Precipitation of calcium carbonate in a shallow polymictic coastal lake: assessing the role of primary production, organic matter degradation and sediment mixing

Balmer M.B. & Downing J.A. (2011). Carbon dioxide concentrations in eutrophic lakes: undersaturation imples atmospheric uptake. Inl. Wat. 1: 125-132. DOI: 10.5268/IW-1.2.366. BalmerMBDowningJA2011Carbon dioxide concentrations in eutrophic lakes: undersaturation imples atmospheric uptakeInl. Wat.112513210.5268/IW-1.2.366Open DOISearch in Google Scholar

Baumgartner, L.K., Reid, R.P., Dupraz, C., Decho, A.W., Buckley, D.H. et al. (2006). Sulfate reducing bacteria in microbial mats: Changing paradigms, new discoveries. Sed. Geol. 185(3-4): 131-145. DOI: 10.1016/j.sedgeo.2005.12.008. BaumgartnerLKReidRPDuprazCDechoAWBuckleyDH2006Sulfate reducing bacteria in microbial mats: Changing paradigms, new discoveriesSed. Geol.1853-413114510.1016/j.sedgeo.2005.12.008Open DOISearch in Google Scholar

Bechtel, A., Woszczyk, M., Reischenbacher, D., Sachsenhofer, R.F., Gratzer, R. et al. (2007). Biomarkers and geochemical indicators of Holocene environmental changes in coastal Lake Sarbsko (Poland). Org. Geochem. 38: 1112-1131. DOI: 10.1016/j.orggeochem.2007.02.009. BechtelAWoszczykMReischenbacherDSachsenhoferRFGratzerR2007Biomarkers and geochemical indicators of Holocene environmental changes in coastal Lake Sarbsko (Poland)Org. Geochem.381112113110.1016/j.orggeochem.2007.02.009Open DOISearch in Google Scholar

Berešić, J., Horvatinčić, N., & Roller-Lutz, Z. (2011). Spatial and seasonal variations in the stable C isotope composition of dissolved inorganic carbon and in physico-chemical water parameters in the Plitvice Lake system. Isot. Envir. Health Stud. 47(3): 316-329. DOI: 10.1080/10256016.2011.596625. BerešićJHorvatinčićNRoller-LutzZ2011Spatial and seasonal variations in the stable C isotope composition of dissolved inorganic carbon and in physico-chemical water parameters in the Plitvice Lake systemIsot. Envir. Health Stud47331632910.1080/10256016.2011.59662521787252Open DOISearch in Google Scholar

Berner, R.A. (1971). Principles of chemical sedimentology. New York: McGraw-Hill Book Company. BernerRA1971Principles of chemical sedimentologyNew YorkMcGraw-Hill Book CompanySearch in Google Scholar

Cieśliński, R. (2013). Short-term changes in specific conductivity in Polish coastal lakes (Baltic Sea basin). Oceanologia 55(3): 639-661. DOI: 10.5697/oc.55-3.639. CieślińskiR2013Short-term changes in specific conductivity in Polish coastal lakes (Baltic Sea basin)Oceanologia55363966110.5697/oc.55-3.639Open DOISearch in Google Scholar

Cole, J.J. & Praire, Y.T. (2009). Dissolved CO2. In G.E. Likens (Ed.) Encyclopedia of inland waters. Vol. 2 (pp. 30-34). Oxford, Elsevier. ColeJJPraireYT2009Dissolved CO₂LikensGEEncyclopedia of inland watersVol. 23034OxfordElsevier10.1016/B978-012370626-3.00091-0Search in Google Scholar

de Jonge, V.N. & Villerius, L.A. (1989). Possible role of carbonate dissolution in estuarine phosphate dynamics. Limnol. Oceanogr. 34(2): 332-340. DOI: 10.4319/lo.1989.34.2.0332. de JongeVNVilleriusLA1989Possible role of carbonate dissolution in estuarine phosphate dynamicsLimnol. Oceanogr34233234010.4319/lo.1989.34.2.0332Open DOISearch in Google Scholar

