2010 1 7 15 24 2010 1 7 13 00 103 022 2812 25 2484 64 2010 1 7 15 52 2010 1 7 13 00 104 186 2967 46 2694 36 201
168. 20090604 20090694 102508 33 4 262 27 1 235668 214183 2896 50 52 D p 102 492 33 2 26 4 28 7 2336 72 215806 7 82 146 2009 9 9 12 02 2009 9 9 12 00 104 032 2668 79 2423 01 2009 9 9 13 03 2009 9 9 13 00 104 034 2568 32 2297 13 2009 9 9 14 26 2009 9 9 14 00 104 059 2469 19 2175 07 2009 9 9 15 02 2009 9 9 16 20 2009 9 9 14 05 2009 9 9 15 05 103 329 104 038 2649 18 2549 25 2362 79 2241 71 2009 9 9 18 19 2009 9 9 103 352 2452 52 2114 75 16 05 Gp ds E FEE mA m 50 ON Ec di Eod 102 552 26 8 26 6 2360 6 219736 7 777 2000008 200908 102 559 34 1 268 26 5 228812 21003 7 815 t 102 551 26 9 26 3 2221 07 20261 7 85 0 5 2 Ed e 102 559 34 1 26 7 26 7 2141 33 19322 7 888 200978 200978 102567 342 267 263 206869 184692 7917 30 AUR umol kg 104 147 229638 2124 83 104 142 2279 77 2145 13 19 19 104 157 2261 2173 92 oc In un 19 104 212 225746 21941 sn 2309 1 219925 ard 2295 85 221621 e aae masi 2287 88 2245 99 _ n m
169. 2579 52 2405 09 7 824 439 200985 103 173 34 263 268 253579 234917 7851 50 52 Ro 8 Er 105 905 33 9 26 4 274 2477 77 22694 7 888 3 T 102 523 2385 19 2180 25 o ud MEE amas 2320 01 2098 73 id UN 102 529 225525 2019 03 2 K ae e 102 514 33 5 268 27 6 2381 43 2110 83 7 984 20090604 20090624 102 507 334 266 273 23583 212439 7 927 0 52 Q d 102 492 33 2 266 27 7 233697 2135 61 7 867 3 K T1234 awa 2009003 20090023 102 506 33 4 269 26 8 236494 219284 7797 0 52 2009823 2009573 102306 334 268 26 233885 220731 7705 2009002 20092 102 507 336 265 263 23484 212799 7 896 2009002 pos 102 538 338 265 272 230333 2130 11 7806 0 52 2009002 200977 102 531 33 7 262 269 227797 214748 771 2 K e e 102 505 33 4 273 27 8 239145 2192 64 7 844 20090603 2009 93 102 499 33 3 266 26 1 23645 219621 1 795 50 52 2009 6004 20090624 102506 334 27 272 235637 221465 7 726 2009002 200972 102 522 33 6 266 26 5 234341 213826 7 867 rds tn 102 538 33 8 264 26 4 2315 63 214525 7 799 50 52 2009072 20092 102 538 33 8 262 26 7 2290 16 2149 85 7 735 3 K E n 102 509 33 4 259 27 9 237939 212485 7 976
170. 34 1 2009 11 21 3 0 24 6 25 3 33 2 33 4 xmo 977 XED 977 RE 12 30 20 00 13 30 a 21 00 15 00 23 00 16 00 24 00 ANE 07 18 00 2 00 19 00 3 00 20 00 4 00 21 00 5 00 3 2 3 6 00 7 00 46 h IP OP mmol m h IP OP mmol m 3 2 2 3 2 2 1 4 32 4 IP OP 8 9 a s 10 00 12 00 14 00 16 00 0 9 00 11 00 13 00 15 00 17 00 19 00 21 00 23 00 _ 1 00 3 00 5 008 7 00 5 M LE eer E aM UC H 410 a E Time 3 2 4 a
