LIN Liangshi, CAI Yihua, SUN Xiuwu, CHEN Min. On the integrity of a commercial cassette ultrafiltration membrane: implications for marine colloidal biogeochemistry[J]. Acta Oceanologica Sinica, 2014, 33(9): 109-116. doi: 10.1007/s13131-014-0521-7
Citation: LIN Liangshi, CAI Yihua, SUN Xiuwu, CHEN Min. On the integrity of a commercial cassette ultrafiltration membrane: implications for marine colloidal biogeochemistry[J]. Acta Oceanologica Sinica, 2014, 33(9): 109-116. doi: 10.1007/s13131-014-0521-7

On the integrity of a commercial cassette ultrafiltration membrane: implications for marine colloidal biogeochemistry

doi: 10.1007/s13131-014-0521-7
  • Received Date: 2013-03-28
  • Rev Recd Date: 2013-10-16
  • The performance and integrity of a cassette cross-flow ultrafilter (Pellicon 2, Millipore) are examined with a suite of macromolecules of different molecular masses. The retention coefficient during the cross-flow ultrafiltration experiments increases with increasing molecular mass and reaches 90% with 10 kDa dextran in both milli-Q water and ultrafiltered seawater media. Based on a 90% retention coefficient, the molecular mass cut-off for the ultrafiltration membrane is defined at 10 kDa, which is ten times (1 kDa) that rated by the manufacturer. To further validate the accuracy of the laboratory calibration, the samples from the lower Zhujiang River and the Jiulong River Estuary are ultrafiltered with the cassette ultrafiltration membrane and the colloidal organic carbon abundances in these samples are quantified with the ultrafiltration permeation model based on time series permeation subsamples. The colloidal organic carbon abundances are 5.8%-21.1% in the Jiulong River Estuary and 5.6%-11.0% in the lower Zhujiang River. These are consistent with the reported values for both estuaries as well as with the colloidal organic carbon abundances in marine environments over the coastal and open oceans with 10 kDa cut-off membranes. Therefore, these field data support the laboratory calibration result and indicate the validity of the experimental and quantification procedure adopted. The discrepancy between the nominal molecular mass cut-off and the actual pore size of the ultrafiltration membrane should be of great concern for research in colloidal and nanoparticle biogeochemistry. Careful examination of the membrane integrity should be taken during ultrafiltration experiments in order to avoid misleading molecular mass cut-off information.
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  • Aiken G R. 1984. Evaluation of ultrafiltration for determining molecular weight of fulvic acid. Environmental Science & Technology, 18(12): 978-981
    Belzile C, Guo Laodong. 2006. Optical properties of low molecular weight and colloidal organic matter: application of the ultrafiltration permeation model to DOM absorption and fluorescence. Marine Chemistry, 98(2-4): 183-196
    Benner R, Pakulski J D, McCarthy M, et al. 1992. Bulk chemical characteristics of dissolved organic matter in the ocean. Science, 255(5051): 1561-1564
    Boye M, Nishioka J, Croot P, et al. 2010. Significant portion of dissolved organic Fe complexes in fact is Fe colloids. Marine Chemistry, 122(1-4): 20-27
    Buesseler K O, Bauer J E, Chen R, et al. 1996. An intercomparison of cross-flow filtration techniques used for sampling marine colloids: overview and organic carbon results. Marine Chemistry, 55(1-2): 1-31
    Cai Yihua, Guo Laodong. 2009. Abundance and variation of colloidal organic phosphorus in riverine, estuarine, and coastal waters in the northern Gulf of Mexico. Limnology and Oceanography, 54(4): 1393-1402
