Disinfection is a common disease
management tool for aquaculture sector. It can be both a routine bio-security
practice to prevent specific diseases or a routine sanitation process to reduce
overall occurrence of diseases that may lower farm productivity. The nature and
mode of disinfection greatly varies with the specific reason that leads to
disinfection practices. The most commonly practiced approach is chemical treatment
in specified doses and for sufficient retention periods to destroy pathogenic
organisms that would otherwise access the water systems repetitively.
In aquaculture systems, the
threat of cross contamination is prevalent between fauna in the same tank as
well as between water holdings, both in fish and crustacean farming. In
addition, use of disinfectants is not possible in open systems owing to
environmental impacts of chemicals in natural waters and in case of seawater;
there is risk of residual oxidant by-products due to chemical reactions with
salts in water. Thus disinfectants can be applied safely and most conveniently
only to hatcheries and incubation tanks.
Since most aquatic species are
highly sensitive to toxic chemicals and the disposal of such waters threatens
to contaminate natural water bodies, it is highly needed that a “safe” product
be used for disinfection. The term “safe” implies to toxicity tolerance by farm
as well as wild aquatic organisms. Thus only a few chemicals can truly adhere
to the properties of ideal aquaculture disinfectants in real practice. Some
disinfectants are effective against a large range of microorganisms: bacteria,
viruses, fungi and parasites. In addition some chemicals are selective biocides to certain
strains of exotic eutrophic microalgae. While some disinfectants can work on a
short term before the microbes grow resistant to them. Thus the choice of
disinfectant and methods of disinfection should be based on the spectrum and
ease of application as well.
Requisites of an ideal Disinfectant are
summarized herein:
-Should
have a wide spectrum antimicrobial activity
-Should
not be irritating to aquatic organisms or humans
-Should
have minimal toxicity to non target organisms
-Should
have high penetrability
-Should
be active in presence of Pus and Necrotic Tissue
-Should
be non-interfering with normal immunity of fishes
-Should
be cost friendly
-Should
be non corrosive and non staining
-Should
be highly stable
-Should
be biodegradable with nil/minimum bioaccumulation potential
Disinfectants can be classified
based on their mode of activity as:
- Oxidizing
Agents
-Reducing
agents
-Detergents
Oxidizing Disinfectants can again
be of two types:1
a. Those
that oxidize without releasing oxygen, most common being Halogen bleachers and
Potassium Permanganate and Peracetic Acid
b. Those
that oxidize by release of nascent oxygen i.e. Peroxides
They are mostly used to control
phytoplankton, pathogens and bottom soil oxidants. Most oxidizing agents are
irritant to skin and eyes in high concentrations and except for chlorine, most
don’t have long bioaccumulation potential thus non contaminants to food.
Reducing agents consist of
organic aldehydes like Formaldehyde and Glutaraldehyde that are popular general
disinfectants used as germicide, fungicide or as preservatives in industries.
Their main mode of action is by formation of covalent bonds and disruption of
functional groups in cellular proteins. They are thus target specific and can
be easily applied in selective removal of microbial contaminants. Aldehyde
disinfectants are non-irritant, readily biodegradable and do not possess
bioaccumulation risks.
Detergents or popularly referred
to as Cationic
detergents are Quaternary ammonium compounds (Benzalkonium Chloride) that
are used I hatcheries to eradicate aquatic insect larvae and nematodes. They
are active in disruption of cell membrane and destruction of cytoplasm and cell
nuclear material. They are highly active against Gram negative bacteria. There
are no known records of reactive products not degrading or chances of bioaccumulation
in environment as of yet.
Irrespective of the mode of
application and action most aquaculture disinfectants listed above seem to be
highly effective in their respective treatment domain but choice of the same
lies totally on the users end needs of disinfection and the type of pathogen to
be controlled.
ChemEqual is a vast online
chemical B2B marketplace and various grades and compositions of specific
Aquaculture Disinfectants and Biocides can be searched here.
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