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U-Pb geochronology, Sr-Nd geochemistry, petrogenesis and tectonic setting of Gandab volcanic rocks, northeastern Iran Cover

U-Pb geochronology, Sr-Nd geochemistry, petrogenesis and tectonic setting of Gandab volcanic rocks, northeastern Iran

Geochronometria
Volume 44 (2017): Issue 1 (January 2017)
By: Azam Entezari Harsini,  Seyed A Mazaheri,  Saeed Saadat and  José F Santos  
Open Access
|Nov 2017

Figures & Tables

Fig. 1

Simplified structural map of Iran (compiled from Ruttner and Stöcklin, 1967, Berberian and King, 1981, Alavi, 1991) and location of the Gandab prospecting area in the Northeast of Iran.

Fig. 2

Geological map of the Gandab area (Entezari et al., 2016).

Fig. 3

Microscopic images of thin sections of volcanic rocks in the studied area (Entezari et al., 2016): (a) Plagioclase and pyroxene phenocrysts in microlitic groundmass in the Hornblende pyroxene olivine basaltic andesite, XPL; (b) Plagioclase and olivine phenocrysts in medium grained groundmass and converting olivine to chlorite and iddingsite in the Olivine hornblende basaltic andesite; (c) K-feldspar, hornblendel, magnetite phenocrysts, and glomeroporphyritic texture in the Pyroxene hornbelend trachy andesite; (d) Poikilitic texture in the Hornbelend pyroxene trachy andesite; (e) Plagioclase and opacity hornblende phenocrysts in the Hornblende andesite; (f) Phenocryst of plagioclase in a matrix of fine grain to intersertal and amygdals of carbonate in the Andesite; (g) Plagioclase and hornblende phenocrysts and alteration of hornblende to carbonate in the Hornblende trachy andesite; (h) K-feldspar phenocryst and trachytic texture in the Trachy andesite; (i) Plagioclase, clinopyroxene, and magnetite phenocrysts in the Pyroxene andesite.

Fig. 4

(a) Na2O + K2O vs. SiO2 diagram (Middlemost, 1994); (b) diagram for discriminate between subalkaline and alkaline fields (Irvine and Baragar,1971).

Fig. 5

A/NK (molar) vs. A/CNK diagram of Shand (1943). The symbols are the same as in Fig. 4.

Fig. 6

Selected major and trace elements vs. SiO2 contents for the Gandab volcanic rocks.

Fig. 7

(a) primitive-mantle normalized diagrams (McDonough and Sun, 1995); (b) REE chondrite normalized diagrams (Boynton, 1984). The symbols are the same as in Fig. 6.

Fig. 8

Cathodoluminescence images of analysed zircon grains from GCh-119 and GCh-171 samples, for the investigated volcanic rocks from the Gandab area, Iran. The red circles show the analyzed spots.

Fig. 9

Concordia diagrams of 207Pb/207Pb vs. 238U/206Pb for calculating the age of zircons from Gandab volcanic rocks (Age is reported in Ma, GCh-119 = 5.47± 0.22, GCh-171 = 2.44± 0.79).

Fig. 10

(a) TiO2 us. Al2O3 diagram, (Muller et al., 1992); (b) Nb*50-Zr*/3-Ce/P2O5 ternary diagram (Muller et al., 1992).

Fig. 11

Diagrams showing fractional crystallization (FC) for Gandab volcanic rocks. (a) Th vs. SiO2 (Whalen et al, 1987); (b) Eu/Eu* vs. SiO2 (Irber, 1999); (c) Ba/Sr vs. SiO2 (Lopez-Moro et al., 2012); (d) Th/Yb vs. SiO2 (Taylor and McLennan, 1985); (e) La/Nb vs. SiO2 (Taylor and McLennan, 1985).

Fig. 12

Plot of initial (87Sr/86Sr)i vs. εNd ratios (Entezari et al., 2016).

