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SIL Proceedings, 1922-2010
Internationale Vereinigung für Theoretische und Angewandte Limnologie: Verhandlungen
Volume 22, 1984 - Issue 1
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Plenary Lectures

Sediments, modifying and equilibrating factors in the chemistry of freshwater

With 28 figures in the text

H. L. Golterman
Pages 23-59 | Published online: 01 Dec 2017

References

  • Abdollahi, H. & Nedwell, D. B., 1979: Seasonal temperature as a factor influencing bacterial sulfate reduction in a saltmarsh sediment. — Microbial Ecology 5: 73–79.
  • Anagnostidis, K. & Overbeck, J., 1966: Methanoxydierer und hypolimnische Schwefelbakterien. Studie zur ökologischen Biocönotik der Gewässermikroorganismen. — Ber. Dtsch. Bot. Ges. 79 (3): 163–174.
  • Andersen, J. M., 1977 a: Rates of denitrification of undisturbed sediment from six lakes as a function of nitrate concentration, oxygen and temperature. — Arch. Hydrobiol. 80: 147–159.
  • Andersen, J. M. 1977 b: Importance of the denitrification process for the rate of degradation of organic matter in lake sediments. — In: Golterman, H. L. (ed.), Interactions between sediment and fresh water. Proc. SIL/UNESCO symposium. Junk, The Hague, 473 pp.
  • Andersen, J. M. 1982: Effect of nitrate concentration in lake water on phosphate release from the sediment. — Water Res. 16: 1119–1126.
  • Baccini, P., Greider, E., Stierli, R. & Goldberg, S., 1982: The influence of natural organic matter on the adsorption properties of mineral particles in lake water. — Schweiz. Z. Hydrol. 44(1): 99–116.
  • Blackburn, T. H. & Hendriksen, K., 1983: Nitrogen cycling in different types of sediments from Danish waters. — Limnol. Oceanogr. 28 (3): 477–493.
  • Boström, B., Jansson, M. & Forsberg, C., 1982: Phosphorus release from lake sediments. — Arch. Hydrobiol. Beih. Ergebn. Limnol. 18: 5–59.
  • Boström, B. & Pettersson, K., 1982: Different patterns of phosphorus release from lake sediments in laboratory experiments. — Hydrobiologia 92: 415–429.
  • Brewer, W. S., Abernathy, A. R. & Paynter, M. J. B., 1977: Oxygen consumption by freshwater sediments. — Water. Res. 11: 471–473.
  • Buresh, R. J. & Patrick Jr., W. H., 1981: Nitrate reduction to ammonium and organic nitrogen in an estuarine sediment. — Soil Biol. Biochem. 13: 279–283.
  • Burns, N. M. & Ross, C., 1972 a: Project Hypo. Discussion of findings. — In: Burns, N. M. & Ross, C. (eds.), Project Hypo. Canada Centre for Inland Waters, Burlington, Ont. Paper (9): 120–126.
  • Burns, N. M. & Ross, C. 1972 b: Oxygen-nutrient relationships within the central basin of Lake Erie. — In: Burns, N. M. & Ross, C. (eds.), Project Hypo. Paper (8): 85–119.
  • Burns, N. M. & Ross, C. 1972 c: Oxygen-nutrient relationships within the central basin of Lake Erie. — In: Allen, H. E. & Kramer, J. R. (eds.), Nutrients in natural waters: 193–250. Wiley, New York.
  • Cappenberg, Th. E., 1975: Methanogenesis in the bottom deposits of a small stratifying lake. — Microbial Production and Utilization of Gases: 125–134. Akademie d. Wissenschaften zu Göttingen.
  • Carignan, R. & Kalff, J., 1979: Quantification of the sediment phosphorous available to aquatic macrophytes. — J. Fish. Res. Bd. Can. 36: 1002–1005.
  • Chalamet, A., 1984: Effects of environmental factors on denitrification. — In press.
  • Christensen, D. & Blackburn, T. H., 1980: Turnover of tracer (14C, 3H labelled) alanine in inshore marine sediments. — Marine Biology 58: 97–103.
  • Christensen, D. & Blackburn, T. H. 1982: Turnover of 14C-labelled acetate in marine sediments. — Marine Biology 71: 113–119.
  • Davison, W., 1981: The supply of iron and manganese to an anoxic lake basin. — Nature 290: 241–243.
  • Davison, W. & Heany, S. I., 1978: Ferrous iron-sulfide interactions in anoxic hypolimnetic waters. — Limnol. Oceanogr. 23 (6): 1194–1200.