Dean, W. (1999). The carbon cycle and biogeochemical dynamics in lake sediments. Jour. Paleolim. 21: 375-393. DOI: 10.1023/A:1008066118210. DeanW1999The carbon cycle and biogeochemical dynamics in lake sedimentsJour. Paleolim2137539310.1023/A:1008066118210Open DOISearch in Google Scholar

Dittrich M. & Koschel, R. (2002). Interactions between calcite precipitation (natural and artificial) and phosphorus cycle in the hardwater lake. Hydrobiologia 469: 49-57. DOI: 10.1023/A:1015571410442. DittrichMKoschelR2002Interactions between calcite precipitation (natural and artificial) and phosphorus cycle in the hardwater lakeHydrobiologia469495710.1023/A:1015571410442Open DOISearch in Google Scholar

Dupraz, C., Reid, R.P., Braissant, O., Decho, A.W., Norman, R.S. & Visscher, P.T., (2009). Processes of carbonate precipitation in modern microbial mats. Earth Sci. Rev. 96(3): 141-162. DOI: 10.1016/j.earscirev.2008.10.005. DuprazCReidRPBraissantODechoAWNormanRSVisscherPT2009Processes of carbonate precipitation in modern microbial matsEarth Sci. Rev96314116210.1016/j.earscirev.2008.10.005Open DOISearch in Google Scholar

Eby, G.N. (2004). Principles of environmental geochemistry. Belmont: Brooks/Cole Cenage Learning. EbyGN2004Principles of environmental geochemistryBelmontBrooks/Cole Cenage LearningSearch in Google Scholar

Eugster, W., Kling, G., Jonas, T., McFadden, J.P., Wüest, A. et al. (2003). CO2 exchange between air and water in an Arctic Alaskan and midlatitude Swiss lake: importance of convective mixing. Jour. Geophys. Res. 108(12), ACL7-1 – ACL7-19. DOI: 10.1029/2002JD002653. EugsterWKlingGJonasTMcFaddenJPWüestA2003CO₂ exchange between air and water in an Arctic Alaskan and midlatitude Swiss lake: importance of convective mixingJour. Geophys. Res10812ACL7-1ACL7-1910.1029/2002JD002653Open DOISearch in Google Scholar

Gruber, N., Wehrli, B. & Wüest, A. (2000). The role of biogeochemical cycling for the formation and preservation of varved sediments (Switzerland). Jour. Paleolim. 24: 277-291. DOI: 10.1023/A:1008195604287. GruberNWehrliBWüestA2000The role of biogeochemical cycling for the formation and preservation of varved sediments (Switzerland)Jour. Paleolim2427729110.1023/A:1008195604287Open DOISearch in Google Scholar

Gu, B. & Schelske, C.L. (1996). Temporal and spatial variations in phytoplankton carbon isotopes in a polymictic subtropical lake. Jour. Plankt. Res. 18(11): 2081-2092. DOI:10.1093/plankt/18.11.2081. GuBSchelskeCL1996Temporal and spatial variations in phytoplankton carbon isotopes in a polymictic subtropical lakeJour. Plankt. Res18112081209210.1093/plankt/18.11.2081Open DOISearch in Google Scholar

Gu, B., Schelske, C.L. & Hodell D.A. (2004). Extreme 13C enrichments in a shallow hypereutrophic lake: Implications for carbon cycling. Limnol. Oceanogr. 49(4): 1152-1159. DOI: 10.4319/lo.2004.49.4.1152. GuBSchelskeCLHodellDA2004Extreme 13C enrichments in a shallow hypereutrophic lake: Implications for carbon cyclingLimnol. Oceanogr4941152115910.4319/lo.2004.49.4.1152Open DOISearch in Google Scholar

Heiri, O., Lotter, A.F. & Lemcke, G. (2001). Loss on ignition as a method for estimating organic and carbonate content in sediments, reproducibility and comparability of results. Jour. Paleolim. 25: 101-110. DOI: 10.1023/A:1008119611481. HeiriOLotterAFLemckeG2001Loss on ignition as a method for estimating organic and carbonate content in sediments, reproducibility and comparability of resultsJour. Paleolim2510111010.1023/A:1008119611481Open DOISearch in Google Scholar

