Ban, S. 1992. Seasonal distribution, abundance and viability of diapause eggs of Eurytemora affinis (Copepoda: Calanoida) in the sediment of Lake Ohnuma, Hokkaido. Bull. Plankt. Soc. Japan, 39(1):41-48.

Ban, S. & Minoda, T. 1991. The effect of temperature on the development and hatching of diapause and subitaneous eggs in Eurytemora affinis (Copepoda: Calanoida) in Lake Ohnuma, Hokkaido, Japan. In: Uye, Nishida & Ho eds. Proceedings of the Fourth International Conference on Copepoda. Bull. Plankt. Soc. Japan, (Spec., Vol).:299-308.

Castro-Longoria, E. 2001. Comparative observations on the external morphology of subitaneous and diapause eggs of Acartia species from Southampton water. Crustaceana, 74(3):225-236.

Hagiwara, A. & Hino, A. 1990. Feeding history and hatching of resting eggs in the marine rotifer Brachionus plicatilis. Nippon Suis. Gakk., 56(12):1865-1971.

Hoffmeyer, M. S. 1994. Seasonal succession of Copepoda in the Bahía Blanca Estuary. In: Ferrari, F. D. & Bradley, B. P. eds. Ecology and morphology of copepods. Hydrobiologia, 292/293:303-308.

Hoffmeyer, M. S. 2004. Decadal change in zooplankton seasonal succession in the Bahía Blanca Estuary, Argentina, following introduction of two zooplankton species. J. Plankt. Res., 26(2):1-9.

Kasahara, S.; Uye, S. & Onbé T. 1974. Calanoid copepod eggs in sea bottom muds. Mar. Biol., 26: 167-171.

Kasahara, S.; Uye S. & Onbé T. 1975. Calanoid copepod eggs in sea-bottom muds. II. Seasonal cycles of abundance in the populations of several species of copepods and their eggs in the inland seas of Japan. Mar. Biol., 25-29.

Katajisto, T. 1996. Copepod eggs survive a decade in the sediments of the Baltic Sea. Hydrobiologia, 320:153-159.

Katajisto, T.; Viitasalo, M. & Koski, M. 1998. Seasonal occurrence and hatching of calanoid copepods in sediemnts of the northern Baltic Sea. Mar. Ecol. Prog. Ser., 163:133-143.

Lindley, J. A. 1990. Distribution of overwintering calanoid copepod eggs in the sea-bed sediments around southern Britain. Mar. Biol., 104:209-217.

Marcus, N. H. 1990. Calanoid copepod, cladoceran, and rotifer eggs in sea-bottom sediments of northern Californian coastal waters: identification, occurrence and hatching. Mar. Biol., 105:413-418.

Marcus, N. H. 1996. Ecological and evolutionary significance of resting eggs in marine copepods: past, present, and future studies. Hydrobiologia, 320:141-152.

Marcus, N. H.; Lutz, R., Burnett, W. & Cable, P. 1994. Age viability and vertical distribution of zooplankton resting eggs from an anoxic basin: Evidence of an egg bank. Limnol. & Oceanogr., 39(1):154-158.

Moscatello, S.; Rubino, F.; Saracino, O. D.; Fanelli, G.; Belmonte, G. & Boero, F. 2004. Plankton biodiversity around the Salento Peninsula (South East Italy): an integrated water/sediment approach. In: Ros, J. D.; Packard, T. T.; Pili, J. M.; Pretus, J. L. & Blasco, D. eds. Biological oceanography at the turn of the Millenium. Sci. Mar., 68 (Suppl.1):85-102.

Onbé, T. 1978. Sugar flotation method for sorting the resting eggs of marine cladocerans and copepods from sea-bottom sediment. Bull. jap. Soc. sci. Fish., 44:1411.

Sabatini, M. E. 1989. Ciclo anual del copépodo Acartia tonsa (Dana, 1849) en la zona interna de la Bahía Blanca (Pcia. de Buenos Aires, Argentina). Sci. Mar., 53:847-856.

Uye, S. 1985. Resting egg production as a life history strategy of marine planktonic copepods. Bull. Mar. Sci., 37:440-449.

Berasategui, A. A. 2005. Efecto de la temperatura experimental sobre la producción y eclosión de huevos de Acartia tonsa (Copepoda, Calanoida). Tesis de grado. Bahía Blanca. Argentina. Universidad Nacional del Sur. 28 p.

Katajisto, T. 2006. Benthic resting eggs in the life cycles of calanoid copepods in the northern Baltic Sea. Ph.D Thesis. Helsinki, Walter and Andrée de Nottbeck Found.Scient. Reports, no. 29. 159p.

Molina, L. 2005. Resuspensión de huevos de copépodos y sedimentos en una planicie de marea de Puerto Cuatreros, estuario de Bahía Blanca. Tesis de grado. Bahía Blanca. Argentina. Universidad Nacional del Sur. 35 p.