  • Davison, W., Woof, C. & Rigg, E., 1982: The dynamics of iron and manganese in a seasonally anoxic lake; direct measurement of fluxes using sediment traps. — Limnol. Oceanogr. 27 (6): 987–1003.
  • Dominik, J., Mangini, A. & MÜLler, G., 1981: Determination of recent deposition rates in Lake Constance with radioisotopic methods. — Sedimentology 28: 653–677.
  • Einsele, W., 1936: Über die Beziehungen des Eisenkreislaufs zum Phosphatkreislauf im eutrophen See. — Arch. Hydrobiol. 29: 664–686.
  • Einsele, W. 1937: Physikalisch-chemische Betrachtung einiger Probleme des limnischen Mangan- und Eisenkreislaufs. — Verh. Internat. Verein. Limnol. 5 (3): 69–84.
  • Einsele, W. 1938: Über chemische und kolloidchemische Vorgänge in Eisen-Phosphat-Systemen unter limnochemischen und limnogeologischen Gesichtspunkten. — Arch. Hydrobiol. 33: 361–387.
  • Golterman, H. L., 1973: Vertical movement of phosphate in freshwater. — In: Griffith, E. J., Beeton, A., Spencer, J. M. & Mitchell, D. T. (eds.), Environmental Phosphorous Handbook (29): 509–538. John Wiley & Sons, New York/London/Sydney/Toronto.
  • Golterman, H. L. 1975: Physiological Limnology. An approach to the Physiology of Lake Ecosystems. — Elsevier Sci. Publ. Co., Amsterdam/Oxford/New York, 489 pp.
  • Golterman, H. L. 1976: Zonation of mineralization in stratifying lakes. — In: Anderson, J. M. & Macfayden, A. (eds.), The Role of Terrestrial and Aquatic Organisms in Decomposition Processes (1): 3–32. Blackwell Sci. Publ., Oxford/London/Edinburgh/Melbourne.
  • Golterman, H. L. 1980: Phosphate models, a gap to bridge. — Hydrobiologia 72: 61–71.
  • Golterman, H. L. 1982 a: Loading concentration models for phosphate in shallow lakes. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 169–175.
  • Golterman, H. L. 1982 b: Differential extraction of sediment phosphates with NTA solutions. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 683–689.
  • Golterman, H. L. 1983: Algal bioassays and algal growth controlling factors in eutrophic shallow lakes. — Hydrobiologia 100: 59–65.
  • Golterman, H. L., Bakels, C. C. & Jacobs-Möglin, J., 1969: Availability of mud phosphates for the growth of algae. — Verh. Internat. Verein. Limnol. 17: 467–479.
  • Golterman, H. L. & Meyer, M. L., 1983: In press.
  • Golterman, H. L., Sly, P. G. & Thomas, R. L., 1983: Study of the relationship between water quality and sediment transport. — UNESCO, 231 pp.
  • Golterman, H. L., Viner, A. B. & Lee, G. Fred, 1976: Preface. — In: Golterman, H. L. (ed.), Interactions between sediments and freshwater. 1–9. Junk Publ., The Hague.
  • Grobler, D. C. & Da Vies, E., 1979: The availability of sediment phosphate to algae. — Water SA. 5: 114–122.
  • Håanson, L., 1981: Determination of characteristic values for physical and chemical lake sediment parameters. — Water Resources Research 17: 1625–1640.
  • Håanson, L. 1982: Bottom dynamics in lakes. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 9–22. Junk Publ., The Hague.
  • Hall, G. H., Collins, V. G., Jones, J. G. & Horsley, R. W., 1978: The effect of sewage effluent on Grasmere (English Lake District) with particular reference to inorganic nitrogen transformations. — Freshwater Biology 8: 165–175.
  • Hall, J. K. & Baker, D. E., 1971: Phosphorous fixation by montmorillonite and vermiculite clays as influenced by pH and soluble aluminium. — Soil Sci Soc. Amer. Proc. 35: 876–881.
  • Halmø, G. & Eimhjellen, K., 1981: Low temperature removal of nitrate by bacterial denitrification. — Water Research 15: 989–998.
  • Hargrave, B. T., 1972: A comparison of sediment oxygen uptake, hypolimnetic oxygen deficit and primary production in Lake Esrom, Denmark. — Verh. Intemat. Verein. Limnol. 18: 134–139.
  • Holeman, J. N., 1968: The sediment yield of major rivers of the world. — Water Resources Research 4: 737–747.