Herczeg, A.L. & Fairbanks, R.G. (1987). Anomalous carbon isotope fractionation between atmospheric CO2 and dissolved inorganic carbon induced by intense photosynthesis. Geochim. Cosmochim. Acta 51: 895-899. DOI: 10.1016/0016-7037(87)90102-5. HerczegALFairbanksRG1987Anomalous carbon isotope fractionation between atmospheric CO2 and dissolved inorganic carbon induced by intense photosynthesisGeochim. Cosmochim. Acta5189589910.1016/0016-7037(87)90102-5Open DOISearch in Google Scholar

Herczeg, A.L., Leaney, F.W., Dighton, J.C., Lamontagne, S., Schiff, S.L. et al. (2003). A modern isotope record of changes in water and carbon budgets ina agroundwater-fed lake: Blue Lake, South Australia. Limnol. Oceanogr. 48(6): 2093-2105. DOI: 10.4319/lo.2003.48.6.2093. HerczegALLeaneyFWDightonJCLamontagneSSchiffSL2003A modern isotope record of changes in water and carbon budgets ina agroundwater-fed lake: Blue Lake, South AustraliaLimnol. Oceanogr4862093210510.4319/lo.2003.48.6.2093Open DOISearch in Google Scholar

Hodell, D.A., Schelske, C.L., Fahnenstiel, G.L. & Robbins, L.L. (1998). Biologically induced calcite and its isotopic composition in Lake Ontario. Limnol. Oceanogr. 43(2): 187-199. DOI: 10.4319/lo.1998.43.2.0187. HodellDASchelskeCLFahnenstielGLRobbinsLL1998Biologically induced calcite and its isotopic composition in Lake OntarioLimnol. Oceanogr43218719910.4319/lo.1998.43.2.0187Open DOISearch in Google Scholar

Hollander, D.J. & McKenzie, J.A. (1991). CO2 control on carbon-isotope fractionation during aqueous photosynthesis: A paleo-pCO2 barometer. Geology 19: 929-932. DOI: 10.1130/0091-7613(1991)019<0929:CCOCIF>2.3.CO. HollanderDJMcKenzieJA1991CO₂ control on carbon-isotope fractionation during aqueous photosynthesis: A paleo-pCO2 barometerGeology1992993210.1130/0091-7613(1991)019<0929:CCOCIF>2.3.COOpen DOISearch in Google Scholar

Jahnke, R.A. & Jahnke, D.B. (2004). Calcium carbonate dissolution in deep sea sediments: reconciling microelectrode, pore water and benthic flux chamber results. Geochim. Cosmochim. Acta 68(1): 47-59. DOI: 10.1016/S0016-7037(03)00260-6. JahnkeRAJahnkeDB2004Calcium carbonate dissolution in deep sea sediments: reconciling microelectrode, pore water and benthic flux chamber resultsGeochim. Cosmochim. Acta681475910.1016/S0016-7037(03)00260-6Open DOISearch in Google Scholar

Jędrysek, M.O. (2005). Sulphate reduction – methane oxidation: a potential role of this process in the origin of C isotope environmental record in freshwater carbonates. Pol. Geol. Inst. Spec. Papers. 16: 18-34. JędrysekMO2005Sulphate reduction – methane oxidation: a potential role of this process in the origin of C isotope environmental record in freshwater carbonatesPol. Geol. Inst. Spec. Papers161834Search in Google Scholar

Jonsson, A., Åberg, J., Lindroth, A. & Jansson, M. (2008). Gas transfer rate and CO2 flux between un unproductive lake and the atmosphere in northern Sweden. Jour. Geophys. Res.: Biogeosci. 113(4): G04006. DOI: 10.1029/2008JG000688. JonssonAÅbergJLindrothAJanssonM2008Gas transfer rate and CO₂ flux between un unproductive lake and the atmosphere in northern SwedenJour. Geophys. Res.: Biogeosci.1134G0400610.1029/2008JG000688Open DOISearch in Google Scholar

