This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Aminot, A., Kirkwood, D.S. & Keroue, R. (1997). Determination of ammonia in seawater by the indophenol-blue method: Evaluation of the ICES NUTS I/C 5 questionnaire. Marine Chemistry 56: 59–75.AminotA.KirkwoodD.S.KeroueR.1997Determination of ammonia in seawater by the indophenol-blue method: Evaluation of the ICES NUTS I/C 5 questionnaireMarine Chemistry56597510.1016/S0304-4203(96)00080-1Search in Google Scholar
Ankley, G.T. & Schubauer-Berigan, M.K. (1994). Comparison of techniques for the isolation of sediment pore water for toxicity testing. Archives of Environmental Contamination and Toxicology 27: 507–512.AnkleyG.T.Schubauer-BeriganM.K.1994Comparison of techniques for the isolation of sediment pore water for toxicity testingArchives of Environmental Contamination and Toxicology2750751210.1007/BF00214842Search in Google Scholar
Ballas, G., Garziglia, S., Sultan, N., Pelleter, E., Toucanne, S. et al. (2018). Influence of early diagenesis on geotechnical properties of clay sediments (Romania, Black Sea). Engineering Geology 240: 175–188. 10.1016/j. enggeo.2018.04.019BallasG.GarzigliaS.SultanN.PelleterE.ToucanneS.2018Influence of early diagenesis on geotechnical properties of clay sediments (Romania, Black Sea)Engineering Geology24017518810.1016/j. enggeo.2018.04.019Open DOISearch in Google Scholar
Baric, A., Kuspilic, G. & Matijevic, S. (2002). Nutrient (N, P, Si) fluxes between marine sediments and water column in coastal and open Adriatic. Hydrobiologia 475–476: 151– 159. 10.1023/A:1020386204869BaricA.KuspilicG.MatijevicS.2002Nutrient (N, P, Si) fluxes between marine sediments and water column in coastal and open AdriaticHydrobiologia475–476151– 15910.1023/A:1020386204869Open DOISearch in Google Scholar
Bolałek J. (2010). Interstitial waters. In J. Bolałek (Ed.), Physical, biological and chemical examination of marine sediments (pp. 525–551). Gdańsk: Wyd. Univ. Gdansk. (In Polish).BolałekJ.2010Interstitial watersBolałekJ.Physical, biological and chemical examination of marine sediments525551Gdańsk: Wyd. Univ. GdanskIn PolishSearch in Google Scholar
Brodecka A. (2013). Factors controlling methane occurrence in sediments of the Southern Baltic. Unpublished doctoral dissertation, University of Gdansk, Gdansk, Poland.BrodeckaA.2013Factors controlling methane occurrence in sediments of the Southern BalticUnpublished doctoral dissertation, University of GdanskGdansk, PolandSearch in Google Scholar
Brodecka-Goluch A. & Łukawska-Matuszewska K. (2018). Porewater dissolved organic and inorganic carbon in relation to methane occurrence in sediments of the Gdansk Basin (southern Baltic Sea). Continental Shelf Research 168: 11–20.Brodecka-GoluchA.Łukawska-MatuszewskaK.2018Porewater dissolved organic and inorganic carbon in relation to methane occurrence in sediments of the Gdansk Basin (southern Baltic Sea)Continental Shelf Research168112010.1016/j.csr.2018.08.008Search in Google Scholar
Calvert, S.E. & Pedersen, T.F. (1993). Geochemistry of recent oxic and anoxic marine sediments: Implications for the geological record. Marine Geology 113(1–2): 67–88. 10.1016/0025-3227(93)90150-TCalvertS.E.PedersenT.F.1993Geochemistry of recent oxic and anoxic marine sediments: Implications for the geological recordMarine Geology1131–2678810.1016/0025-3227(93)90150-TOpen DOISearch in Google Scholar
