Chapter 1: The Characeae Plant
Chapter 1: The Characeae Plant
Chapter 1: The Characeae Plant
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Proctor, V.W. 1960. Dormancy and germination of Chara oospores. Phycol. News Bull. 13:<br />
64.<br />
Proctor, V.W. 1962. Viability of Chara oospores taken from migatory water birds. Ecology<br />
43:528-529.<br />
Proctor, V.W. 1975. <strong>The</strong> nature of charophyte species. Phycologia 14: 97-113.<br />
Proctor, V.W. 1980. Historical biogeography of Chara (Charophyta): an appraisal of the<br />
Braun-Wood classification plus a falsifiable alternative for future consideration. J.<br />
Phycol. 16: 218-233.<br />
Proctor, V.W. 1990. <strong>Characeae</strong> of Llano Estacado (Texas and adjacent New Mexico) playas.<br />
J. Biogeog. 17: 75-84.<br />
Proctor, V.W. 1999. Charophytivory, playas y papalotes, a local paradigm of global<br />
relevance. Aust. J. Bot. 47: 399-406.<br />
Rodrigo, M.A., Alonso-Guillén, J.L. and Soulié-Märsch, I. 2010. Reconstruction of the<br />
former charophyte community out of the fructifications identified in Albufera de<br />
València lagoon sediments. Aquat. Bot. 92: 14-22.<br />
Ray, S. and Chatterjee, P. 1989. Experimental studies on germination of oospores of Chara<br />
zeylanica. Adv. Appl. Phycol. 11: 271-276.<br />
Robinson, C.B. 1906. <strong>The</strong> Charae of North America. Bull. New York Bot. Garden 4: 244-<br />
308.<br />
Rodrigo, M.A. and Alonso-Guillén, J.L. 2008. In situ nitrogen uptake rates in two Chara<br />
species. Charophytes 1: 49-54.<br />
Ross, M.M. 1959. Morphology and physiology of germination of Chara gymnopitys A.<br />
Braun. I. Development and morphology of the sporeling. Aust. J. Bot. 7:1-11.<br />
Sakayama, H.,Nozaki, H., Kasaki, H. and Hara, Y. 2002. Taxonomic re-examination of<br />
Nitella (Charales, Charophyceae) from Japan based on microscopical studies of oospore<br />
wall ornamentation and rbcL gene sequences. Phycologia 41: 397-408.<br />
Scheffer M, van den Berg M, Breukelaar A, Breukers C, Coops, H, Doef, R, Meijer ML<br />
1994. Vegetated areas with clear water in turbid shallow lakes. Aquat. Bot. 49: 193-<br />
196.<br />
Scheffer, M., Hosper, S.H., Meijer, M.-L., Moss, B. and Jeppesen, E. 1993. Alternative<br />
equilibria in shallow lakes. Trends Ecol. Evol. 8:275-279.<br />
Schubert, H. and Blindow, I. 2003. Charophytes of the Baltic Sea. A.R.G. Gantner Verlag,<br />
Ruggell.<br />
Schwarz, A-M., Hawes, I. and Howard-Williams, C. <strong>The</strong> role of the photosynthesis/light<br />
relationship in determining lower depth limits of <strong>Characeae</strong> in South Island, New<br />
Zealand lakes. Freshwater Biol. 35: 69-80.<br />
Simons, J., Ohm, M., Daalder, R., Boers, P., Rip, W. 1994. Restoration of Botshol (<strong>The</strong><br />
Netherlands) by reduction of external nutrient load: recovery of a Characean<br />
community, dominated by Chara connivens. Hydrobiologia 275/276: 243-253.<br />
Sokol, R.C. and Stross, R.G. 1992. Phytochrome mediated germination of very sensitive<br />
oospores. Pl. Physiol. 100: 1132-1136.<br />
Spence, D.H.N. 1982. <strong>The</strong> zonation of plants in freshwater lakes. Adv. Ecol. Res. 12: 37-125.<br />
Starling, M.B., Chapman, V.J. and Brown, J.M.A. 1974. A contribution to the biology of<br />
Nitella hookeri A. Br. in the Rotorua Lakes, New Zealand. I. Inorganic nutritional<br />
requirements. Hydrobiologia 45: 91-113.<br />
Stewart N. and Church, J.M. 1992. Stoneworts. <strong>The</strong> Red Data Book of Britain and Ireland.<br />
<strong>The</strong> Joint Nature Conservation Committee, Peterborough, UK.<br />
Stross, R.G., Sokol, R.C., Schwarz, A-M. and Howard-Williams, C. 1995. Lake optics and<br />
depth limits for photogenesis and photosynthesis in charophyte meadows.<br />
Hydrobiologia 302: 11-19.