ISEI/main/5f/Moriguti Meteorite 1/A box 2/chd-2 < 20120705151708-168-216 > pub
  • classification: chondrite:carbonaceous
  • physical-form: aliquot
  • quantity (g): 0.03622
  • modified at 2016-05-09
  • surface:
1: Orgueil #1 2: Orgueil #2 3: Murchison #1 4: Murchison #2 5: Allende #1 6: Allende #2


(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
1: Allende-12


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
1: trc_cpx1_ac19@11 2: trc_cpx2_ac19@11 3: trc_cpx2_ac19@21 4: trc_cpx3_ac19@11 5: trc_cpx3_ac19@21 6: trc_neph1_ac19@11 7: trc_neph1_ac19@12 8: trc_neph1_ac19@13 9: trc_ol1_ac19@12 10: trc_ol1_ac19@13 11: trc_ol2_ac19@11 12: trc_ol2_ac19@12 13: trc_ol2_ac19@13 14: trc_ol2_ac19@14 15: trc_pl1_ac19@13 16: trc_pl2_ac19@11 17: trc_pl2_ac19@12 18: trc_pl3_ac19@11 19: trc_px1_ac19@11 20: trc_px1_ac19@13 21: trc_px2_ac19@11 22: trc_px2_ac19@12 23: trc_px2_ac19@13 24: trc_px3_ac19@11 25: trc_px3_ac19@12 26: trc_px4_ac19@11 27: trc_sd1_ac19@11 28: trc_sd1_ac19@12 29: trc_sd1_ac19@13 30: trc_sd1_ac19@14


(a) LA-ICP-MS on LA-ICP-MS (iCAP-Qs + Analyte G2 Excimer Laser system)
1: Fo>95_inner BO@chd-2 2: Fo>95_shell of inner BO@chd-2 3: Fo<95_shell of inner BO@chd-2 4: Fo>95_outer BOP@chd-2 5: Fo>95_shell of outer BOP@chd-2 6: Fo<95_shell of outer BOP@chd-2 7: Ol_igneous rim@chd-2 8: LPx_outer BOP@chd-2 9: LPx_igneous rim@chd-2 10: HPx_outer BOP@chd-2 11: Pl_outer BOP@chd-2 12: Fo>95_main@chd-6 13: Fo<95 _main@chd-6 14: Ol_igneous rim@chd-6 15: OlFeO_main@chd-6 16: LPx_igneous rim@chd-6 17: Fo>95_main@chd-4 18: Fo<95_shell@chd-4 19: Fo>95_main@chd-7 20: Fo<95 _main@chd-7 21: LPx_igneous rim@chd-7 22: Fo>95_main@chd-1 23: Fo<95_main@chd-1 24: OlFeO_main@chd-1 25: LPx_main@chd-1 26: HPx_main@chd-1 27: Fo<95_main@chd-3c 28: OlFeO_main@chd-3c 29: Fo>95_main@chd-3s 30: Fo<95 _main@chd-3s 31: Fo<95_core@chd-8 32: Fo>95_mantle@chd-8 33: Fo<95_mantle@chd-8 34: Ol_igneous rim@chd-8 35: LPx_igneous rim@chd-8 36: HPx_igneous rim@chd-8 37: Pl_mantle@chd-8 38: Fo>95_main@chd-3n 39: Fo<95_main@chd-3n


(a) EPMA on EPMA JEOL JXA-8530F
1: Allende #1 2: Allende #2 3: Allende #1-a 4: Allende #1-b 5: Allende #2-a 6: Allende #2-b


(a) TIMS on TIMS Thermo-Fisher MAT261
1: Ivuna 2: Orgueil 3: Cold Bokkeveld (87) 4: Murchison-3 5: Allende-14 6: Mokoia 7: Weston 8: Pantar 9: Richardton 10: Dresden 11: Nulles 12: Bjurbole 13: Saratov 14: Farmington 15: Knyahinya 16: Bruderheim 17: Holbrook (129) 18: Leedey 19: Mocs 20: Modoc 21: Peace River 22: Suizhou 23: Innis Free 24: St. Severin 25: Abee 26: Indarch 27: Hvittis 28: Norton County 29: Juvinas-3 30: Serra De Mage 31: Stannern