Ju, J., Zhu, L., Wang, J., Xie, M., Zhen, X. et al. (2010). Water and sediment chemistry of Lake Pumayum Co, South Tibet: implication for interpreting sediment carbonate. Jour. Paleolim., 43: 463-474. DOI: 10.1007/s10933-009-9343-6. JuJZhuLWangJXieMZhenX2010Water and sediment chemistry of Lake Pumayum Co, South Tibet: implication for interpreting sediment carbonateJour. Paleolim4346347410.1007/s10933-009-9343-6Open DOISearch in Google Scholar

Kelts, K. & Hsu, K.J. (1978). Freshwater carbonate sedimentation. In A. Lerman (Ed.) Lakes Chemistry Geology Physics (pp. 295-324). New York, Heidelberg, Berlin: Springer-Verlag. KeltsKHsuKJ1978Freshwater carbonate sedimentationLermanALakes Chemistry Geology Physics295324New York, Heidelberg, BerlinSpringer-Verlag10.1007/978-1-4757-1152-3_9Search in Google Scholar

Lebeau, O., Busigny, V., Chaduteau, C. & Ader, M. (2014). Organic matter removal for the analysis of carbon and oxygen isotope compositions of siderite. Chem. Geol. 372: 54-61. http://dx.doi.org/10.1016/j.chemgeo.2014.02.020. LebeauOBusignyVChaduteauCAderM2014Organic matter removal for the analysis of carbon and oxygen isotope compositions of sideriteChem. Geol3725461http://dx.doi.org/10.1016/j.chemgeo.2014.02.02010.1016/j.chemgeo.2014.02.020Search in Google Scholar

Leng, M.J. & Marshall, J.D. (2004). Palaeoclimate interpretation of stable isotope data from lake sediments. Quat. Sci. Rev. 23: 811-831. DOI: 10.1016/j.quascirev.2003.06.012. LengMJMarshallJD2004Palaeoclimate interpretation of stable isotope data from lake sedimentsQuat. Sci. Rev2381183110.1016/j.quascirev.2003.06.012Open DOISearch in Google Scholar

Müller, G., Irion, G. & Förstner, U. (1972) Formation and diagenesis of inorganic Ca-Mg carbonates in the lacustrine environment. Naturwissenschaften, 59(4): 158-164. DOI: 10.1007/BF00637354. MüllerGIrionGFörstnerU1972Formation and diagenesis of inorganic Ca-Mg carbonates in the lacustrine environmentNaturwissenschaften59415816410.1007/BF00637354Open DOISearch in Google Scholar

Müller, B., Wang, Y., Dittrich, M. & Wehrli, B. (2003). Influence of organic carbon decomposition on calcite dissolution in surficial sediments of a freshwater lake. Wat. Res.. 37: 4524-4532. DOI: 10.1016/S0043-1354(03)00381-6. MüllerBWangYDittrichMWehrliB2003Influence of organic carbon decomposition on calcite dissolution in surficial sediments of a freshwater lakeWat. Res374524453210.1016/S0043-1354(03)00381-6Open DOISearch in Google Scholar

Müller, B., Wang, Y. & Wehrli, B. (2006). Cycling of calcite in hard water lakes of different trophic states. Limnol. Oceanogr. 51(4): 1678-1688. DOI: 10.4319/lo.2006.51.4.1678. MüllerBWangYWehrliB2006Cycling of calcite in hard water lakes of different trophic statesLimnol. Oceanogr5141678168810.4319/lo.2006.51.4.1678Open DOISearch in Google Scholar

