pub

IGSN: IEDRM0089
classification: volcanic:basaltic
physical-form: hand specimen
quantity (g): 673.57
description: Kutsugata Lava, South Lava 2 (augite phenocryst-rich lava)
modified at 2020-02-13

Table 1. Major and trace element compositions and modal compositions of representative samples < 20190614132103-347137 > in Kuritani, Takeshi (1999)refreshed at 2020-07-30

1: Fm-17a 2: Fm-17a_core 3: Fm-15a 4: Fm-15a_core 5: Ta-26 6: Ta-26_core 7: Km 3a 8: Km 3a_core 9: Ku 20 10: Ku 20_core 11: KR 9 12: KR 9_core 13: Km 11 14: Km 11_core

(a) XRF_procedure of Kushiro (1994) on XRF Philips PW-1480 (Tokyo)

(b) EPMA on EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)

Table 1. Major and trace element compositions and modal compositions of representative samples from the Kutsugata lava < 20190613152858-639471 > in Kuritani, Takeshi (1998)refreshed at 2020-07-30

1: Fm-17a 2: Fm 25 3: Ku 18 4: Ku 16 5: Ku 14 6: Ta-26 7: Km 3a 8: Km 7 9: KR 9 10: Kr 31 11: Kr 27 12: Ku 26 13: Kr 42 14: Ku 10 15: Km 9 16: Km 10

(a) XRF_procedure of Kushiro (1994) on XRF Philips PW-1480 (Tokyo)

(b) EPMA on EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)

Table 1. Whole rock and modal compositions of representative samples < 20190617154815-975801 > in Kuritani, Takeshi (1999)refreshed at 2020-07-30

1: Fm-17a 2: Fm-17a_core 3: Fm-15a 4: Fm-15a_core 5: Ta-26 6: Ta-26_core 7: Km 3a 8: Km 3a_core 9: Ku 20 10: Ku 20_core 11: KR 9 12: KR 9_core 13: Km 11 14: Km 11_core

(a) XRF_procedure of Kushiro (1994) on XRF Philips PW-1480 (Tokyo)

(b) EPMA on EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)

Table 1. Whole-rock compositions of representative samples < 20190620153525-761634 > in Kuritani et al. (2007)refreshed at 2020-07-30

1: Ta-25 2: Ta-31 3: Kr 28 4: Kr 41 5: KR 9 6: Ta-28 7: Kr 74 8: Kr 72 9: Kr 47

(a) XRF procedures of Takei (2002) on XRF PANalytical PW2400

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

(d) Pb isotopes_procedures of Kuritani and Nakamura (2002, 2003) on TIMS Finnigan MAT261, MAT262 and Triton TI

Table 2. U and Th isotopic compositions and concentrations of Rishiri samples < 20190621100851-003231 > in Kuritani et al. (2007)refreshed at 2020-07-30

1: Ta-25U-Th_1 2: Ta-25U-Th_2 3: Ta-31U-Th_1 4: Ta-31U-Th_2 5: Kr 28U-Th_1 6: Kr 28U-Th_2 7: Kr-41U-Th_1 8: Kr-41U-Th_2 9: Kr-9U-Th_1 10: Kr-9U-Th_2 11: Kr 74U-Th_1 12: Kr 74U-Th_2 13: Kr 72U-Th_1 14: Kr 72U-Th_2 15: Kr 47U-Th_1 16: Kr 47U-Th_2 17: Ta-1U-Th_1 18: Ta-1U-Th_2 19: Ta-1U-Th_3 20: Ta-1U-Th_4 21: Ta-1U-Th_5 22: Ta-1U-Th_6 23: Ta-1U-Th_7 24: Ta-1U-Th_8 25: Ta-2U-Th_1 26: Ta-2U-Th_2 27: Ta-2U-Th_3 28: Ta-11U-Th_1 29: Ta-11U-Th_2 30: Ta-11U-Th_3 31: Ta-17U-Th_1 32: Ta-17U-Th_2 33: Ta-17U-Th_3 34: Ta-17U-Th_4 35: Ta-17U-Th_5 36: Ta-28U-Th_1 37: Ta-28U-Th_2 38: Ta-28U-Th_3 39: Ta-28U-Th_4 40: Ta-28U-Th_5 41: Ta-28U-Th_6

(a) U-Series_procedures of Yokoyama et al. (1999, 2001, 2003) on TIMS Thermo-Fisher MAT261

@article{20151113080017-796937,
 author={{KR 9}},
 title={Hand specimen with quantity 673.57 g at \nolinkurl{/ISEI/stone storage/Room A/2F/A/2/Kuritani 27/}},
 journal={\href{http://dream.misasa.okayama-u.ac.jp/?q=20151113080017-796937}{DREAM}},
 volume={20},
 pages={20151113080017-796937},
 year={2015},
 url={http://dream.misasa.okayama-u.ac.jp/?q=20151113080017-796937},
}

