团队名称
海洋生物地球化学
团队负责人
谢会祥(教授)
团队成员
谢会祥(教授),冯媛媛(副教授)
团队简介
本团队的主要研究方向为环境变化(海洋酸化、升温、富营养化等)对海洋浮游植物的生理生态学效应及其相关机制研究,环境变化对海洋主要生源要素及痕量气体生物地球化学的影响,有机物光化学对海洋碳、氮循环的影响以及河口近岸有机生物地球化学等。实验室拥有世界先进的太阳光模拟器、TOC自动分析仪 、辐照度计、紫外可见分光光度计 (Spectrophotometer) 、溶解氧及总碱度自动滴定仪、光照培养箱、叶绿素荧光仪、显微镜、船载连续培养箱等设备,具有独立开展海洋生物地球化学相关理论研究的硬件基础。迄今已主持国家自然科学基金面上项目2项、青年基金项目2项,多次参加国内和国际海洋科学考察航次,课题组成员已发表高水平SCI文章70余篇,总引用1000余次。与美国南加州大学、新西兰奥塔哥大学、澳大利亚塔斯马尼亚大学保持长期学术合作与交流。
代表性成果
论文
[1] Feng, Y. *, Roleda, M.Y., Armstrong, E.A., Law, C.S., Boyd, P.W., Hurd, C.L., 2018. Environmental controls on the elemental composition of a Southern Hemisphere strain of the coccolithophore Emiliania huxleyi. Biogeosciences, 15: 581-595. doi: 10.5194/bg-15-581-2018
[2] Feng, Y. *, Roleda, M.Y., Armstrong, E.A., Boyd, P.W., Hurd, C.L., 2017. Environmental controls on the growth, photosynthetic and calcification rates of a Southern Hemisphere strain of the coccolithophore Emiliania huxleyi. Limnology and Oceanography, 62: 519-540. doi: 10.1002/lno.10442
[3] Bermúdez, R. , Feng, Y.*, Roleda, M.Y., Tatters, A.O., Hutchins, D.A., Larsen, T., Boyd, P.W., Hurd, C.L., Riebesell, U., Winder, M. 2015. Long-term conditioning to elevated pCO2 and warming influences the fatty and amino acid composition of the diatom Cylindrotheca fusiformis. PLoS ONE 10 (5): e0123945. doi:10.1371/journal.pone.0123945
[4] Zhao B-Z, Yang G-P, Xie H, Lu X-L, Yang J, 2015. Distribution, flux and photoproduction of carbon monoxide in the Bohai and Yellow Seas. Marine Chemistry, 168, 104–113.
[5] Hong J, Xie H, Guo L, Song G, 2014. Carbon monoxide photoproduction : implications for photoreactivity of Arctic permafrost-derived soil dissolved organic matter. Environmental Sciences and Technology, 48, 9113−9121.
[6] Xie H, Aubry C, Zhang Y, Song G, 2014. Chromophoric dissolved organic matter (CDOM) in first-year sea ice in the western Canadian Arctic. Marine Chemistry, 165C, 25-35.
[7] Li G, Liu J, Ma Y, Zhao R, Hu S, Li Y, Wei H, Xie H, 2014. Distribution and spectral characteristics of chromophoric dissolved organic matter in a coastal bay in northern China. Journal of Environmental Sciences, 26, 1585-1595.
[8] Taalba A, Xie H, Scarratt MG, Bélanger S, Levasseur M, 2013. Photooxidation of dimethylsulfide (DMS) in the Canadian Arctic. Biogeosciences, 10, 6793–6806.
[9] Le Fouest V, Zakardjian B, Xie H, Raimbault P, Joux F, Babin M, 2013. Modeling plankton ecosystem functioning and nitrogen fluxes in the oligotrophic waters of the Beaufort Sea, Arctic Ocean : a focus on light-driven processes. Biogeosciences, 10, 4785–4800.
[10] Song G, Xie H, Bélanger S, Leymarie E, Babin M, 2013. Spectrally resolved efficiencies of carbon monoxide (CO) photoproduction in the western Canadian Arctic : particles versus solutes. Biogeosciences, 10, 3731–3748.
[11] Xie H, Bélanger S, Song G, Benner R, Taalba A, Blais M, Le Fouest V, Tremblay J-E, Babin M, 2012. Photoproduction of ammonium in the southeastern Beaufort Sea and its biogeochemical implications. Biogeosciences, 9, 3047–3061.
[12] Randall K, Scarratt M, Levasseur M, Michaud S, Xie H, Gosselin M, 2012. First measurements of nitrous oxide in Arctic sea ice. Journal of Geophysical Research-Oceans, 117, C00G15, doi:10.1029/2011JC007340.
