• Augier, J. (1953). La constitution chemique de quelques Floridées Rhodomélacées. Revue générale de botanique, 60, 257.
  • Bouveng, H., Lindbehg, E. & Wickberg, B. (1955). Low molecular weight carbohydrates in algae. IX. Structure of the glyceric acid mannoside from red algae. Acta chemica scandinavica, 9, 807.
  • Court, G. J. (1977). The symbiotic association of the red algae Janczenskia gardneri and Laurencia spectabilis (Ceramiales, Rhodophyceae). Journal of Phycology, 13(Suppl.)14.
  • Craigie, J. S. (1974). Storage Products. In: Algal Physiology and Biochemistry (Ed. by W. D. P. Stewart), p. 206. Blackwell, Oxford .
  • Evans, L. V. & Holligan, M. S. (1972). Correlated light and electron microscope studies on brown algae. 1. Localization of alginic acid and sulphated polysaccharides in Dictyota. New Phytologist, 71, 1161.
  • Evans, L. V., Callow, J. A. & Callow, M. E. (1973). Structural and physiological studies on the parasitic red alga Holmsella. New Phytologist, 72, 393.
  • Evans, L. V., Callow, J. A. & Callow, M. E. (1978). Parasitic red algae: an appraisal. In: Modern Approaches to the Taxonomy of Red and Brown Algae (Ed. by D. E. G. Irvine and J. H. Price), Systematics Association special volume no. 10, ch. 5, p. 87. Academic Press, London , New York .
  • Evans, L. V., Callow, M. & Callow, J. A. (1979). Host parasite relationships in seaweed. In Proceedings of the International Seaweed Symposium, Vol. 8, Bangor 1974 (in press).
  • Feder, N. J. & O'Brien, T. P. (1968). Plant microtechnique, some principles and new methods. American Journal of Botany, 55, 123.
  • Feldmann, J. & Feldmann, G, (1958). Recherches sur quelques Floridées psrasités. Revue générale de botanique, 65, 49.
  • Jensen, W. A. (1962). Botanical Histochemistry. W. H. Freeman, San Francisco & London .
  • Kremer, B. P. & Vogl, R. (1975). Zur Chemotaxonomischen bedeutung des [14C]-Markierungsmusters bei Rhodophyceen. Phytochemistry, 14, 1309.
  • Kugrens, P. & West, J. A. (1973). The ultrastructure of an alloparasitic red alga Choreocolax polysiphoniae. Phycologia 12, 175.
  • Lewis, D. H. & Smith, D. C. (1967). Sugar alcohols (polyols) in fungi and green plants. II. Methods of detection and quantitative estimation in plant extracts. New Phytologist, 66, 185.
  • Mackinney, G. (1941). Absorption of light by chlorophyll solution. Journal of Biological Chemistry 140, 315.
  • Nonomura, A. M. (1979). Development of the parasitic red alga Janczewskia morimotoi on its host Laurencia nipponica (Ceramiales). Journal of Phycology (in press).
  • Rees, W. R. & Reynolds, T. (1958). A solvent for the paper chromatographic separation of glucose and sobitol. Nature, 181, 767.
  • Setchell, W. A. (1918). Parasitism among the red algae. Proceedings of the American Philosophical Society, 57, 155.
  • Sidman, R. L., Mottla, P. A. & Feder, N. (1961). Improved polyester wax embedding for histology. Stain Technology, 36, 279.
  • Sturch, H. H. (1926). Choreocolax polysiphoniae Reinsert. Annals of Botany, 40, 585.
  • Turner, C. H. C. & Evans, L. V. (1977). Physiological studies on the relationship between Ascophyllum nodosom and Polysiphonia lanosa. New Phytologist, 75, 363.
  • Wickberg, B. (1958). Synthesis of l-glyceritol-d-galactopyranosides. Acta Chemica scandinavica, 12 1187.
  • Whyte, J. N. C. & Southcott, B. A. (1970). An extraction procedure for plants: Extracts from the red alga Rhodomela larix. Phytochemistry, 9, 1159.