126 



and . 1982. Phosphorus release by 



submerged macrophytes: significance to epiphyton and 

 phytoplankton. Limnol. Oceanogr., 27(3): 419-427. 



Carlson, R.E. 1977. A trophic state index for lakes. Limnol. 

 Oceanogr., 22(2): 361-369. 



Carney, H.J. 1982. Algal dynamics and trophic interactions in the 

 recent history of Frains Lake, Michigan. Ecology, 63(6): 1814- 

 1826. 



Carpenter, S.R. 1981. Submersed vegetation: an internal factor in 

 lake ecosystem succession. Am. Nat., 118(3): 372-383. 



and D.M. Lodge. 1986. Effects of submersed 



macrophytes on ecosystem processes. Aquat. Bot., 26: 341-370. 



Cattaneo, A. 1987. Periphyton in lakes of different trophy. Can. J. 

 Fish. Aquat. Sci., 44: 296-303. 



and J. Kalff. 1979. Primary production of algae 



growing on natural and artificial aquatic plants: A study of 

 interactions between epiphytes and their substrate. Limnol. 

 Oceanogr., 24: 1031-1037. 



and . 1980. The relative contribution of 



aquatic macrophytes and their epiphytes to the production of 

 macrophyte beds. Limnol. Oceanogr., 25: 280-289. 



and . 1981. Reply to comment by Gough 



and Gough. Limnol. Oceanogr., 26(5): 988-989 



Charles, D. 1984. Recent pH history of Big Moose Lake (Adirondack 

 Mountains, New York, U.S.A.) inferred from sediment diatom 

 assemblages. Verh. Internat. Verein. Limnol., 22: 1-7. 



. 1985. Relationships between surface sediment 



diatom assemblages and lakewater characteristics in 

 Adirondack lakes. Ecol., 66(3): 994-1011. 