Chapman, P.M., Wang, F., Germano, J.D. & Batley, G. (2002). Pore water testing and analysis: the good, the bad, and the ugly. Marine Pollution Bulletin 44: 359–366.ChapmanP.M.WangF.GermanoJ.D.BatleyG.2002Pore water testing and analysis: the good, the bad, and the uglyMarine Pollution Bulletin4435936610.1016/S0025-326X(01)00243-0Search in Google Scholar
Cline, J.D. & Richards, F.A. (1969). Oxygenation of hydrogen sulfide in seawater at constant salinity, temperature and pH. Environ. Sci. Technol. 3(9): 838–843. 10.1021/es60032a004ClineJ.D.RichardsF.A.1969Oxygenation of hydrogen sulfide in seawater at constant salinity, temperature and pHEnviron. Sci. Technol3983884310.1021/es60032a004Open DOISearch in Google Scholar
Conley, D.J., Stockenberg, A., Carman, R., Johnstone, R.W., Rahm, L. et al. (1997). Sediment-water nutrient fluxes in the Gulf of Finland, Baltic Sea. Estuarine, Coastal and Shelf Science 45: 591–598. 10.1006/ecss.1 997.0246ConleyD.J.StockenbergA.CarmanR.JohnstoneR.W.RahmL.1997Sediment-water nutrient fluxes in the Gulf of Finland, Baltic SeaEstuarine, Coastal and Shelf Science4559159810.1006/ecss.1 997.0246Open DOISearch in Google Scholar
Crompton, T.R. (2006). Analysis of Seawater: A Guide for the Analytical and Environmental Chemist. Springer-Verlag Berlin-Heidelberg.CromptonT.R.2006Analysis of Seawater: A Guide for the Analytical and Environmental ChemistSpringer-Verlag Berlin-Heidelberg10.1007/b138036Search in Google Scholar
Dickens, G.R., Koelling, M., Smith, D.C., Schnieders, L. & IODP Expedition (302 scientists). (2007). Rhizon sampling of pore waters on scientific drilling expeditions: an example from the IODP Expedition 302, Arctic Coring Expedition (ACEX). Sci. Drill. 4: 22–25. 10.2204/iodp.sd.4.08.2007DickensG.R.KoellingM.SmithD.C.SchniedersL.IODP Expedition (302 scientists)2007Rhizon sampling of pore waters on scientific drilling expeditions: an example from the IODP Expedition 302, Arctic Coring Expedition (ACEX)Sci. Drill4222510.2204/iodp.sd.4.08.2007Open DOISearch in Google Scholar
Eby G.N. (2016). The marine environment. In G.N. Eby (Ed.), DE GRUYTER Principles of environmental geochemistry (pp. 387–437). Illinois: Waveland Press Inc.EbyG.N.2016The marine environmentInEbyG.N.EdDE GRUYTER Principles of environmental geochemistry387437IllinoisWaveland Press IncSearch in Google Scholar
Emerson, K., Russo, R.C., Lund, R.E. & Thurston, R.V. (1975). Aqueous ammonia equilibrium calculations: Effect of pH and temperature. Journal of the Fisheries Research Board of Canada 32(12): 2379–2383. 10.1139/f75-274EmersonK.RussoR.C.LundR.E.ThurstonR.V.1975Aqueous ammonia equilibrium calculations: Effect of pH and temperatureJournal of the Fisheries Research Board of Canada32122379238310.1139/f75-274Open DOISearch in Google Scholar
Egger, M., Lenstra,W., Jong, D., Meysman, F.J.R., Sapart, C.J. et al. (2016). Rapid sediment accumulation results in high methane effluxes from coastal sediments. PLoSONE 11(8): e0161609. 10.1371/journal.pone.0161609EggerM.Lenstra,WJongD.MeysmanF.J.R.SapartC.J.2016Rapid sediment accumulation results in high methane effluxes from coastal sedimentsPLoSONE118e016160910.1371/journal.pone.0161609499927527560511Open DOISearch in Google Scholar
