Mingjia Ma and Haibo Zou Department of Geology & Geography, Auburn University, Auburn, AL 36849, USA Introduction Hafnium and neodymium isotope systematics.

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Mingjia Ma and Haibo Zou Department of Geology & Geography, Auburn University, Auburn, AL 36849, USA Introduction Hafnium and neodymium isotope systematics in mafic volcanic rocks provide useful information about mantle source characteristics and processes. Hf and Nd isotope array is effective for identifying the types of subducted sediments involved in enriched mantles. The Tengchong volcanic field is located in Yunnan Province, SE Tibetan Plateau. It is one of two active volcanic fields on Tibetan Plateau. Although a great deal of geochemical and petrological research has been conducted to investigate the origin of these volcanoes, application of combined Hf and Nd isotopes to study their mantle source characteristics is relatively lacking. Geologic Background The Tengchong volcanic field (TVF) is situated along the southeastern margin of the Tibetan Plateau near the border between China and Myanmar and adjacent to the Eastern tectonic knot of the Himalayas. Tectonically, it is located on the Tengchong block to the west of the Nujiang River right-lateral strike-slip fault zone in the Three- Rivers area. It comprises 68 volcanoes of various sizes that are distributed in a South-North oriented strip of 50*90 km 2 (24°40′- 25°30′N, 98°15′-98°45′E) (Jiang, 1998; Jiang et al., 2000). Maanshan, Dayingshan, Heikongshan, and Laoguipo are the four active volcanoes in the TVF. Figure 1. (a) Regional map showing major tectonic features in Asia (after Tapponnier et al., 1990). (b) Location map of the Tengchong volcanic field in SE China. (c) Distribution and relative ages of the four most recently active volcanoes and surrounding rocks (after Zou et al., 2014). Discussion and Conclusion This research suggests recycling of mature clay sediments or mudstones into the mantle below Tengchong, which implies that the sediment component in the enriched mantle source for Tengchong volcanic rocks was mature clay sediments or mudstones rather than other sediments such as sandstones. This interpretation from Hf-Nd isotope systematics is also consistent with the conclusion on mantle source characteristics based on 238 U- 230 Th isotope disequilibrium data of the Tengchong volcanics. Finally, new constraints on the mantle source rocks from Hf-Nd isotope systematics in Tengchong might exemplify the characteristics of the source rocks for older widespread post-collisional volcanism in other areas of the Tibetan Plateau. References Cited Jiang C.S., Period Division of Volcano Activities in the Cenozoic Era of Tengchong. Journal of Seismological Research, 21 (4): Jiang C.S., Zhou R.Q., Zhou Z.H., Wang Y., Division of tectonic elements in west Yunnan and its neighboring regions and their features. Journal of Seismological Research 23, Tapponnier P., Lacassin R., Leloup P.H., Scharer U., Zhong D.L.,Wu H.W., Liu X.H., Ji S.C., Zhang L.S., Zhong J.Y., The Ailao Shan/Red River metamorphic belt: tertiary left-lateral shear between Indochina and South China. Nature 343: Yang Y.H., Zhang H.F., Chu Z.Y., Xie L.W., Wu F.Y., Combined chemical separation of Lu, Hf, Rb, Sr, Sm and Nd from a single rock digest and precise and accurate isotope determinations of Lu-Hf, Rb-Sr and Sm-Nd isotope systems using Multi-Collector ICP-MS and TIMS. International Journal of Mass Spectrometry, 290: Zhou M.F., Robinson P.T., Wang C.Y., Zhao J.H., Yan D.P., Gao J.F., Malpas J., Heterogeneous mantle source and magma differentiation of quaternary are- like volcanic rocks from Tengchong, SE margin of the Tibetan Plateau. Contrib Mineral Petrol, 163: Zou H.B., Shen C.C., Fan Q.C., Lin K., U-series disequilibrium in young Tengchong volcanics: Recycling of mature clay sediments or mudstones into the SE Tibetan mantle. Lithos, : Method Whole-rock geochemical compositions were measured at the University of Science and Technology of China and ALS Chemex (Guangzhou) Co., Ltd. Major element compositions were determined by X-ray fluorescence (XRF) using fused glass beads. Trace elements were measured by inductively coupled plasma mass spectrometry (ICP-MS) after acid digestion of samples in high-pressure Teflon bombs. Nd isotopic measurement was made on a Finnigan MAT 262 thermal ionization mass spectrometer at the University of Science and Technology of China, Hefei, China. Whole-rock Hf isotope was measured at the Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing. Separation and purification of Hf were carried out on single columns with anion exchange resins following the procedure described in Yang et al. (2010). Results All studied samples are potassium-rich and enriched in incompatible elements. They are depleted in high field strength elements Ti, Nb, and Ta and show LREE enrichment over HREE. The Tengchong samples are classified as trachybasalt, basaltic trachyandesite, and trachyandesite. Preliminary Hf and Nd isotope results indicate that the Tengchong volcanics plot between mantle igneous rock array and seawater array, around the zircon-free sediments arrays. Figure 5. Chondrite-normalized rare earth element diagram for Heikongshan, Dayingshan, Maanshan, and Laoguipo. Figure 2. Total alkali (K 2 O + Na 2 O) versus SiO 2 for the volcanic rocks from Heikongshan, Dayingshan, Maanshan, and Laoguipo of Tengchong. Hf-Nd Isotope Constraints on the Mantle Source Characteristics for the Tengchong Volcanics from SE Tibetan Plateau Figure 3. AFM diagram for the volcanic rocks from Heikongshan, Dayingshan, Maanshan, and Laoguipo of Tengchong. Figure 4. K 2 O versus SiO 2 diagram. Figure 6. Primitive mantle normalized trace element diagram for Heikongshan, Dayingshan, Maanshan, and Laoguipo. Figure 7. Intial ε Nd and ε Hf values for Tengchong volcanic rocks. Fine-grained sediments (red line) plot along a gentle array. Coarse-grained sediments (pink line) plot along a steep array. The mantle array is the correlation for unwearthered whole- rock data. The seawater array is the correlation for marine Fe-Mn precipitates. Figure 8. ( 230 Th/ 232 Th) versus ( 238 U/ 232 Th) equiline diagram (Zou et al.,2014)