pub

place: N45°16′1.0″, E7°27′35.0″ more
classification: plutonic:ultramafic
physical-form: hand specimen
quantity (kg): 1.005
description: North Lanzo Peridotite Massif; plagioclase-enriched spinel lherzolite
modified at 2020-04-13
surface:
- globe

Table 1 The modal compositions of the North Lanzo peridotites < 20200227103804-702764 > in Guarnieri et al. (2012)refreshed at 2020-07-30

1: LN71 2: LN50 3: HA1 4: HA5 5: LN46 6: LN22 7: LN52 8: LN60 9: LN61 10: LN62 11: LN63 12: LN45 13: LN38 14: LN54 15: LN55 16: LN56 17: LN57 18: LN58 19: LN59 20: HA6 21: LN68 22: LN72 23: LN73

Table 2 Whole-rock major and trace element compositions of the North Lanzo peridotites < 20200227110814-853924 > in Guarnieri et al. (2012)refreshed at 2020-07-30

1: LN71 2: LN50 3: HA1 4: HA5 5: LN46 6: LN22 7: LN52 8: LN60 9: LN61 10: LN62 11: LN63 12: LN45 13: LN38 14: LN54 15: LN55 16: LN56 17: LN57 18: LN58 19: LN59 20: HA6 21: LN68 22: LN72 23: LN73

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

(b) 100Mg/(Mg+Fe2+)

(d) Q-ICP-MS_procedures of Lu et al. (2007) on Q-ICPMS Agilent 7500cs

(e) LA-ICP-MS on ICPMS

Table 4 Trace element compositions of clinopyroxene from the North Lanzo peridotites (ppm) < 20200227152216-634254 > in Guarnieri et al. (2012)refreshed at 2020-07-30

1: LN71-Cpx_core 2: LN50-Cpx_core 3: HA1-Cpx 4: HA5-Cpx 5: LN46-Cpx_core 6: LN22-Cpx 7: LN52-Cpx 8: LN60-Cpx_core 9: LN61-Cpx 10: LN62-Cpx_core 11: LN63-Cpx 12: LN45-Cpx 13: LN38-Cpx_core 14: LN54-Cpx_core 15: LN55-Cpx 16: LN56-Cpx 17: LN57-Cpx 18: LN58-Cpx 19: LN59-Cpx 20: HA6-Cpx 21: LN68-Cpx_rim 22: LN72-Cpx 23: LN73-Cpx

(a) LA-ICP-MS on ICPMS

Table 5. Sr, Nd isotopic compositions and Rb, Sr, Sm, Nd concentrations for the North Lanzo peridotites (leached whole-rock samples) < 20200228093958-363890 > in Guarnieri et al. (2012)refreshed at 2020-07-30

1: LN71 2: LN50_clean room 3: HA1 4: HA5 5: LN46_clean room 6: LN22 7: LN52_clean room 8: LN60 9: LN61 10: LN62 11: LN63_clean room 12: LN45 13: LN38_clean room 14: LN54_clean room 15: LN55_clean room 16: LN56_clean room 17: LN57_clean room 18: LN58_clean room 19: LN59_clean room 20: HA6 21: LN68 22: LN72 23: LN73

(a) Sr isotopes_procedures of Yoshikawa and Nakamura (1993) on TIMS Thermo-Fisher MAT262

(b) Nd isotopes_procedures of Nakamura et al. (1991, 2003) on TIMS Thermo-Fisher MAT262

Table 6 Sr, Nd isotopic compositions and Rb, Sr, Sm, Nd concentrations for leached clinopyroxene separates from the North Lanzo peridotites < 20200228102515-356739 > in Guarnieri et al. (2012)refreshed at 2020-07-30

1: LN71 2: LN50 3: HA1 4: HA5 5: LN46 6: LN22 7: LN52 8: LN60 9: LN61 10: LN62 11: LN63 12: LN45 13: LN38 14: LN54 15: LN55 16: LN56 17: LN57 18: LN58 19: LN59 20: HA6 21: LN68 22: LN72 23: LN73

(a) Sr isotopes_procedures of Yoshikawa and Nakamura (1993) on TIMS Thermo-Fisher MAT262

(b) Nd isotopes_procedures of Nakamura et al. (1991, 2003) on TIMS Thermo-Fisher MAT262

Table 7 Hf isotopic composition and Lu, Hf concentrations for the North Lanzo peridotites (leached whole-rock) < 20200228111016-234323 > in Guarnieri et al. (2012)refreshed at 2020-07-30

