杨涛

一作及通讯作者论文

1.       Yang, T.（杨涛）, Yu, H., Zhu, Z.-Y., Ding, R., Wang, J., Zhu, B., 2024. Development of a Chelex-100 Based Three-step Chromatographic Procedure for Nickel Isotope Analysis in Geological Samples. Journal of Analytical Atomic Spectrometry. 10.1039.D4JA00007B. https://doi.org/10.1039/D4JA00007B

2.       Zhang, Y., Yang, T.（杨涛）, Yang, L.W., Chen, Y., Pan, W., Su, P.*, 2023b. Heavy Li isotopic compositions of the terminal Ediacaran dolostones in the Tarim Basin and their possible link to dolomitizations. Ore Geology Reviews 163, 105802.

3.       Yang, L.W., Yang, T.(杨涛), Li, J., Lin, Y., Ling, H.-F., 2023. The marine redox evolution and the formation model for the early Cambrian Gongxi-Tianzhu barite deposits in the South China Block. Ore Geology Reviews 158, 105502. https://doi.org/10.1016/j.oregeorev.2023.105502

4.       Zhang, Y., Yang, T.(杨涛), Newton, R.J., Pan, W., Chen, Y., Yu, H., 2023. Seawater carbon and strontium isotope variations in the eastern Tarim Basin during the Cambrian: Implications for connection with the open ocean. Journal of Asian Earth Sciences 253, 105702. https://doi.org/10.1016/j.jseaes.2023.105702

5.       Ai, X., Zha, R., Lai, Y., Yang, T.(杨涛), Su, P., 2022. Pore-Water Geochemical Gradients of Sulfate, Calcium, Magnesium, and Iodide Correlated With Underlying Gas Hydrate Potential: A Case Study of the Shenhu Area, South China Sea. Frontiers in Earth Science 10, 233. doi:10.3389/feart.2022.882207.

6.       Feng, Z.-J., Yang, T.(杨涛), Yao, X., Brzozowski, M.J.*, Lei, R.-X., Wu, C.-Z., 2022. Ore forming and reworking processes in the Xitieshan Pb–Zn deposit, Qinghai Province, China: Constraints from in situ trace-element and S isotope compositions of sulfides. Ore Geology Reviews 149 (1), 105103. doi:10.1016/j.oregeorev.2022.105103.

7.       Zha, R., Yang, T.(杨涛), Shi, X.*, Su, P., Fang, Y., 2022. Quantitative assessment of dissolved inorganic carbon cycling in marine sediments from gas hydrate-bearing areas in the South China Sea. Marine and Petroleum Geology 145, 105881. doi:10.1016/j.marpetgeo.2022.105881.

8.       Zhang, Y., Pan, W., Zhu, B., Li, W., Yang, L.W., Chen, Y., Yang, T.(杨涛), 2022. Recrystallization of dolostones in the Cambrian Xiaoerbrak Formation, Tarim Basin and possible link to reservoir development. Marine and Petroleum Geology 136, 105452. doi:10.1016/j.marpetgeo. 2021.105452.

9.       Zhang, Y., Yao, X., Wang, J., Pan, W., Chen, Y., Zhang, B., Yang, T.(杨涛), 2022. U-Pb ages and europium anomalies of detrital zircons from sediments in the West Kunlun Orogenic Belt: implications for the Proto-Tethys Ocean evolution. Journal of Earth Science. doi:10.1007/s12583-022-1671-8. http://en.earth-science.net/en/article/doi/10.1007/s12583-022-1671-8.

10.    Zhu, B.*, Yang, T.(杨涛), Wang, J., Chen, X., Pan, W., Chen, Y., 2022. Multiple controls on the paleoenvironment of the early Cambrian black shale-chert in the northwest Tarim Basin, NW China: Trace element, iron speciation and Mo isotopic evidence. Marine and Petroleum Geology 136 (3), 105434. doi:10.1016/j.marpetgeo.2021.105434.

11.    Li, J., Qin, H., Yang, T.(杨涛), 2021. Separation of Rare Earth Elements In Geological Samples with High Concentrations of Barium Using RE Resin. Atomic Spectroscopy. 42 (4), 359–364. doi:10.46770/AS.2021.098.

12.    Zhang, Y., Yang, T.(杨涛), Hohl, S.V.*, Zhu, B., He, T., Pan, W., Chen, Y., Yao, X., Jiang, S., 2020. Seawater carbon and strontium isotope variations through the late Ediacaran to late Cambrian in the Tarim Basin. Precambrian Research 345. doi:10.1016/j.precamres.2020.105769.