(a) B_procedures of Nakamura et al. (1992) on TIMS Thermo-Fisher MAT261
1: trc_cpx_ac19@4 2: trc_cpx_ac19@5 3: trc_cpx_ac19@6 4: trc_cpx_ac19@7 5: trc_ol_ac19@14 6: trc_ol_ac19@22 7: trc_ol_ac19@23 8: trc_ol_ac19@31 9: trc_ol_ac19@33 10: trc_ol_ac19@42 11: trc_ol_ac19@43 12: trc_pl_ac19@4 13: trc_pl_ac19@5 14: trc_pl_ac19@6 15: trc_px_ac19@11 16: trc_px_ac19@12 17: trc_px_ac19@21 18: trc_px_ac19@23 19: trc_px_ac19@31 20: trc_px_ac19@32 21: trc_px_ac19@41 22: trc_px_ac19@43


(a) SIMS on SIMS Cameca ims-5f
1: ALL01-a2-1-K5_Ol (core) 2: ALL01-a2-1-K5_Ol (rim) 3: ALL01-a2-1-K5_Sp 4: ALL01-a2-1-K5_Meso (feldspathic) 5: ALL01-a2-1-K5_Meso (cpx-like) 6: ALL01-a2-1-K5_Meso (Na-rich) 7: ALL01-a2-1-K9_Ol (core) 8: ALL01-a2-1-K9_Ol (rim) 9: ALL01-a2-1-K9_Meso (feldspatic) 10: ALL01-a2-1-K9_Meso (cpx-like) 11: ALL01-a2-1-K9_Meso (Na-rich) 12: ALL01-a2-1-B12_Ol (core) 13: ALL01-a2-1-B12_Ol (rim) 14: ALL01-a2-1-B12_Meso (cpx-like) 15: ALL01-a2-1-B12_Meso (Na-rich) 16: ALL01-a2-1-L12_Ol (core) 17: ALL01-a2-1-L12_Ol (rim) 18: ALL01-a2-1-L12_Meso (feldspathic) 19: ALL01-a2-1-L12_Meso (cpx-like) 20: ALL01-a2-1-L12_Meso (Na-rich) 21: ALL01-a2-1-G17_Ol (core) 22: ALL01-a2-1-G17_Ol (rim) 23: ALL01-a2-1-G17_low-Ca Px 24: ALL01-a2-1-G17_Meso (Na-rich) 25: ALL01-a2-1-B9_Ol (core) 26: ALL01-a2-1-B9_Ol (rim) 27: ALL01-a2-1-B9_low-Ca Px 28: ALL01-a2-1-B9_Meso (feldspathic) 29: ALL01-a2-1-B9_Meso (cpx-like) 30: ALL01-a2-1-B9_Meso (Na-rich)


(a) EPMA on EPMA JEOL JXA-8800R
(b) SEM-EDX on SEM-EDX 3100H with HORIBA EMAX
1: Fo>95_inner BO@chd-2 2: Fo>95_shell of inner BO@chd-2 3: Fo<95_shell of inner BO@chd-2 4: Fo>95_outer BOP@chd-2 5: Fo>95_shell of outer BOP@chd-2 6: Fo<95_shell of outer BOP@chd-2 7: Ol_igneous rim@chd-2 8: LPx_outer BOP@chd-2 9: LPx_igneous rim@chd-2 10: HPx_outer BOP@chd-2 11: Pl_outer BOP@chd-2 12: Fo>95_main@chd-6 13: Fo<95 _main@chd-6 14: Ol_igneous rim@chd-6 15: OlFeO_main@chd-6 16: LPx_igneous rim@chd-6 17: Fo>95_main@chd-4 18: Fo<95_shell@chd-4 19: Fo>95_main@chd-7 20: Fo<95 _main@chd-7 21: LPx_igneous rim@chd-7 22: Fo>95_main@chd-1 23: Fo<95_main@chd-1 24: OlFeO_main@chd-1 25: LPx_main@chd-1 26: HPx_main@chd-1 27: Fo<95_main@chd-3c 28: OlFeO_main@chd-3c 29: Fo>95_main@chd-3s 30: Fo<95 _main@chd-3s 31: Fo<95_core@chd-8 32: Fo>95_mantle@chd-8 33: Fo<95_mantle@chd-8 34: Ol_igneous rim@chd-8 35: LPx_igneous rim@chd-8 36: HPx_igneous rim@chd-8 37: Pl_mantle@chd-8 38: Fo>95_main@chd-3n 39: Fo<95_main@chd-3n