(a) Hf isotopes_procedures of Lu et al. (2007) on MC-ICP-MS Finnigan, Neptune

@article{20200226144628-093778,
 author={{LN56}},
 title={Hand specimen with quantity 1.005 kg at \nolinkurl{/ISEI/main/127/E/2/Lanzo Peridotite (Luisa 2008-2009)/}},
 journal={\href{http://dream.misasa.okayama-u.ac.jp/?q=20200226144628-093778}{DREAM}},
 volume={20},
 pages={20200226144628-093778},
 year={2020},
 url={http://dream.misasa.okayama-u.ac.jp/?q=20200226144628-093778},
}

<?xml version="1.0" encoding="UTF-8"?>
<acquisitions>
  <acquisition>
    <global_id>20200227110928-831024</global_id>
    <name>LN56</name>
    <device/>
    <technique>100Mg/(Mg+Fe2+)</technique>
    <operator>Luisa</operator>
    <sample_global_id>20200226144628-093778</sample_global_id>
    <sample_name>LN56</sample_name>
    <description/>
    <place>
      <global_id>20200226153357-048764</global_id>
      <name>locality of LN56</name>
      <longitude>7.45972222222222</longitude>
      <latitude>45.2669444444444</latitude>
      <elevation/>
      <description/>
    </place>
    <chemistries>
      <analysis>
        <nickname>Mg#</nickname>
        <value>89.51</value>
        <unit></unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20200227110957-372102</global_id>
    <name>LN56</name>
    <device>Q-ICPMS Agilent 7500cs</device>
    <technique>Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006)</technique>
    <operator>Luisa</operator>
    <sample_global_id>20200226144628-093778</sample_global_id>
    <sample_name>LN56</sample_name>
    <description/>
    <place>
      <global_id>20200226153357-048764</global_id>
      <name>locality of LN56</name>
      <longitude>7.45972222222222</longitude>
      <latitude>45.2669444444444</latitude>
      <elevation/>
      <description/>
    </place>
    <chemistries>
      <analysis>
        <nickname>Sr</nickname>
        <value>7.2</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Y</nickname>
        <value>0.73</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>La</nickname>
        <value>0.021</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ce</nickname>
        <value>0.077</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Pr</nickname>
        <value>0.015</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Nd</nickname>
        <value>0.1</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Sm</nickname>
        <value>0.051</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Eu</nickname>
        <value>0.024</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Gd</nickname>
        <value>0.083</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Tb</nickname>
        <value>0.017</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Dy</nickname>
        <value>0.12</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ho</nickname>
        <value>0.024</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Er</nickname>
        <value>0.067</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Tm</nickname>
        <value>0.01</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Yb</nickname>
        <value>0.071</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Lu</nickname>
        <value>0.012</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20200227103519-073199</global_id>
    <name>LN56</name>
    <device/>
    <technique/>
    <operator>Luisa</operator>
    <sample_global_id>20200226144628-093778</sample_global_id>
    <sample_name>LN56</sample_name>
    <description>The mode has been calculated from major element bulk and mineral chemistry using PETMIX 5 (Le Maitre, 1979)</description>
    <place>
      <global_id>20200226153357-048764</global_id>
      <name>locality of LN56</name>
      <longitude>7.45972222222222</longitude>
      <latitude>45.2669444444444</latitude>
      <elevation/>
      <description/>
    </place>
    <chemistries>
      <analysis>
        <nickname>modeOfOl</nickname>
        <value>64.1</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfOpx</nickname>
        <value>21.2</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfCpx</nickname>
        <value>7.5</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfSpl</nickname>
        <value>0.4</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>modeOfPl</nickname>
        <value>6.8</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20200227111133-472454</global_id>
    <name>LN56</name>
    <device>Q-ICPMS Agilent 7500cs</device>
    <technique>Q-ICP-MS_procedures of Lu et al. (2007)</technique>
    <operator>Luisa</operator>
    <sample_global_id>20200226144628-093778</sample_global_id>
    <sample_name>LN56</sample_name>
    <description/>
    <place>
      <global_id>20200226153357-048764</global_id>
      <name>locality of LN56</name>
      <longitude>7.45972222222222</longitude>
      <latitude>45.2669444444444</latitude>
      <elevation/>
      <description/>
    </place>
    <chemistries>
      <analysis>
        <nickname>Zr</nickname>
        <value>0.6</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Hf</nickname>
        <value>0.024</value>
        <unit>ug/g</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
  <acquisition>
    <global_id>20200227111233-602519</global_id>
    <name>LN56</name>
    <device>XRF PANalytical PW2400</device>
    <technique>XRF procedures of Takei (2002)</technique>
    <operator>Luisa</operator>
    <sample_global_id>20200226144628-093778</sample_global_id>
    <sample_name>LN56</sample_name>
    <description/>
    <place>
      <global_id>20200226153357-048764</global_id>
      <name>locality of LN56</name>
      <longitude>7.45972222222222</longitude>
      <latitude>45.2669444444444</latitude>
      <elevation/>
      <description/>
    </place>
    <chemistries>
      <analysis>
        <nickname>SiO2</nickname>
        <value>42.73</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>TiO2</nickname>
        <value>0.11</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Al2O3</nickname>
        <value>3.16</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>FeOT</nickname>
        <value>7.91</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>MnO</nickname>
        <value>0.13</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>MgO</nickname>
        <value>37.87</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>CaO</nickname>
        <value>2.9</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Na2O</nickname>
        <value>0.19</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>K2O</nickname>
        <value>0.0</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>P2O5</nickname>
        <value>0.01</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Cr2O3</nickname>
        <value>0.33</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>NiO</nickname>
        <value>0.25</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>LOI</nickname>
        <value>3.19</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>total</nickname>
        <value>98.79</value>
        <unit>%</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Cr</nickname>
        <value>2240.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
      <analysis>
        <nickname>Ni</nickname>
        <value>1970.0</value>
        <unit>ppm</unit>
        <uncertainty/>
        <label/>
        <info/>
      </analysis>
    </chemistries>
  </acquisition>
</acquisitions>