171. 14 1 2 1 2 RAC UT XC Fluor Cam 2 3 1 3 1 HH 3 1 1 protocol body generated by wizard version PK June 24 2005 include default inc ElectronicShutter 0 Sensitivity 60 Irradiance 40 Superlrradiance 50 fOduration 5 04 4 Includes standard options do not remove it 28 this is Fo definition lt 0 1s 5 04s gt gt mfmsub lt 0s gt gt checkPoint startFo lt 04s gt gt checkPoint endFo this saturation pulse Fm measurement lt 04s 80ms gt gt SatPulse 800ms 40ms 20ms 5 04s 80ms actinlightOn 800ms 40ms 20ms lt 5 04s 80ms 800ms 2 5 04s 80ms 800ms 2 80ms 5 04s 80ms 800ms gt gt mfmsub lt 5 04s 80ms 800ms 2 gt gt checkPoint startFm lt 5 04s 80ms 800ms 20ms gt gt checkPoint endFm dark pause lt 5 04s 80ms 800ms 40ms 13 5 04s 80ms 800ms 120ms 13 5 04s 800ms 10s gt gt mfmsub actinic light
172. 2166 46 2009 7 29 1 08 2009 7 29 1 00 102 524 2276 1 2170 75 2009 7 29 2 04 2009 7 29 2 00 102 516 2290 86 2194 58 2009 7 29 3 08 2009 7 29 3 00 102 515 2368 63 2249 14 2009 7 29 4 06 2009 7 29 4 00 102 517 2334 82 2242 8 2009 7 29 2009 7 29 102 516 33 5 262 27 6 23932 228383 7702 5 05 5 00 2009 7 29 2009 7 29 102498 333 27 289 2366 04 2283 04 7 623 6 06 6 00 d A 102 504 33 4 274 29 7 2406 98 230429 7 671 2009 7 29 2009 7 29 102 515 33 5 266 253 2379 64 230534 7614 8 06 8 00 2009 8 18 15 06 2009 8 18 15 00 104 037 2324 38 2113 52 2009 8 18 16 06 2009 8 18 16 00 104 035 2247 17 2024 65 2009 8 18 17 05 2009 8 18 17 00 104 019 2303 88 2081 46 2009 8 18 18 05 2009 8 18 18 00 104 028 2238 96 2004 24 2009 8 18 19 04 2009 8 18 20 04 2009 8 18 19 00 2009 8 18 20 00 104 021 104 045 2290 72 2236 27 2056 81 1988 82 2009 8 18 21 04 2009 8 18 21 00 103 975 2291 19 2081 58 2009 8 18 22 05 2009 8 18 22 00 104 022 2258 42 2096 74 2009 8 18 23 04 2009 8 18 23 00 104 023 2223 77 2118 51 2009 8 19 0 04 2009 8 19 0 00 104 01 2301 17 2161 66 2009
173. mol kg h 30 p 20 sss uc s 17 bo mOP 10 Meer CA 8 8 e 0 4 IU 10 WE X 20 m M R ORQ Rm BE 5 1 2 2 IP 254 molkglh IP 72 5 1 3 40 ht S IP OP umol 40 EIN SHIRE IP bichos ania eniin fiib tine c DNE qhap i SE SEO YE MESA ht IP OP umol kg 13 30 14 30 15 30 16 30 17 30 ht N IP OP umol S B 5 1 3 73 Q EQ ci
174. 00 104144 2505 57 2229 13 oe da EE 2508 07 2231 7 20 40 18 00 i 2509 22 2228 56 22 03 18 00 8 7 Nas ZK no 2 Hou au a BRE L 9 x 2 3 PSU O umol ke umol kg mA m 2009 6 18 2009 6 18 1030 102 492 33 2 26 6 26 1 2422 99 2325 08 7 607 2009 6 18 2009 6 18 nd 1212 102493 33 3 28 7 287 2417 51 2308 16 7 61 0 5 1 2009 6 18 2009 6 18 102492 333 29 2 29 1 2412 61 2293 32 7 622 13 13 13 15 2009 6 19 2009 6 19 i e 1523 102513 33 5 27 262 240966 2228 63 7 794 2009 6 19 2009 6 19 ME 1623 102517 33 6 28 2 269 241023 2206 86 7 815 0 5 1 2009 6 19 2009 6 19 1733 102 507 33 5 29 3 293 240114 2176 59 7 849 2009 6 25 2009 6 25 i5 522 33 6 26 5 26 6 2451 17 2279 97 7 764 11 33 11 30 2009 6 25 2009 6 25 I 123g 