PENGARUH APLIKASI SISTEM AKUAKULTUR TERTUTUP HIBRID ZERO WATER DISCHARGE-RECIRCULATING AQUACULTURE SYSTEM (ZWD-RAS) DENGAN SUPLEMENTASI PAKAN SINBIOTIK TERHADAP PROFIL KOMUNITAS MIKROBA DAN PERFORMA PERTUMBUHAN SERTA KELULUSHIDUPAN PADA PEMBESARAN UDANG PUTIH (LITOPENAEUS VANNAMEI)
White Shrimp (Litopenaeus vannamei) contributes about 75% of the total shrimp production in Indonesia. The Indonesian Ministry of Maritime Affairs and Fisheries is now targeting a 250% increase in shrimp exports by 2024. However, low water quality and the issue of infectious diseases by pathogeni...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/65993 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | White Shrimp (Litopenaeus vannamei) contributes about 75% of the total shrimp
production in Indonesia. The Indonesian Ministry of Maritime Affairs and Fisheries
is now targeting a 250% increase in shrimp exports by 2024. However, low water
quality and the issue of infectious diseases by pathogenic bacteria such as vibriosis
are still major problems in white shrimp culture. Several alternative strategies that
can be done to deal with these problems are: (1) the application of a closed
aquaculture system such as the ZWD-RAS hybrid which can maintain the stability
of the physical, chemical, and biological parameters of culture water quality and
improve aquaculture performance; (2) cultivation at low salinity to facilitate disease
control; and (3) feeding with synbiotic supplementation which is a mixture of
probiotics and prebiotics to improve health and disease resistance in white shrimp.
In this study, the profile of the microbial community formed using the culturedependent
method was compared between ZWD-RAS hybrid treatment with
synbiotic feed ('HS'), ZWD-RAS hybrid with commercial feed ('HK'), semi-batch
control with synbiotic feed. ('KS'), and semi-batch control with commercial feed
('KK') also the relationship between growth and survival of white shrimp during 45
days of the nursery period. The research began with the preparation and
conditioning of the ZWD-RAS hybrid system by adding the probiotic Halomonas
alkaliphila and the microalgae Chaetoceros calcitrans to the ZWD tank; and the
manufacture of synbiotic feed by mixing commercial feed with H. alkaliphila, red
seaweed Kappaphycus alvarezii, and microalgae Spirulina sp. During cultivation,
water quality parameters were measured as well as the addition of microbes to the
ZWD tank regularly. Diversity, dominance, and similarity index were calculated on
the water microbial community on days 0, 14, 28, and 45 and the shrimp gut
microbial community on day 45. Observation of the total plate count (TPC) on NA
medium showed that the total heterotrophic bacteria in the hybrid system water
samples (HS and HK) was higher than the control (KS and KK); while TPC on
TCBS medium indicated the number of Vibrio sp. lower in the hybrid treatment
compared to the control. Relatively similar results were observed in samples of
shrimp intestines with an indication of the number of Vibrio sp. which was lower
in the HS and KS treatments compared to the HK and KK treatments. The index values of diversity, dominance, and similarity were found to fluctuate every time in
all treatments. The total white shrimp biomass from HS, HK, KS, and KK was
found to be 141.40±35.21 gr, respectively; 63.75±21.83 gr; 108.50±13.03 g; and
66.15±8.12gr. The survival rates of white shrimp from HS, HK, KS, and KK were
83.0±0.2%, respectively; 83.0±0.1%; 71.0±0.0%; and 53.0±0.1%. From the overall
results of this study, it was concluded that synbiotic feed supplementation and the
application of the ZWD-RAS hybrid system were able to maintain the stability of
culture water quality, including microbiological parameters, as well as improve the
growth and survival performance of white shrimp at the nursery stage. |
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