Falcão, M. & Vale, C. (1998). Sediment-water exchanges of ammonium and phosphate in intertidal and subtidal areas of a mesotidal coastal lagoon (Ria Formosa). Hydrobiologia 373:193–201.FalcãoM.ValeC.1998Sediment-water exchanges of ammonium and phosphate in intertidal and subtidal areas of a mesotidal coastal lagoon (Ria Formosa)Hydrobiologia37319320110.1007/978-94-011-5266-2_16Search in Google Scholar
Fonselius, S., Dyrssen, D. & Yhlen, B. (1999). Determination of hydrogen sulphide. In K. Grasshoff, K. Kremling & M. Ehrhardt (Eds.), Methods of seawater analysis (pp. 91–100), 3rd edition. Germany: Wiley-VCH.FonseliusS.DyrssenD.YhlenB.1999Determination of hydrogen sulphideGrasshoffK.KremlingK.EhrhardtM.Methods of seawater analysis911003rd editionGermanyWiley-VCH10.1002/9783527613984.ch5Search in Google Scholar
Friebele, E., Shimoyama, A. & Ponnamperuma, C. (1981). Adsorption of protein and non-protein amino acids on a clay mineral: A possible role of selection in chemical evolution. Journal of Molecular Evolution 16(3–4): 269–278. 10.1007/BF01804978FriebeleE.ShimoyamaA.PonnamperumaC.1981Adsorption of protein and non-protein amino acids on a clay mineral: A possible role of selection in chemical evolutionJournal of Molecular Evolution163–426927810.1007/BF018049786162962Open DOISearch in Google Scholar
Gao, M., Liu, J., Qiao, Y., Zhao, M. & Zhang X-H. (2017). Diversity and abundance of the denitrifying microbiota in the sediment of Eastern China Marginal Seas and the impact of environmental factors. Microbial Ecology 73(3) 602–615. 10.1007/s00248-016-0906-6GaoM.LiuJ.QiaoY.ZhaoM.ZhangX-H.2017Diversity and abundance of the denitrifying microbiota in the sediment of Eastern China Marginal Seas and the impact of environmental factorsMicrobial Ecology 733602–61510.1007/s00248-016-0906-627924403Open DOISearch in Google Scholar
Graca, B., Witek, Z., Burska, D., Białkowska, I., Łukawska-Matuszewska K. et al. (2006). Pore water phosphate and ammonia below the permanent halocline in the southeastern Baltic Sea and their benthic fluxes under anoxic conditions. J. Marine Syst. 63(3–4): 141 –154. 10.1016/j. jmarsys.2006.06.003GracaB.WitekZ.BurskaD.BiałkowskaI.Łukawska-MatuszewskaK.2006Pore water phosphate and ammonia below the permanent halocline in the southeastern Baltic Sea and their benthic fluxes under anoxic conditionsJ. Marine Syst633–414115410.1016/j. jmarsys.2006.06.003Open DOISearch in Google Scholar
Grasshoff, K., Ehrhardt, M. & Kremling, K. (1999). Methods of seawater analysis. Wiley-VCH Verlag Weinheim. 10.1002/9783527613984GrasshoffK.EhrhardtM.KremlingK.1999Methods of seawater analysisWiley-VCH Verlag Weinheim10.1002/9783527613984Open DOISearch in Google Scholar
Holmer, M. & Hasler-Sheetal, H. (2014). Sulfide intrusion in seagrasses assessed by stable sulfur isotopes – a synthesis of current results. Front. Mar. Sci. 1(64): 1–11. 10.3389/fmars.2014.00064HolmerM.Hasler-SheetalH.2014Sulfide intrusion in seagrasses assessed by stable sulfur isotopes – a synthesis of current resultsFront. Mar. Sci16411110.3389/fmars.2014.00064Open DOISearch in Google Scholar