Myrbo, A. & Shapley M.D. (2006). Sesasonal water-column dynamics of dissolved inorganic carbon ateble isotopic compositions (δ13CDIC) in small hardwater lakes in Minnesota and Montana. Geochim. Cosmoch. Acta 70, 2699-2714. DOI: 10.1016/j.gca.2006.02.010. MyrboAShapleyMD2006Sesasonal water-column dynamics of dissolved inorganic carbon ateble isotopic compositions (δ13CDIC) in small hardwater lakes in Minnesota and MontanaGeochim. Cosmoch. Acta702699271410.1016/j.gca.2006.02.010Open DOISearch in Google Scholar

Osadczuk, A. (1999). An estuary or a lagoon? Quat. Sci. Pol. Sp. Issue 175-186. OsadczukA1999An estuary or a lagoon?Quat. Sci. PolSp. Issue175186Search in Google Scholar

Pełechaty, M., Pukacz, A., Apolinarska, K., Pełechata, A. & Siepak, M. (2013). The significance of Chara vegetation in the precipitation of lacustrine calcium carbonate. Sedimentology 60: 1017-1035. DOI: 10.1111/sed.12020. PełechatyMPukaczAApolinarskaKPełechataASiepakM2013The significance of Chara vegetation in the precipitation of lacustrine calcium carbonateSedimentology601017103510.1111/sed.12020Open DOISearch in Google Scholar

Piotrowska, N. & Hałas, S. (2009). Zmiany składu izotopowego węgla i tlenu w jeziorze Wigry jako źródło informacji paleoklimatycznych. In J. Rutkowski & L. Krzysztofiak (Eds.) Jezioro Wigry. Historia jeziora w świetle badań geologicznych i paleoekologicznych (pp. 157-167). Suwałki: Stowarzyszenie ,,Człowiek i Przyroda”. PiotrowskaNHałasS2009Zmiany składu izotopowego węgla i tlenu w jeziorze Wigry jako źródło informacji paleoklimatycznychRutkowskiJKrzysztofiakLJezioro Wigry. Historia jeziora w świetle badań geologicznych i paleoekologicznych157167Suwałki:Stowarzyszenie ,,Człowiek i Przyroda”Search in Google Scholar

Pustelnikovas, O. (1998). Geochemistry of sediments of the Cooronian Lagoon (Baltic Sea). Vilnius, Institute of Geography. PustelnikovasO1998Geochemistry of sediments of the Cooronian Lagoon (Baltic Sea)VilniusInstitute of GeographySearch in Google Scholar

Ramisch, F., Dittrich, M., Mattenberger, Ch., Wehrli, B. & Wüest, A. (1999). Calcite dissolution in two deep eutrophic lakes. Geochim. Cosmochim. Acta 63(19/20): 3349-3356. DOI: 10.1016/S0016-7037(99)00256-2. RamischFDittrichMMattenbergerChWehrliBWüestA1999Calcite dissolution in two deep eutrophic lakesGeochim. Cosmochim. Acta63(19/20)3349335610.1016/S0016-7037(99)00256-2Open DOISearch in Google Scholar

Shoemaker, J.K. & Schrag, D.P. (2010). Subsurface characterization of methane production and oxidation from a New Hampshire wetland. Geobiology 8: 234-243. DOI: 10.1111/j.1472-4669.2010.00239.x. ShoemakerJKSchragDP2010Subsurface characterization of methane production and oxidation from a New Hampshire wetlandGeobiology823424310.1111/j.1472-4669.2010.00239.xOpen DOISearch in Google Scholar

Soetaert, K., Hofmann, A.F., Middleburg, J.J., Meysman, F.J.R. & Greenwood, J. (2007). The effect of biogochemical processes on pH. Mar. Chem. 105: 30-51. DOI: 10.1016/j.marchem.2006.12.012. SoetaertKHofmannAFMiddleburgJJMeysmanFJRGreenwoodJ2007The effect of biogochemical processes on pHMar. Chem.105305110.1016/j.marchem.2006.12.012Open DOISearch in Google Scholar

