1． 国家自然科学面上基金《中更新世以来西北冰洋深海氧化-还原环境的变化及其对碳循环的指示》 2022-2025（主持）

2． 国家自然科学面上基金《重建晚第四纪冰期-间冰期西北冰洋筏冰输运和表层洋流演变历史》2018-2021（主持）

3． 国家自然科学青年基金《白令海东南部末次冰期以来表层海水性质变化》2014-2016（主持）

4． 中国南极、北极考察专项项目（主要参与者）

Peng, Z., Wang, R., Xiao, W.,Jin, X., Dang, H., Ye, S., Wu, L., Wang, X., Liu, F., Dang, S., 2026. Sustainedincrease in Southwest Pacific Antarctic Intermediate Water carbon storageacross the Mid-Pleistocene Transition. Glob. Planet. Change 262, 105470.

Wu, L., Wilson, D.J., Wang, R., Xiao,W., Yu, X., Bao, C., Yan, B., 2026. Contrasting behaviour of the marine-and land-based portions of the Lambert Glacier system in Prydz Bay, EastAntarctica during the Late Quaternary. Glob. Planet. Change 259, 105371.

Shi, D., Xiao, W.,O’Regan, M., Polyak, L., Wang, R., Wu, L., Xu, R., 2026. Pleistocene sedimenttransport dynamics in the western Arctic Ocean. Glob. Planet. Change 257,105262.

Chen, J.N., Li, C., Xiao, W.,Ng, N.C.W., Lai, W., Chen, J., Zhang, C., Yang, S., 2026. Deciphering silicateweathering archives registered in the late Quaternary sediments of Asiancontinent marginal seas. Earth-Sci. Rev. 274, 105377.

Wu, L., Wang, R., Xiao, W.,Li, Q., Ni, K., Ran, X., Chen, Y., 2025. Paleoceanographic andpaleoenvironmental changes in the high-latitude Southern Ocean during lateQuaternary: Progress and prospects based on the Chinese Antarctic Expeditions.Acta Oceanol. Sin. 44(3), 1-19.

Khoo, W.W., Müller, J., Esper, O.,Xiao, W., Stepanek, C., Gierz, P., Lohmann, G., Geibert, W., Hefter, J.,Mollenhauer, G., 2025. Ice-proximal sea-ice reconstruction in Powell Basin,Antarctica since the Last Interglacial. Climate of the Past, https://doi.org/10.5194/egusphere-2024-246.

Zhang, J.Y., Xiao, X., Stein, R., Xiao,W., Wang, R., Ding, Y., Nie, L., Zhao, M., 2025. New sea-ice biomarker datafrom Bering -Chukchi Sea surface sediments and its significance for pan-Arcticproxy-based sea-ice reconstruction. Glob. Planet. Change 244, 104642.

Xiao, W.,Polyak, L., Zhang, T., Wang, R., Duan, X., Tu, Y., Hu, Y., Pan, Y., 2024.Depositional and circulation changes at the Chukchi margin, Arctic Ocean,during the last two glacial cycles. Global and Planetary Change 233, 104366.

Wu, L., Li, H., Wang, R., Shao,H., Chen, Y., Lin, Z., Liu, Y., Xiao, W., Xu, R., 2024. Grain-size,coarse fraction lithology and clay mineral compositions of surface sedimentsfrom Ross Sea, Antarctica: implications for their provenance and delivery mode.Front. Mar. Sci. 10:1324391. Doi: 10.3389/fmars.2023.1324391.

Wang, R., Polyak, L., Xiao, W., Wu, L., Li, W., 2023. Middleto Late Quaternary changes in ice rafting and deep current transport on theAlpha Ridge, central Arctic Ocean and their responses to climatic cyclicities.Glob. Planet. Change 220, 104019.

Park, K., Wang, R., Xiao, W., Polyak, L., Cho, H.-G., Khim,B.-K., 2022. Increased terrigenous input from North America to the northernMendeleev Ridge (western Arctic Ocean) since the mid‑BrunhesEvent. Sci. Rep. 12, 15189. http://doi.org/10.1038/s41598-022-19082-y.

Crosta, X., Kohfeld, K.E.,Bostock, H., et al., Xiao, W., 2022.Antarctic sea ice over the past 130,000 years, Part 1: A review of what proxyrecords tell us. Clim. Past 18, 1729-1756.

Nie, S., Xiao, W., Wang, R., 2022. Mid-Late Holocene climatevariabilities in the Bransfield Strait, Antarctic Peninsula driven by insolationand ENSO activities. Palaeogeogr. Palaeoclimat. Palaeoecol. 601, 111140.