13.    Gao, B.F., Wu, C.Z.*, Yang, T.(杨涛), Santosh, M., Dong, L.H., Zhao, T.Y., Ye, H., Lei, R.X., Li, W., 2019. The Neoproterozoic “Blood Falls” in Tarim Craton and Their Possible Connection With Snowball Earth. Journal of Geophysical Research: Earth Surface 124 (1), 229–244. doi:10.1029/2018JF004862.

14.    Lei, H.-L., Yang, T.(杨涛), Jiang, S.-Y., Pu, W., 2019. A simple two-stage column chromatographic separation scheme for strontium, lead, neodymium and hafnium isotope analyses in geological samples by thermal ionization mass spectrometry or multi-collector inductively coupled plasma mass spectrometry. Journal of separation science 42 (20), 3261–3275.   doi:10.1002/jssc.201900579.

15.    Yang, L.W., Liu, C.*, Yang, T.(杨涛), 2019. An evaluation on the extraction capability of anion exchange membranes for high-precision sulfur isotope measurement by multiple-collector inductively coupled plasma mass spectrometry. RSC Advances 9 (54), 31224–31232. doi:10.1039/C9RA04121D.

16.    Zhu, Z.-Y.*, Yang, T.(杨涛), Zhu, X., 2019. Achieving rapid analysis of Li isotopes in high-matrix and low-Li samples with MC-ICP-MS: New developments in sample preparation and mass bias behavior of Li in the ICPMS. Journal of Analytical Atomic Spectrometry. doi:10.1039/C9JA00076C.

17.    Liu, C., Bian, X.-P., Yang, T.(杨涛), Lin, A.-J., Jiang, S.-Y., 2016. Matrix effects of calcium on high-precision sulfur isotope measurement by multiple-collector inductively coupled plasma mass spectrometry. Talanta 151, 132–140. doi:10.1016/j.talanta.2016.01.013.

18.    Yang, T.(杨涛), Bian, X.-P., Zhu, B., Jiang, S.-Y., Yan, X., Wei, H.-Z., 2016. Rapid determination of boron isotopic composition (delta B-11) in pore water by multi-collector inductively coupled plasma mass spectrometry. Analytical Methods 8 (7), 1721–1727. doi:10.1039/c5ay00613a.

19.    Ye, H., Yang, T.(杨涛), Zhu, G., Jiang, S.*, Wu, L., 2016. Pore water geochemistry in shallow sediments from the northeastern continental slope of the South China sea. Marine and Petroleum Geology 75, 68–82. doi:10.1016/j.marpetgeo.2016.03.010.

20.    Bian, X.-P., Yang, T.(杨涛), Lin, A.-J., Jiang, S.-Y., 2015. Rapid and high-precision measurement of sulfur isotope and sulfur concentration in sediment pore water by multi-collector inductively coupled plasma mass spectrometry. Talanta 132, 8–14. doi:10.1016/j.talanta.2014.08.053.

21.    Ye, H., Yang, T.(杨涛), Zhu, G., Jiang, S., 2015. An Object-Oriented Diagnostic Model for the Quantification of Porewater Geochemistry in Marine Sediments. Journal of Earth Science 26 (5), 648–660. doi:10.1007/s12583-015-0586-z.

22.    Yang, T.(杨涛), Jiang, S.-Y., Lu, G., JingHong, Y., NengYou, W., GuangXue, Z., Jian, L., DaoHua, C., 2013. Geochemistry of pore waters from HQ-1PC of the Qiongdongnan Basin, northern South China Sea, and its implications for gas hydrate exploration. Science China-Earth Sciences 56 (4), 521–529. doi:10.1007/s11430-012-4560-7.

23.    Yang, T.(杨涛), Jiang, S.-Y., 2012. A new method to determine carbon isotopic composition of dissolved inorganic carbon in seawater and pore waters by CO2-water equilibrium. Rapid Communications in Mass Spectrometry 26 (7), 805–810. doi:10.1002/rcm.6164.

24.    Yang, T.(杨涛), Jiang, S., Ge, L., Yang, J., Wu, N., Zhang, G., Liu, J., 2010. Geochemical characteristics of pore water in shallow sediments from Shenhu area of South China Sea and their significance for gas hydrate occurrence. Chinese Science Bulletin 55 (8), 752–760. doi:10.1007/s11434-009-0312-2.

25.    Yang, T.(杨涛), Jiang, S.-Y., Yang, J.-H., Lu, G., Wu, N.-Y., Liu, J., Chen, D.-H., 2008. Dissolved inorganic carbon (DIC) and its carbon isotopic composition in sediment pore waters from the Shenhu area, northern South China Sea. Journal of Oceanography 64 (2), 303–310. doi:10.1007/s10872-008-0024-2.

26.    Zhang, Y., Benjamin, M., He, T., Yang, T.(杨涛), Zhu, M., 2022. 显生宙长时间尺度碳循环演变的模拟：现状与展望. 科学通报 doi:10.1360/TB-2022-0813.

