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BACTERIOPHAGE THERAPY TO CONTROL PATHOGENIC VIBRIOS

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Farm Input Supplies Follow up Field Advisory Services to ensure Better culture practices that meet the requirement of biosecurity sustainability and maximum production We follow Antibiotic-free farming protocols.

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We provide essential backend support on Water, Soil quality and Animal diseases diagnosis. This helps farmer and the field technicians to diagnose and control diseases, improve Production, ensure Profitability, Quality and food safety to the end consumer.

Success Stories

V Phages Growout I Chandrika Aqua Farm I Satyanarayana Raju

Mr. G. Sathyanarayana Raju is engaged in shrimp farming for the last 15 years. He is a first-generation farmer. He entered this field in his own interest. Before coming to the aquaculture field he was a LIC Agent. He is not only a farmer but also our Leading Dealer in West Godavari, Eluru Region under the banner, Chandrika Aqua Needs.  He is doing shrimp farming in a 4-hectare area.

 

His Farmed Shrimps suffering from severe vibriosis. He tried most of the products which claim to control white gut with vibrios. Nothing worked. When he used the V Phages Growout, it gave good result. He has applied V PHAGES GROWOUT in his total 15-acre ponds in this location, one 10 acre and another 5 acres pond. He used both as Pond water application and Feed application. In this 5-acre pond, since 15 days, shrimps are suffering with Running mortality and white gut. After using the V PHAGES GROWOUT, Shrimps has recovered from the infections. RMS reduced in 3-5 days. After 5th day, no white gut shrimps are visible in ponds. In another 2 ponds, 5 acre each stocked with same batch of seeds on same day, were harvested at 180 Count and 200 Count. But this pond is harvested at 100 Count. His observation on V PHAGES GROWOUT is good in acting against Vibrios and works only on Pathogenic vibrios but not on Probiotics or harmless bacteria. This is found by farmer, seeing the lab test and animal, which are doing fine.

 

MINATI NAYAK I SILDA I BALASORE

Minati Nayak is a 50-year-old Shrimp farmer from Silda, Balasore, Odisha. She is a dedicated hard-working farmer. She has three daughters and a son. Her son is a teacher in a government school. Besides farming, she runs a small saree boutique in Silda, Chania.

She has ten years of experience in shrimp farming. She has two ponds and a reservoir pond in an area of 7000 m2. She encountered white fecal diseases while farming. For her successful culture, she consistently used SMPL products Grow up, Build-Up, Seedone, Aquaone, Gut Act, Yeast 5 G, Rider, Yuka, B-Yuka 30, Raksha, and Macro – PS. She takes care of her farm along with her son and our staff Chandan Kumar.

The shrimp attained a marketable with an average body weight of 25 grams in a crop period of 78 days with an FCR of 1.3. The farmer harvested a crop of 1.55 tonnes of shrimps from an area of 2000m2.

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Good Aquaculture Practices

We provide essential backend support on Water, Soil quality and Animal diseases diagnosis. This helps farmer and the field technicians to diagnose and control diseases, improve Production, ensure Profitability, Quality and food safety to the end consumer.

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Shrimp Crop Calendar

A shrimp crop calendar is a systematic timeline that guides farmers through the stages of shrimp farming, ensuring effective management, healthy shrimp growth, and optimal yields.

It includes activities categorized into pre-stocking, stocking, and post-stocking phases.

 

1. Pre-Stocking Phase  :

         Duration: 3–4 weeks

  • Pond Preparation:
    • Drying the pond to remove unwanted organisms and pathogens.
    • Applying lime to adjust soil pH.
    • Desilting and leveling the pond bottom.
  • Water Preparation:
    • Filling the pond with clean water and treating it with chlorine or other disinfectants.
    • Adding probiotics to establish a favorable microbial environment.
    • Fertilizing to promote the growth of natural feed (phytoplankton and zooplankton).
  • Water Testing:
    • Monitoring pH, dissolved oxygen, salinity, and temperature.

 

2. Stocking Phase

         Duration: Initial stocking to Week 1

  • Seed Selection:
    • Procure disease-free and healthy post-larvae (PL) from a certified hatchery.
  • Acclimatization:
    • Gradually adapt the shrimp seeds to pond water temperature and salinity.
  • Stocking:
    • Stock the pond early in the morning or late evening to minimize stress on the shrimp.

