The vast majority of soft corals and gorgonians available in the hobby rely greatly on zooxanthellae for their nutrition. However, recent studies have shown zooxanthellae may not be able to meet the total nutritional needs of all soft corals. Fabricius and Klumpp (1995) found that twelve of the most common photosynthetic soft coral species investigated on the Great Barrier Reef could not meet their carbon requirements by photosynthesis alone. This brings up the question of just where do they get their carbon? Many octocorals are known as polytrophic feeders, meaning that they are capable of obtaining nutrition from more than one source (Williams, 1993). Possible sources may be one or all of the following: the direct absorption of nutrients, the ingestion of zooplankton and/or phytoplankton, the ingestion of "marine snow" along with its attached bacteria and organic material. Several studies have shown that soft corals, gorgonians and sea pens can feed on a variety of zooplankton such as copepod nauplii and eggs, invertebrate eggs and other small items of poor mobility. Many of these studies, however, were conducted in the laboratory, using artificial foods (Artemia) or concentrated natural zooplankton of unknown density (Fabricius et al., 1995a). These studies showed that octocorals tend to be highly selective for non-evasive forms such as mollusc larvae; indicating poor capture ability of more elusive prey such as large adult copepods. This poor capture ability is most likely due to the lack of effective nematocysts, resulting in the selection of less motile prey (Fabricius et al., 1995a). In fact, Fabricius (unpublished data) found that an inability to feed on zooplankton was widespread amongst zooxanthellate soft coral genera on the Great Barrier Reef (i.e. three species of Sarcophyton, two species of Sinularia, Cladiella sp., Nephthea sp. and Paralemnalia sp.). The role that zooplankton play in the nutrition of photosynthetic octocorals is, as yet, unclear but new information is showing that they contribute only a small portion to the nutritional budget of many octocorals (Fabricius et al., 1995a and b). However, many of the studies that looked at a corals ability to feed on zooplankton often used Artemia nauplii as prey items under controlled situations. Artemia are rather large, and it may not be surprising given the small size and weak nematocysts of many soft corals, that they are not easily captured.