27.    杨涛, 叶鸿, 赖亦君, 2017. 南海北部陆坡天然气水合物的沉积物孔隙水地球化学研究进展. 海洋地质与第四纪地质 37 (05), 48–58.

28.    杨涛, 蒋少涌, 葛璐, 杨竞红, 凌洪飞, 吴能友, 张光学, 刘坚, 陈道华, 2006. 南海北部陆坡西沙海槽XS-01站位沉积物孔隙水的地球化学特征及其对天然气水合物的指示意义. 第四纪研究 26 (3), 442–448.

29.    杨涛, 蒋少涌, 赖鸣远, 杨兢红, 葛璐, 凌洪飞, 2006. 连续流同位素质谱法测定水中溶解无机碳含量和同位素组成的方法研究. 地球化学35 (6), 675–680.

30.    杨涛, 蒋少涌, 杨竞红, 葛璐, 凌洪飞, 吴能友, 陈道华, 2005. 孔隙水中氨和磷酸根离子浓度异常：一种潜在的天然气水合物地球化学勘查新指标. 现代地质 19 (1), 55–60.

31.    杨涛, 薛紫晨, 杨竞红, 蒋少涌, 2003. 南海北部地区海洋沉积物中孔隙水的氢、氧同位素组成特征. 地球学报 24 (6), 511–514.

32.    汪瑾, 吝祎勃, 杨涛, 2023. 三峡地区早寒武世海水氧化还原环境的变化——来自罗家村剖面碳同位素解耦的证据. 石油实验地质 (01), 157–167.

33.    汪瑾, 卞霄鹏, 杨涛, 2022. “On Peak Zero”校正在多接收等离子体质谱同位素分析中的原理和应用. 岩矿测试 (6), 987–996.

34.    赖亦君；杨涛；梁金强；张光学；苏丕波；方允鑫, 2019. 南海北部陆坡珠江口盆地东南海域GMGS2-09井孔隙水地球化学特征及其对天然气水合物的指示意义. 海洋地质与第四纪地质 39 (3), 135–142.

35.    姚希柱, 杨涛, 朱志勇, 党奔, 丰志杰, 吴昌志, 2019. 黄铁矿LA-ICP-MS微量元素特征：对青海锡铁山矿床成因的启示. 高校地质学报 25 (6), 888–900.

36.    秦欢；杨涛；潘文庆；陈永权；张宝收, 2018. 塔里木盆地寒武系原油微量元素特征及意义. 高校地质学报 24 (6), 822–832.

37.    杨涛, 蒋少涌, 葛璐, 杨競红, 吴能友, 张光学, 刘坚, 陈道华, 2013. 南海北部琼东南盆地HQ-1PC沉积物孔隙水的地球化学特征及其对天然气水合物的指示意义. 中国科学:地球科学 43 (3), 329–338.

38.    卞霄鹏, 刘晨晖, 朱志勇, 杨涛, 2016. 硫酸盐硫同位素的MC-ICP-MS测定方法研究. 矿物岩石地球化学通报 35 (03), 465-472+401.

其他共同作者论文

1.       Chen, N.-C., Yang, T. F., Hong, W.-L., Chen, H.-W., Chen, H.-C., Hu, C.-Y., Huang, Y.-C., Lin, S., Lin, L.-H., Su, C.-C., Liao, W.-Z., Sun, C.-H., Wang, P.-L., Yang, T.(杨涛), Jiang, S.-Y., Liu, C.-S., Wang, Y., Chung, S.-H., 2017. Production, consumption, and migration of methane in accretionary prism of southwestern Taiwan. Geochemistry Geophysics Geosystems 18 (8), 2970–2989. doi:10.1002/2017GC006798.

2.       Di Wang, Wang, X.-L., Cai, Y., Goldstein, S.L., Yang, T.(杨涛), 2018. Do Hf isotopes in magmatic zircons represent those of their host rocks? Journal of Asian Earth Sciences 154, 202–212. doi:10.1016/j.jseaes.2017.12.025.

3.       Du, D.-H., Li, W., Wang, X.-L., Shu, X.-J., Yang, T.(杨涛), Sun, T., 2019. Fe isotopic fractionation during the magmatic-hydrothermal stage of granitic magmatism. Lithos 350. doi:10.1016/j.lithos.2019.105265.

4.       Du, D.-H., Wang, X.-L., Yang, T.(杨涛), Chen, X., Li, J.-Y., Li, W., 2017. Origin of heavy Fe isotope compositions in high-silica igneous rocks: A rhyolite perspective. Geochimica Et Cosmochimica Acta 218, 58–72. doi:10.1016/j.gca.2017.09.014.

