pub

classification: chondrite:carbonaceous
physical-form: aliquot
status: unknown
description: Original weight: unknown; Price: unknown; PML-Allende standard \#1. Calibrated for Rb-Sr, Sm-Nd by Intern2006 (Angela).
modified at 2020-05-01

Table 3. Cr Isotopic Signatures of Allende Reference Powder from the Smithsonian Institution Yamakawa, Akane et al. (2009)

1: Allende-12

(a) TIMS on TIMS Thermo-Fisher Triton

Table S22. Major element concentrations Eizo Nakamura et al. (2019)

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

(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

Table 5a. Analytical results for lithium (μg g-1) in chondrites by ICP-MS Takuya Moriguti et al. (2004)

1: Allende-12 2: Allende-1 3: Allende-2 4: Murchison

(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on ICPMS Yokogawa PMS2000

Table 2. Major-elemental abundances of chondrule phases Maruyama, Seiji et al. (2009)

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

Table 8. Analytical results for carbonaceous chondrites Lu, Y. et al. (2007)

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

Table S6. Isotope compositions of H, Li, C, and O Eizo Nakamura et al. (2019)

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

(d) IRMS with LF on Thermo Scientific MAT253

Table 10. Grand average of Mo, Sb and W (µg g -1 ) concentrations in the Allende reference material by ultrasonic and bomb digestions Akio Makishima & Eizo Nakamura (1999)

1: Allende-12

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

Table 5 δ66Zn of carbonaceous chondrites Akio Makishima & Eizo Nakamura (2013)

1: Orgueil 2: Murchison 3: Allende (T)

(a) MC-ICPMS on ICPMS Thermo-Fisher Neptune

Table 7. Trace element concentrations (μg g -1 ) in Smithsonian reference Allende powder Akio Makishima & Eizo Nakamura (1997)

1: Allende-12

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

Table 1. Major-element compositions of chondrule constituents. Kunihiro, Tak et al. (2019)

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

Table 5b. Analytical results for lithium (μg g-1) in chondrites by TIMS Takuya Moriguti et al. (2004)

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

Table 7. S, TiO 2 , Ge, As, Se, Zr, Nb, Mo, Sn, Sb, Te, Hf and Ta concentrations in carbonaceous chondrites Akio Makishima & Eizo Nakamura (2009)

1: Murchison 2: DaG 194 3: DaG 521 4: Allende (T)

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

Table 8. Analytical results for Cr, Ni< Cu and Zn (μg g-1) in Smithsonian reference Allende powder Makishima, Akio et al. (2002)

1: Allende-12

(a) HR-ICPMS on HR-ICPMS Finningan, Element

Table 4-5. Analytical Results for Boron (μg g-1) in Standard Rocks and Allende Meteorites by ID-FI-ICPMS Akio Makishima et al. (1997)

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

Table 8. Rb, Sr, Sm and Nd isotope compositions of the PML-Allende and JB-2 Eizo Nakamura et al. (2003)

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

Table 10.Analytical results for carbonaceous chondrites Makishima, Akio & Nakamura, E. (2006)

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

Table 7. Li concentrations and Li isotopic compositions for the JB-2 and the PML-Allende samples Eizo Nakamura et al. (2003)

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

Table 4. δ56Fe values of USGS and GSJ silicate reference materials and carbonaceous chondrites Akio Makishima (2013)

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

Table 9. Concentrations of Zr, Nb, Hf and Ta (µg g -1 ) in Smithsonian reference Allende powder by FI-ICP-MS Akio Makishima et al. (1999)

1: Allende-12

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

Table 6. Summary of lead isotopic compositions of PML-Allende chondrite and GSJ JB-2 Eizo Nakamura et al. (2003)

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

Table 4. Analytical Results for Sulfur (μg g-1) in Standard Reference Materials and in Smithsonian Reference Allende Powder by ID-FI-ICPMS Akio Makishima & Eizo Nakamura (2001)

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

Table 3. Li isotope ratios of meteorites by TIMS Takuya Moriguti et al. (2004)

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

Table 5. Boron isotopic compositions for the JB-2 and the PML-Allende samples Eizo Nakamura et al. (2003)

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

Table 5. Analytical results for Cd concentrations in carbonaceous chondrites Akio Makishima et al. (2011)

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

Table 2. Summary of Cr, Fe, Ni, Cu, and Zn Concentrations in JB-1b, JP-1, and Allende Yamakawa, Akane et al. (2009)

1: JB-1b 2: JP-1 3: Allende-13 4: Allende-12

(a) TIMS on TIMS Thermo-Fisher MAT262

Table 9. Re-Os isotope data for the Smithsonian Allende Eizo Nakamura et al. (2003)