  • Huettl, R. C., Wendt, R. C. & Corey, R. B., 1979: Prediction of algal-available phosphorous in runoff sediments. — J. Env. QuaL 8: 130–132.
  • Jacoby, J. M., Lynch, D. D., Welch, E. B. & Perkins, M. A., 1982: Internal phosphorous loading in a shallow eutrophic lake. — Water Res. 16: 911–919.
  • Jones, J. G., 1982: Activities of aerobic and anaerobic bacteria in lake sediments and their effect on the water column. — In: Nedwell, D. B. & Brown, C. M. (eds.), Sediment Microbiology. Spec. Publ Soc. Gen. Microbiol. 7: 107–145. Academic Press, London.
  • Jones, J. G., Gardener, S. & Simon, B. M., 1983: Bacterial reduction of ferric iron in a stratified eutrophic lake. — J. Gen. Microbiol. 129: 131–139.
  • Jones, J. G. & Simon, B. M., 1981: Differences in microbial decomposition in profundal and littoral lake sediments, with particular reference to the nitrogen cycle. — J. Gen. Microbiol. 123: 297–312.
  • Jørgensen, S. E., 1977: The influence of phosphate and nitrogen in sediment on restoration of lakes. — In: Golterman, H. L. (ed.), Interactions between sediments and phosphate. Junk Publ., The Hague, 473 pp.
  • Jørgensen, S. E. & Mejer, H., 1977: Biological buffering capacity. — J. Ecol. Mod 3: 39–61.
  • Kamiyama, K., 1978: Studies on the release of ammonium nitrogen from the bottom sediments in freshwater regions. IV. A model for ammonium nitrogen movement in the surface layer of sediments. — Jap. J. LimnoL 39 (4): 181–188.
  • Kamiyama, K., Okuda, S. & Kawai, A., 1978: Studies on the release of ammonium nitrogen from the bottom sediments in freshwater regions. III Ammonium nitrogen in the sediments of different water regions. — Jap. J. Limnol 39 (4): 176–180.
  • Kemp, A. L. W., Dell, C. I. & Harper, N. S., 1978: Sedimentation rates and a sediment budget for Lake Superior. — J. Great Lakes Res. 4 (3–4): 276–287.
  • Kemp, A. L. W. & Harper, N. S., 1976: Sedimentation rates and a sediment budget for Lake Ontario. — J. Great Lakes Res. 2 (2): 324–340.
  • Kemp, A. L. W., Macinnis, G. A. & Harper, N. S., 1977: Sedimentation rates and a revised sediment budget for Lake Erie. — J. Great Lakes Res. 3 (3–4): 221–233.
  • Klapwijk, S. P., Kroon, J. M. W. & Meijer, M. L., 1982: Available phosphorus in lake sediments in the Netherlands. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 491–501.
  • Knowles, R., 1982: Denitrification. — Microbiol Reviews 46: 43–70.
  • Koike, I. & Hattori, A., 1978: Denitrification and ammonia formation in anaerobic coastal sediments. — Appl. Environm. Microbiol. 35: 278–282.
  • Kristjansson, J. K., Schönheit, P. & Thauer, R. K., 1982: Different Ks values for hydrogen of methanogenic bacteria and sulphate reducing bacteria: an explanation for the apparent inhibition of methanogenesis by sulphate. — Arch. Microbiol. 131: 278–282.
  • Lijklema, L., 1977: The role of iron in the exchange of phosphate between water and sediments. — In: Golterman, H. L. (ed.), Interactions between sediments and freshwater. 313–317. Junk Publ., The Hague.
  • Lijklema, L. & Hieltjes, A. H. M., 1982: A dynamic phosphate budget model for a eutrophic lake. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 227–235.
  • Löfgren, S. & Ryding, S.-O., 1984: Apatite ionic products in different eutrophic sediments. — Verh. Intemat. Verein. LimnoL 22: Part 5.
  • Logan, T., 1977: Forms and sediment associations of nutrients (C. N. & P.) pesticides and metals; Nutrients — N. — In: Shear, H. & Watson, A. E. P. (eds.), The fluvial transport of sediment-associated nutrients and contaminants. Internat. Joint Commission, Windsor, Ontario, 309 pp.
  • Mackereth, F. J. H., 1966: Some chemical observations on post-glacial lake sediments. — Philos. Trans. R. Soc. Lond, Ser. B 250: 165–213.
  • Matisoff, G., Fisher Berton, J. & Mccall, P. L., 1981: Kinetics of nutrient and metal release from decomposing lake sediments. — Geochim. Cosmochim. Acta 45: 2333–2347.