5.       Ge, L., Chen, W., Zhu, B., Fan, M., Yang, T.(杨涛), Jiang, S., 2020. Sr and Nd isotopes of cold seep carbonates from the northern South China sea as proxies for fluid sources. Marine and Petroleum Geology 115, 104284. doi:10.1016/j.marpetgeo.2020.104284.

6.       Ge, L., Jiang, S.-Y., Swennen, R., Yang, T.(杨涛), Yang, J.-H., Wu, N.-Y., Liu, J., Chen, D.-H., 2010. Chemical environment of cold seep carbonate formation on the northern continental slope of South China Sea: Evidence from trace and rare earth element geochemistry. Marine Geology 277 (1-4), 21–30. doi:10.1016/j.margeo.2010.08.008.

7.       Guo, J., Xiang, L., Zhang, R., Yang, T.(杨涛), Wu, K., Sun, W., 2022. Chemical and boron isotopic variations of tourmaline deciphering magmatic-hydrothermal evolution at the Gejiu Sn-polymetallic district, South China. Chemical Geology 593, 120698. doi:10.1016/j.chemgeo.2021.120698.

8.       Jiang, S.-Y., Yang, T.(杨涛), Ge, L., Yang, J.-H., Ling, H.-F., Wu, N.-Y., Liu, J., Chen, D.-H., 2008. Geochemistry of pore waters from the Xisha Trough, northern South China Sea and their implications for gas hydrates. Journal of Oceanography 64 (3), 459–470. doi:10.1007/s10872-008-0039-8.

9.       Jiang, S.-Y., Zhao, H.-X., Chen, Y.-Q., Yang, T.(杨涛), Yang, J.-H., Ling, H.-F., 2007. Trace and rare earth element geochemistry of phosphate nodules from the lower Cambrian black shale sequence in the Mufu Mountain of Nanjing, Jiangsu province, China. Chemical Geology 244 (3-4), 584–604. doi:10.1016/j.chemgeo.2007.07.010.

10.    Li, W., Bialik, O.M., Wan, X.g., Yang, T.(杨涛), Hu, Z., Huang, Q., Zhao, S., Waldmann, N.D., 2019. Effects of early diagenesis on Mg isotopes in dolomite: The roles of Mn(IV)-reduction and recrystallization. Geochimica Et Cosmochimica Acta 250, 1–17. doi:10.1016/j.gca.2019.01.029.

11.    Li, B., Jiang, S.-Y., Lu, A.-H., Lai, J.-Q., Zhao, K.-D., Yang, T.(杨涛), 2016. Petrogenesis of Late Jurassic granodiorites from Gutian, Fujian Province, South China: Implications for multiple magma sources and origin of porphyry Cu-Mo mineralization. Lithos 264, 540–554. doi:10.1016/j.lithos.2016.09.020.

12.    Li, W., Zhao, S., Wang, X., Li, S., Wang, G., Yang, T.(杨涛), Jin, Z., 2020. Fingerprinting hydrothermal fluids in porphyry Cu deposits using K and Mg isotopes. Science China-Earth Sciences 63 (1), 108–120. doi:10.1007/s11430-018-9387-2.（李伟强, 赵书高, 王小敏, 李石磊, 王国光, 杨涛, 金章东, 2020. 斑岩铜矿热液流体的K-Mg同位素示踪. 中国科学:地球科学 50 (2), 245–257.）

13.    Lin, A.-J., Yang, T.(杨涛), Jiang, S.-Y., 2014. A rapid and high-precision method for sulfur isotope delta S-34 determination with a multiple-collector inductively coupled plasma mass spectrometer: Matrix effect correction and applications for water samples without chemical purification. Rapid Communications in Mass Spectrometry 28 (7), 750–756. doi:10.1002/rcm.6838.

14.    Liu, R., Guo, B., Wang, M., Li, W., Yang, T.(杨涛), Ling, H., Chen, T., 2020. Isotopic fingerprinting of dissolved iron sources in the deep western Pacific since the late Miocene. Science China-Earth Sciences 63 (11), 1767–1779. doi:10.1007/s11430-020-9648-6.（刘若琳, 郭柏, 王茂宇, 李伟强, 杨涛, 凌洪飞, 陈天宇, 2020. 晚中新世以来西太平洋深水溶解铁来源的同位素示踪. 中国科学:地球科学 50 (11), 1582–1595.）

15.    Liu, C., Jiang, S.-Y., Su, X., Huang, C.-Y., Zhou, Y., Bian, X., Yang, T.(杨涛), 2019. An effective method to distinguish between artificial and authigenic gypsum in marine sediments. Marine and Petroleum Geology 110, 706–716. doi:10.1016/j.marpetgeo.2019.07.044.