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<acquisitions>
  <acquisition>
    <global_id>20190613154312-964179</global_id>
    <name>Kr 9</name>
    <device>EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)</device>
    <technique>EPMA</technique>
    <operator>Kuritani</operator>
    <sample_global_id>20151113080017-796937</sample_global_id>
    <sample_name>KR 9</sample_name>
    <description/>
    <chemistries>
      <analysis>
        <nickname>modeOfOl</nickname>
        <value>2.0</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfPl</nickname>
        <value>23.1</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfAug</nickname>
        <value>2.3</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfGroundmass</nickname>
        <value>72.6</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190613153951-591714</global_id>
    <name>Kr 9</name>
    <device>XRF Philips PW-1480 (Tokyo)</device>
    <technique>XRF_procedure of Kushiro (1994)</technique>
    <operator>Kuritani</operator>
    <sample_global_id>20151113080017-796937</sample_global_id>
    <sample_name>KR 9</sample_name>
    <description/>
    <chemistries>
      <analysis>
        <nickname>SiO2</nickname>
        <value>52.37</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>TiO2</nickname>
        <value>1.47</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Al2O3</nickname>
        <value>16.87</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Fe2O3T</nickname>
        <value>9.02</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>MnO</nickname>
        <value>0.16</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>MgO</nickname>
        <value>4.89</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>CaO</nickname>
        <value>8.6</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Na2O</nickname>
        <value>4.37</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>K2O</nickname>
        <value>0.77</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>P2O5</nickname>
        <value>0.32</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>total</nickname>
        <value>98.85</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ba</nickname>
        <value>152.9</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Cr</nickname>
        <value>76.9</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Nb</nickname>
        <value>4.9</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ni</nickname>
        <value>21.4</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Pb</nickname>
        <value>1.4</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Rb</nickname>
        <value>18.1</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Sr</nickname>
        <value>414.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Th</nickname>
        <value>3.51</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Y</nickname>
        <value>24.2</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Zr</nickname>
        <value>219.3</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190617155517-853594</global_id>
    <name>Kr 9_1</name>
    <device>EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)</device>
    <technique>EPMA</technique>
    <operator></operator>
    <sample_global_id>20151113080017-796937</sample_global_id>
    <sample_name>KR 9</sample_name>
    <description></description>
    <chemistries>
      <analysis>
        <nickname>modeOfOl</nickname>
        <value>2.7</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfPl</nickname>
        <value>27.5</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfAug</nickname>
        <value>2.4</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfGroundmass</nickname>
        <value>67.4</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190620160218-111495</global_id>
    <name>KR 9_2007</name>
    <device>XRF PANalytical PW2400</device>
    <technique>XRF procedures of Takei (2002)</technique>
    <operator>Kuritani</operator>
    <sample_global_id>20151113080017-796937</sample_global_id>
    <sample_name>KR 9</sample_name>
    <description/>
    <chemistries>
      <analysis>
        <nickname>SiO2</nickname>
        <value>53.19</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>TiO2</nickname>
        <value>1.53</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Al2O3</nickname>
        <value>16.71</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Fe2O3T</nickname>
        <value>9.52</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>MnO</nickname>
        <value>0.17</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>MgO</nickname>
        <value>4.87</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>CaO</nickname>
        <value>8.43</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Na2O</nickname>
        <value>4.39</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>K2O</nickname>
        <value>0.8</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>P2O5</nickname>
        <value>0.32</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>LOI</nickname>
        <value>0.14</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>total</nickname>
        <value>100.06</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Cr</nickname>
        <value>61.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ni</nickname>
        <value>26.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190621092709-819087</global_id>
    <name>KR 9</name>
    <device>TIMS Finnigan MAT261, MAT262 and Triton TI</device>
    <technique>Pb isotopes_procedures of Kuritani and Nakamura (2002, 2003)</technique>
    <operator>Kuritani</operator>
    <sample_global_id>20151113080017-796937</sample_global_id>
    <sample_name>KR 9</sample_name>
    <description/>
    <chemistries>
      <analysis>
        <nickname>Pb206zPb204</nickname>
        <value>18.28</value>
        <unit></unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Pb207zPb204</nickname>
        <value>15.516</value>
        <unit></unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Pb208zPb204</nickname>
        <value>38.145</value>
        <unit></unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190621091433-894404</global_id>
    <name>KR 9_2007</name>
    <device>ICPMS Yokogawa PMS2000</device>
    <technique>Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006)</technique>
    <operator>Kuritani</operator>
    <sample_global_id>20151113080017-796937</sample_global_id>
    <sample_name>KR 9</sample_name>
    <description/>
    <chemistries>
      <analysis>
        <nickname>Li</nickname>
        <value>9.23</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>B</nickname>
        <value>6.02</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Rb</nickname>
        <value>20.4</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Sr</nickname>
        <value>445.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Y</nickname>
        <value>34.3</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Zr</nickname>
        <value>200.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Nb</nickname>
        <value>5.92</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Cs</nickname>
        <value>0.85</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ba</nickname>
        <value>183.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>La</nickname>
        <value>15.7</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ce</nickname>
        <value>38.9</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Pr</nickname>
        <value>4.73</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Nd</nickname>
        <value>20.8</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Sm</nickname>
        <value>4.96</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Eu</nickname>
        <value>1.69</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Gd</nickname>
        <value>5.3</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Tb</nickname>
        <value>0.9</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Dy</nickname>
        <value>5.65</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ho</nickname>
        <value>1.22</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Er</nickname>
        <value>3.12</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Tm</nickname>
        <value>0.48</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Yb</nickname>
        <value>3.43</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Lu</nickname>
        <value>0.49</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Hf</nickname>
        <value>4.32</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ta</nickname>
        <value>0.43</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20190621092556-192010</global_id>
    <name>KR 9_2007</name>
    <device>TIMS Thermo-Fisher MAT261</device>
    <technique>TIMS with isotope dilution</technique>
    <operator>Kuritani</operator>
    <sample_global_id>20151113080017-796937</sample_global_id>
    <sample_name>KR 9</sample_name>
    <description></description>
    <chemistries>
      <analysis>
        <nickname>Pb</nickname>
        <value>3.32</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
</acquisitions>