  • Mayer, L. M., Liotta, F. P. & Norton, S. A., 1982: Hypolimnetic redox and phosphorus cycling in hypertrophie Lake Sebasticook Maine. — Water Res. 16: 1189–1196.
  • Meybeck, M., 1976: Total mineral dissolved transport by world major rivers. — Hydrol Sci Bull. Sci. Hydrolog. 21 (2/6): 265–284.
  • Meybeck, M. 1977: Dissolved and suspended matter carried by rivers: composition, time and space variations, and world balance. — In: Golterman, H. L. (ed.), Interactions between sediments and freshwater. Junk Pudoc, The Hague, 473 pp.
  • Mortimer, C. H., 1941: The exchange of dissolved substances between mud and water in lakes. — J. EcoL 29: 280–329.
  • Mortimer, C. H. 1942: The exchange of dissolved substances between mud and water in lakes. — J. Ecol. 30: 147–201.
  • Mountfort, D. O. & Asher, R. A., 1981: Role of sulfate reduction versus methanogenesis in terminal carbon flow in polluted intertidal sediment of Waimea inlet, Nelson, New Zealand. — Appl. Environm. Microbiol. 42: 252–258.
  • Moller, G., 1977: Schadstoff-Untersuchungen an datierten Sedimentkernen aus dem Bodensee. — Z Naturforsch. 32: 920–925.
  • Nedwell, D. B. & Abram, J. W., 1979: Relative influence of temperature and electron donor and electron acceptor concentrations on bacterial sulfate reduction in salt-marsh sediment. — Microb. Ecol. 5: 67–72.
  • Newell, B. S., Morgan, B. & Cundy, J., 1967: The determination of urea in seawater. — J. Mar. Res. 25: 201–202.
  • Neyra, M., 1982: Nitrification et dénitrification en milieu aquatique: coexistence dans le sédiment. — Thèse, Univ. de Lyon, 19. Nov. 1982.
  • OECD, 1982: Eutrophisation des eaux: méthodes de surveillance, d'évaluation et de lutte. — OECD, Paris, 167 pp.
  • Ongley, E. D., Ralston, J. G. & Thomas, R. L., 1977: Sediment and nutrient loadings to Lake Ontario: methodological arguments. — Canad. J. Earth Sci. 14 (7): 1555–1565.
  • Oremland, R. S. & Polcin, S., 1982: Methanogenesis and sulfate reduction: competitive and noncompetitive substrates in estuarine sediments. — Appl. Environm. Microbiol. 44: 1270–1276.
  • Peters, R. H., 1981: Phosphorous availability in Lake Memphremagog and its tributaries. — Limnol. Oceanogr. 26 (6): 1150–1161.
  • Poon, Calvin, P. C., 1977: Nutrient exchange kinetics in water-sediment interface. — Prog. Wat Tech. 9: 881–895.
  • Rigler, F. H., 1975: Nutrient kinetics and the new typology. — Verh. Internat Verein. Limnol. 19: 197–210.
  • Sagher, A., 1976: Availability of soil runoff phosphorous to algae. — Ph. D. Thesis, Univ. Wisconsin — Madison, 192 pp.
  • Schuiling, R. D., 1977: Source and composition of lake sediments. — In: Golterman, H. L. (ed.), Interactions between sediments and fresh water. Junk/Pudoc, The Hague, 473 pp.
  • Senior, E., Lindstrom, E. B., Banat, J. M. & Nedwell, D. B., 1982: Sulfate reduction and methanogenesis in the sediment of a saltmarsh on the east coast of the United Kingdom. — Appl Environm. Microbiol. 43: 987–996.
  • Sigg, L. & Stumm, W., 1980: The interaction of anions and weak acids with the hydrous geothite (a-FeOOH) surface. — Colloids and Surfaces 2. Elsevier Sci. Publ. Co., Amsterdam.
  • Sly, P. G. (ed.), 1982: Sediment/Freshwater Interaction. Junk Publ., The Hague, 701 pp. — In: Developments in Hydrobiology, Hydrobiologia, 91,92.
  • Smith, E. A., Mayfield, C. I. & Wong, P. T. S., 1978: Naturally occurring apatite as a source of orthophosphate for growth of bacteria and algae. — Microbial Ecol. 4: 105–117.
  • Smith, E. A. H., Mayfield, C. I., Wong, P. T. S. & Silverberg, B. A., 1977: Effect of naturally occurring apatites on growth and morphology of algae. — Can. J. Microbiol. 23: 1188–1196.