16.    Lu, G., Shaoyong, J., Tao, Y., JingHong, Y., NengYou, W., GuangXue, Z., Jian, L., 2011. Glycerol ether biomarkers and their carbon isotopic compositions in a cold seep carbonate chimney from the Shenhu area, northern South China Sea. Chinese Science Bulletin 56 (16), 1700–1707. doi:10.1007/s11434-011-4486-z.

17.    LuShan, W., ShengXiong, Y., JinQiang, L., Xin, S., ShaoYing, F., ZhiBin, S., Tao, Y., 2013. Variations of pore water sulfate gradients in sediments as indicator for underlying gas hydrate in Shenhu Area, the South China Sea. Science China-Earth Sciences 56 (4), 530–540. doi:10.1007/s11430-012-4545-6.

18.    Ma, L., Jiang, S.-Y., Hou, M.-L., Dai, B.-Z., Jiang, Y.-H., Yang, T.(杨涛), Zhao, K.-D., Pu, W., Zhu, Z.-Y., Xu, B., 2014. Geochemistry of Early Cretaceous calc-alkaline lamprophyres in the Jiaodong Peninsula: Implication for lithospheric evolution of the eastern North China Craton. Gondwana Research 25 (2), 859–872. doi:10.1016/j.gr.2013.05.012.

19.    Muhtar, M.N., Wu, C.-Z., Santosh, M., Lei, R.-X., Feng, Y., Yang, T.(杨涛), Ye, H., Gu, L.-X., 2020. Peraluminous granitoid magmatism from isotopically depleted sources: The case of Jing'erquanbei pluton in Eastern Tianshan, Northwest China. Geological Journal 55 (1), 117–132. doi:10.1002/gj.3392.

20.    Qiu, K.-F., Yu, H.-C., Hetherington, C., Huang, Y.-Q., Yang, T.(杨涛), Deng, J., 2021. Tourmaline composition and boron isotope signature as a tracer of magmatic-hydrothermal processes. American Mineralogist 106 (7), 1033–1044. doi:10.2138/am-2021-7495.

21.    Siwen, X., Changzhi, W., Lianxing, G., Ruxiong, L., Tao, Y., Ben, D., 2017. Ductile Deformation Characteristics and Formation Mechanism of Pyrrhotite in the Huangshandong Ni-Cu Sulfide Deposit. Geological Journal of China Universities 23 (1), 39–52.

22.    Tang, H.-S., Chen, Y.-J., Santosh, M., Zhong, H., Yang, T.(杨涛), 2013. REE geochemistry of carbonates from the Guanmenshan Formation, Liaohe Group, NE Sino-Korean Craton: Implications for seawater compositional change during the Great Oxidation Event. Precambrian Research 227, 316–336. doi:10.1016/j.precamres.2012.02.005.

23.    Tang, M., Wang, X.-L., Shu, X.-J., Di Wang, Yang, T.(杨涛), Gopon, P., 2014. Hafnium isotopic heterogeneity in zircons from granitic rocks: Geochemical evaluation and modeling of zircon effect in crustal anatexis. Earth and Planetary Science Letters 389, 188–199. doi:10.1016/j.epsl.2013.12.036.

24.    Wei, G.-Y., Hood, A.V.S., Chen, X., Li, D., Wei, W., Wen, B., Gong, Z., Yang, T.(杨涛), Zhang, Z.-F., Ling, H.-F., 2019. Ca and Sr isotope constraints on the formation of the Marinoan cap dolostones. Earth and Planetary Science Letters 511, 202–212. doi:10.1016/j.epsl.2019.01.024.

25.    Wei, H.-Z., Jiang, S.-Y., Hemming, G.N., Yang, J.-H., Xiao, Y.-K., Yang, T.(杨涛), Yan, X., Yan, Y., 2011. Emission Mechanism of Polyatomic Ions Cs2Cl+ and Cs2BO2+ in Thermal Ionization Mass Spectrometry with Various Carbon Materials. Journal of Physical Chemistry a 115 (51), 14570–14580. doi:10.1021/jp209013q.

26.    Wei, H.-Z., Jiang, S.-Y., Hemming, N.G., Yang, J.-H., Yang, T.(杨涛), Wu, H.-P.,., Yan, X., Pu, W., 2014. An improved procedure for separation/purification of boron from complex matrices and high-precision measurement of boron isotopes by positive thermal ionization and multicollector inductively coupled plasma mass spectrometry. Talanta 123, 151–160. doi:10.1016/j.talanta.2014.02.009.

27.    Wei, H.-Z., Jiang, S.-Y., Yang, T.(杨涛)-L., Yang, J.-H., Yan, X., Ling, B.-P., Liu, Q., Wu, H.-P., 2014. Effect of metasilicate matrices on boron purification by Amberlite IRA 743 boron specific resin and isotope analysis by MC-ICP-MS. Journal of Analytical Atomic Spectrometry 29 (11), 2104–2107. doi:10.1039/c4ja00153b.