(a) EPMA on EPMA JEOL JXA-8530F
(b) SIMS on SIMS Cameca ims-1270
1: JB-2 2: JB-3 powder 3: JA-2 4: JA-3 powder 5: JP-1 6: BCR-2 7: BHVO-1 8: AGV-1 9: Murchison 10: Allende-12 11: Dar al Gani 521 12: Dar al Gani 194


(a) HR-ICPMS on ICPMS Thermo-Fisher Neptune
1: JB-1b 2: JP-1 3: Allende-13 4: Allende-12


(a) TIMS on TIMS Thermo-Fisher MAT262
1: Allende-12


(a) TIMS on TIMS Thermo-Fisher Triton
1: Allende-12 2: Allende-1 3: Allende-2 4: Murchison


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on TIMS Thermo-Fisher MAT261
1: Fo>95@group1 2: Fo<95@group1 3: Ol_igneous rim@group1 4: LPx@group1 5: LPx_igneous rim@group1 6: HPx@group1 7: Pl@group1 8: OlFeO@group1 9: Fo>95@group2 10: Fo<95@group2 11: LPx@group2 12: LPx_igneous rim@group2 13: HPx@group2 14: OlFeO@group2 15: Fo>95@group3 16: Fo<95@group3 17: Ol_igneous rim@group3 18: LPx_igneous rim@group3 19: HPx_igneous rim@group3 20: Pl@group3


(a) SIMS on SIMS Cameca ims-1270
1: PCC-1 2: BCR-1 3: AGV-1 4: JB-1b 5: JB-2 6: JB-3 powder 7: JA-1 8: JA-2 9: JA-3 powder 10: Allende-12


(a) B_procedures of Makishima et al. (1997) on ICPMS Yokogawa PMS2000
1: PCC-1 2: JP-1 3: BCR-1 4: BHVO-1 5: JB-1b 6: JB-2 7: JB-3 powder 8: JA-1 9: JA-2 10: JA-3 powder 11: Allende (T)


(a) HR-ICPMS on HR-ICPMS Finningan, Element
1: JB-1b 2: JP-1 3: Allende (T)


(a) HR-ICPMS on ICPMS Thermo-Fisher Neptune
1: ALL01-a2-1-K5@1 2: ALL01-a2-1-K5@2 3: ALL01-a2-1-K5@3 4: ALL01-a2-1-K5@4 5: ALL01-a2-1-K5@5 6: ALL01-a2-1-K9@1 7: ALL01-a2-1-K9@2 8: ALL01-a2-1-K9@3 9: ALL01-a2-1-B12@1 10: ALL01-a2-1-B12@2 11: ALL01-a2-1-B12@3 12: ALL01-a2-1-B12@4 13: ALL01-a2-1-B12@5 14: ALL01-a2-1-B12@6 15: ALL01-a2-1-B12@7 16: ALL01-a2-1-L12@1 17: ALL01-a2-1-L12@2 18: ALL01-a2-1-L12@3 19: ALL01-a2-1-G17@1 20: ALL01-a2-1-G17@2 21: ALL01-a2-1-G17@3 22: ALL01-a2-1-G17@4 23: ALL01-a2-1-G17@5 24: ALL01-a2-1-B9@1 25: ALL01-a2-1-B9@2 26: ALL01-a2-1-B9@3 27: ALL01-a2-1-B9@4 28: ALL01-a2-1-B9@5 29: ALL01-a2-1-B9@6 30: ALL01-a2-1-B9@7