102528 33 7 27 1 268 2413 12 22461 7 776 50 5 1 2009 6 25 2009 6 25 ad 1330 102 514 33 5 26 9 262 2345 87 2132 55 7 88 2009 12 3 2009 12 3 21 00 104067 346 27 7 262 31113 285436 7 875 2009 12 3 2009 12 3 Ses 2209 104067 346 27 8 262 3106 94 285125 7 869 0 51 2009 12 3 2009 12 3 ds 2309 104069 34 6 273 254 3106 05 284421 7 847 2009 10 19 2009 10 19 i 21 40 104025 34 26 7 263 2530 51 2232 51 8 059 2009 10 19 2009 10 19 e 23 52 1040
175. 03 day 0 1 02 0 3 h day 3 1 a 11 25 1 8 IL 34 3 1 5 3 1 6 3 1 7 X 3 1 5 2 50mA m 3 1 7 R 3 1 5 b 11 25 1 8 O II gl 18 e e ud L s He cN Ed 2 0 05A m2 3 0A m2 e T T T 0 0 0 1 0 2 0 3 day ell a p 1 ceu e J XE Hole BO e p ex ars yt 2_0A m2 e 3_0 05A m2 e T T T T T 0 0 0 1 0 2 0 3 0 4 day 1 18 3 de ub Fic o Ta ed m 2_0A m2 e 3_0 05A m2 e S T 0 0 0 1 0 2 0 3 h day 02 03 04 05 0 6 I 0 2 0 3 0 4 0 5 0 6 0 0 0 1 0 0 0 1 1 15 T Tt 2_0A m2 3_0 05A m2 0 0 0 1 0 2 0 3 day 1 22 2_0A m2 3_0 05A m2 35 0 1 0 2 0 3 RRE h day X 3 1 6 a 1 8 2 25 O I I 0 2 0 3 0 4 0 5 0 6 I 0 2 0
176. 1 09 1 1 09 241 09 31 09 4 1 09 5 1 CoA T T T T T T pik 4t standard 08 12 1 094 09 21 09 31 094 1 09 5 T T T T Li T mE I dy 4t standard 1 1 1 1 L 1 08 121 09 11 09 2 09 31 09 4 1 09 5 1 T T T T T plist 6t 02 standard 1 1 1 1 1 1 08 12 1 09 14 09 21 09 3 1 09 4 1 09 5 1 0 4 mI 6y 6y 02 standard 1 1 L L 1 1 08 12 1 09 11 09 21 09 3 1 09 4 1 09 54 3 1 3 3 1 10 27t IL 0 4 ET 0 4 0 35 A E E 0 35 0 3 0 3 0 25
177. 1 8 14 00 104 041 2953 4 2727 75 2010 1 8 14 30 2010 1 8 15 00 2010 1 8 14 30 2010 1 8 15 00 104 041 104 041 2938 49 2916 95 2735 24 2734 76 2010 1 8 20 32 2010 1 8 20 30 104 04 2934 73 2619 54 2010 1 8 23 45 2010 1 8 21 00 103 188 2963 88 2637 6 2010 1 8 21 30 2010 1 8 21 30 104 031 2913 42 2620 54 2010 1 9 16 25 2010 1 8 22 00 103 418 144 2901 78 2613 62 2010 1 8 22 31 2010 1 8 22 30 25 2 2892 57 2626 87 2010 1 14 13 28 2010 1 14 13 05 104 026 1 2835 38 2573 26 2010 1 14 13 58 2010 1 14 13 35 103 377 2757 45 2557 06 2010 1 14 14 36 2010 1 14 14 10 104 032 2771 01 2561 03 2010 1 14 15 56 2010 1 14 14 35 103 388 2747 12 2555 81 2010 1 14 15 13 2010 1 14 15 10 104 026 2721 24 2569 22 2010 1 14 20 31 2010 1 14 21 00 2010 1 14 20 30 2010 1 14 21 00 104 026 104 016 2844 42 2791 2506 58 2496 64 2010 1 14 21 31 2010 1 14 21 30 104 009 2766 41 2492 15 2010 1 14 22 00 2010 1 14 22 00 104 01 2745 23 2498 79 2010 1 14 22 31 2010 1 14 22 30
178. 3 4 25 T 2 5 ERROAZ mmol m h mmol m h 15 70 18 85 15 66 18 94 2 3 3 1 1 1 mmol m IP OP IP OP h 2