28.    Wei, H.-Z., Jiang, S.-Y., Zhu, Z.-Y., Yang, T.(杨涛), Yang, J.-H., Yan, X., Wu, H.-P., Yang, T-L., 2015. Improvements on high-precision measurement of bromine isotope ratios by multicollector inductively coupled plasma mass spectrometry. Talanta 143, 302–306. doi:10.1016/j.talanta.2015.04.073.

29.    Wei, G.-Y., Ling, H.-F., Shields, G.A., Hohl, S.V., Yang, T.(杨涛), Lin, Y.-B., Zhang, F., 2021. Revisiting stepwise ocean oxygenation with authigenic barium enrichments in marine mudrocks. Geology 49 (9), 1059–1063. doi:10.1130/G48825.1.

30.    Wei, G.-Y., Wei, W., Wang, D., Li, T., Yang, X., Shields, G.A., Zhang, F., Li, G., Chen, T., Yang, T.(杨涛), Ling, H.-F., 2020. Enhanced chemical weathering triggered an expansion of euxinic seawater in the aftermath of the Sturtian glaciation. Earth and Planetary Science Letters 539 (5–6), 116244. doi:10.1016/j.epsl.2020.116244.

31.    Wu, C.-Z., Xie, S.-W., Gu, L.-X., Samson, I.M., Yang, T.(杨涛), Lei, R.-X., Zhu, Z.-Y., Dang, B., 2018. Shear zone-controlled post-magmatic ore formation in the Huangshandong Ni-Cu sulfide deposit, NW China. Ore Geology Reviews 100, 545–560. doi:10.1016/j.oregeorev.2017.02.015.

32.    Wu, C., Yang, T.(杨涛), Shields, G.A., Bian, X., Gao, B., Ye, H., Li, W., 2020. Termination of Cryogenian ironstone deposition by deep ocean euxinia. Geochem. Persp. Let. 15, 1–5. doi:10.7185/geochemlet.2025.

33.    Wu, C.-Z., Zhao, F.-F., Yang, T.(杨涛), Lei, R.-X., Ye, H., Gao, B.-F., Li, W., 2022. Genesis of the Fulu Cryogenian iron formation in South China: Synglacial or interglacial? Precambrian Research 376 (3-4), 106689. doi:10.1016/j.precamres.2022.106689.

34.    Yang, S.-Y., Jiang, S.-Y., Zhao, K.-D., Dai, B.-Z., Yang, T.(杨涛), 2015. Tourmaline as a recorder of magmatic-hydrothermal evolution: An in situ major and trace element analysis of tourmaline from the Qitianling batholith, South China. Contributions to Mineralogy and Petrology 170 (5-6). doi:10.1007/s00410-015-1195-7.

35.    Yanping, L., Shaoyong, J., Tao, Y., 2017. Br/Cl, I/Cl and chlorine isotopic compositions of pore water in shallow sediments: Implications for the fluid sources in the Dongsha area, northern South China Sea. Acta Oceanologica Sinica 36 (4), 31–36. doi:10.1007/s13131-017-1013-3.

36.    Ye, H., Wu, C.-Z., Yang, T.(杨涛), Santosh, M., Yao, X.-Z., Gao, B.-F., Wang, X.-L., Li, W., 2017. Updating the Geologic Barcodes for South China: Discovery of Late Archean Banded Iron Formations in the Yangtze Craton. Scientific Reports 7. doi:10.1038/s41598-017-15013-4.

37.    Ye, H., Wu, C., Brzozowski, M.J., Yang, T.(杨涛), Zha, X., Zhao, S., Gao, B., Li, W., 2020. Calibrating equilibrium Fe isotope fractionation factors between magnetite, garnet, amphibole, and biotite. Geochimica Et Cosmochimica Acta 271, 78–95. doi:10.1016/j.gca.2019.12.014.

38.    Yu, X., Zeng, G., Chen, L.-H., Wang, X.-J., Liu, J.-Q., Xie, L.-W., Yang, T.(杨涛), 2019. Evidence for rutile-bearing eclogite in the mantle sources of the Cenozoic Zhejiang basalts, eastern China. Lithos 324, 152–164. doi:10.1016/j.lithos.2018.11.003.

39.    Zhang, H., Lu, H., Xu, X., Liu, X., Yang, T.(杨涛), Stevens, T., Bird, A., Xu, Z., Zhang, T., Lei, F., Feng, H., 2016. Quantitative estimation of the contribution of dust sources to Chinese loess using detrital zircon U-Pb age patterns. Journal of Geophysical Research-Earth Surface 121 (11), 2085–2099. doi:10.1002/2016JF003936.

