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aquacultureSettlement
nitrateChemical substance
shrimpFood
nitriteChemical substance
UlvaInsect
monocultureCompany
The green seaweed Ulva reticulata used as co-culture species for monitoring the changes in toxic nitrogenous wastes in the shrimp culture system was found to efficiently remove ammonical nitrogen from 249.5 to 17.39 pmol nitrogen11 (94%). The nitrate nitrogen reduced from 28.39 to 24.21 pmol nitrogen 11 (5%) and nitrite nitrogen from 14.51 to 9.03 pmol nitrogen11 (22 %). The removal of total nitrogen from the aquaculture system was found to be 45 % when treated with seaweed. The concentration of toxic nitrogenous wastes was found to be always at a lower level in the integrated system when compared to the monoculture system. Seaweeds of economical importance can be used in aquaculture system to improve water quality and generate revenue fo...
Intensive marine aquaculture may cause negative impacts on the aquatic environment by causing water ...
The shrimp industry has grown rapidly due to the increase in market demand, which in turn resulted i...
The efficacy of two commercial aquaculture bioremediators to remove ammonia was tested under labor...
Not AvailableThe green seaweed Ulva reticulata used as co-culture species for monitoring the changes...
The experiment shows that the seaweeds Gracilaria sp. can be used in maintaining water quality in cl...
To control the water quality in the intensive shrimp mariculture pond by uptaking the total ammonia-...
Aquaculture is the fastest growing food production sector in the world and has come under increasin...
Ammonia-nitrogen uptake by seaweed was modeled based on the concept of ammonia-nitrogen permeation t...
One of the main obstacles to develop an intensive aquaculture is the accumulation of toxic inorganic...
Ammonia-nitrogen uptake by sterile Ulva sp. was studied for the control of culture pond water of int...
Effluent water from intensive prawn culture ponds typically has high concentrations of dissolved nut...
Aquaculture industry is often generating waste that negatively impact to the environment. These wast...
Background: Nitrifying bacteria in aquaculture environments are capable of removing toxic nitrogen c...
Aquaculture poses a great potential for protein production world wide. Land-based facilities reduce ...
In this study, a 2×3 factorial design with two levels of shrimp density (25 and 50 shrimp per m2) an...
Intensive marine aquaculture may cause negative impacts on the aquatic environment by causing water ...
The shrimp industry has grown rapidly due to the increase in market demand, which in turn resulted i...
The efficacy of two commercial aquaculture bioremediators to remove ammonia was tested under labor...
Not AvailableThe green seaweed Ulva reticulata used as co-culture species for monitoring the changes...
The experiment shows that the seaweeds Gracilaria sp. can be used in maintaining water quality in cl...
To control the water quality in the intensive shrimp mariculture pond by uptaking the total ammonia-...
Aquaculture is the fastest growing food production sector in the world and has come under increasin...
Ammonia-nitrogen uptake by seaweed was modeled based on the concept of ammonia-nitrogen permeation t...
One of the main obstacles to develop an intensive aquaculture is the accumulation of toxic inorganic...
Ammonia-nitrogen uptake by sterile Ulva sp. was studied for the control of culture pond water of int...
Effluent water from intensive prawn culture ponds typically has high concentrations of dissolved nut...
Aquaculture industry is often generating waste that negatively impact to the environment. These wast...
Background: Nitrifying bacteria in aquaculture environments are capable of removing toxic nitrogen c...
Aquaculture poses a great potential for protein production world wide. Land-based facilities reduce ...
In this study, a 2×3 factorial design with two levels of shrimp density (25 and 50 shrimp per m2) an...
Intensive marine aquaculture may cause negative impacts on the aquatic environment by causing water ...
The shrimp industry has grown rapidly due to the increase in market demand, which in turn resulted i...
The efficacy of two commercial aquaculture bioremediators to remove ammonia was tested under labor...
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