179. 347 26 6 27 3 2343 44 2210 53 7728 50 5 4 2009 10 4 8 29 2009 10 4 8 25 104 037 2469 97 2375 56 2009 10 4 9 29 2009 10 4 9 25 104 035 136 2397 69 2268 04 2009 10 4 2009 10 4 1000 7 103 958 33 1 26 268 240237 227073 7774 0 2009 10 4 2009 10 4 UE 1r00 103 958 33 1 261 26 8 2331 74 216293 7853 50 2009 10 4 2009 10 4 Ms 1200 7 103 966 332 259 26 2 2246 28 204851 793 50 2009 10 4 2009 10 4 E 00 103 942 329 261 26 5 2385 32 219882 7891 50 2009 10 4 2009 10 4 em ao0 103965 332 261 263 230449 208857 7952 50 2009 10 4 2009 10 4 1s00 103 951 33 257 268 237604 216189 7959 50 2009 10 4 2009 10 4 A ia00 103943 33 282 268 229225 204468 7984 50 2009 10 4 2009 10 4 i 12064 103 96 33 1 25 5 26 6 236436 2129 62 amp 007 50 2009 10 4 2009 10 4 i800 103 949 33 262 265 2277 81 2009 58 amp 062 50 2009 10 4 2009 10 4 10067 103944 329 257 268 2347 209411 amp 029 50 2009 10 4 2009 10 4 PA 500 103 943 329 258 27 1 22802 19901 8 07 0 2009 10 4 2009 10 4 Dac 2 00 103942 329 263 26 6 234531 210894 7991 0 2009 10 4 2009 10 4
180. 50 21 55 23 55 2 4 2 2 3 4 5 6 4 30 5 6 4 as umom PSU maA m 2009 7 8 3 200 210 25 7 25 9 34 0 34 2 0 12 00 16 00 2009 9 9 3 200 210 24 7 26 4 34 1 34 4 50 12 00 16 05 77 IP OP mmol m hy 5 2 2 IP OP 1 2 5 7
181. 544 33 9 26 8 27 4 2254 89 2061 58 7 861 T p x 102 55 34 27 1 27 4 21819 1974 72 7 89 e 102 537 33 8 26 7 27 4 2301 15 2083 61 7 911 e nu 102 552 34 26 8 27 3 2226 85 1996 15 7 945 pn y 102 551 34 27 272 215222 1907 85 7 968 2009 7 28 8 34 2009 7 28 8 30 102 537 2404 03 2290 86 2009 7 28 9 33 2009 7 28 10 36 2009 7 28 9 30 2009 7 28 10 30 102 552 102 541 2340 58 2394 46 2204 41 2231 87 2009 7 28 11 35 2009 7 28 11 30 102 551 2332 61 2152 69 2009 7 28 12 34 2009 7 28 12 30 102 549 2381 95 2193 78 2009 7 28 13 34 2009 7 28 13 30 102 55 2306 49 2109 36 2009 7 28 14 34 2009 7 28 14 30 102 54 2360 74 2150 66 2009 7 28 15 33 2009 7 28 15 30 102 549 2286 01 2062 83 2009 7 28 16 34 2009 7 28 16 30 102 524 2325 94 2097 28 2009 7 28 17 32 2009 7 28 17 30 102 538 2254 65 2011 01 2009 7 28 19 07 2009 7 28 19 00 102 53 2308 92 2064 3 2009 7 28 20 06 2009 7 28 20 00 102 536 2256 99 1998 77 2009 7 28 21 06 2009 7 28 21 00 102 519 2317 97 2093 33 2009 7 28 22 06 2009 7 28 23 06 2009 7 28 22 00 2009 7 28 23 00 102 519 102 509 2285 27 2324 03 2103 96 2151 15 2009 7 29 0 06 2009 7 29 0 00 102 517 2301 94
182. 9 34 7 4 6 2010 1 8 2 200 210 25 6 268 34 1 342 3 6 2010 1 14 2 200 210 25 26 3 33 8 33 9 10 4 110 6 2 6 2 1 IP OP 8 14 IP OP 8 14 OP 14 2 18 Qe UM 0cm s 3 05cm s 16 16 Pr TP Se PE ROHIPPOS TEN TRCTRC EEE EE SRE EEEN 14 EHE TERRE TI EA EE EMEN IHE e a 12 10 E E A A 6 4 2 0 13 30 14 30 15 30 10 30 11 30 12 30 time time 16