(a) EPMA on EPMA JEOL JXA-8800R
(b) SIMS on SIMS Cameca ims-5f
(c) SIMS on SIMS Cameca ims-1270
1: BHVO-1 2: AGV-1 3: PCC-1 4: JB-1b 5: JB-2 6: JB-3 powder 7: JA-1 8: JA-2 9: JA-3 powder 10: JP-1 11: Orgueil 12: Murchison 13: Allende (T)


(a) MC-ICPMS on ICPMS Thermo-Fisher Neptune
1: Allende-12 2: Allende-1 3: Allende-2 4: Murchison


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on ICPMS Yokogawa PMS2000
1: Orgueil_Cd-Mo-Ga_#1 2: Orgueil_Cd-Mo-Ga_#2 3: Murchison_Cd-Mo-Ga_#1 4: Murchison_Cd-Mo-Ga_#2 5: Allende_Cd-Mo-Ga_#1 6: Allende_Cd-Mo-Ga_#2


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on Q-ICPMS Agilent 7500cs
1: Allende-12 2: Allende-1 3: Allende-2 4: Murchison


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on TIMS Thermo-Fisher MAT261
1: JB2-1 2: JB2-2 3: Allende-1 4: Allende-2 5: Allende-3


(a) B_procedures of Nakamura et al. (1992) on TIMS Thermo-Fisher MAT261
1: Orgueil 2: Murchison 3: Allende (T)


(a) MC-ICPMS on ICPMS Thermo-Fisher Neptune
1: Allende-1 2: Allende-2 3: JB2-1 4: JB2-2


(a) Pb isotopes_procedures of Kuritani and Nakamura (2002, 2003) on TIMS Thermo-Fisher MAT261
1: Allende-1 2: Allende-2 3: JB2-1 4: JB2-2


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on TIMS Thermo-Fisher MAT261
1: Murchison 2: DaG 194 3: DaG 521 4: Allende (T)


(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
1: Allende-12


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
1: Ivuna 2: Orgueil #1 3: Orgueil #2 4: Orgueil #3 5: Orgueil #4 6: Cold Bokkeveld (87) 7: Allende #1 8: Allende #2


(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
1: Allende-12


(a) HR-ICPMS on HR-ICPMS Finningan, Element
1: Allende-1 2: Allende-2 3: JB2-1 4: JB2-2


(a) Sr isotopes_procedures of Yoshikawa and Nakamura (1993) on TIMS Thermo-Fisher MAT261
(b) Nd isotopes_procedures of Nakamura et al. (1991, 2003) on TIMS Thermo-Fisher MAT261
1: Allende-12


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
1: Allende-12


(a) PGE_procedures of Makishima et al. (2001) on TIMS Thermo-Fisher MAT262
1: fragment OK-10VMc-ai 2: fragment OK-10VMc-aj 3: fragment OK-10VMc-ak 4: fragment OK-10VMc-al 5: fragment OK-10VMc-am 6: fragment OK-10VMc-an 7: fragment OK-10VMc-ao 8: fragment OK-10VMc-ae 9: fragment OK-10VMc-af 10: fragment OK-10VMc-ag 11: fragment OK-10VMc-ah 12: powder OK-10VMc-y 13: powder OK-10VMc-z 14: fragment OK-4mb-a 15: fragment OK-6-mb-a 16: fragment CBK-6e-a 17: CBK1bk-a 18: CBK1bk-b 19: powder CBK-1bd-r 20: Olivenza-f 21: Olivenza-g 22: Knyahinya 23: Allende (H analysis)_1 24: Allende (H analysis)_4 25: Allende (H analysis)_2 26: Allende (H analysis)_3