 

3. Post-Stocking Phase

         Duration: 3–5 months (depending on shrimp species)

Weekly Management Activities:

  • Water Quality Monitoring:
    • Check pH (6.8–8.5), dissolved oxygen (≥5 ppm), ammonia, and salinity levels regularly.
  • Feed Management:
    • Provide balanced feed (pellets) in multiple rations based on shrimp size and growth stage.
    • Monitor feed conversion ratio (FCR).
  • Pond Maintenance:
    • Remove sludge periodically to prevent water contamination.
    • Maintain aerators to ensure oxygenation.

 

4. Mid-Cycle Activities (Month 2–3):

  • Shrimp Health Checks:
    • Conduct routine sampling to monitor shrimp growth and detect diseases.
    • Administer probiotics and other health supplements as needed.
  • Water Exchange:
    • Partial water exchange to maintain water quality.

 

5. Harvesting Phase

         Duration: Final Month (Week 18–22)

  • Pre-Harvest Preparation:
    • Reduce feeding a few days before harvesting.
    • Check market requirements (size and weight preferences).
  • Harvesting:
    • Use nets or drain the pond to collect shrimp.
    • Transfer shrimp to ice immediately to maintain quality.
  • Post-Harvest Pond Management:
    • Clean and prepare the pond for the next cycle.

 

Advantages of a Shrimp Crop Calendar:

  • Ensures timely completion of tasks.
  • Reduces risk of diseases and crop loss.
  • Optimizes feed and water management.
  • Improves shrimp health and quality.
  • Increases overall profitability.

 

 

Zoothamniosis Disease in Shrimp Farming
  • Zoothamniosis disease is one of the parasitic diseases found in vannamei shrimp caused by Zoothamnium penaei which usually lives with poor water quality. It causes the death of shrimps both in pond and hatchery. An abundance of Zoothamnium sp. infested the vannamei shrimp this is still reasonable so long as they do not cause high mortality. But, they can also cause problems in shrimp culture when the environmental conditions are poor and suitable for its development. This parasite that attack shrimps in order to determine the factors causing a decline in growth, meat quality and productivity.
  • This disease causes the shrimp to breathe hard, difficult to move and cannot find food, difficult to moult, inhibit growth, reduced economic value and cause death to 91%. In addition, this disease is a predisposing factor of secondary infection by bacteria and viruses.
  • Protozoan ectoparasite abundance varies greatly depending on the different physico-chemical conditions of the water bodies. Parasitic groups of protozoans are generally found in environmental conditions that experience instability in the water quality, especially temperature, as Zoothamnium sp. can breed faster in environmental conditions that have a temperature value above 30°C. Giving too much food causes the remaining food to be left in many ponds. This means that the content of the organic matter in the pond is high and spurs on the growth of the parasites which are also able to grow well.

 

Symptoms

Zoothamnium sp. Infected shrimps show black/ brown gills or appendage discoloration or fuzzy/cottony appearance due to a heavy colony of the organisms. In some cases, the severely affected shrimp die during the molting period.

The base of Zoothamnium forms a circular disc that fuses with the epicuticle but does not penetrate the underlying cuticle or epithelium. Discoloration of the gills is a common symptom of fouling by organisms and also detritus, silt, or iron which are trapped by the fouling organisms. 

 

Treatment

Chlorine and formalin are often used to treat those commensal organisms if shrimp display heavy infection. Changing water is the most preferable management, which stimulates molting of the shrimp in order to reduce the infestation.

 

Prevention and Control

Prevention and control of the occurrence of surface fouling are usually done through maintenance of good sanitary conditions at the pond bottom and the overall pond area. Organic matters and suspended solids in the pond should be reduced to prevent the attachment of those fouling organisms. This is achieved by changing the water or applying lime.

 

 

INFECTIOUS MYONECROSIS (IMN)

Infectious Myonecrosis Virus (IMNV) is an emerging shrimp RNA virus causing the disease, infectious myonecrosis (IMN). The disease was first recorded in Pacific white shrimp, P. vannamei in Brazil in 2002 and then in 2006 in Indonesia including Java island. The disease causes significant economic losses to aquaculture due to associated mortalities in P. vannamei in grow out ponds. The virus infects all the life stages of shrimp including post larvae, juveniles, and adult, but the mortality was observed in the juveniles and adult with a cooked appearance.

