Dissolved phosphorus in the Baltic Sea — Occurrence and relevance
暂无分享,去创建一个
[1] E. Ingall,et al. Marine Dissolved Organic Phosphorus Composition: Insights from Samples Recovered Using Combined Electrodialysis/Reverse Osmosis , 2010 .
[2] E. Achterberg,et al. Distribution of dissolved organic nutrients and their effect on export production over the Atlantic Ocean , 2009 .
[3] Michael W. Lomas,et al. Sargasso Sea phosphorus biogeochemistry: an important role for dissolved organic phosphorus (DOP) , 2009 .
[4] K. Davidson,et al. Bioavailability and bacterial degradation rates of dissolved organic matter in a temperate coastal area during an annual cycle , 2009 .
[5] P. Worsfold,et al. Dissolved organic phosphorus speciation in the waters of the Tamar estuary (SW England) , 2009 .
[6] K. Myrberg,et al. Physical Oceanography of the Baltic Sea , 2009 .
[7] K. Myrberg,et al. Upwelling in the Baltic Sea — A review , 2008 .
[8] Richard Sanders,et al. Phosphorus cycling in the North and South Atlantic Ocean subtropical gyres , 2008 .
[9] R. Feistel,et al. State and Evolution of the Baltic Sea, 1952–2005 , 2008 .
[10] W. Matthäus,et al. General Oceanography of the Baltic Sea , 2008 .
[11] D. Nehring,et al. Nutrient Concentrations, Trends and Their Relation to Eutrophication , 2008 .
[12] G. Nausch,et al. Bioavailable dissolved organic phosphorus and phosphorus use by heterotrophic bacteria , 2007 .
[13] Ragnar Elmgren,et al. Satellite measurements of cyanobacterial bloom frequency in the Baltic Sea: interannual and spatial variability , 2007 .
[14] T. Thingstad,et al. Algal—bacterial competition for phosphorus from dissolved DNA, ATP, and orthophosphate in a mesocosm experiment , 2007 .
[15] M. Laamanen,et al. Use of different phosphorus sources by the bloom-forming cyanobacteria Aphanizomenon flos-aquae and Nodularia spumigena , 2007 .
[16] P. Conan,et al. Partitioning of organic production in marine plankton communities: The effects of inorganic nutrient ratios and community composition on new dissolved organic matter , 2007 .
[17] R. Benner,et al. Nature and dynamics of phosphorus-containing components of marine dissolved and particulate organic matter , 2006 .
[18] M. Nausch,et al. Bioavailability of dissolved organic phosphorus in the Baltic Sea , 2006 .
[19] S. Seitzinger,et al. Bioavailability of dissolved organic nitrogen and carbon from nine rivers in the eastern United States , 2006 .
[20] Wang Donghong,et al. Distribution and origin of biologically available phosphorus in the water of the Meiliang Bay in summer , 2006 .
[21] Jennifer R. Brum. Concentration, production and turnover of viruses and dissolved DNA pools at Stn ALOHA, North Pacific Subtropical Gyre , 2005 .
[22] S. Dyhrman,et al. Temporal and spatial variability of dissolved organic and inorganic phosphorus, and metrics of phosphorus bioavailability in an upwelling‐dominated coastal system , 2005 .
[23] G. Nausch,et al. Bacterial utilization of phosphorus pools after nitrogen and carbon amendment and its relation to alkaline phosphatase activity , 2004 .
[24] L. Chou,et al. Seasonal cycling of phosphorus in the Southern Bight of the North Sea , 2004 .
[25] E. Ingall,et al. Distribution and dynamics of various forms of phosphorus in seawater: insights from field observations in the Pacific Ocean and a laboratory experiment , 2004 .
[26] G. Nausch,et al. Phosphorus dynamics during the transition from nitrogen to phosphate limitation in the central Baltic Sea , 2004 .
[27] D. Karl,et al. Bioavailability of dissolved organic phosphorus in the euphotic zone at Station ALOHA, North Pacific Subtropical Gyre , 2003 .
[28] O. R. Eigaard,et al. Summer inputs of riverine nutrients to the Baltic Sea: Bioavailability and eutrophication relevance , 2002 .