(a) IRMS with TCEA on SIRA Thermo-Fisher MAT253
1: powder OK10VMd-a 2: powder OK-10VMc-e 3: powder OK-10VMc-aa 4: powder OK-10VMc-c 5: powder OK10VMd-b 6: powder OK-10VMc-f 7: powder OK-10VMc-ab 8: powder OK-10VMc-d 9: powder OK-10VMc-g 10: powder OK-10VMc-h 11: average OK-10VM 12: OK-4 13: powder OK-6mf-a 14: powder OK-6mf-b 15: OK-6 average 16: CBK6b-f 17: powder CBK-6b-h 18: powder CBK-6b-i 19: powder CBK-6b-j 20: CBK-6 average 21: powder CBK-1be-a 22: powder CBK-1bd-b 23: powder CBK-1bd-s 24: powder CBK-1bd-q 25: powder CBK-1be-b 26: powder CBK-1bd-c 27: powder CBK-1bd-d 28: CBK-1 average 29: Allende-13 30: Allende-12 31: Allende (2007) 32: Oivenza (Table 21- major) 33: Olivenza (Table 21-S) 34: Olivenza (Table 21-S)_1 35: Olivenza (Table 21-major) average


(a) XRF and LOI on XRF PANalytical PW2400
(b) Flame emission spectrometry on Shimadzu AA6200
(c) HR-ICPMS on ICPMS Thermo-Fisher Element XR
(d) HR-ICPMS on ICPMS Thermo-Fisher Neptune
(e) EA-IRMS on Thermo Scientific MAT253
(f) IRMS with TCEA on SIRA Thermo-Fisher MAT253
(g) Ion chromatography on 761 COMPACT IC
1: 1-2a-a 2: 1-2a-b 3: fragment OK-4mb-a 4: OK4a-a 5: OK4a-b 6: fragment OK-6-mb-a 7: OK6a-a 8: OK6a-b 9: OK7a-a 10: OK7a-b 11: OK9a-a 12: OK9a-b 13: OK10a-a 14: OK10a-b 15: fragment OK-10VMc-ai 16: powder OK-10VMc-l 17: powder OK-10VMc-m 18: powder OK-10VMc-aa 19: powder OK-10VMc-ab 20: OK10VMc-ac 21: OK10VMc-ad 22: OK10VMf-a 23: OK10VMf-b 24: pyroxene-OK10VMc-a 25: spinel-OK10VMc-a 26: OK11a-a 27: OK11a-b 28: CBK1bk-a 29: powder CBK-1bd-e 30: powder CBK-1bd-f 31: powder CBK-1bd-s 32: CBK1c-a 33: CBK1c-b 34: CBK1c-c 35: fragment CBK-6e-a 36: CBK6b-k 37: CBK6b-l 38: CBK6eb-a 39: CBK6eb-b 40: CBK15ba-a 41: CBK15ba-b 42: CBK39ba-a 43: CBK39ba-b 44: CBK200ba-a 45: CBK200ba-b 46: The Olivenza LL5 asteroid 47: Knyahinya 48: Allende (2007)