183. definition lt 5 04s 800ms 10s 80ms gt gt actinlightOn 61s measuring in Kautsky induction and after Dark relaxation lt 5 04s 800ms 10s 80ms 5 04s 800ms 10s 80ms 80ms 6 5 04s 800ms 10s 61s 10s gt gt mfmsub saturating pulses in Kautsky induction and Dark relaxation lt 24 96s 80ms 6 gt gt checkPoint startFt L1 lt 24 96s gt gt SatPulse 800ms 20ms 24 96s800ms 2 checkPoint startFm L1 lt 24 96s 800ms 80ms gt checkPoint endFm L1 lt 24 96s 800ms 2 24 96s 800ms 2 80ms 24 96s 800ms 80ms gt gt mfmsub lt 24 96s 30s 80ms 6 gt gt checkPoint startFt L2 lt 24 96s 30s gt gt SatPulse 800ms 20ms 29 lt 24 96s 30s 800ms 2 gt gt checkPoint startFm_L2 lt 24 96s 30s 800ms 80ms gt gt checkPoint endFm L2 lt 24 96s 30s 800ms 2 24 96s 30s 800ms 2 80ms 24 96s 30s 800ms 80ms gt gt mfmsub lt 24 96s 2 30s 80ms 6 gt gt checkPoint startFt L3 lt 24 96s 2 30s gt gt SatPulse 800ms 20ms lt 24 96s 2 30s 800ms 2 gt gt checkPoint startFm L3 lt 24 96s 2 30s 800ms 80ms gt gt checkPoint endFm L3 lt 24 96s 2 30s 800ms 2 24 96s 2 30s 800ms 2 80ms 24 96s 2 30s 800ms 80ms gt gt mfmsub lt 5 04s 500ms gt gt checkPoint time Visual startFm startFm L1 endFm 1 10 20 30 40 50 60 70 wm Local Areal mm Area2 3 1 1 2 2 1 2 2 2 2 2 3 2 2 4
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187. 0 24 0 23 0 223 0 273 0 217 0 246 0 245 27t 0 02 NA NA NA NA NA NA 27y 0 04 0 08 0 121 0 223 0 2 0 251 0 257 96 day 123 8 4 E 2008 11 20 2008 11 22 2008 11 24 2008 12 8 2008 12 11 2008 12 14 1 022 1 021 1 022 1 021 1 022 1 022 g cm g cm g cm g cm g cm g cm 5 334 5 364 5 397 5 631 5 678 5 729 11 8 624 8 663 8 708 9 014 9 075 9 139 15 8 299 8 352 8 390 8 679 8 735 8 794 19 9 804 9 882 9 960 10 430 10 517 10 607 27 5 105 5 141 5 179 5 443 5 493 5 540 1 8 874 8 958 8 988 9 353 9 431 9 650 2 5 066 5 087 5 105 5 283 5 309 5 345 3 11 764 11 833 11 900 12 420 12 523 12 635 4 8 263 8 317 8 378 8 735 8 792 8 871 6 7 761 7 811 7 866 8 160 8 217 8 281 g 2008 12 17 2009 12 21 2009 1 4 2009 1 8 2009 1 14 2009 1 18 2009 1 21 2009 1 29 1 022 g cm 1 022 g cm 1 022 g cm 1 023 g cm 4 3248 11 1341 3 4182 6 4277 6 7713 5 5439 7 1326 4 9779 5 2113 6 9034 5 6291 5 9724 6 0936 1 1345 1 1741 2 7957 4 5259 4 7086 4 871 10 1171
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193. 2009 F X Experimental research into influence that environmental factors give to coral calcification and photosynthesis ZH Tada Nozomi LT EES 4 el O T RA a a A E 4 MINER a E nm aa ahua man 4 I AAE OA EAR E rana E a duhu Q 5 I BAEO TN E eaaet 6 oM 8 8 UO IE eese bote Dam odi intr Unite deo mette Ev eR 9 cuum Od du Mui IU E ced 9 PNIS CR M 14 NE M 14 IRD O EEEE T RCM RN 18 2 23 kk 20 Ni 23 2 3 1 kk 23 NIRAI 23 2 3 3 kk 23 3 VL TO BSEC 54 4 a L Bo 00 655 27 3 1 JS RESI 28 3 1 1 28 o
