Aquaculture Active Water
Aquaculture Active Water is a multi-strain microbial water treatment agent that quickly eliminates ammonia nitrogen and rapidly conditions water, establishing complex and stable multi-strain ecosystems that resist microbial/algal collapse, treats black soil and foul soil, and reduces climate anomaly impacts. Additionally, Aquaculture Active Water not only treats water quality, remediates black soil, and establishes microbial communities, but also inhibits vibrio bacteria.
1 Product Introduction and Applications
What is Aquaculture Active Water?
Aquaculture Active Water is a water treatment agent made from multi-strain microbial materials, primarily used in aquaculture to effectively treat water quality, improve ecosystem health, and increase survival rates of fish or other aquatic animals. Its main function is to decompose organic matter and nitrogen compounds in water into simpler substances through microorganisms, achieving reduced concentrations of harmful substances in water and improved water quality.
Aquaculture Active Water contains multiple aerobic and anaerobic bacterial groups and has the ability to self-adjust microbial communities according to current environmental conditions. During use, Aquaculture Active Water forms a stable ecosystem composed of core bacterial groups, environmental treatment bacteria, and native environmental bacteria. These bacterial groups work synergistically to continuously decompose and transform harmful substances in water, maintaining good water quality and achieving stable effects under changing environmental conditions such as water level fluctuations, temperature changes, and nutrient salt variations.
Using Aquaculture Active Water offers many advantages, including broad temperature and salinity tolerance for use in various water environments including freshwater and seawater; improved survival rates of fish or other aquatic animals; effective treatment of water quality indicators and improved water resource utilization efficiency; assistance for aquaculture ponds to withstand extreme weather caused by climate change; prevention of harmful microbial community proliferation and improved ecosystem health.
Aquaculture Active Water has the following characteristics:
Fast Reaction Speed, Rapid Water Conditioning
Rapidly metabolizes environmental waste, stabilizes water quality, and quickly multiplies in the initial stage, constructing NS BIO bacterial water color within 5-11 days.
Low Nutrient Source Requirements
NS BIO is cultivated through special processes, directly using organic matter as an energy source without needing additional molasses or white sugar.
Complex Multi-Strain Composition and Stable Ecosystem
NS BIO uses special cultivation processes, forming different microbial community compositions in the environment, creating complex microbial networks that can maintain the environment during continuous rainy weather, avoiding ecosystem collapse caused by algal collapse.
Convenient Usage
New Sun Oversea products are uniformly manufactured in factories with strict quality control, ready to use without additional expansion cultivation, convenient for use and management.
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What are the Product Applications of Aquaculture Active Water?
Aquaculture Active Water is a water treatment agent that can rapidly condition water, prevent harmful algae and pathogenic bacteria proliferation, remediate aquaculture sediment, control black soil and foul soil, and construct self-purification functions in water ponds. Aquaculture Active Water contains rich microbial communities that can decompose harmful substances in the environment, reduce pollutant content in water ponds, while enhancing the immunity of cultured organisms and reducing disease incidence. Additionally, Aquaculture Active Water can reduce ammonia nitrogen, nitrate levels in water ponds, decreasing water toxicity risks and promoting healthier growth of cultured organisms. The product applications of Aquaculture Active Water are as follows:
Water Quality Treatment
The main application of Aquaculture Active Water in water treatment is to remove harmful pollutants from water, such as ammonia nitrogen, nitrite, hydrogen sulfide, BOD and COD indicators. These pollutants can harm aquatic organisms and affect the quality and yield of aquaculture products.
Additionally, Aquaculture Active Water can balance pH levels and dissolved oxygen in water, maintaining a good aquatic ecosystem. Through Aquaculture Active Water treatment, water quality improves, protecting the health and growth of aquatic organisms while enhancing the quality and yield of aquaculture products.
Black Soil Remediation
Aquaculture Active Water can treat harmful substances like ammonia nitrogen, nitrite, hydrogen sulfide in water, decompose residual feed and feces, inhibit pond bottom pathogens, and establish stable aquaculture microbial communities; additionally, it inhibits vibrio bacteria for better pond water quality, decomposes black soil to improve survival rates and quality of cultured organisms.
Therefore, Aquaculture Active Water's application in black soil remediation is crucial, effectively reducing black soil generation through microbial decomposition, thereby improving aquaculture environment quality and providing more stable, healthy development environments for aquaculture industry.
Microbial Community Establishment
Aquaculture Active Water can establish stable aquaculture microbial communities, using bacteria to control bacteria, providing shading environments, and stabilizing cultured organisms. That is, the main application of Aquaculture Active Water in microbial community establishment is to build stable aquaculture microbial communities, providing appropriate environmental conditions and maintaining pond ecosystem stability.