Xiao, W.,Polyak, L., Not, C., Wang, R., 2022. Reply to comment by Hillaire-Marcel and deVernal on “Asedimentary record from the Makarov Basin, Arctic Ocean, reveals changingmiddle to late Pleistocene glaciation patterns”. Quat.Sci. Rev. 276, 107298.

Xiao, W.,Polyak, L., Wang, R., Not, C., Dong, L., Liu, Y., Ma, T., Zhang, T., 2021. Asedimentary record from the Makarov Basin, Arctic Ocean, reveals changing Middleto Late Pleistocene glaciation patterns. Quat. Sci. Rev. 270, 107176.

Li, Q., Xiao, W., Wang, R., Chen, Z., 2021. Diatom based reconstruction ofclimate evolution through the Last Glacial Maximum to Holocene in the CosmonautSea, East Antarctica. Deep-Sea Res. II 194, 104960.

Sun, Y., Xiao, W., Wang, R., Wu, L., Wu, Y., 2021. Changes in sedimentprovenance and ocean circulation on the northern slope of the Bering Sea sincethe last deglaciation. Mar. Geol. 436, 106492.

Wu, S., Lembke-Jene, L., Lamy, F.,Arz, H.W., Nowaczyk, N., Xiao, W.,Zhang, X., Hass, H.C., Titschack, J., Zheng, X., Liu, J., Dumm, L., Diekmann,B., Nuernberg, D., Tiedemann, R., Kuhn, G., 2021. Orbital- and millennial-scaleAntarctic Circumpolar Current variability in Drake Passage over the past140,000 years. Nat. Comm. 12, 3948. doi: 10.1038/s41467-021-24264-9.

Zhang, T., Wang, R., Xiao, W., Polyak, L., Astakhov, A.,Dong, L., Wang, C., Liu, Y., Shi, X., 2021. Characteristics of terrigenouscomponents of Amerasian Arctic Ocean surface sediments: Implications forreconstructing provenance and transport modes. Mar. Geol. 437, 106497.

Zhou, B., Wang, R., Xiao, W., Wang, Y., 2021. LateQuaternary paleoceanographic history based on ostracode records from theChukchi Plateau, western Arctic Ocean. Mar. Micropaleontol. 165, 101987.

Xu, Q., Xiao, W., Wang, R., Süfke, F., Lippold, J., Not, C., 2021. DrivingMechanisms of Sedimentary 230Th and 231Pa variability inthe western Arctic Ocean through the Last Glacial cycle. Paleoceanography andPaleoclimatology 36, e2020PA004039. https://doi.org/10.1029/2020PA004039

Rodriguez, M., Doherty, J.M., Man,H.L.H., Wang, R., Xiao, W., Zhou,B., Thibodeau, B., Not, C., 2021. Intra-valve elemental distributions in Arcticmarine ostracodes: Implications for Mg/Ca and Sr/Ca paleothermometry. Geochem.,Geophys., Geosyst. 22, e2020GC009379. doi:10.1029/2020GC009379.

Wu, L., Wilson, D.J., Wang, R.,Passchier, S., Krijgsman, W., Yu, X., Wen, T., Xiao, W., Liu, Z., 2021. Late Quaternary dynamics of the LambertGlacier - Amery Ice Shelf system, East Antarctica. Quat. Sci. Rev. 252, 106738.

Wu, L., Wilson, D.J., Wang, R.Yin, X., Chen, Z., Xiao, W., Huang,M., 2020. Evaluating Zr/Rb ratio from XRF scanning as an indicator ofgrain-size variations of glaciomarine sediments in the Southern Ocean. Geochem.Geophys. Geosyst. 21, e2020GC009350. doi: 10.1029/2020GC009350.

Xiao, W.,Polyak, L., Wang, R., Löwemark, L., Mei, J., You, D., Wang, W., Wu, L., Jin,X., 2020. Middle to Late Pleistocene Arctic paleoceanographic changes based onsedimentary records from Mendeleev Ridge and Makarov Basin. Quat. Sci. Rev.228, 106105.

Zhang, T., Wang, R., Polyak, L., Xiao, W., 2019. Enhanced deposition ofcoal fragments at the Chukchi margin, western Arctic Ocean: Implications fordeglacial drainage history from the Laurentide Ice Sheet. Quat. Sci. Rev. 218,281-292.