    Cai Yihua, Guo Laodong, Douglas T A. 2008. Temporal variations in organic carbon species and fluxes from the Chena River, Alaska. Limnology and Oceanography, 53(4): 1408-1419
    Cai Yihua, Guo Laodong, Wang Xuri, et al. 2012. The source and distribution of dissolved and particulate organic matter in the Bay of St. Louis, northern Gulf of Mexico. Estuarine, Coastal and Shelf Science, 96: 96-104
    Carlson D J, Brann M L, Mague T H, et al. 1985. Molecular weight distribution of dissolved organic materials in seawater determined by ultrafiltration: a re-examination. Marine Chemistry, 16(2):155-171
    Chen Min, Guo Laodong, Huang Yipu, et al. 2000. Application of the cross-flow ultrafiltration technique to the study of colloidal uranium, thorium, radium isotopes and organic carbon in seawater. Acta Oceanologica Sinica (in Chinese), 22(5): 51-59
    Chen Min, Wang Wenxiong, Guo Laodong. 2004. Phase partitioning and solubility of iron in natural seawater controlled by dissolved organic matter. Global Biogeochemical Cycles, 18(4): GB4013, doi: 10.1029/2003GB002160
    Choe K Y, Gill G A. 2001. Isolation of colloidal monomethyl mercury in natural waters using cross-flow ultrafiltration techniques. Marine Chemistry, 76(4): 305-318
    Dai Minhan, Benitez-Nelson C R. 2001. Colloidal organic carbon and 234Th in the Gulf of Maine. Marine Chemistry, 74(2-3): 181-196
    Dai Minhan, Buesseler K O, Ripple P, et al. 1998. Evaluation of two cross-flow ultrafiltration membranes for isolating marine organic colloids. Marine Chemistry, 62(1-2): 117-136
    Dai Minhan, Martin J M, Cauwet G. 1995. The significant role of colloids in the transport and transformation of organic carbon and associated trace metals (Cd, Cu and Ni) in the Rhône delta (France). Marine Chemistry, 51(2): 159-175
    Dai Minhan, Martin J M, Hong Huasheng, et al. 2000. Preliminary study on the dissolved and colloidal organic carbon in the Zhujiang River estuary. Chinese Journal of Oceanology and Limnology, 18(3): 265-273
    Guo Laodong, Coleman J C H, Santschi P H. 1994. The distribution of colloidal and dissolved organic carbon in the Gulf of Mexico. Marine Chemistry, 45(1-2): 105-119
    Guo Laodong, Hunt B J, Santschi P H. 2001. Ultrafiltration behavior of major ions (Na, Ca, Mg, F, Cl, and SO4) in natural waters. Water Research, 35(6): 1500-1508
    Guo Laodong, Santschi P H. 1996. A critical evaluation of the cross-flow ultrafiltration technique for sampling colloidal organic carbon in seawater. Marine Chemistry, 55(1-2): 113-127
    Guo Laodong, Santschi P H. 1997. Composition and cycling of colloids in marine environments. Rev Geophys, 35(1): 17-40
    Guo Laodong, Santschi P H. 2007. Ultrafiltration and its applications to sampling and characterization of aquatic colloids. In: Wilkinson K, Lead J, eds. Environmental Colloids and Particles. IUPAC Series on Analytical and Physical Chemistry of Environmental Systems, Vol. 10. John Wiley, 159-221
    Guo Laodong, Santschi P H, Baskaran M. 1997. Interactions of thorium isotopes with colloidal organic matter in oceanic environments. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 120(1-3): 255-271
    Guo Laodong, Santschi P H, Warnken K W. 2000. Trace metal composition of colloidal organic material in marine environments. Marine Chemistry, 70(4): 257-275
    Guo Laodong, Warnken K W, Santschi P H. 2007. Retention behavior of dissolved uranium during ultrafiltration: implications for colloidal U in surface waters. Marine Chemistry, 107(2): 156-166
