biology of moina mongolica (moinidae, cladocera) and perspective as live food for marine fish larvae: review
Z.H. He, J.G. Qin, Y. Wang, H. Jiang, Z. Wen-2001
Hydrobiologia, 457(1/3): 25-37
Abstract:
Moina mongolica, 1.0-1.4 mm long and 0.8 mm wide, is
an Old World euryhaline species. This paper reviewed the recent advances on
its autecology, reproductive biology, feeding ecology and perspective as
live food for marine fish larviculture. Salinity tolerance of this species
ranges from 0.4–1.4‰ to 65.2–75.4‰. Within 2–50‰ salinity, Moina
mongolica can complete its life cycle through parthenogenesis. The optimum
temperature is between 25 °C and 28 °C, while it tolerates high
temperature between 34.4 °C and 36.0 °C and lower temperature between 3.2
°C and 5.4 °C. The non-toxic level of unionised ammonia (24 h LC_50)
for M. mongolica is <2.6 mg NH_3–N l^−1.
Juvenile individuals filter 2.37 ml d^−1
and feed 9.45×10^6
algal cells d^−1,
while mature individuals filter 9.45 ml d^−1
and consume 4.94×10^6
algal cells d^−1.
At 28 °C, M. mongolica reaches sex maturity in 4 d and gives birth once a
day afterward; females carry 7.3 eggs brood^−1
and spawn 2.8 times during their lifetime. A variety of food can be used for
M. mongolica culture including unicellular algae, yeast and manure, but the
best feeding regime is the combination of Nannochloropsis oculata and horse
manure. Moina mongolica reproduces parthenogenetically during most lifetime,
but resting eggs can be induced at temperature (16 °C) combined with food
density at 2000–5000 N. oculata ml^−1.
The tolerance to low dissolved oxygen (0.14–0.93 mg l^−1)
and high ammonia makes it suitable for mass production. Biochemical analyses
showed that the content of eicospantanoic acid (20:5ω3) in M. mongolica
accounts for 12.7% of total fatty acids, which is higher than other live
food such as Artemia nauplii and rotifers. This cladoceran has the
characteristics of wide salinity adaptation, rapid reproduction and ease of
mass culture. The review highlights its potential as live food for marine
fish larvae.
(Department of Aquaculture, Dalian Fisheries
University, Dalian, 116024, China)