 

Causes

IMN is caused by a putative totivirus. IMNV particles are icosahedral in shape and 40 nm in diameter. Transmission via water and vertical transmission from broodstock (trans-ovarian or by contamination of the spawn eggs) to progeny is also likely to occur. IMNV may also be transmitted among farms by feces of seabirds or shrimp carcasses. Outbreaks of IMN with sudden high mortalities may follow stressful events such as capture by cast-net, feeding, sudden changes in salinity or temperature, etc., in early juvenile, juvenile, or adult P. vannamei in regions where IMNV is enzootic.

 

Symptoms

IMN disease causes significant mortality in grow out ponds and is characterised by acute onset of gross signs including focal to extensive whitish necrotic areas in the striated muscle, especially of the distal abdominal segments and the tail fan, which may become necrotic and reddened similar to the colour of cooked shrimp.

 

Juveniles and sub-adults of P. vannamei, farmed in marine or low salinity brackish water, appear to be the most severely affected by IMN disease. The principal target tissues for IMNV include the striated muscles, connective tissues, haemocytes and the lymphoid organ parenchymal cells. Severely affected shrimp become moribund and mortalities can be instantaneously high and continue for several days. Mortalities from IMN range from 40 to 70% in cultivated P. vannamei, and FCR of infected populations increase from normal values of ~ 1.5 to 4.0 or higher.

 

Prevention

No effective vaccines for IMNV are available. IMN can be prevented using SPF broodstock and practicing BMPs. 

Bacteriophages as a therapy for Shrimp Diseases

Why Bacteriophages?

With emergence of highly virulent pathogens in animal health and aquaculture, there is need for highly effective therapeutic product which can reduce usage of sanitisers and antimicrobials. Continuous use of sanitisers and antimicrobials lead to damage of microbiome (the normal non-pathogenic beneficial bacteria) in aquaculture pond ecosystem and shrimp gut. Recent explosion of scientific research has brought to light the importance of maintaining good and unfluctuating microbiome in shrimp and fish health and aquaculture success.

 

Under this condition Bacteriophages against virulent pathogens in aquaculture will be highly helpful in maintaining the natural ecosystem of the pond while killing the aquaculture pathogens. This strong argument inspired Salem Microbes to initiate Bacteriophage research as early as 2018 and has invested in infrastructure, technology, and technical competence in bacteriophages-based solution development for Aquaculture, Poultry and Food safety.

 

Salem Microbes possessing 23 years of probiotic tradition has always travelled with Bacteriophages hand in hand from screening to production operations. In the current day scenario, we are ‘embracing the foe as a friend’ to control pathogens of aquaculture. So, we are just jumping sides and exploiting their potential.

 

Today, we assure that we are in the forefront of bacteriophage research, specialising in isolation, characterisation, and formulation of Phage cocktail within a short turnaround time. Our Research & Development ensures quick screening in case of a sudden disease outbreak to make custom formulation of Bacteriophages from our expansive library of Bacteriophages maintained on-campus.

 

Phages and Probiotics , a Synergistic combination

Probiotics have played an undeniable role in the environmental management of the shrimp pond and are going to continue to sustain the shrimp ecosystem microbiome, the only catch here is use of quality probiotic inputs which farm owners and technical experts should be aware of.

 

Probiotics reduce the chances of infection by Competitive Exclusion, but once the critical levels of Vibrio species dominate the environment, it become nearly impossible for probiotic bacteria to exclude Vibrio species. Such critical condition demands quick and sure shot treatment, which is non residual in nature and non-GMO and which does not affect the (microbiome). Here comes the concept of Phage Therapy which is highly specific and quick acting in nature specifically targeting the aquaculture pathogens.

SALIENT FEATURES

Probiotics Application

only

Bacteriophage Application

only

Both Bacteriophages

& Probiotics applied condition

Mode of action

Competitive exclusion of pathogens by exhausting nutrients for the pathogens.

Works on identified targeted pathogens by killing them by lysis.

Phages Eradicates Identified pathogens. There by nutrients are  available for probiotic microbes.

How it manages pathogens ?

Dominates Pathogens but when conditions are conducive for pathogens, they cause disease

Eradicates pathogens thereby reduces frequency of disease.

Probiotics have a conductive environment to multiply fast & full

 

Long acting

Self-limiting

Phages keeps check

on fresh entrants

Residual formation

No Residues

No Residues

Phages leaves un-identified Natural Probiotic flora to thrive better

How they really work ?