Wu, L., Wang, R., Krijgsman, W.,Chen, Z., Xiao, W., Ge, S., Wu, J.,2019. Deciphering color reflectance data of a 520-kyr sediment core from theSouthern Ocean: method application and paleoenvironmental implications.Geochem., Geophys., Geosyst. 20, 2808-2826.

Wang, R., Polyak, L., Xiao, W., Wu, L., Zhang, T., Sun, Y.,Xu, X., 2018. Late-Middle Quaternary lithostratigraphy and sedimentationpatterns on the Alpha Ridge, central Arctic Ocean: implications for Arcticclimate variability on orbital time scales. Quat. Sci. Rev. 181, 93-108.

Wu, L., Wang, R., Xiao, W., Krijgsman, W., Li, Q., Ge,S., Ma, T., 2018. Late Quaternary deep stratification-climate coupling in theSouthern Ocean: implications for changes in abyssal carbon storage. Geochem.,Geophys., Geosyst. 19, https://doi.org/10.1002/2017GC007250.

Wu, L., Wang, R., Xiao, W., Ge, S., Chen, Z., Krijgsman,W., 2017. Productivity-climate coupling recorded in Pleistocene sediments offPrydz Bay (East Antarctica). Palaeogeogr., Palaeoclimatol., Palaeoecol. 485,260-270.

Zhang, H., Wang, R., Xiao, W., 2017. Paleoenvironmentalimplications of Holocene long-chain n-alkanes on the northern Bering Sea Slope.Acta Oceanol. Sin. 36(8), 137-145.

Xiao, W.,Esper, O., Gersonde, R., 2016. Last Glacial - Holocene Climate Variability inthe Atlantic sector of the Southern Ocean. Quat. Sci. Rev. 135, 115-137.

Xiao, W.,Frederichs, T., Gersonde, R., Kuhn, G., Esper, O., Zhang, X., 2016.Constraining the dating of late Quaternary marine sediment records from theScotia Sea. Quat. Geochronol. 31, 97-118.

Zhang, T., Wang, R., Xiao, W., Chen, Z., Chen, J., Cheng,Z., Sun, Y., 2015. Ice rafting history and paleoceanographic reconstructions ofCore 08P23 from southern Chukchi Plateau, western Arctic Ocean since MarineIsotope Stage 3. Acta Oceanologica Sinica 34(3), 68-75.

Xiao, W.,Wang, R., Polyak, L., Astakhov, A., Cheng, X., 2014. Stable oxygen and carbonisotopes in planktonic foraminifera Neogloboquadrina pachyderma in the ArcticOcean: an overview of published and new surface-sediment data. Mar. Geol. 352,397-408.

Wang,R., Xiao, W., März, C., Li, Q.,2013. Late Quaternary paleoenvironmental changes revealed in multi-proxyrecords from the Chukchi Abyssal Plain, western Arctic Ocean. Global Planet.Changes, 108, 100-118.

Wang, R., Xiao, W., Biogenicsediments and their paleoceanographic implication in the West Pacific Warm Poolduring the Pleistocene. Journal of Earth Science, 2010, 21, 42-54.

Wang, R., Xiao, W., Li, W., Sun, Y., 2010. Late Quaternaryice-rafted detritus events in the Chukchi Basin, western Arctic Ocean. ChineseScience Bulletin, 55 (4-5): 432-440.

王汝建，刘焱光，肖文申，董林森，2025.《北冰洋的沉积学和古海洋学研究》.科学出版社，ISBN：978-7-03-080714-4.

张静渊，肖文申，王汝建，石端平，2025. 北冰洋第四纪地层学研究进展。第四纪研究，45（2），612-626.

吴一鸣，郭景腾，赵翔宇，肖文申，刘恒，熊志方，李铁刚，2024. 北半球大冰期南大洋南极带生产力演化及其与大气pCO2的关联。中国科学：地球科学，54（7），2276-2287.

张静渊，肖文申*，王汝建，樊加恩，王含章，杨如意，2023．晚更新世阿蒙森海生产力和冰筏碎屑输入的变化对表层海洋环境和西南极冰盖演化的指示。海洋地质与第四纪地质，43（2）：136-144.