name

physical-form

quantity

KR 9_core pub

20190702111011-416579

Kr-9U-Th_1 pub

20190621094915-888405

Kr-9U-Th_2 pub

20190621094915-703162

place quantity

ISEI/stone storage/Room A/2F/A/2/Kuritani 27 over 1 year

2020-12-25 15:45 2022-08-02 20:23

description:

ISEI/main/--/D/5/Kuritani 27 about 5 years

2015-11-19 10:52 2020-12-25 15:45

description:

ISEI/main/126/5/Kuritani 27 about 2 hours

2015-11-19 09:17 2015-11-19 10:52

description:

ISEI/main/--/D/5/Kuritani 27 3 days

2015-11-16 08:42 2015-11-19 09:17

description:

ISEI/main/--/Kuritani 27 3 days

2015-11-13 08:00 2015-11-16 08:42

description:

name	device	global-id
Kr 9 pub 4	EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)	20190613154312-964179
Kr 9 pub 21	XRF Philips PW-1480 (Tokyo)	20190613153951-591714
Kr 9_1 pub 4	EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)	20190617155517-853594
KR 9_2007 pub 14	XRF PANalytical PW2400	20190620160218-111495
KR 9 pub 3	TIMS Finnigan MAT261, MAT262 and Triton TI	20190621092709-819087
KR 9_2007 pub 25	ICPMS Yokogawa PMS2000	20190621091433-894404
KR 9_2007 pub 1	TIMS Thermo-Fisher MAT261	20190621092556-192010
Kr-9U-Th_1 pub 5 on Kr-9U-Th_1 pub	TIMS Thermo-Fisher MAT261	20190621100738-411382
Kr-9U-Th_2 pub 5 on Kr-9U-Th_2 pub	TIMS Thermo-Fisher MAT261	20190621100738-921659
KR 9_core pub 3 on KR 9_core pub	EPMA JEOL JCMA-733MKII/JXA-8900L (Tokyo)	20190702111043-582254

	name		global-id
	Kuritani et al. (2007) Rates of Thermal and Chemical Evolution of Magmas in a Cooling Magma Chamber: a Chronological and Theoretical Study on Basaltic and Andesitic Lavas from Rishiri Volcano, Japan, J. Petrol., 48, 1295-1319, doi:10.1093/petrology/egm018. Table 1. Whole-rock compositions of representative samples Table 2. U and Th isotopic compositions and concentrations of Rishiri samples		20100403101828129.admin
	Kuritani, Takeshi (1999) Boundary layer fractionation constrained by differential information from the Kutsugata lava flow, Rishiri Volcano, Japan, Journal of Geophysical Research, 104, 29401-29417, doi:10.1029/1999JB900266. Table 1. Whole rock and modal compositions of representative samples		20150918135922-500097
	Kuritani, Takeshi (1999) Phenocryst crystallization during ascent of alkali basalt magma at Rishiri Volcano, northern Japan, Journal of Volcanology and Geothermal Research, 88, 77-97, doi:10.1016/S0377-0273(98)00105-X. Table 1. Major and trace element compositions and modal compositions of representative samples		20150918134015-868101
	Kuritani, Takeshi (1998) Boundary Layer Crystallization in a Basaltic Magma Chamber: Evidence from Rishiri Volcano, Northern Japan, Journal of Petrology, 39, 1619-1640, doi:10.1093/petroj/39.9.1619. Table 1. Major and trace element compositions and modal compositions of representative samples from the Kutsugata lava		20150918110931-256626

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