40.    Zhang, F.-F., Wang, X.-L., Sun, Z.-M., Chen, X., Zhou, X.-H., Yang, T.(杨涛), 2018. Geochemistry and zircon-apatite U-Pb geochronology of mafic dykes in the Shuangxiwu area: Constraints on the initiation of Neoproterozoic rifting in South China. Precambrian Research 309, 138–151. doi:10.1016/j.precamres.2017.04.008.

41.    Zhao, Y., Wei, W., Li, S., Yang, T.(杨涛), Zhang, R., Somerville, I., Santosh, M., Wei, H., Wu, J., Yang, J., Chen, W., Tang, Z., 2021. Rare earth element geochemistry of carbonates as a proxy for deep-time environmental reconstruction. Palaeogeography, Palaeoclimatology, Palaeoecology 574 (11), 110443. doi:10.1016/j.palaeo.2021.110443.

42.    Zhu, Z.-Y., Cook, N.J., Yang, T.(杨涛), Ciobanu, C.L., Zhao, K.-D., Jiang, S.-Y., 2016. Mapping of Sulfur Isotopes and Trace Elements in Sulfides by LA-(MC)-ICP-MS: Potential Analytical Problems, Improvements and Implications. Minerals 6 (4). doi:10.3390/min6040110.

43.    Zhu, B., Ge, L., Yang, T.(杨涛), Jiang, S., Lv, X., 2019. Stable isotopes and rare earth element compositions of ancient cold seep carbonates from Enza River, northern Apennines (Italy): Implications for fluids sources and carbonate chimney growth. Marine and Petroleum Geology 109, 434–448. doi:10.1016/j.marpetgeo.2019.06.033.

44.    Zhu, Z.-Y., Jiang, S.-Y., Yang, T.(杨涛), Wei, H.-Z., 2015. Improvements in Cu-Zn isotope analysis with MC-ICP-MS: A revisit of chemical purification, mass spectrometry measurement and mechanism of Cu/Zn mass bias decoupling effect. International Journal of Mass Spectrometry 393, 34–40. doi:10.1016/j.ijms.2015.10.009.

45.    Zhu, Z.-Y., Jiang, S.-Y., Ciobanu, C.L., Yang, T.(杨涛), Cook, N.J., 2017. Sulfur isotope fractionation in pyrite during laser ablation: Implications for laser ablation multiple collector inductively coupled plasma mass spectrometry mapping. Chemical Geology 450, 223–234. doi:10.1016/j.chemgeo.2016.12.037.

46.    Zhu, Z.-Y., Jiang, S.-Y., Mathur, R., Cook, N.J., Yang, T.(杨涛), Wang, M., Ma, L., Ciobanu, C.L., 2018. Iron isotope behavior during fluid/rock interaction in K-feldspar alteration zone - A model for pyrite in gold deposits from the Jiaodong Peninsula, East China. Geochimica Et Cosmochimica Acta 222, 94–116. doi:10.1016/j.gca.2017.10.001.

47.    Zhu, C., Liao, S., Wang, W., Zhang, Y., Yang, T.(杨涛), Fan, H., Wen, H., 2018. Variations in Zn and S isotope chemistry of sedimentary sphalerite, Wusihe Zn-Pb deposit, Sichuan Province, China. Ore Geology Reviews 95, 639–648. doi:10.1016/j.oregeorev.2018.03.018.

48.    Zhu, C., Wang, J., Zhang, J., Chen, X., Fan, H., Zhang, Y., Yang, T.(杨涛), Wen, H., 2020. Isotope geochemistry of Zn, Pb and S in the Ediacaran strata hosted Zn-Pb deposits in Southwest China. Ore Geology Reviews 117. doi:10.1016/j.oregeorev.2019.103274.

49.    Zhu, C., Wen, H., Zhang, Y., Huang, Z., Cloquet, C., Luais, B., Yang, T.(杨涛), 2021. Cadmium isotopic constraints on metal sources in the Huize Zn-Pb deposit, SW China. GEOSCIENCE FRONTIERS 12 (6). doi:10.1016/j.gsf.2021.101241.

50.    党奔, 吴昌志, 杨涛, 姚希柱, 王思梦, 郑远川, 顾连兴, 2021. 辽宁红透山块状硫化物矿床中矿体的变质变形特征与形成过程. 地质通报 40 (4), 545–566.

51.    丁睿张莹刚朱志勇林正帆杨涛, 2021. 电感耦合等离子体质谱仪的时间漂移效应研究. 高校地质学报 27 (3), 349–355.

52.    范美彤, 葛璐, 朱碧, 杨涛, 2019. 冷泉碳酸盐岩Sr同位素示踪研究进展. 地质学报 93 (8), 2081–2091.