name

physical-form

quantity

LN56 pub

thin section

20200227145941-493741

LN56 pub

aliquot

78.57 g

20200318112112-508625

place quantity

ISEI/main/127/E/2/Lanzo Peridotite (Luisa 2008-2009) over 1 year

2020-03-17 12:12 2021-08-14 17:18

description:

ISEI/main/127/Lanzo Peridotite (Luisa 2008-2009) 20 days

2020-02-26 14:46 2020-03-17 12:12

description:

name	device	global-id
LN56 pub 4 on LN56_clean room pub	TIMS Thermo-Fisher MAT262	20200227160221-291408
LN56 pub 5 on LN56_clean room pub	TIMS Thermo-Fisher MAT262	20200227160259-078535
LN56 pub 7 on LN56_clean room pub	MC-ICP-MS Finnigan, Neptune	20200228110040-282080
LN56 pub 4 on LN56 pub	TIMS Thermo-Fisher MAT262	20200228102824-120804
LN56 pub 5 on LN56 pub	TIMS Thermo-Fisher MAT262	20200228102841-883750
LN56 pub 1		20200227110928-831024
LN56 pub 16	Q-ICPMS Agilent 7500cs	20200227110957-372102
LN56 pub 5		20200227103519-073199
LN56 pub 2	Q-ICPMS Agilent 7500cs	20200227111133-472454
LN56 pub 16	XRF PANalytical PW2400	20200227111233-602519
LN56-Cpx pub 29 on LN56-Cpx pub	ICPMS	20200227151527-207971

	name		global-id
	Guarnieri et al. (2012) Petrology, Trace Element and Sr, Nd, Hf Isotope Geochemistry of the North Lanzo Peridotite Massif (Western Alps, Italy), Journal of Petrology, 53, 2259-2306, doi:10.1093/petrology/egs049. Table 1 The modal compositions of the North Lanzo peridotites Table 6 Sr, Nd isotopic compositions and Rb, Sr, Sm, Nd concentrations for leached clinopyroxene separates from the North Lanzo peridotites Table 2 Whole-rock major and trace element compositions of the North Lanzo peridotites Table 4 Trace element compositions of clinopyroxene from the North Lanzo peridotites (ppm) Table 7 Hf isotopic composition and Lu, Hf concentrations for the North Lanzo peridotites (leached whole-rock) Table 5. Sr, Nd isotopic compositions and Rb, Sr, Sm, Nd concentrations for the North Lanzo peridotites (leached whole-rock samples)		20191223121936-549565

		name		spots	global-id
		ti_hr1214587574.jpg pub		0	20200317101432-517657