1: Allende-12

(a) PGE_procedures of Makishima et al. (2001) on TIMS Thermo-Fisher MAT262

Table 2 Sulfur concentrations for silicate reference materials and carbonaceous chondrites determined by ID-HR-MC-ICPMS and in references Makishima, Akio & Nakamura, Eizo (2012)

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

Table 4. Cr, Mn, Fe, Co and Ni concentrations for silicate reference materials determined by HR–MC–ICP–MS Akio Makishima et al. (2010)

1: JB-1b 2: JP-1 3: Allende (T)

(a) HR-ICPMS on ICPMS Thermo-Fisher Neptune

Table 1. Sm/Nd and La/Ce isotopic data for the bulk Allende meteorite Makishima, Akio & Masuda, Akimasa (1994)

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

Table 2. O- and Li-isotope compositions of chondrule constituents. Kunihiro, Tak et al. (2019)

(a) EPMA on EPMA JEOL JXA-8530F

(b) SIMS on SIMS Cameca ims-1270

@article{20071216135144.en,
 author={{Allende-13}},
 title={Aliquot at \nolinkurl{/ISEI/main/stable-isotope-lab/}},
 journal={\href{http://dream.misasa.okayama-u.ac.jp/?q=20071216135144.en}{DREAM}},
 volume={20},
 pages={20071216135144.en},
 year={2008},
 url={http://dream.misasa.okayama-u.ac.jp/?q=20071216135144.en},
}

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<acquisitions>
  <acquisition>
    <global_id>20190205122059-750799</global_id>
    <name>Allende average_S</name>
    <device>ICPMS Thermo-Fisher Element XR</device>
    <technique>HR-ICPMS</technique>
    <operator></operator>
    <sample_global_id>20071216135144.en</sample_global_id>
    <sample_name>Allende-13</sample_name>
    <description></description>
    <chemistries>
      <analysis>
        <nickname>S</nickname>
        <value>2.03</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190205121955-167609</global_id>
    <name>Allende average_K-Na</name>
    <device>Shimadzu AA6200</device>
    <technique>Flame emission spectrometry</technique>
    <operator></operator>
    <sample_global_id>20071216135144.en</sample_global_id>
    <sample_name>Allende-13</sample_name>
    <description></description>
    <chemistries>
      <analysis>
        <nickname>K2O</nickname>
        <value>0.1</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Na2O</nickname>
        <value>0.43</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190205122300-370398</global_id>
    <name>Allende average_Cl-F</name>
    <device>761 COMPACT IC</device>
    <technique>Ion chromatography</technique>
    <operator></operator>
    <sample_global_id>20071216135144.en</sample_global_id>
    <sample_name>Allende-13</sample_name>
    <description></description>
    <chemistries>
      <analysis>
        <nickname>Cl</nickname>
        <value>232.0</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>F</nickname>
        <value>17.0</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190205122205-913204</global_id>
    <name>Allende average_C</name>
    <device>Thermo Scientific MAT253</device>
    <technique>EA-IRMS</technique>
    <operator></operator>
    <sample_global_id>20071216135144.en</sample_global_id>
    <sample_name>Allende-13</sample_name>
    <description></description>
    <chemistries>
      <analysis>
        <nickname>C</nickname>
        <value>0.28</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20131217183156-084379</global_id>
    <name>Allende-13_major</name>
    <device>XRF PANalytical PW2400</device>
    <technique>XRF and LOI</technique>
    <operator>HK</operator>
    <sample_global_id>20071216135144.en</sample_global_id>
    <sample_name>Allende-13</sample_name>
    <description></description>
    <chemistries>
      <analysis>
        <nickname>H2O</nickname>
        <value>0.35</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>TiO2</nickname>
        <value>0.2</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>Cr2O3</nickname>
        <value>0.48</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>MnO</nickname>
        <value>0.16</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>NiO</nickname>
        <value>1.85</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>MgO</nickname>
        <value>23.5</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>CaO</nickname>
        <value>2.5</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>P2O5</nickname>
        <value>0.21</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>Al2O3</nickname>
        <value>3.4</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
      <analysis>
        <nickname>FeOT</nickname>
        <value>30.5</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>SiO2</nickname>
        <value>33.2</value>
        <unit>cg/g</unit>
        <uncertainty/>
        <label></label>
        <info></info>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20200130113406-823705</global_id>
    <name>Allende-PML07_Cr-Fe-Ni-Cu-Zn</name>
    <device>TIMS Thermo-Fisher MAT262</device>
    <technique>TIMS</technique>
    <operator>Yamakawa</operator>
    <sample_global_id>20071216135144.en</sample_global_id>
    <sample_name>Allende-13</sample_name>
    <description/>
    <chemistries>
      <analysis>
        <nickname>Cr</nickname>
        <value>3623.0</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Fe</nickname>
        <value>235600.0</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ni</nickname>
        <value>14230.0</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Cu</nickname>
        <value>108.0</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Zn</nickname>
        <value>109.3</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
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name