53.    甘凯吴昌志杨涛刘浩存叶辉向萌刘家润李伟强, 2021. 鲕状铁建造的特征与形成机制——以鄂西泥盆系火烧坪铁矿床为例. 地质学报 95 (8), 2493–2508.

54.    高丙飞, 吴昌志, 李伟强, 杨涛, 叶辉, 雷如雄, 刘倩, 2018. 冰川底部富铁溶液氧化沉淀:塔里木北缘新元古界库鲁克赛铁矿床的成因. 矿床地质 37 (1), 1–26.

55.    葛璐, 蒋少涌, 杨涛, 杨競红, 吴能友, 张光学, 刘坚, 2011. 南海北部神狐海域冷泉碳酸盐烟囱的甘油醚类生物标志化合物及其碳同位素组成. 科学通报 56 (14), 1124–1131.

56.    葛璐, 杨涛, 杨竞红, 蒋少涌, 2006. 海洋沉积物孔隙水中阴阳离子含量的离子色谱法分析方法. 海洋地质与第四纪地质 26 (4), 125.

57.    蒋少涌, 杨涛, 薛紫晨, 杨竞红, 凌洪飞, 吴能友, 黄永样, 刘坚, 陈道华, 2005. 南海北部海区海底沉积物中孔隙水的氯和硫酸根离子浓度异常特征及其对天然气水合物的指示意义. 现代地质 19 (1), 45–54.

58.    蒋少涌, 杨涛, 李亮, 赵葵东, 凌洪飞, 2006. 大西洋洋中脊TAG热液区硫化物铅和硫同位素研究. 岩石学报 22 (10), 2597–2602.

59.    李海洋, 郭盛, 严辉, 杨涛, 余代鑫, 詹志来, 段金廒, 2022. ICP-MS结合微区XRF法分析海带中无机元素含量及分布. 中国中药杂志 (02), 444–452.

60.    李艳平, 蒋少涌, 杨涛, 濮巍, 2006. 海洋沉积物中孔隙水的氯同位素测量方法研究. 高校地质学报 12 (3), 388–391.

61.    陆现彩, 杨涛, 刘显东, 蒋少涌, 吴能友, 2005. 多孔介质中天然气水合物稳定性的实验研究进展. 现代地质 19 (1), 89–95.

62.    吴庐山, 杨胜雄, 梁金强, 苏新, 杨涛, 张欣, 程思海, 陆红锋, 2010. 南海北部琼东南海域HQ-48PC站位地球化学特征及对天然气水合物的指示意义. 现代地质 24 (3), 534–544.

63.    吴庐山, 杨胜雄, 梁金强, 苏新, 付少英, 沙志彬, 杨涛, 2013. 南海北部神狐海域沉积物中孔隙水硫酸盐梯度变化特征及其对天然气水合物的指示意义. 中国科学:地球科学 43 (3), 339–350.

64.    谢思文, 吴昌志, 顾连兴, 雷如雄, 杨涛, 党奔, 2017. 黄山东铜镍矿的韧性变形特征和磁黄铁矿形成机制研究. 高校地质学报 23 (1), 39–52.

65.    叶鸿, 杨涛, 朱国荣, 蒋少涌, 2013. 海底天然气水合物生长的数值模拟研究及进展. 海洋地质与第四纪地质 33 (2), 143–152.

66.    叶鸿, 杨涛, 朱国荣, 蒋少涌, 2018. 天然气水合物区多相流体运移模型:以南海神狐海域为例. 高校地质学报 24 (5), 734–746.

67.    朱碧, 刘倩, 杨涛, 2016. 基体差异对电感耦合等离子体质谱法测定过程中Ba氧化物产率的影响及其对Eu测定结果校正的研究. 高校地质学报 22 (3), 467–473.

68.    朱碧, 朱志勇, 吕苗, 杨涛, 2017. Iolite软件处理LA-ICP-MS线扫描数据适用性研究. 岩矿测试 36 (1), 14–21.

69.    朱传威, 温汉捷, 樊海峰, 张羽旭, 刘洁, 杨涛, 王光辉, 2014. 铅锌矿床地质样品的Ge同位素预处理方法研究. 岩矿测试 33 (3), 305–311.

70.    朱志勇, 朱祥坤, 杨涛, 2020. 自动分离提纯系统的研制及其在同位素分析测试中的应用. 岩矿测试 39 (3), 384–390.

专著

《海域天然气水合物资源勘查技术》科学出版社， 2020

专利

一种激光剥蚀器触发质谱仪的信号变送装置205426849 实用新型专利朱志勇，杨涛，蒋少涌

一种激光剥蚀分馏效应的校正方法109490401 发明专利张莹刚，杨涛，朱志勇，陈永权

标准

海上风电场工程岩土试验规程（NB/T  10107-2018）