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196. 3 0 4 0 5 0 6 I 0 2 0 3 0 4 0 5 0 6 0 0 0 1 0 0 0 1 0 0 0 1 0 1 0 2 0 3 day 1 28 2 5 LA s 3Pa UI et e e Ei g o o eS ee e a 2 0A m2 2 0A m2 3 0 05A m2 3 0 05A m2 00 01 02 03 00 01 02 03 day day 2 12 2 19 AR 4 etit cpr e LUE So e c e pl 2_0A m2 iu 2_0A m2 3_0 05A m2 o 3 0 05A m2 00 01 02 03 00 01 02 03 RRE day day 3 1 6 b 1 8 2 25 II 12 26 S 3 5 pt e e I gt He TT ss T n 3 J E a 2 0 005A m2 2 0 005A m2 3 0A m2 3 0A m2 070 00 0 1 0 2 0 3 h day 3 1 7 a 2 25 5 26 IL 36 3 13 IL 0 2 0 3 0 4 0 5 0 6 2_0 005A m2 3_0A m2 0 0 0 1 0 1 02 0 3 day 5 4 p lt m2 E mco Es T 2_0 005A m2 e 3_0A m2 e o 1 T T T T 0 0 0 1 0 2 0 3 d
197. 3 1 2730 18 2483 23 7 984 2009 11 21 2009 11 21 21 01 21 00 103 969 33 2 25 1 23 6 2707 44 2493 9 7 887 2009 11 21 2009 11 21 22 01 22 00 103 97 332 25 23 7 2691 16 2514 46 7 818 2009 11 21 23 02 2009 11 21 23 00 103 97 2746 44 2548 23 2009 11 22 0 04 2009 11 22 0 00 103 978 2717 49 2554 58 2009 11 22 1 02 2009 11 22 1 00 103 97 2695 5 2556 46 2009 11 22 2 58 2009 11 22 2 00 103 975 2759 74 2592 99 2009 11 22 3 33 2009 11 22 3 00 104 117 2743 63 2610 61 2009 11 22 4 04 2009 11 22 4 00 103 97 2727 47 2620 55 2009 11 22 5 02 2009 11 22 5 00 103 985 3109 09 2990 32 2009 11 22 6 03 2009 11 22 6 00 103 97 2702 5 2634 62 2009 11 22 7 03 2009 11 22 7 00 103 972 2669 63 2617 7 EE ds dn HE mA m 2009 11 22 8 00 2009 11 22 8 00 103 969 2814 2 2686 18 2009 11 22 8 57 2009 11 22 9 00 103 968 2795 37 2695 49 2009 11 22 11 04 2009 11 22 10 00 103 967 2769 92 2671 61 2009 12 22 12 04 2009 12 22 12 00 104 048 H 3089 58 2874 12 2009 12 22 12 42 2009 12 22 13 38 2009 12 22 14 06 2009 12 22 12 30 2009 12 22 13 00 2009 12 22 14 00 104 085 104 225 104 095 3059 5 3023 37 3001 6
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205. 8 2871 03 2855 63 2866 94 2009 12 22 15 02 2009 12 22 15 00 104 092 2922 55 2855 51 2009 12 23 14 22 2009 12 23 14 20 104 015 142 E 3063 51 2822 23 um d 104 036 34 1 25 8 23 9 3052 05 2829 13 7 865 2009 223 2009 7225 104043 342 259 233 30327 283103 7826 104 043 342 25 9 22 7 30225 283633 7 796 Tm 104 044 342 25 6 224 2998 66 282931 7 765 2 t 104 023 3050 7 2777 47 A ri 104 039 3020 22 2753 94 104 038 3012 87 2777 83 3007 06 2785 02 uo d 104 045 2989 87 2778 61 iei us 104 037 309836 2848 58 104 049 309449 2856 66 i 104 057 307522 2850 45 E o M adi 104 056 3054 69 2848 84 eO 104 059 3062 92 2866 05 eog uc 104 038 303235 2730 55 E cr 104 021 3005 74 2700 37 OM T 104 012 3005 18 2731 19 104 011 2995 93 2732 56 a xs 104 004 294245 2697 63 gd 103 991 3188 78 2925 66 p ue 104 009 303733 2799 28 rc xad 301824 2802 8 2992 95 2798 12 103 984 35 252 234 296706 2797 63 7 713