Geographic location, name, and symbol of the analyzed samples in the Gandab volcanic rocks_

SampleLongitude (E)Latitude (N)Rock typeSymbol
GCh-17158°44′25″35°48′59″Pyroxene andesite

GCh-9258°44′27″35°48′39″Pyroxene andesite

GCh-11958°43′39″35°47′37″Hornblende pyroxene olivine trachy andesite basalt

GCh-15458°41′42″35°50′53″Hornblende pyroxene olivine trachy andesite basalt

GCh-13158°42′08″35°49′23″Olivine hornblende trachy andesite basalt

GCh-17958°41′24″35°49′24″Olivine hornblende trachy andesite basalt

GCh-6058°42′49″35°49′55″Pyroxene hornblende trachy andesite

GCh-1758°43′12″35°49′49″Pyroxene hornblende trachy andesite

GCh-14058°42′34″35°50′50″Hornblende andesite

GCh-3558°42′58″35°50′02″Hornblende andesite

GCh-16058°41′38″35°50′03″Hornblende trachy andesite

GCh-18358°43′12″35°49′33″Hornblende trachy andesite

GCh-1658°43′27″35°49′49″Trachy andesite

GCh-7158°43′14″35°49′31″Trachy andesite

GCh-4058°43′09″35°50′03″Trachy andesite

GCh-3158°43′02″35°50′09″Trachy andesite

GCh-5758°42′44″35°50′18″Hornblende pyroxene trachy andesite

GCh-8658°43′37″35°49′14″Hornblende pyroxene trachy andesite

GCh-2758°43′16″35°50′00″Andesite

GCH-4958°42′53″35°50′14″Andesite

Major element (in wt% by XRF) and trace element (in ppm by ICP-MS) compositions of samples from Gandab volcanic rocks (Entezari et al_, 2016)_