周郑鹏，肖文申*，王汝建，滕聿央，2022．罗斯海表层沉积物中生源组分的分布规律及其环境指示意义．海洋地质与第四纪地质，42（4）：12-23．

王雨楠，周保春，王汝建，肖文申，2022．北冰洋中部阿尔法脊晚第四纪介形虫化石群与古海洋环境变迁．海洋地质与第四纪地质，42（4）：39-49．

石端平，肖文申*，王汝建，章陶亮，2021．深海氧同位素13期以来北冰洋西部中心海区冰筏输入历史．第四纪研究，41（3）：621-631．

涂艳，肖文申*，王汝建，徐仁辉，2021．西北冰洋加拿大海盆MIS 8期以来的物源变化及其指示的北极冰盖和洋流的演化．第四纪研究，41（3）：632-645．

李永斌，王汝建，武力，肖文申，2021．南极罗斯海扇区晚更新世以来冰筏碎屑记录反映的冰川动力学史． 第四纪研究，41（3）：662-677．

叶圣彬，王汝建，肖文申，孙烨忱，武力，2021．亚北极鄂霍次克海晚第四纪冰海沉积作用与水团变化历史。海洋地质与第四纪地质，41（3）：124-140．

章陶亮，王汝建，Leonid Polyak，肖文申，2021．西北冰洋冰筏碎屑指示的 MIS 5以来冰盖和洋流的演化历史．第四纪研究，41（3）：646-661．

杨春丽，陈志华，肖文申，王湘芹，鞠梦珊，崔迎春，黄元辉，唐正，2021．3.4万年以来南极斯科舍海古生产力演变及其环境制约. 海洋学报，43(3)：116–125．

徐仁辉，王汝建，肖文申，董林森，刘焱光，2020．西北冰洋中更新世以来黏土矿物变化特征及其反映的洋流和冰盖演化. 海洋学报，42(9)：50–60．

由德方，王汝建，肖文申，2018. 北太平洋中部赫斯海隆(Hess Rise) 晚第四纪以来生源组分与粉尘输入的关系及其变化机制．地球科学进展，33（11）：1203-1214．

洪佳俪，肖文申，王汝建，章陶亮，2019．基于浮游有孔虫Mg/Ca温度重建的末次盛冰期以来北欧海次表层温度的变化．海洋地质与第四纪地质，39（3），122-134．

黄晓璇，王汝建，肖文申，章陶亮，2018．西北冰洋楚克奇海台晚第四纪以来陆源沉积物搬运机制及其古环境意义．海洋地质与第四纪地质，38（2）：52-62．

王汝建，肖文申，章陶亮，聂森艳，2017．极地地质钻探研究进展与展望．地球科学进展，32（12）：1236-1244．

黄梦雪，王汝建，肖文申，武力，陈志华，2016．罗斯海西北陆架（JOIDES海槽）末次冰期以来冰架消融过程及水动力变化．海洋地质与第四纪地质，36（5），97-108．

梅静，王汝建，章陶亮，肖文申，陈志华，陈建芳，程振波，孙烨忱，2015．西北冰洋楚科奇海台08P31孔晚第四纪的古海洋学记录．海洋学报，37（5）：121-135．

聂森艳, 肖文申, 王汝建．南极半岛Bransfield海峡6 ka BP以来的古气候变化及其对ENSO的响应．海洋地质与第四纪地质, 2015, 35(3): 157-166．

段肖，王汝建，肖文申，章陶亮，2015．西北冰洋北风脊氧同位素５期以来的水体结构变化：来自有孔虫组合及其氧碳同位素的证据．海洋地质与第四纪地质，35（3），61-71．

张海峰，王汝建，肖文申，李文宝，2015．亚北极太平洋阿拉斯加湾50 ka BP以来放射虫组合指示的古海洋变化．海洋地质与第四纪地质，35（3），23-36.

章陶亮，王汝建，肖文申，段肖，胡正莹，梅静，2015．西北冰洋Chukchi Borderland晚第四纪冰筏碎屑记录及其古气候意义．海洋地质与第四纪地质，35（3），49-60．

刘合林，陈志华，葛淑兰，肖文申，王豪壮，唐正，黄元辉，赵仁杰，武力，2015．晚第四纪普里兹湾北部陆坡岩芯沉积学记录及其古海洋学意义．海洋地质与第四纪地质 35（3），209-217．

聂森艳，肖文申，王汝建，2015．南极半岛Bransfield海峡6 ka BP以来的古气候变化及其对ENSO的响应．海洋地质与第四纪地质，35（3），157-166．

武力，王汝建，肖文申，葛淑兰，陈志华，2015．东南极普里兹湾陆坡扇晚第四纪高分辨率地层年龄模式．海洋地质与第四纪地质，35（3），197-208．

聂森艳，王汝建，肖文申，2014.南极半岛Bransfield海峡约6000年以来的陆源组分记录及其古环境意义．第四纪研究，34（3），590-599．