References
- Andersen, J. M., 1976: An ignition method for determination of total phosphorus in lake sediments. — Water Res. 10: 329–331.
- Carignan, R., 1982: An empirical model to estimate the relative importance of roots in phosphorus uptake by aquatic macrophytes. — Can. J. Fish. Aquat. Sci. 39: 243–247.
- Carignan, R. 1984: Interstitial water sampling by dialysis: Methodological notes. — Limnol. Oceanogr., in press.
- Carpenter, S. R., 1979: The invasion and decline of Myriophyllum spicatum in a eutrophic Wisconsin lake. — In: J. E. Breck, R. T. Prentki & O. L. Loucks (eds.), Aquatic plants, lake management, and ecosystem consequences of lake harvesting. 434 pp. Center for Biotic Systems, Inst, for Environm. Studies, Univ. of Wisconsin-Madison.
- Cattaneo, A. & Kalff, J., 1980: The relative contribution of aquatic macrophytes and their epiphytes to the production of macrophyte beds. — Limnol. Oceanogr. 25: 280–289.
- Chien, S. H. & Black, C. A., 1976: Free energy formation of carbonate apatites in some phosphate rocks. — Soil Sci. Soc. Amer. Proc. 40: 234–239.
- Cline, J. D., 1969: Spectrophotometric determination of hydrogen sulfide in natural waters. — Limnol. Oceanogr. 14: 454–458.
- Davis, M. B. & Ford, M. S., 1982: Sediment focusing in Mirror Lake, New Hampshire. — Limnol. Oceanogr. 27: 137–150.
- Environment Canada, 1979: Analytical methods manual 1. — Inland Directorate, Water Quality Branch, Ottawa.
- Evans, R. D. & Rigler, F. H., 1980: Measurement of whole lake sediment accumulation and phosphorus retention using lead-210 dating. — Can. J. Fish. Aquat. Sci. 37: 817–822.
- Hesslein, R. H., 1976: An in situ sampler for close interval pore water studies. — Limnol. Oceanogr. 21: 912–914.
- Howes, B. L., Howarth, R. W., Teal, J. M. & Valiela, I., 1981: Oxidation-reduction potentials in a salt marsh: Spatial patterns and interactions with primary production. — Limnol. Oceanogr. 26: 350–360.
- Kelly, C. A. & Chynoweth, D. P., 1981: The contribution of temperature and of the input of organic matter in controlling rates of sediment methanogenesis. — Limnol. Oceanogr. 26: 891–897.
- McCann, H. G., 1968: The solubility of fluorapatite and its relation to that of calcium fluorite. — Arch. Oral Biol 13: 987–1001.
- Nichols, D. S. & Keeney, D. R., 1976: Nitrogen nutrition of Myriophyllum spicatum: Uptake and translocation of N by shoots and roots. — Freshwat Biol 6: 145–154.
- Ontario Ministry of the Environment, 1976: The Kawartha lakes water management study — water quality assessment (1972–1976).
- Parkhurst, D. L., Thorstenson, D. C. & Plummer, L. N., 1980: PHREEQE — A computer program for geochemical calculations. — U. S. Geolog. Survey, Rep. # 80–96.
- Prentki, R. T., 1979: Depletion of phosphorus from sediment colonized by Myriophyllum spicatum L. — In: J. E. Breck, R. T. Prentki & O. L. Loucks (eds.), Aquatic plants, lake management, and ecosystem consequences of lake harvesting: 434 pp. Center for Biotic Systems, Inst, for Environm. Studies, Univ. of Wisconsin-Madison.
- Smith, C. S., 1978: Phosphorus uptake by roots and shoots of Myriophyllum spicatum L. — Ph. D. Thesis, Univ. of Wisconsin-Madison.
- Stumm, W. & Morgan, J. J., 1981: Aquatic Chemistry, 2nd ed. — Wiley.