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Aquatic Organic Matter Fluorescence
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  • Cited by 21
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    This (lowercase (translateProductType product.productType)) has been cited by the following publications. This list is generated based on data provided by CrossRef.

    D'Andrilli, Juliana Foreman, Christine M. Sigl, Michael Priscu, John C. and McConnell, Joseph R. 2017. A 21 000-year record of fluorescent organic matter markers in the WAIS Divide ice core. Climate of the Past, Vol. 13, Issue. 5, p. 533.


    Nicolodelli, Gustavo Tadini, Amanda Maria Nogueira, Marcelo Saito Pratavieira, Sebastião Mounier, Stephane Huaman, Jose Luis Clabel dos Santos, Cléber Hilário Montes, Célia Regina and Milori, Débora Marcondes Bastos Pereira 2017. Fluorescence lifetime evaluation of whole soils from the Amazon rainforest. Applied Optics, Vol. 56, Issue. 24, p. 6936.


    Wang, Qingming Sun, Huifang Sha, Weilin Chen, Juan Gu, Liuyue Wang, Dong and Tang, Xinhui 2017. An optical material for the detection of trace S2O3 2− in milk based on a copper complex. BioMetals, Vol. 30, Issue. 3, p. 441.


    Wünsch, Urban J. Stedmon, Colin A. Tranvik, Lars J. and Guillemette, François 2017. Unraveling the size-dependent optical properties of dissolved organic matter. Limnology and Oceanography,


    Drozdowska, Violetta Wrobel, Iwona Markuszewski, Piotr Makuch, Przemysław Raczkowska, Anna and Kowalczuk, Piotr 2017. Study on organic matter fractions in the surface microlayer in the Baltic Sea by spectrophotometric and spectrofluorometric methods. Ocean Science, Vol. 13, Issue. 5, p. 633.


    Wang, Chao Guo, Weidong Li, Yan Stubbins, Aron Li, Yizhen Song, Guodong Wang, Lei and Cheng, Yuanyue 2017. Hydrological and Biogeochemical Controls on Absorption and Fluorescence of Dissolved Organic Matter in the Northern South China Sea. Journal of Geophysical Research: Biogeosciences, Vol. 122, Issue. 12, p. 3405.


    Ateia, Mohamed Apul, Onur G. Shimizu, Yuta Muflihah, Astri Yoshimura, Chihiro and Karanfil, Tanju 2017. Elucidating Adsorptive Fractions of Natural Organic Matter on Carbon Nanotubes. Environmental Science & Technology, Vol. 51, Issue. 12, p. 7101.


    Noble, Elizabeth Kumar, Sunil Görlitz, Frederik G. Stain, Chris Dunsby, Chris and French, Paul M. W. 2017. In vivo label-free mapping of the effect of a photosystem II inhibiting herbicide in plants using chlorophyll fluorescence lifetime. Plant Methods, Vol. 13, Issue. 1,


    Stylianou, Stylianos K. Katsoyiannis, Ioannis A. Ernst, Mathias and Zouboulis, Anastasios I. 2017. Impact of O3 or O3/H2O2 treatment via a membrane contacting system on the composition and characteristics of the natural organic matter of surface waters. Environmental Science and Pollution Research,


    Bianchi, Thomas S. Butman, David Raymond, Peter A. Ward, Nicholas D. Kates, Rory J. S. Flessa, Karl W. Zamora, Hector Arellano, Ana R. Ramirez, Jorge and Rodriguez, Eliana 2017. The experimental flow to the Colorado River delta: Effects on carbon mobilization in a dry watercourse. Journal of Geophysical Research: Biogeosciences, Vol. 122, Issue. 3, p. 607.


    Amaral, Valentina Graeber, Daniel Calliari, Danilo and Alonso, Cecilia 2016. Strong linkages between DOM optical properties and main clades of aquatic bacteria. Limnology and Oceanography, Vol. 61, Issue. 3, p. 906.