SampleGCH-171GCH-92GCH-119GCH-153GCH-131GCH-179GCH-60GCH-17GCH-140GCH-35GCH-160GCH-183GCH-16GCH-71GCH-57GCH-86GCH-40GCH-31GCH-27GCH-49
SiO262.5861.5454.0154.3955.0154.5657.8657.1257.7157.3558.0157.2557.8657.4260.8859.3558.3658.1255.8755.12
Al2O317.6917.5915.9116.0515.8615.6217.9918.0318.2418.3518.0218.4217.0816.8917.5218.1317.6317.5115.2415.35
FeO3.503.828.217.927.537.794.805.355.195.125.235.175.215.343.734.224.855.014.264.78
CaO5.275.926.876.527.027.324.264.625.175.215.245.272.863.421.681.893.012.974.985.02
Na2O4.484.533.563.453.293.354.344.123.944.253.593.754.754.354.264.123.873.672.982.87
K2O3.022.952.993.253.383.575.495.154.023.984.083.926.896.727.346.957.026.997.417.25
MgO0.270.425.245.104.524.981.781.982.352.372.342.521.691.911.481.791.491.780.981.35
TiO21.4291.3540.8910.8540.8400.9150.9681.0710.8690.8640.8670.8621.0111.0090.9141.0500.9180.8991.1541.034
MnO0.0800.0690.1120.1310.0980.0820.0690.0590.0450.0480.0420.0460.1240.1050.0400.0510.0780.0870.0630.087
P2O50.3360.3920.3410.3130.3620.3330.4540.5210.4180.4550.4180.4280.7320.7920.3230.3550.5130.5320.4680.423
L.O.I1.041.151.621.781.871.551.731.761.661.671.851.871.431.661.511.722.032.104.404.65
Total99.7299.8699.8299.8399.8099.7199.7799.8199.6499.5299.7199.5399.7199.7299.7499.7199.8799.7699.5199.76
Cu0.020.020.010.010.010.010.020.020.010.010.010.010.050.070.050.060.100.061.691.81
S0.0090.0080.0540.0570.0090.0080.0120.0130.0120.0150.0080.0090.0180.0350.0110.0190.0080.0090.0170.017
Ba287294383367376381515552482475451453551525485435570552497505
Be22121122122211212243
Co4.35.627.428.228.729.19.810.112.112.812.713.18.09.14.85.27.46.96.15.8
Cs1.11.51.92.42.22.62.93.11.91.51.31.23.32.83.63.23.32.93.02.8
Ga19.618.316.115.915.616.215.115.618.218.817.216.815.516.116.015.515.014.313.714.1
Hf7.57.42.92.82.92.93.73.63.33.53.53.43.63.74.14.23.73.83.43.3
Nb27.926.29.910.411.510.815.215.814.514.114.314.616.516.219.218.815.815.615.315.7
Rb68.073.170.872.474.479.1135.4142.197.0110.296.182.2160.4155.2182.2173.1158.7148.9144.9145.5
Sn32211211121111122111
Sr453.9438.2614.8580.3559.8592.2608.6595.1726.7717.3728.7731.2504.7491.2239.1251.2454.3432.1347.2371.1
Ta1.81.60.60.70.70.80.90.80.80.91.00.81.11.01.21.10.91.01.00.9
Th9.19.53.74.34.14.86.16.24.95.15.04.87.26.97.87.46.77.16.26.3
U2.72.51.11.31.11.21.61.41.41.61.51.42.32.51.11.12.32.42.42.1
V112120259262252243298310265256269285395375223259361345279242
W1.41.61.51.92.93.11.31.71.51.81.71.51.41.62.01.81.81.63.32.7
Zr306.1297.3108.6121.5119.8109.1157.9149.1142.0138.5140.9135.2167.5159.5193.5185.1160.0163.6148.0152.1
Y30.831.219.318.919.418.816.917.117.116.817.917.218.618.318.018.517.417.116.717.2
La36.335.215.415.817.116.822.621.721.321.520.921.224.724.124.123.224.123.823.323.9
Ce76.975.232.033.236.035.242.643.243.641.941.642.348.347.945.644.945.745.245.844.9
Pr8.968.524.354.714.624.445.255.375.245.015.144.935.715.545.365.595.725.455.514.89
Nd35.836.417.718.118.618.419.920.219.218.820.220.422.322.620.619.921.422.322.322.5
Sm7.147.014.123.933.884.073.753.834.113.953.994.054.394.093.713.913.864.014.003.89
Eu1.691.581.221.171.151.111.050.981.151.191.151.131.111.150.911.081.181.211.091.12
Gd6.696.354.123.934.224.173.533.613.733.683.803.753.673.863.333.523.493.623.573.49
Tb1.041.110.610.560.650.610.570.590.580.580.590.600.600.630.510.560.580.570.540.55
Dy5.645.233.443.613.743.542.913.113.363.213.233.393.513.332.973.083.323.453.012.96
Ho1.101.050.740.720.750.730.600.620.730.680.690.720.650.630.650.690.630.660.610.67
Er3.203.111.811.871.991.921.781.811.901.941.921.951.881.831.901.942.061.981.791.85
Tm0.440.410.300.290.300.300.270.280.270.280.290.290.290.290.290.280.280.270.300.30
Yb2.912.761.951.911.921.891.701.721.841.861.731.871.871.921.911.881.841.871.711.73
Lu0.460.480.310.300.310.310.270.280.290.270.280.290.320.300.310.300.310.310.280.29
Nb/Th3.072.7572.682.422.802.252.492.542.962.762.863.042.292.352.462.542.362.22.472.49
Ba/Sr0.630.670.620.630.670.640.850.930.660.660.620.621.091.062.021.731.251.271.431.36
Th/Yb3.133.441.902.252.142.543.593.62.662.742.892.573.853.594.083.943.643.83.633.64
La/Nb1.301.341.561.521.491.561.491.371.471.521.461.451.501.491.251.231.531.531.521.52
(La/Sm)N3.203.162.352.532.772.603.793.563.263.423.293.293.543.714.093.733.933.733.663.86
Eu/Eu*0.750.720.910.910.870.820.880.810.900.950.900.890.850.880.790.890.980.970.880.93
(Gd/Yb)N1.851.861.701.661.771.781.681.691.641.601.771.621.581.621.411.511.531.561.641.63