Ibánhez, J.S.P. & Rocha, C. (2014). Porewater Sampling for NH4+ with Rhizon Soil Moisture Samplers (SMS): Potential Artifacts induced by NH4+ Sorption. Freshwater Science 33(4): 1195–1203. 10.1086/678483IbánhezJ.S.P.RochaC.2014Porewater Sampling for NH4+ with Rhizon Soil Moisture Samplers (SMS): Potential Artifacts induced by NH4+ SorptionFreshwater Science3341195120310.1086/678483Open DOISearch in Google Scholar
Jilbert,T., Slomp, C.P., Gustafsson, B.G. & Boer, W. (2011). Beyond the Fe-P-redox connection: preferential regeneration of phosphorus from organic matter as a key control on Baltic Sea nutrient cycles. Biogeosciences 8: 1699–1720. 10.5194/bg-8-1699-2011JilbertT.SlompC.P.GustafssonB.G.&BoerW.2011Beyond the Fe-P-redox connection: preferential regeneration of phosphorus from organic matter as a key control on Baltic Sea nutrient cyclesBiogeosciences81699172010.5194/bg-8-1699-2011Open DOISearch in Google Scholar
Karlson, K., Hulth, S., Ringdahl, K. & Rosenberg, R. (2005). Experimental recolonization of Baltic Sea reduced sediments: survival of benthic macrofauna and effects on nutrient cycling. Marine Ecology Progress Series 294: 35–49. DOI:10.3354/meps294035.KarlsonK.HulthS.RingdahlK.RosenbergR.2005Experimental recolonization of Baltic Sea reduced sediments: survival of benthic macrofauna and effects on nutrient cyclingMarine Ecology Progress Series294354910.3354/meps294035Open DOISearch in Google Scholar
Knight, B.P., Chaudri, A.M., McGrath, S.P. & Giller, K.E. (1998). Determination of chemical availability of cadmium and zinc in soils using inert soil moisture samplers. Environmental Pollution 99: 293–298. 10.1016/S0269-7491(98)00021-9KnightB.P.ChaudriA.M.McGrathS.P.GillerK.E.1998Determination of chemical availability of cadmium and zinc in soils using inert soil moisture samplersEnvironmental Pollution9929329810.1016/S0269-7491(98)00021-9Open DOISearch in Google Scholar
Lange, G.J., Cranston, R.E., Hydes, D.H. & Boust D. (1992). Extraction of pore water from marine sediments: A review of possible artifacts with pertinent examples from the North Atlantic. Marine Geology 109: 53–76.LangeG.J.CranstonR.E.HydesD.H.BoustD.1992Extraction of pore water from marine sediments: A review of possible artifacts with pertinent examples from the North AtlanticMarine Geology109537610.1016/0025-3227(92)90220-CSearch in Google Scholar
Lerat, Y., Lasserre, P. & Corre, P. (1990). Seasonal changes in pore water concentrations of nutrients and their diffusive fluxes at the sediment-water interface. Journal of Experimental Marine Biology and Ecology 135(2): 135–160. 10.1016/0022-0981 (90)90012-2LeratY.LasserreP.CorreP.1990Seasonal changes in pore water concentrations of nutrients and their diffusive fluxes at the sediment-water interfaceJournal of Experimental Marine Biology and Ecology135213516010.1016/0022-0981 (90)90012-2Open DOISearch in Google Scholar
Łukawska-Matuszewska, K., Burska, D. & Niemirycz E. (2009). Toxicity assessment by Microtox® in sediments, pore waters and sediment saline elutriates in the Gulf of Gdansk (Baltic Sea). Clean – Soil, Air, Water 37(7): 592–598. 10.1002/clen.200900021Łukawska-MatuszewskaK.BurskaD.&NiemiryczE.2009Toxicity assessment by Microtox® in sediments, pore waters and sediment saline elutriates in the Gulf of Gdansk (Baltic Sea)Clean – Soil, Air, Water37759259810.1002/clen.200900021Open DOISearch in Google Scholar
