3.3 Oxygen consumption of abaloneTh

3.3 Oxygen consumption of abalone

The amount of oxygen consumed by abalone is an important factor in the rearing and transportation of the organism itself. It varies largely with water temperature and between day and night (Table 1).

Table 1. Amount of oxygen consumption at various seawater temperatures

Water temperature (°C) 5.5 13 14 22 23
Amount of consumption
m1/kg hr day 16.42 18.2 23.5 57.2 63.9
night - 46.2 33.6 63.8 74.2
The amount of oxygen consumption increases in direct proportion with the water temperature up to 24 °C but decreases at higher water temperature (Fig. 6). The amount of oxygen consumption is also closely related to the chloride content of the seawater (Fig. 7). The amount consumed does not vary when the chloride content is more than 14 ° /00 but below 13 ° /00 it decreases very rapidly. Oxygen consumption is also greatly affected by the concentration of NH3-N. The more ammonia-nitrogen in the seawater, the less oxygen is consumed (Fig. 8).

Figure 5.
Figure 5. Relationship between the shell length and the weight of abalone.

Figure 6.
Figure 6. Amount of oxygen consumed at different water temperatures (when chloride content is 17 ‰).

Figure 7.
Figure 7. Amount of oxygen consumed at different chloride level.

Figure 8.
Figure 8. Amount of oxygen consumed at various concentrations of ammonianitrogen.

3.4 Food and feeding habits

The feeding habits of abalones depend on the growth stage, body size and season.

3.4.1 Free-swimming and settling stages

Up to the trochophore stage the growth is on the nutrients from the egg yolk. Veliger and settling larvae begin to feed on unicellular algae and/or organic substances. More unicellular algae cells are taken in as the mouth widens and the parts develop further.

3.4.2 Juvenile and adult stages

Juvenile abalone usually feed on benthic diatoms and small benthic organisms. Juvenile intake of food increases remarkably with the appearance of the first respiratory pore; the feeding also becomes more active. Young abalones of 5 mm in length begin eating young seaweeds and grow faster. At 13 mm long they feed on a great variety of seaweeds such as Laminaria and Undaria. Young barnacles, bivalves and foraminiferans are also found in the stomach of abalones.

The feeding habits of abalones ares also affected by the seawater temperature. Abalones seldom feed at a temperature of 8 °C, while it takes in food up to 6 % of its body weight at 12 °C, and 15 % at 20 °C. Abalones are particularly active during the early hours before sunset and sunrise. They maintain their weight when the feeding quantity is 0.61 % of their body weight.

Abalone is an opportunistic feeder. In experiments where several feeds were given, the eaten rate was Laminaria 53 %, Undaria pinnatifida 38 %, Ulva 6 %, and Porphyra 2 %.

3.4.3 Food conversion rate

The food conversion rate of abalone depends on the kind of feed (Table 2).

Table 2. Food conversion rate

Kind of feed Undaria Ulva Carpopeltis Laminaria 1+2 2+3 1+3
(1) (2) (3) (4)
Feed conversion rate 5.07 2.29 1.5 16.07 4.9 1.98 5.28
The food conversion rate also varies with the size of the abalone (Table 3).

Table 3. Food conversion rate by size

Weight (g) 22–29 59–94
Food
Undaria pinnatifida 5–8 9–11
Rhodymonia palmata 8–13 22–31
The bigger the abalone, the higher the food conversion rate (FCR). The growth rate also depends on the kind of food taken in, which also has an effect on gonad maturity. The higher the FCR, the more the weight increase. Laminaria and Undaria are good seaweed species for inducing gonad maturation while Ulva or Phodymenia are less effective.

3.5 The migration of abalone

A newly hatched trocophore swims considerable distances in the water current for 3–7 days until it enters the settling stage. From then on it becomes a benthic organism and moves with the aid of its foot. An abalone was observed to have moved 66 cm in 1 minute over a glass surface. The moving habit of an abalone differs depending on the body size, time of day, and season. As it grows bigger, it moves to deeper locations. Abalones tuck themselves under rock and stone in the daytime, and crawl around in search of food at night, returning to their shelter before sunrise. Records show that abalones can move 50–80 m during 1 night. They migrate to shallower places or gather in small groups during the spawning season.

3.6 Predators and Parasites

Abalone predators include various species of marine finfish, crustaceans, echinoderms, molluscs and others (Table 4).

Studies have shown an average of 71 juvenile abalone shells and a maximum of 200 shells, found in the stomach of sea perch. Morphysa iwamushi which lives in the mud and feeds on the sole of abalone causing injury or death. Penaietis haliotis, a copepod, is a parasitic organism of the abalone digestive organ.

Table 4. Predators of abalone

Category Species
Finfish Red skate, shark, flat bream, black porgy, perch, Sparus macrocephalus, Goniistiys quadricornis, labridae, Stephanolepis cirrhifer, Microstomus achne, Canthigaster rivulatus, and congers
Crustaceans Pigettoa gisdridens,
Charybdis japonica,
Panulirus versicolor
Echinoderms Seastar, Asterina pectinifers, Buidia maculaia
Molluscs Octopus, Thais clavigera