[29] D. Karl,et al. A novel method for the measurement of dissolved adenosine and guanosine triphosphate in aquatic habitats: applications to marine microbial ecology. , 2001, Journal of microbiological methods.
[30] E. Ingall,et al. Concentrations of lipid phosphorus and its abundance in dissolved and particulate organic phosphorus in coastal seawater , 2001 .
[31] R. Benner,et al. Composition and cycling of marine organic phosphorus , 2001 .
[32] D. Karl,et al. Phosphorus dynamics in the North Pacific subtropical gyre , 2000 .
[33] C. Benitez‐Nelson. The biogeochemical cycling of phosphorus in marine systems , 2000 .
[34] Josep M. Gasol,et al. Using flow cytometry for counting natural planktonic bacteria and understanding the structure of planktonic bacterial communities , 2000 .
[35] Manfred Ehrhardt,et al. Methods of seawater analysis , 1999 .
[36] H. Ogawa,et al. Characterization of dissolved organic phosphorus in coastal seawater using ultrafiltration and phosphohydrolytic enzymes , 1998 .
[37] R. Benner,et al. Marine phosphorus is selectively remineralized , 1998, Nature.
[38] F. Pollehne,et al. Coupling of autotrophic and heterotrophic processes in a Baltic estuarine mixing gradient (Pomeranian Bight) , 1997, Hydrobiologia.
[39] K. Kononen,et al. Community development and modes of phosphorus utilization in a late summer ecosystem in the central Gulf of Finland, the Baltic Sea , 1996, Hydrobiologia.
[40] I. McKelvie,et al. Determination of alkaline phosphatase‐hydrolyzable phosphorus in natural water systems by enzymatic flow injection , 1994 .
[41] J. Cooper,et al. Mineralization of dissolved organic phosphorus from a shallow eutrophic lake , 1991, Hydrobiologia.
[42] D. Karl,et al. The measurement and distribution of dissolved nucleic acids in aquatic environments , 1989 .
[43] S. Hino. Characterization of orthophosphate release from dissolved organic phosphorus by gel filtration and several hydrolytic enzymes , 1989, Hydrobiologia.
[44] G. Persson,et al. Bioavailability of different phosphorus forms in freshwater systems , 1988, Hydrobiologia.
[45] J. Fuhrman,et al. Relationships between Biovolume and Biomass of Naturally Derived Marine Bacterioplankton , 1987 .
[46] J. Andersen,et al. Eutrophication in the Baltic Sea – An integrated thematic assessment of the effects of nutrient enrichment and eutrophication in the Baltic Sea region. , 2009 .
[47] G. Vargo,et al. Nutrient availability in support of Karenia brevis blooms on the central West Florida Shelf: What keeps Karenia blooming? , 2008 .
[48] S. Maestrini,et al. The role of inorganic and organic nutrients on the development of phytoplankton along a transect from the Daugava River mouth to the Open Baltic, in spring and summer 1999 , 2003 .
[49] D. Karl,et al. Chapter 6 – Dynamics of DOP , 2002 .
[50] Dennis A. Hansell,et al. Biogeochemistry of marine dissolved organic matter , 2002 .
[51] R. Chróst,et al. Utilization of selected dissolved organic phosphorus compounds by bacteria in lake water under non-limiting orthophosphate conditions , 2001 .
[52] W. Matthäus,et al. Phytoplankton spring blooms in the southern Baltic Sea—spatio-temporal development and long-term trends , 1998 .
[53] S. Jeffrey,et al. Spectrophotometric and fluorometric equations in common use in oceanography , 1997 .
[54] B. Riemann,et al. Incorporation rates and biomass content of C and P in phytoplankton and bacteria in the Bay of Aarhus (Denmark) June 1992 , 1996 .
[55] M. Søndergaard,et al. Dynamics of dissolved organic car‐bon lability in a eutrophic lake , 1995 .
[56] D. Karl,et al. Bioavailability of inorganic and organic phosphorus compounds to natural assemblages of microorganisms m Hawaiian coastal waters , 1994 .
[57] D. Nehring,et al. Current Trends in Hydrographic and Chemical Parameters and Eutrophication in the Baltic Sea , 1991 .
[58] Lorenz Magaard,et al. Meereskunde der Ostsee , 1974 .