Łukawska-Matuszewska K. (2016). Contribution of non-carbonate inorganic and organic alkalinity to total measured alkalinity in pore waters in marine sediments (Gulf of Gdansk, S-E Baltic Sea). Marine Chemistry 186. 10.1016/j.marchem.2016.10.002Łukawska-MatuszewskaK.2016Contribution of non-carbonate inorganic and organic alkalinity to total measured alkalinity in pore waters in marine sediments (Gulf of Gdansk, S-E Baltic Sea)Marine Chemistry18610.1016/j.marchem.2016.10.002Open DOISearch in Google Scholar
Łukawska-Matuszewska, K. & Kiełczewska J. (2016). Effects of near-bottom water oxygen concentration on biogeochemical cycling of C, N and S in sediments of the Gulf of Gdansk (southern Baltic). Continental Shelf Research 117: 30–42. 10.1016/j.csr.2016.02.001Łukawska-MatuszewskaK.&KiełczewskaJ.2016Effects of near-bottom water oxygen concentration on biogeochemical cycling of C, N and S in sediments of the Gulf of Gdansk (southern Baltic)Continental Shelf Research117304210.1016/j.csr.2016.02.001Open DOISearch in Google Scholar
Manheim F.T. (1974). Comparative studies on extraction of sediment interstitial waters: discussion and comment on the current state of interstitial water studies. Clays and Clay Minerals 22: 337–343.ManheimF.T.1974Comparative studies on extraction of sediment interstitial waters: discussion and comment on the current state of interstitial water studiesClays and Clay Minerals2233734310.1346/CCMN.1974.0220404Search in Google Scholar
Mintrop, L. & Duinker, J.C. (1994). Depth profiles of amino acids in porewater of sediments from the Norwegian – Greenland sea. Oceanologica Acta 17(6).MintropL.DuinkerJ.C.1994Depth profiles of amino acids in porewater of sediments from the Norwegian – Greenland seaOceanologica Acta176Search in Google Scholar
Mojski, J.E., Dadlez, R.,Słowańska,B., Uscinowicz,S.,Zachowicz, J. (Eds.). (1995) Geological atlas of the southern Baltic, 1:500000. (pp. 1–63). Pol. Geol. Inst., Sopot-Warszawa. (In Polish).MojskiJ.E.DadlezR.SłowańskaB.UscinowiczS.ZachowiczJ.(Eds.)1995Geological atlas of the southern Baltic1500000163Pol. Geol. InstSopot-WarszawaIn PolishSearch in Google Scholar
Mudroch, A. & Azcue, J.M. (1995). Description of equipment for pore water sampling. CRC Press.MudrochA.AzcueJ.M.1995Description of equipment for pore water samplingCRC PressSearch in Google Scholar
Müller, H., Dobeneck, T., Nehmiz, W. & Hamer K. (2011). Near-surface electromagnetic, rock magnetic, and geochemical fingerprinting of submarine freshwater seepage at Eckernförde Bay (SW Baltic Sea). Geo-Mar Lett. 31: 123– 140. 10.1007/s00367-010-0220-0MüllerH.DobeneckT.NehmizW.HamerK.2011Near-surface electromagnetic, rock magnetic, and geochemical fingerprinting of submarine freshwater seepage at Eckernförde Bay (SW Baltic Sea)Geo-Mar Lett31123– 14010.1007/s00367-010-0220-0Open DOISearch in Google Scholar
Naik, R., Naqvi, S.W.A. & Araujo J. (2017). Anaerobic carbon mineralisation through sulphate reduction in the inner shelf sediments of eastern Arabian Sea. Estuaries and Coasts 40(1): 134–144. 10.1007/s1 2237-016-0130-0NaikR.NaqviS.W.A.AraujoJ.2017Anaerobic carbon mineralisation through sulphate reduction in the inner shelf sediments of eastern Arabian SeaEstuaries and Coasts40113414410.1007/s1 2237-016-0130-0Open DOISearch in Google Scholar