Stockhecke, M., Anselmetti, F.S., Meydan, A.F., Odermatt, D. & Srturm, M. (2012). The annual particle cycle in Lake Van (Turkey). Palaeogeog., Palaeoclim., Palaeoecol. 333-334, 148-159. DOI: 10.1016/j.palaeo.2012.03.022. StockheckeMAnselmettiFSMeydanAFOdermattDSrturmM2012The annual particle cycle in Lake Van (Turkey)Palaeogeog., Palaeoclim., Palaeoecol.33333414815910.1016/j.palaeo.2012.03.022Open DOISearch in Google Scholar

Teranes, J.L., McKenzie, J.A., Lotter, A. & Sturm, M. (1999). Stable isotope response to lake eutrophication: calibration of a hogh-resolution lacustrine sequence from Baldeggersee, Switzerland. Limnol. Oceanogr. 44(2): 320-333. DOI: 10.4319/lo.1999.44.2.0320. TeranesJLMcKenzieJALotterASturmM1999Stable isotope response to lake eutrophication: calibration of a hogh-resolution lacustrine sequence from Baldeggersee, SwitzerlandLimnol. Oceanogr44232033310.4319/lo.1999.44.2.0320Open DOISearch in Google Scholar

Tylmann, W. (2007). Pobór i opróbowanie powierzchniowych, silnie uwodnionych osadów jeziornych o nienaruszonej strukturze – uwagi metodyczne i stosowany sprzęt. Przegl. Geol. 55: 151-156. TylmannW2007Pobór i opróbowanie powierzchniowych, silnie uwodnionych osadów jeziornych o nienaruszonej strukturze – uwagi metodyczne i stosowany sprzętPrzegl. Geol.5515115610.3200/CTCH.55.4.151-156Search in Google Scholar

Tylmann, W., Szpakowska, K., Ohlendorf, Ch., Woszczyk, M. & Zolitschka, B. (2012). Conditions for deposition of annually laminated sediments in small meromictic lakes: a case study of Lake Suminko (northern Poland). Jour. Paleolim. 47(1): 55-70. DOI 10.1007/s10933-011-9548-3. TylmannWSzpakowskaKOhlendorfChWoszczykMZolitschkaB2012Conditions for deposition of annually laminated sediments in small meromictic lakes: a case study of Lake Suminko (northern Poland)Jour. Paleolim471557010.1007/s10933-011-9548-3Open DOISearch in Google Scholar

Uścinowicz, S., & Zachowicz, J. (1996). Geochemical atlas of the Vistula Lagoon. Warszawa, Wydawnictwo Kartograficzne PAE. UścinowiczSZachowiczJ1996Geochemical atlas of the Vistula LagoonWarszawaWydawnictwo Kartograficzne PAESearch in Google Scholar

Valero-Garcés, B., Morellón, M., Moreno, A., Corella, J.P., Martín-Puertas, C., Barreiro, F., Pérez, A., Giralt, S. & Mata-Campo, M.P. (2014). Lacustrine carbonates of Iberian Karst Lakes: Sources, processes and depositional environments. Sed. Geol. 299: 1-29. DOI: 10.1016/j.sedgeo.2013.10.007. Valero-GarcésBMorellónMMorenoACorellaJPMartín-PuertasCBarreiroFPérezAGiraltSMata-CampoMP2014Lacustrine carbonates of Iberian Karst Lakes: Sources, processes and depositional environmentsSed. Geol.29912910.1016/j.sedgeo.2013.10.007Open DOISearch in Google Scholar

Wachniew, P. & Różański, K. (1997). Carbon budget of a mid-lattitude, groundwater-controlled lake: isotopic evidence for the importance of dissolved inorganic carbon cycling. Geochim. Cosmochim. Acta 61(12): 2453-2465. DOI: 10.1016/S0016-7037(97)00089-6. WachniewPRóżańskiK1997Carbon budget of a mid-lattitude, groundwater-controlled lake: isotopic evidence for the importance of dissolved inorganic carbon cyclingGeochim. Cosmochim. Acta61122453246510.1016/S0016-7037(97)00089-6Open DOISearch in Google Scholar