physical-form

quantity

Allende-1 pub

20191011092401-957904

Allende-2 pub

20191011092401-693679

Allende-3 pub

20191011092401-131747

place quantity

ISEI/main/stable-isotope-lab over 4 years

2015-11-05 14:00 2020-05-23 00:20

description:

name	device	global-id
Allende average_S pub 1	ICPMS Thermo-Fisher Element XR	20190205122059-750799
Allende average_K-Na pub 2	Shimadzu AA6200	20190205121955-167609
Allende average_Cl-F pub 2	761 COMPACT IC	20190205122300-370398
Allende average_C pub 1	Thermo Scientific MAT253	20190205122205-913204
Allende-13_major pub 11	XRF PANalytical PW2400	20131217183156-084379
Allende-PML07_Cr-Fe-Ni-Cu-Zn pub 5	TIMS Thermo-Fisher MAT262	20200130113406-823705
Allende-1_B pub 2 on Allende-1 pub	TIMS Thermo-Fisher MAT261	20191011092448-714212
Allende-1_Pb pub 3 on Allende-1 pub	TIMS Thermo-Fisher MAT261	20191011093735-191297
Allende-1_Li pub 2 on Allende-1 pub	TIMS Thermo-Fisher MAT261	20191011094744-904342
Allende-1_Rb-Sr pub 4 on Allende-1 pub	TIMS Thermo-Fisher MAT261	20191011100544-271489
Allende-1_Sm-Nd pub 4 on Allende-1 pub	TIMS Thermo-Fisher MAT261	20191011100818-363094
Allende-1_Li pub 1 on Allende-1 pub	ICPMS Yokogawa PMS2000	20191015113423-099440
PML-Allende1_dLi pub 2 on Allende-1 pub	TIMS Thermo-Fisher MAT261	20200210101451-549925
Allende-2_B pub 2 on Allende-2 pub	TIMS Thermo-Fisher MAT261	20191011092602-927943
Allende-2_Pb pub 3 on Allende-2 pub	TIMS Thermo-Fisher MAT261	20191011093837-153301
Allende-2_Sm-Nd pub 4 on Allende-2 pub	TIMS Thermo-Fisher MAT261	20191011101142-300899
Allende-2_Rb-Sr pub 4 on Allende-2 pub	TIMS Thermo-Fisher MAT261	20191011101006-857792
Allende-2_Li pub 2 on Allende-2 pub	TIMS Thermo-Fisher MAT261	20191011095536-404092
Allende-2_Li pub 1 on Allende-2 pub	ICPMS Yokogawa PMS2000	20191015113423-682201
PML-Allende2_d7Li pub 2 on Allende-2 pub	TIMS Thermo-Fisher MAT261	20200210101900-738321
Allende-3_B pub 2 on Allende-3 pub	TIMS Thermo-Fisher MAT261	20191011092717-597128

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	Takuya Moriguti (2004) Determination of Lithium Contents in silicates by Isotope Dilution ICP-MS and Its Evaluation by Isotope Dilution Thermal Ionisation Mass Spectrometry, Geostandars and geoanalytical research, 28, 371-382. Table 5a. Analytical results for lithium (μg g-1) in chondrites by ICP-MS Table 5b. Analytical results for lithium (μg g-1) in chondrites by TIMS Table 3. Li isotope ratios of meteorites by TIMS		20191015111023-845326
	Eizo Nakamura (2003) Comprehensive geochemical analyses of small amounts (< 100 mg) of extraterrestrial samples for the analytical competition related to the sample return mission MUSES-C, The Institute of Space and Astronautical Science Report SP, 16, 49-101. Table 8. Rb, Sr, Sm and Nd isotope compositions of the PML-Allende and JB-2 Table 7. Li concentrations and Li isotopic compositions for the JB-2 and the PML-Allende samples Table 6. Summary of lead isotopic compositions of PML-Allende chondrite and GSJ JB-2 Table 5. Boron isotopic compositions for the JB-2 and the PML-Allende samples Table 9. Re-Os isotope data for the Smithsonian Allende		20110602093007-717-706
	Yamakawa, Akane (2009) Chemical Separation and Mass Spectrometry of Cr, Fe, Ni, Zn, and Cu in Terrestrial and Extraterrestrial Materials Using Thermal Ionization Mass Spectrometry, Analytical Chemistry, 81, 9787–9794. Table 3. Cr Isotopic Signatures of Allende Reference Powder from the Smithsonian Institution Table 2. Summary of Cr, Fe, Ni, Cu, and Zn Concentrations in JB-1b, JP-1, and Allende		20100403102859589.admin

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