Rainwater, F.H. & Thatcher, L.L. (1960). Methods for collection and analysis of water samples. US Geological Survey Water Supply Paper 1454, United States Government Printing Office, Washington, 301 p.RainwaterF.H.ThatcherL.L.1960 Methods for collection and analysis of water samples. US Geological Survey Water Supply Paper 1454, United States Government Printing OfficeWashington301 pSearch in Google Scholar
Salomons, W., de Rooij, N.M., Kerdijk, H. & Bril J. (1987). Sediments as a source for contaminants? In R. Thomas, R. Evans, A. Hamilton, M. Munawar, T. Reynoldson et al. (Eds.), Ecological Effects of In Situ Sediment Contaminants, Hydrobiologia 149 (pp. 13–30). Dordrecht: Dr W. Junk Publishers, Netherlands.SalomonsW.de RooijN.M.KerdijkH.BrilJ.1987Sediments as a source for contaminants?InThomasR.EvansR.HamiltonA.MunawarM.ReynoldsonT.et al. (Eds.)Ecological Effects of In Situ Sediment Contaminants, Hydrobiologia 1491330DordrechtDr W. Junk Publishers, Netherlands10.1007/978-94-009-4053-6_3Search in Google Scholar
Schrum, H.N., Murray, R.W. & Gribsholt, B. (2012). Comparison of Rhizon sampling and whole round squeezing for marine sediment porewater. Sci. Drill. 13: 47–50. 10.2204/iodp.sd. 13.08.2011SchrumH.N.MurrayR.W.GribsholtB.2012Comparison of Rhizon sampling and whole round squeezing for marine sediment porewaterSci. Drill13475010.2204/iodp.sd. 13.08.2011Open DOISearch in Google Scholar
Schulz, H.D. (2000). Quantification of early diagenesis: Dissolved constituents in marine pore water. In H.D Schulz & M. Zabel (Eds.) Marine geochemistry (pp. 87–122). Berlin: Springer-Verlag.SchulzH.D.2000Quantification of early diagenesis: Dissolved constituents in marine pore waterInSchulzH.D&ZabelM.EdsMarine geochemistry87122BerlinSpringer-Verlag10.1007/978-3-662-04242-7Search in Google Scholar
Seeberg-Elverfeldt, J., Schlüter, M., Feseker, T. & Kölling, M. (2005). Rhizon sampling of pore waters near the sediment/water interface of aquatic systems. Limnology and oceanography: Methods 3: 361–371. 10.4319/lom.2005.3.361Seeberg-ElverfeldtJ.SchlüterM.FesekerT.KöllingM.2005Rhizon sampling of pore waters near the sediment/water interface of aquatic systemsLimnology and oceanography: Methods336137110.4319/lom.2005.3.361Open DOISearch in Google Scholar
Shotbolt, L. (2010). Pore water sampling from lake and estuary sediments using Rhizon samplers. Journal of Paleolimnology 44(2): 695–700. 10.1007/s10933-008-9301-8ShotboltL.2010Pore water sampling from lake and estuary sediments using Rhizon samplersJournal of Paleolimnology44269570010.1007/s10933-008-9301-8Open DOISearch in Google Scholar
Sigfusson, B., Paton, G.I. & Gislason S.R. (2006). The impact of sampling techniques on soil pore water carbon measurements of an Icelandic Histic Andosol. Science of Total Environment 369: 203–219. 10.1016/j. scitotenv.2006.01.012SigfussonB.PatonG.I.GislasonS.R.2006The impact of sampling techniques on soil pore water carbon measurements of an Icelandic Histic AndosolScience of Total Environment36920321910.1016/j. scitotenv.2006.01.012Open DOISearch in Google Scholar
