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Nitrogen and phosphorous budgets for integrated culture of whiteleg shrimp Litopenaeus vannamei with red seaweed Gracilaria corticata in zero water exchange system
Author(s) -
Hojjatollah Fourooghifard,
A Matinfar,
Mohammad Seddiq Mortazavi,
Kiuomars Roohani Ghadikolaee,
Roohani Ghadikolaee, M.
Publication year - 2018
Publication title -
aquadocs (united nations educational, scientific and cultural organization)
Language(s) - English
Resource type - Journals
ISSN - 1562-2916
DOI - 10.22092/ijfs.2018.116382
Subject(s) - litopenaeus , shrimp , phosphorus , algae , salinity , chemistry , zoology , nitrate , nitrogen , water quality , fishery , botany , biology , ecology , organic chemistry
In this study, a 2×3 factorial design  with two levels of  shrimp density (25 and 50 shrimp per m-2) and three  levels of   red algae density (0, 200 and 400g per m-2) was applied to calculate  nitrogen and phosphorous budgets in integrated culture of Litopenaeus vannamei with Gracilaria corticata  during 45 days under zero water exchange system. Juvenile of L.vannamei (5.82 ± 0.11 g) and G.corticata were cultured in 18 round 1 m3 poly ethylene tanks. Water temperature, dissolved oxygen (DO), pH and salinity were measured each 3- day.  Results indicated that shrimp density had a significant effect on pH and DO in the morning and in the afternoon. The algae density didn’t have a significant effect on pH and DO culturing tanks (p > 0.05). According to The results of this study, the main source of nitrogen and phosphorus input to the tanks during a 45- day culturing period was from feed. Shrimp and algae densities significantly affect the concentration of total ammonia, nitrite, nitrate and phosphate in water and an increase in shrimp density led to increase of these compounds whereas, increasing the algae density led to reduction of these compounds. Results indicated that increasing the density of G.corticata in all treatments, led to increase in biomass of harvested shrimp and the co-culture of G. corticata with L.vannamei decrease the amount of nitrogen and phosphorus in both water and sediments and improve the water quality of L.vannamei culture.

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