(a) IRMS with TCEA on SIRA Thermo-Fisher MAT253
(b) MC-ICPMS on ICPMS Thermo-Fisher Neptune
(c) EA-IRMS on Thermo Scientific MAT253
(d) IRMS with LF on Thermo Scientific MAT253
name
physical-form
quantity
on mount
20120705145201-755-442
Quantity of chd-2 is
(was 0.03622 g) and loss was 0.0 g after operation .
place quantity
2015-11-05 14:00 2021-06-21 02:50
description:
name device global-id
Fo>95_inner BO@chd-2 pub 15 on Fo>95_inner BO@chd-2 pub EPMA JEOL JXA-8530F 20190415153506-171363
Fo>95_shell of outer BOP@chd-2 pub 15 on Fo>95_shell of outer BOP@chd-2 pub EPMA JEOL JXA-8530F 20190415153507-933511
LPx_igneous rim@chd-2 pub 15 on LPx_igneous rim@chd-2 pub EPMA JEOL JXA-8530F 20190415153509-074324
LPx_outer BOP@chd-2 pub 7 on LPx_outer BOP@chd-2 pub SIMS Cameca ims-1270 20190416092611-427296
Fo>95_shell of inner BO@chd-2 pub 15 on Fo>95_shell of inner BO@chd-2 pub EPMA JEOL JXA-8530F 20190415153507-243866
Fo<95_shell of outer BOP@chd-2 pub 12 on Fo<95_shell of outer BOP@chd-2 pub EPMA JEOL JXA-8530F 20190415153509-033131
HPx_outer BOP@chd-2 pub 15 on HPx_outer BOP@chd-2 pub EPMA JEOL JXA-8530F 20190415153510-889143
Fo<95_shell of inner BO@chd-2 pub 14 on Fo<95_shell of inner BO@chd-2 pub EPMA JEOL JXA-8530F 20190415153507-198230
Ol_igneous rim@chd-2 pub 14 on Ol_igneous rim@chd-2 pub EPMA JEOL JXA-8530F 20190415153509-295994
Fo>95_inner BO@chd-2 pub 6 on Fo>95_inner BO@chd-2 pub SIMS Cameca ims-1270 20190416092610-831417
Fo>95_shell of outer BOP@chd-2 pub 6 on Fo>95_shell of outer BOP@chd-2 pub SIMS Cameca ims-1270 20190416092611-058314
Fo>95_outer BOP@chd-2 pub 13 on Fo>95_outer BOP@chd-2 pub EPMA JEOL JXA-8530F 20190415153507-924138
Pl_outer BOP@chd-2 pub 15 on Pl_outer BOP@chd-2 pub EPMA JEOL JXA-8530F 20190415153510-242433
LPx_outer BOP@chd-2 pub 17 on LPx_outer BOP@chd-2 pub EPMA JEOL JXA-8530F 20190415153509-216331
Fo>95_shell of inner BO@chd-2 pub 6 on Fo>95_shell of inner BO@chd-2 pub SIMS Cameca ims-1270 20190416092610-176339
Pl_outer BOP@chd-2 pub 7 on Pl_outer BOP@chd-2 pub SIMS Cameca ims-1270 20190416092612-653232
Fo<95_shell of outer BOP@chd-2 pub 6 on Fo<95_shell of outer BOP@chd-2 pub SIMS Cameca ims-1270 20190416092611-437997
Fo<95_shell of inner BO@chd-2 pub 6 on Fo<95_shell of inner BO@chd-2 pub SIMS Cameca ims-1270 20190416092611-547175
LPx_igneous rim@chd-2 pub 7 on LPx_igneous rim@chd-2 pub SIMS Cameca ims-1270 20190416092611-066986
Ol_igneous rim@chd-2 pub 6 on Ol_igneous rim@chd-2 pub SIMS Cameca ims-1270 20190416092611-538847
Fo>95_outer BOP@chd-2 pub 6 on Fo>95_outer BOP@chd-2 pub SIMS Cameca ims-1270 20190416092611-915485
HPx_outer BOP@chd-2 pub 7 on HPx_outer BOP@chd-2 pub SIMS Cameca ims-1270 20190416092612-805429
Fo>95@group1 pub 6 on Fo>95@group1 pub SIMS Cameca ims-1270 20190416104022-896187
Fo<95@group1 pub 6 on Fo<95@group1 pub SIMS Cameca ims-1270 20190416104023-849637
Ol_igneous rim@group1 pub 6 on Ol_igneous rim@group1 pub SIMS Cameca ims-1270 20190416104023-622227
LPx@group1 pub 7 on LPx@group1 pub SIMS Cameca ims-1270 20190416104023-896222
LPx_igneous rim@group1 pub 7 on LPx_igneous rim@group1 pub SIMS Cameca ims-1270 20190416104023-002877
HPx@group1 pub 7 on HPx@group1 pub SIMS Cameca ims-1270 20190416104024-255304
Pl@group1 pub 7 on Pl@group1 pub SIMS Cameca ims-1270 20190416104024-291421
OlFeO@group1 pub 6 on OlFeO@group1 pub SIMS Cameca ims-1270 20190416104024-098276
name global-id
Kunihiro et al. (2019) Lithium- and oxygen-isotope compositions of chondrule constituents in the Allende meteorite, Geochim. Cosmochim. Acta, 252, 107-125, doi:10.1016/j.gca.2019.02.038. 20190306171521-621773
name spots global-id
Img 6547@7c0838904670f691be80646 thumb IMG_6547@7c0838904670f691be80646.JPG pub 0 20120705151714-217-500