Song, J., Luo, Y.M., Zhao, Q.G. & Christie, P. (2003). Novel use of soil moisture samplers for studies on anaerobic ammonium fluxes across lake sediment–water interfaces. Chemosphere 50: 711–715. 10.1016/S0045-6535(02)00210–2SongJ.LuoY.M.ZhaoQ.G.ChristieP.2003Novel use of soil moisture samplers for studies on anaerobic ammonium fluxes across lake sediment–water interfacesChemosphere5071171510.1016/S0045-6535(02)00210–2Open DOISearch in Google Scholar
Szczepańska, T. & Uścinowicz, S. (1994). Geochemical Atlas of the Southern Baltic. Państwowy Instytut Geologiczny, Warsaw.SzczepańskaT.UścinowiczS.1994Geochemical Atlas of the Southern BalticPaństwowy Instytut GeologicznyWarsawSearch in Google Scholar
Thang, N., Brüchert, V., Formolo, M., Wegener, G., Ginters, L. et al. (2012). The impact of sediment and carbon fluxes on the biogeochemistry of methane and sulfur in littoral Baltic Sea sediments (Himmerfjärden, Sweden). Estuaries and Coasts 36(1): 98–115. 10.1007/s12237-012-9557-0ThangN.BrüchertV.FormoloM.WegenerG.GintersL.2012The impact of sediment and carbon fluxes on the biogeochemistry of methane and sulfur in littoral Baltic Sea sediments (Himmerfjärden, Sweden)Estuaries and Coasts3619811510.1007/s12237-012-9557-0Open DOISearch in Google Scholar
Tzollas, N.M., Zachariadis, G.A., Anthemidis, A.N. & Stratis, J.A. (2010). A new approach to indophenol blue method for determination of ammonium in geothermal waters with high mineral content. Intern. J. Environ. Anal. Chem. 90(2): 115–126.TzollasN.M.ZachariadisG.A.AnthemidisA.N.StratisJ.A.2010A new approach to indophenol blue method for determination of ammonium in geothermal waters with high mineral contentIntern. J. Environ. Anal. Chem90211512610.1080/03067310902962528Search in Google Scholar
US EPA 823-B-01-002 (2001a). Methods for collection, storage and manipulation of sediments for Chemical and Toxicological analyses. Technical manual. United States Environmental Protection Agency – Office of Water.US EPA 823-B-01-0022001aMethods for collection, storage and manipulation of sediments for Chemical and Toxicological analyses. Technical manualUnited States Environmental Protection Agency – Office of WaterSearch in Google Scholar
US EPA 600-R-01-020 (2001 b). Method for assessing the chronic toxicity of marine and estuarine sediment – associated contaminants with the amphipod Leptocheirus plumulosus. Technical manual. United States Environmental Protection Agency – Office of Water. Diane Publishing.US EPA 600-R-01-020 (2001 b)Method for assessing the chronic toxicity of marine and estuarine sediment – associated contaminants with the amphipod Leptocheirus plumulosus. Technical manualUnited States Environmental Protection Agency – Office of Water. Diane PublishingSearch in Google Scholar
Wu, C.S., Roy, H., de Beer, D. (2015). Methanogenesis in sediments of an intertidal sand flat in the Wadden Sea. Estuarine, Coastal and Shelf Science 164: 39–45.WuC.S.RoyH.de BeerD.2015Methanogenesis in sediments of an intertidal sand flat in the Wadden SeaEstuarine, Coastal and Shelf Science164394510.1016/j.ecss.2015.06.031Search in Google Scholar
Zadorojny,C.,Saxton,S. & Finger, R.(1973). Spectrophotometric determination of ammonia. Journal (Water Pollution Control Federation) 45(5): 905–912.ZadorojnyC.SaxtonS.&FingerR.1973Spectrophotometric determination of ammoniaJournal (Water Pollution Control Federation)455905912Search in Google Scholar