206. 8 07 2009 10 21 18 00 104 017 2447 79 2228 24 2009 10 21 19 08 2009 10 21 19 00 104 026 2387 32 2181 85 2009 10 21 19 35 2009 10 21 20 04 2009 10 21 19 30 2009 10 21 20 00 104 01 104 01 2500 61 2466 27 2232 25 2219 59 2009 10 21 20 36 2009 10 21 20 30 104 018 2439 13 2208 71 2009 10 21 21 33 2009 10 21 21 30 104 021 2405 54 2223 11 2009 10 21 22 03 2009 10 21 22 00 104 026 2500 8 2288 45 2009 10 21 23 02 2009 10 21 23 00 104 028 2463 13 2297 98 2009 10 22 12 06 2009 10 22 12 00 104 015 2545 2366 2009 10 22 13 03 2009 10 22 13 00 104 017 2473 43 2279 34 2009 10 22 14 04 2009 10 22 14 00 104 032 2390 56 2185 75 2009 10 22 14 35 2009 10 22 14 30 104 017 2531 58 2293 87 2009 10 22 15 33 2009 10 22 15 30 104 009 140 2454 52 2214 48 104 032 341 26 8 27 7 237132 211496 7 999 20091019 pem 104 093 232 206 271184 261449 767 20091019 2009101 104097 349 257 23 7 27094 252564 785 ne Re 0402 5 fos 246 96250 29515 5995 Eou 1040
207. 8 19 1 04 2009 8 19 1 00 104 029 2266 09 2184 02 2009 8 19 2 05 2009 8 19 2 00 104 027 2318 71 2211 91 2009 8 19 3 05 2009 8 19 3 00 104 036 2293 95 2221 46 2009 8 19 4 06 2009 8 19 4 00 104 038 2332 8 2245 13 2009 8 19 5 33 2009 8 19 5 00 104 019 2313 37 2256 73 2009 8 19 6 05 2009 8 19 6 00 104 004 2346 42 2271 54 2009 8 19 7 04 2009 8 19 8 04 2009 8 19 7 00 2009 8 19 8 00 104 022 104 011 2335 9 2381 02 2286 33 2309 74 2009 8 19 9 05 2009 8 19 9 00 104 034 2304 26 2216 57 2009 8 19 10 04 2009 8 19 10 00 104 029 2374 8 2255 42 2009 8 19 11 04 2009 8 19 11 00 104 028 2312 7 2170 59 2009 8 19 12 05 2009 8 19 12 00 104 026 2366 06 2211 99 2009 8 19 13 04 2009 8 19 13 00 104 041 2288 78 2111 63 2009 8 19 2009 8 19 14 05 14 00 104 039 34 2 27 26 5 2350 27 217022 7 821 2009 8 19 2009 8 19 15 03 15 00 104 033 34 1 26 6 25 4 2279 72 2081 62 7 862 2009 12 16 11 11 2009 12 16 11 00 103 956 2875 4 2734 66 2009 12 16 12 01 2009 12 16 12 00 103 967 2818 48 2649 24 2009 12 16 13 03 2009 12 16 13 00 103 967 2756 81 2565 07 2009 12 16 14 03 20
208. E 3 E REH molmzs C PSU mA m 2009 7 27 4 200 210 252 260 34 5 35 5 0 50 2009 8 5 4 200 210 25 26 5 33 8 34 1 0 50 2009 11 21 4 0 24 6 253 332 334 0 50 C 4 30 1 FHIR 5 3 5 3 71 umo m s PSU mA m 2009 11 29
209. ER 20 6 10 4 1 1 4 1 2 KEO 977 KEO 977 KEO KEO t 1 t1 t 1 lt lt lt t 2 t2 lil u t 3 t3 A t3 t4 t4 t 5 _ m t6 t 6 t 6 t i t7 t C ali lt t 9 P t 10 4 1 1 59 KED KEO 477 E au Za i55 x ta t 2 t 2 t 2 t 3 t 3 t 3 cd 1 4 t 5 4 1 2 4 1 1 1 20 4 1 R 4 1
210. OH 4 OH Ht mol kg 2 2 7 C CO aq HCO CO mol kg 2 2 8 Inorganic carbon Production rates TP Organic carbon Production rates OP IP OP 2 2 9 2 2 10 2 2 11 1mol CaCO 2mol Ar L 1 Arj TP 2 2 12 2 2 13 2 2 14 2 2 15 2 2 14 HCO OH
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