[13] Xie H, Aubry C, Bélanger S, Song G, 2012. The dynamics of absorption coefficients of chromophoric dissolved organic matter and particles in the St. Lawrence estuarine system : Biogeochemical and physical implications. Marine Chemistry, 128-129, 44-56.
[14] Zhang Y, Xie H, 2012, The sources and sinks of carbon monoxide in the St. Lawrence estuarine system. Deep-Sea Research II, 81-82, 114-123.
[15] Song G, Xie H, Aubry C, Zhang Y, Gosselin M, Mundy CJ, Philippe B, Papakyriakou TN, 2011. Spatiotemporal variations of dissolved organic carbon and carbon monoxide in first-year sea ice in the western Canadian Arctic. Journal of Geophysical Research, 116, C00G05, doi : 10.1029/2010JC006867.
[16] Feng, Y., Hare, C.E., Rose, J.M., Handy, S.M., DiTullio, G.R., Lee, P.A., Smith, W.O., Jr., Peloquin, J., Tozzi, S., Sun, J., Zhang, Y., Dunbar, R.B., Long, M.C., Sohst, B., Lohanm, M., Hutchins, D.A.* 2010. Interactive effects of iron, irradiance and CO2 on Ross Sea phytoplankton. Deep Sea Research I. 57:368-383.
[17] Feng, Y., Hare, C.E., Leblanc, K., Rose, J.M., Zhang, Y., DiTullio, G.R., Lee, P.A., Wilhelm, S.W., Rowe, J.M., Sun, J., Nemcek, N., Gueguen, C., Passow, U., Benner, I., Brown, C., Hutchins, D.A. * 2009. Effects of increased pCO2 and temperature on the North Atlantic spring bloom: I. The phytoplankton Community and Biogeochemical Response. Marine Ecology Progress Series. 388: 13-25.
[18] Xie H, Zafiriou OC, 2009. Evidence for significant photochemical production of carbon monoxide by particles in coastal and oligotrophic marine waters. Geophysical Research Letters, 36, L23606, doi:10.1029/2009GL041158.
[19] Xie H, Zhang Y, Lemarchand K, Poulin P, 2009. Seasonal variation and temperature dependence of microbial carbon monoxide uptake in the St. Lawrence estuarine system. Marine Ecology Progress Series, 389, 17-29.
[20] Xie H, Bélanger S, Demers S, Vincent WF, Papakyriakou TN, 2009. Photobiogeochemical cycling of carbon monoxide in the southeastern Beaufort Sea in spring and autumn. Limnology and Oceanography, 54, 234-249.
[21] Feng, Y., Warner, M.E., Zhang, Y., Sun, J., Fu, F.-X., Hutchins, D.A. * 2008. Interactive effects of increased pCO2, temperature and irradiance on the marine coccolithophore Emiliania huxleyi (Prymnesiophyceae). European Journal of Phycology. 43(1): 87-98.
[22] Daniels, C.J., Poulton, A.J., Balch, W.M., Maranon, E., Adey, T., Bowler, B.C., Cermeno, P., Charalampopoulou, A., Crawford, D.W., Drapeau, D., Feng, Y., et al. 2018. A global compilation of coccolithophore calcification rates. Earth System Science Data. 10: 1859-1876.
[23] Boyd, P.W. *, Dillingham, P.W., McGraw, C.M., Armstrong, E.A., Cornwall, C.E., Feng, Y., Hurd, C.L., Gault-Ringold, M., Roleda, M.Y. Timmins-Schiffman, E., Nunn, B. L. 2016. Physiological responses of a Southern Ocean diatom to complex future ocean conditions. Nature Climate Change. 6: 207-213.
[24] Roleda, M.Y. *, Cornwall, C.E., Feng, Y., McGraw, C.M., Smith, A.M. and Hurd, C.L., 2015. Effect of ocean acidification and pH fluctuations on the growth and development of coralline algal recruits, and an associated benthic algal assemblage. PloS one, 10(10), p.e0140394.
[25] Beman, J.M. *, Chow, C.-E., King, A.L., Feng, Y., Fuhrman, J.A., Andersson, A., Bates, N.R., Popp, B.N., Hutchins, D.A. 2011. Global declines in marine nitrification rates as a consequence of ocean acidification. Proceedings of the National Academy of Sciences. 108(1): 208- 213, doi: 10.1073/pnas.1011053108
[26] Hutchins, D.A. *, Fu, F.-X., Zhang, Y., Warner, M.E., Feng, Y., Portune, K., Bernhardt, P.W. and M.R. Mulholland. 2007. CO2 control of Trichodesmium N2 fixation, photosynthesis, growth rates, and elemental ratios: Implications for past, present, and future ocean biogeochemistry. Limnology and Oceanography. 52: 1293-1304.