    Lin, Hui Chen, Min Zeng, Jian Li, Qi Jia, Renming Sun, Xiuwu Zheng, Minfang and Qiu, Yusheng 2016. Size characteristics of chromophoric dissolved organic matter in the Chukchi Sea. Journal of Geophysical Research: Oceans, Vol. 121, Issue. 8, p. 6403.


    Bouskill, Nicholas J. Wood, Tana E. Baran, Richard Hao, Zhao Ye, Zaw Bowen, Ben P. Lim, Hsiao Chien Nico, Peter S. Holman, Hoi-Ying Gilbert, Benjamin Silver, Whendee L. Northen, Trent R. and Brodie, Eoin L. 2016. Belowground Response to Drought in a Tropical Forest Soil. II. Change in Microbial Function Impacts Carbon Composition. Frontiers in Microbiology, Vol. 7,


    Wasson, Anton Bischof, Leanne Zwart, Alec and Watt, Michelle 2016. A portable fluorescence spectroscopy imaging system for automated root phenotyping in soil cores in the field. Journal of Experimental Botany, Vol. 67, Issue. 4, p. 1033.


    Xiao, Kang Sun, Jian-Yu Shen, Yue-Xiao Liang, Shuai Liang, Peng Wang, Xiao-Mao and Huang, Xia 2016. Fluorescence properties of dissolved organic matter as a function of hydrophobicity and molecular weight: case studies from two membrane bioreactors and an oxidation ditch. RSC Advances, Vol. 6, Issue. 29, p. 24050.


    Graham, P. W. Baker, A. and Andersen, M. S. 2016. Dissolved Organic Carbon Mobilisation in a Groundwater System Stressed by Pumping. Scientific Reports, Vol. 5, Issue. 1,


    Watras, Carl J. Morrison, Kenneth A. Lottig, Noah R. Kratz, Timothy K. and Smith, Ralph 2016. Comparing the diel cycles of dissolved organic matter fluorescence in a clear-water and two dark-water Wisconsin lakes: potential insights into lake metabolism. Canadian Journal of Fisheries and Aquatic Sciences, Vol. 73, Issue. 1, p. 65.


    Graham, P. W. Baker, A. Andersen, M. S. and Acworth, I. 2015. Field Measurement of Fluorescent Dissolved Organic Material as a Means of Early Detection of Leachate Plumes. Water, Air, & Soil Pollution, Vol. 226, Issue. 7,


    Wagner, Sasha Jaffé, Rudolf Cawley, Kaelin Dittmar, Thorsten and Stubbins, Aron 2015. Associations Between the Molecular and Optical Properties of Dissolved Organic Matter in the Florida Everglades, a Model Coastal Wetland System. Frontiers in Chemistry, Vol. 3,


    Khamis, K. Sorensen, J. P. R. Bradley, C. Hannah, D. M. Lapworth, D. J. and Stevens, R. 2015. In situ tryptophan-like fluorometers: assessing turbidity and temperature effects for freshwater applications. Environmental Science: Processes & Impacts, Vol. 17, Issue. 4, p. 740.


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Book description

This is the first comprehensive text on the theory and practice of aquatic organic matter fluorescence analysis, written by the experts who pioneered the research area. This book covers the topic in the broadest possible terms, providing a common reference for making measurements that are comparable across disciplines, and allowing consistent interpretation of data and results. The book includes the fundamental physics and chemistry of organic matter fluorescence, as well as the effects of environmental factors. All aspects of sample handling, data processing, and the operation of both field and laboratory instrumentation are included, providing the practical advice required for successful fluorescence analyses. Advanced methods for data interpretation and modeling, including parallel factor analysis, are also discussed. The book will interest those establishing field, laboratory, or industrial applications of fluorescence, including advanced students and researchers in environmental chemistry, marine science, environmental geosciences, environmental engineering, soil science, and physical geography.

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