Wanninkhof, R. & Knox, M., 1996. Chemical enhancement of CO2 exchange in natural waters. Limnol. Oceanogr. 41(4): 689-697. DOI: 10.4319/lo.1996.41.4.0689. WanninkhofRKnoxM1996Chemical enhancement of CO₂ exchange in natural watersLimnol. Oceanogr41468969710.4319/lo.1996.41.4.0689Open DOISearch in Google Scholar

Woszczyk, M., Bechtel, A. & Cieśliński, R. (2011). Interactions between microbial degradation of sedimentary organic matter and lake hydrodynamics in shallow water bodies, insights from Lake Sarbsko (northern Poland). Jour. Limnol. 70: 293-304. DOI: 10.3274/JL11-70-2-09. WoszczykMBechtelACieślińskiR2011Interactions between microbial degradation of sedimentary organic matter and lake hydrodynamics in shallow water bodies, insights from Lake Sarbsko (northern Poland)Jour. Limnol7029330410.3274/JL11-70-2-09Open DOISearch in Google Scholar

Woszczyk, M., Bechtel, A., Gratzer, R., Kotarba, M., Kokociński, M. et al. (2011). Composition and origin of organic matter in surface sediments of Lake Sarbsko: A highly eutrophic and shallow coastal lake (northern Poland). Org. Geochem. 42: 1025-1038. doi:10.1016/j.orggeochem.2011.07.002. WoszczykMBechtelAGratzerRKotarbaMKokocińskiM2011Composition and origin of organic matter in surface sediments of Lake Sarbsko: A highly eutrophic and shallow coastal lake (northern Poland)Org. Geochem421025103810.1016/j.orggeochem.2011.07.002Open DOISearch in Google Scholar

Woszczyk, M., Spychalski, W., Lutyńska, M. & Cieśliński, R. (2010). Temporal trend In intensity of subsurface saltwater ingressions to a coastal Lake Sarbsko (northern Poland) Turing the last few decades. IOP Conf. Ser. Earth Env. Sci. 9. DOI: 10.1088/1755-1315/9/1/012013. WoszczykMSpychalskiWLutyńskaMCieślińskiR2010Temporal trend In intensity of subsurface saltwater ingressions to a coastal Lake Sarbsko (northern Poland) Turing the last few decadesIOP Conf. Ser. Earth Env. Sci910.1088/1755-1315/9/1/012013Open DOISearch in Google Scholar

Woszczyk, M., Tylmann, W., Jędrasik, J., Szarafin, T., Stach, A. et al. (2014). Recent sedimentation dynamics in a shallow coastal lake (Lake Sarbsko, northern Poland): driving factors, processes and effects. Marine and Freshwater Research 65(12): 1102-1115. http://dx.doi.org/10.1071/MF13336. WoszczykMTylmannWJędrasikJSzarafinTStachA2014Recent sedimentation dynamics in a shallow coastal lake (Lake Sarbsko, northern Poland): driving factors, processes and effectsMarine and Freshwater Research651211021115http://dx.doi.org/10.1071/MF1333610.1071/MF13336Search in Google Scholar

Wu, F.C., Qing, II.R., Wan, G.J., Tang, D.G., Huang, R.G. et al. (1997). Geochemistry of of HCO3- at the sediment-water interface of lakes from the southwestern Chinese plateau. Wat. Air Soil Poll. 99: 381-390. DOI: 10.1023/A:1018331204630. WuFCQingIIRWanGJTangDGHuangRG1997Geochemistry of of HCO3- at the sediment-water interface of lakes from the southwestern Chinese plateauWat. Air Soil Poll9938139010.1023/A:1018331204630Open DOISearch in Google Scholar

Xu, J., Fan, Ch. & Teng, H.H. (2012). Calcite dissolution kinetics in view of Gibbs free energy, dislocation density, and pCO2. Chem. Geol. 322-323, 11-18. DOI: 10.1016/j.chemgeo.2012.04.019. XuJFanChTengHH2012Calcite dissolution kinetics in view of Gibbs free energy, dislocation density, and pCO₂Chem. Geol322323111810.1016/j.chemgeo.2012.04.019Open DOISearch in Google Scholar