Rb–Sr and Sm–Nd isotopic data of the Gandab volcanic rocks (Entezari et al_, 2016)_ 2σ shows the precision of measurement and calculations (standard error)_

SampleLatitude (N)Longitude (E)Rb (ppm)Sr (ppm)87Rb/86Sr87Sr/86SrUncertainty (2σa)Sm (ppm)Nd (ppm)147Sm/144Nd143Nd/144NdUncertainty (2σ)εNd
GCh-1635°49′49″58°43′14″1065050.6090.7050470.0000204.3922.30.1190.5128330.000017+3.8
GCh-5735°50′18″58°42′44″1822392.2050.7059310.0000203.7120.60.1090.5128070.000015+3.3
GCh-17135°48′59″58°44′25″68.04540.4330.7040820.0000217.1435.80.1210.5128930.000015+5.0
GCh-11935°47′37″58°43′39″70.86150.3330.7046140.0000164.1217.70.1410.5128430.000017+4.0

Zircon U–Pb isotopic data for the Gandab volcanic rocks_

Sample No.U238 (ppm)Th232/U238207Pb/206Pb238U/206pb206Pb/238UAge (Ma)± (Ma)
GCh-119-13430.7300.04241234.010.00085.20.1
GCh-119-23630.8890.05141185.230.00085.40.2
GCh-119-33470.5790.06221197.660.00085.30.2
GCh-119-43480.6210.10391247.210.00084.90.1
GCh-119-53891.1130.07501173.230.00085.30.2
GCh-119-64011.3140.09221125.150.00095.50.1
GCh-119-74560.9670.05611192.120.00085.30.1
GCh-119-83720.8710.07481134.210.00095.50.2
GCh-119-93390.6900.06211179.100.00085.30.2
GCh-119-103750.8210.09401211.120.00085.10.1
GCh-119-113321.1010.11751045.230.00095.80.2
GCh-119-124310.8210.09201119.120.00095.60.2
GCh-119-133691.4510.08311131.570.00095.50.2
GCh-119-143670.7810.1751980.560.00106.10.1
GCh-119-153830.9830.1669960.130.00106.30.2
GChH-171-19730.8650.07982886.140.00032.10.1
GCh-171-26130.5500.05332819.620.00042.30.1
GCh-171-37970.9430.09042690.010.00042.40.1
GCh-171-47650.5950.09832911.140.00032.10.1
GCh-171-58211.1230.12892248.870.00042.70.1
GCh-171-66780.8710.16342321.220.00042.50.1
GCh-171-75870.7810.08792430.760.00042.50.1
GCh-171-88011.1210.09732869.360.00032.10.1
GCh-171-97450.8910.06112856.000.00042.20.1
GCh-171-109561.1530.12982678.870.00042.40.1
GCh-171-1110051.1510.05182488.760.00042.70.1
GCh-171-125670.7010.07412780.200.00032.30.1
GCh-171-137101.1510.05882130.450.00053.10.2
GCh-171-148340.8710.07412414.670.00042.70.1
DOI: https://doi.org/10.1515/geochr-2015-0061 | Journal eISSN: 1897-1695
Journal RSS Feed
Language: English
Page range: 269 - 286
Submitted on: Oct 26, 2016
|
Accepted on: Mar 17, 2017
|
Published on: Nov 16, 2017
Published by: Sciendo
In partnership with: Paradigm Publishing Services
Publication frequency: 1 issue per year
Keywords:
U-Pb geochronology,
Sr-Nd geochemistry,
post-collision,
Gandab volcanic rocks,
Northeastern Iran
Related subjects:
Geosciences,
Geosciences, other

© 2017 Azam Entezari Harsini, Seyed A Mazaheri, Saeed Saadat, José F Santos, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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