Bacteriocin & Enzymatic action

Cell Lysis of Pathogenic bacteria.

Phages prevents horizontal transmission of toxin bearing plasmids.

Source

Non-GMO,

Nature isolates

Non-GMO,

Nature isolates

 

Traceability and proprietary nature

 

Identified & Genotyping done

 

Is Product

Upgradation possible ?

Continuous Improvement in Performance based on the new strains introduced.

Continuous update of Phages for New Identified Pathogens makes it a safe therapeutic product with broad spectrum of action.

 

Limitations

Fights with unknown pathogens

For Greater Benefit – It’s recommended to use Probiotics after this to dominate the environment and maintain positive balance for maximum results.

 

 

Virulent pathogens with Toxins continue to exist, multiply and cause infections.

Virulent pathogens with toxins are destroyed, thus halting their propagation.

 

 

How a Bacteriophage product become relevant to a condition?

A Good Bacteriophage consortia should contains identified lytic phages, specific against pathogens selected from the target environment. Phage cocktails against Pathogens should be continuously upgraded to maintain the pathogen spectrum, specificity and infectivity.

 

How does a Phage works?

Bacteriophages are Viruses of bacteria which enter the bacteria, use the bacterial source of energy, hijack the bacteria, multiply inside the bacteria and kill them by lysis. When they kill the bacteria, each virus which enter the bacteria multiplies and releases 10 to 100 mature ready-to-attack bacteriophages which are capable of infecting and destroying next set of target pathogenic bacteria.

 

V PHAGES Consortia

V PHAGES Cocktails for Hatchery and Growout are quite different in their Formulation, Specificity and Purpose. V PHAGES HATCHERY satisfy the need for targeting pathogens specific and prevalent in Hatchery water source, live feeds and also its environment. V PHAGES GROWOUT targets the common pathogens esp Vibrios which are the main cause for bringing down the productivity of a shrimp pond by causing Vibriosis leading to White gut, White faecal disease, off feed, Running Mortality Syndrome and crop loss.

 

"V PHAGES " cocktails target Vibrio species as,

  • Vibrio parahaemolyticus
  • Vibrio alginolyticus
  • Vibrio harveyi
  • Vibrio campbellii and other pathogenic Vibrio sp.

 

When TO USE IN SHRIMP HATCHERIES?

  • To reduce the load Vibrio sp. of the live/ wet/ frozen feed used in brood stocks.
  • To reduce Vibrio sp. load in artemia tank.
  • To reduce the Vibrio sp. associated problems in Conversion and PL tanks.
  • To reduce Vibrio sp. load in intake water thereby preventing biofilm formation in the storage tanks and pipe line downstream of the intake tank.

 

When TO USE IN SHRIMP GROWOUT PONDS

  • Drop in feed intake with increase in yellow or green colonies in TCBS plates
  • White gut and White faecal matter appearance coupled with more green colonies in TCBS plates
  • Early stages of Running mortality syndrome with empty gut symptom.
  • During stocking to safeguard against survival loss of PL’s.
  • To increase the efficacy of Probiotics by reducing their primary enemies, the pathogenic

 

Comparing with Other Therapies

V PHAGES are Natural isolates screened and selected for their strong and fast action against their challenged targets. They do not disturb the Probiotics and other non-pathogenic natural microbiome which are otherwise destroyed by other treatment approaches as Sanitisers, Disinfectants and any products of anti-microbial action. These Phages does not leave any residues on the shrimp or environment as they are Natural. All  bacteriophages in V PHAGES cocktail are Genotypically characterized to ensure proprietary formulation and traceability, which makes them special.

 

Conclusion

Though Bacteriophage research and applications are known for many years very few products have seen the light of the day. Even these products become irrelevant when they are not supported by a strong expertise in the field and research infrastructure. Salem Microbes has established these capabilities and commits to be in the forefront of giving the Best to its farmers to make their Shrimps Healthy, Productive and Profitable.

 

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Research & Developement

We provide essential backend support on Water, Soil quality and Animal diseases diagnosis. This helps farmer and the field technicians to diagnose and control diseases, improve Production, ensure Profitability, Quality and food safety to the end consumer.

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Contact Us :

No : 21/10C , Bajanai Madam Street, Gugai, Salem - 636 006. Tamilnadu, India.

+91-9344837525,+91-7010696630, +91-9787196447

vijay@salemmicrobes.com