    Guo Laodong, Wen L S, Tang Degui, et al. 2000. Re-examination of cross-flow ultrafiltration for sampling aquatic colloids: evidence from molecular probes. Marine Chemistry, 69(1-2): 75-90
    Guo Laodong, White D M, Xu Chen, et al. 2009. Chemical and isotopic composition of high-molecular-weight dissolved organic matter from the Mississippi River plume. Marine Chemistry, 114(3-4): 63-71
    Gustafsson Ö, Buesseler K O, Gschwend P M. 1996. On the integrity of cross-flow filtration for collecting marine organic colloids. Marine Chemistry, 55(1-2): 93-111
    Ingri J, Nordling S, Larsson J, et al. 2004. Size distribution of colloidal trace metals and organic carbon during a coastal bloom in the Baltic Sea. Marine Chemistry, 91(1-4): 117-130
    Kilduff J, Weber W J Jr. 1992. Transport and separation of organic macromolecules in ultrafiltration processes. Environmental Science & Technology, 26(3): 569-577
    Li Li, Zhang Zhengbin, Liu Liansheng, et al. 1999. The distribution of colloidal and dissolved organic carbon in the Southern Yellow Sea. Journal of Ocean University of Qingdao (in Chinese), 29(2): 321-324
    Lin Peng, Chen Min, Guo Laodong. 2012. Speciation and transformation of phosphorus and its mixing behavior in the Bay of St. Louis estuary in the northern Gulf of Mexico. Geochimica et Cosmochimica Acta, 87: 283-298
    Liu Chunying, Yang Xiaoman, Yang Guipeng, et al. 2010. Composition and characterization of colloidal organic matter in the coastal surface waters of Qingdao, China. Marine Chemistry, 121(1-4): 123-131
    Liu Qingjun, Parrish C C, Helleur R. 1998. Lipid class and carbohydrate concentrations in marine colloids. Marine Chemistry, 60(3-4): 177-188 Logan B E, Jiang Qing. 1990. Molecular size distributions of dissolved organic matter. Journal of Environmental Engineering, 116: 1046-1062
    Moran S B, Moore R M. 1989. The distribution of colloidal aluminum and organic carbon in coastal and open ocean waters off Nova Scotia. Geochimica et Cosmochimica Acta, 53(10): 2519-2527
    Ogawa H, Ogura N. 1992. Comparison of two methods for measuring dissolved organic carbon in sea water. Nature, 356(6371): 696-698
    Passow U, Dunne J, Murray J W, et al. 2006. Organic carbon to 234Th ratios of marine organic matter. Marine Chemistry, 100(3-4): 323-336
    Powell R T, Landing W M, Bauer J E. 1996. Colloidal trace metals, organic carbon and nitrogen in a southeastern U. S. Estuary. Marine Chemistry, 55(1-2): 165-176
    Quigley M S, Santschi P H, Guo Laodong, et al. 2001. Sorption irreversibility and coagulation behavior of 234Th with marine organic matter. Marine Chemistry, 76(1-2): 27-45
    Rinker K R, Powell R T. 2006. Dissolved organic phosphorus in the Mississippi River plume during spring and fall 2002. Marine Chemistry, 102(1-2): 170-179
    Wang Xuri, Cai Yihua, Guo Laodong. 2010. Preferential removal of dissolved carbohydrates during estuarine mixing in the Bay of Saint Louis in the northern Gulf of Mexico. Marine Chemistry, 119(1-4): 130-138
    Wells M L, Kozelka P B, Bruland K W. 1998. The complexation of `dissolved' Cu, Zn, Cd and Pb by soluble and colloidal organic matter in Narragansett Bay, RI. Marine Chemistry, 62(3-4): 203-217
    Wen L S, Stordal M C, Tang Degui, et al. 1996. An ultraclean cross-flow ultrafiltration technique for the study of trace metal phase speciation in seawater. Marine Chemistry, 55(1-2): 129-152
    Zhao Weihong, Wang Jiangtao. 2005. Preliminary study of colloidal organic carbon, nitrogen and phosphorus in Jiaozhou Bay. Journal of Jinan University: Science and Technology (in Chinese), 19(1): 25-28
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