  • Stanford, G., Legg, J. O., Dzienia, S. & Simpson, Jr., E. C., 1975: Denitrification and associated nitrogen transformation in soils. — Soil Sci. 120: 147–152.
  • Stewart, W. P. D., Preston Peterson, T. H. G. & Christofi, N., 1982: Nitrogen cycling in eutrophic freshwaters. — Phil. Trans. R. Soc. Londl. 296: 491–509.
  • Stumm, W. & Leckie, J. O., 1971: Phosphate exchange with sediments: its role in the productivity of surface waters. — In: Proc. 5th Internat Water Pollution Research Conference, July—August 1970, III: 26–1–16.
  • Sunborg, A., 1973: Significance of fluvial processes and sedimentation. — In: Fluvial processes and sedimentation: 1–10. Proc. Hydrol. Symp. Univ. Alberta, Edmonton. Can. Dept. Environ., Inland Wat. Direct., Ottawa.
  • Takahashi, M. & Saijo, Y., 1981: Nitrogen metabolism in Lake Kizaki, Japan. II. — Arch. Hydrobiol 92: 359–376.
  • Thomas, E. A., 1973: Phosphorous and eutrophication. — In: Griffith, E. J., Beeton, A., Spencer, J. M. & Mitchell, D. T. (eds.), Environmental Phosphorous Handbook. John Wiley, New York, 718 pp.
  • Tiedje, J. M., Sexstone, A. J., Myrold, D. D. & Robinson, J. A., 1982: Denitrification; ecological niches, competition and survival. — Antonie van Leeuwenhoek 48: 569–583.
  • Tipping, E. & Cooke, D., 1982: The effects of adsorbed humic substances on the surface charge of goethite (α-FeOOH) in freshwaters. — Geochim. Cosmochim. Acta 46: 75–80.
  • Tirén, T., 1977: Denitrification in sediment-water systems of various types of lakes. — In: Golterman, H. L., (ed.), Interactions between sediments and freshwater. Junk Publishers, The Hague. 473 pp.
  • Tirén, T. 1983: In press.
  • Turner, R. R., Laws, E. A. & Harriss, R. C., 1983: Nutrient retention and transformation in relation to hydraulic flushing rate in a small impoundment. — Freshwater Biology 13: 113–127.
  • van Eck, G. T. M., 1982: Forms of phosphorous in particulate matter from the Hollands Diep/Haringvliet, The Netherlands. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 665–683.
  • van Gemerden, H., 1967: On the bacterial sulfur cycle of inland waters. — J. H. Pasmans, Den Haag, 110 pp. (Thesis, Univ. Leiden).
  • van Kessel, J. F., 1976: Influence of denitrification in aquatic sediments on the nitrogen content of natural waters. — Centre for Agriculture Publishing and Documentation, Wageningen.
  • Verdouw, H. & Dekkers, E. M. J., 1980: Iron and manganese in Lake Vechten (The Netherlands); dynamics and role in the cycle of reducing power. — Arch. Hydrobiol 89 (4): 509–532.
  • Verhoff, F. H., Melfi, D. A. & Yaksich, S. M., 1982: An analyses of total phosphorous transport in river systems. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 241–253.
  • Vincent, W. F. & Downes, M. T., 1981: Nitrate accumulation in aerobic hypolimnia; relative importance of benthic and planktonic nitrifiers in an oligotrophic lake. — Appl. Environm. Microbiol 42: 565–573.
  • Wagner, G., 1976: Simulationsmodelle der Seeneutrophierung, dargestellt am Beispiel des Bodensee-Obersees. Teil II: Simulation des Phosphorhaushaltes des Bodensee-Obersees. — Arch. Hydrobiol 78 (1): 1–41.
  • Wang, W., 1980: Fractionation of sediment oxygen demand. — Water Res. 14: 603–612.
  • Williams, J. D. H., Shear, H. & Thomas, R. L., 1980: Availability to Scenedesmus quadricauda of different forms of phosphorous in sedimentary materials from the Great Lakes. — Limnol. Oceanogr. 25 (1): 1–11.
  • Winfrey, M. R. & Ward, D. M., 1983: Substrates for sulfate reduction and methane production in intertidal sediments. — Appl. Environm. Microbiol 45: 193–199.
  • Young, T. C. & Depinto, J. V., 1982: Algal-availability of particulate phosphorous from diffuse and point sources in the lower Great Lakes basin. — In: Sly, P. G. (ed.), Sediment/Freshwater Interaction: 111–121.

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