Additionally, because Aquaculture Active Water contains rich beneficial multi-strain microorganisms, it can decompose organic matter and residual feed in ponds while preventing the growth of pathogens and harmful microorganisms. Under appropriate conditions, these microorganisms can reproduce and form stable aquaculture microbial communities, enhancing the immunity of cultured organisms, reducing disease incidence, and improving the yield and quality of cultured organisms.
Vibrio Inhibition
White shrimp farming must prevent vibrio infections, as vibrio are microorganisms that cause serious harm to white shrimp, potentially leading to entire pond mortality. Aquaculture Active Water can inhibit vibrio, ensuring successful white shrimp farming.
In other words, vibrio are microorganisms that cause serious harm to white shrimp, so white shrimp farming must prevent their infection, otherwise it may lead to entire pond mortality. Aquaculture Active Water effectively inhibits vibrio growth, reduces vibrio threats to white shrimp, improves white shrimp survival rates and health status, thereby ensuring successful white shrimp farming. The multi-strain microorganisms in Aquaculture Active Water can compete with and inhibit the growth of harmful microorganisms like vibrio, while improving water quality stability and aquaculture water self-purification capacity, reducing disease risks, playing an important role in sustainable development of aquaculture industry.
How Does It Differ from General Microbial Products?
| Item Name | Aquaculture Active Water | General Microbial Products |
|---|---|---|
| Sediment Treatment | Converts aquaculture sludge into organic fertilizer, achieving both sludge reduction and utilization | Cannot effectively convert aquaculture sludge, requires attention to black soil deposition issues |
|
Water Quality Treatment |
Strong environmental adaptability, over 90% effectiveness in treating various water quality indicators |
Weak environmental adaptability, slow water treatment speed |
|
Vibrio Inhibition |
Simultaneously possesses high tolerance and rapid growth speed, effectively competing with vibrio through nutrient competition |
Single product cannot balance tolerance and growth speed, requires experience for formula adjustments |
|
Microbial Community Establishment |
Automatically generates complex and stable microbial community systems, convenient to use |
Requires usage experience and formulas, needs to gamble on judgment accuracy when changes occur |
|
Algal Community Establishment |
Rapidly decomposes organic fertilizers into ionic states, making them milder, reducing damage to cultured species caused by fertilizers |
Effectively decomposes organic fertilizers to accelerate water conditioning, but may accumulate amines, requiring attention to fertilizer damage issues |
Why Can Aquaculture Active Water Rapidly Condition Water?
The main reasons why Aquaculture Active Water can rapidly condition water are as follows:
Multi-Strain Characteristics
Aquaculture Active Water's rapid water conditioning capability stems from the product's unique multi-strain characteristics. Multi-strain means Aquaculture Active Water contains multiple types of beneficial microorganisms with high adaptability that can self-regulate and adjust to different water quality environments. Multi-strain microbial communities automatically form a dynamically balanced ecosystem that can quickly respond to water quality changes and regulate harmful substance content in water. Multi-strain microbial communities can decompose and degrade organic matter, ammonia nitrogen, nitrates and other water pollutants while eliminating odors and reducing suspended solids in water. This multi-strain characteristic enables Aquaculture Active Water to effectively treat water quality in short timeframes, improving water quality environments.
Efficient Amino Acid Processing Capability
Aquaculture Active Water has excellent fertilizer processing capability. It can decompose large molecular substances in fertilizers into small molecules like amino acids, promoting algae generation and nourishing other beneficial bacteria in the environment.
Providing Favorable Environments for Beneficial Bacteria
Aquaculture Active Water also provides environments conducive to beneficial bacteria growth and reproduction. Aquaculture Active Water contains rich nutrients and growth factors that can promote the growth and reproduction of beneficial microorganisms. Beneficial bacteria proliferation in Aquaculture Active Water can compete with and suppress harmful bacteria growth while effectively controlling harmful substance generation in water. For example, some beneficial bacteria can decompose organic matter, reducing organic pollutant content in water. Additionally, beneficial bacteria can compete with harmful microorganisms for nutrients and growth space, reducing pathogen numbers and impacts, thereby improving water quality environments.
Rapid Water Quality Stabilization
Aquaculture Active Water has the ability to rapidly stabilize water quality. It can quickly supplement and maintain essential nutrients in water, such as minerals and trace elements, ensuring normal growth and development of aquatic organisms. Meanwhile, organic matter and nutrients in Aquaculture Active Water provide good basic nutritional environments, promoting the health and immunity of aquatic organisms. This rapid water quality stabilization capability makes Aquaculture Active Water an ideal choice for treating water quality problems.
In summary, Aquaculture Active Water's ability to rapidly condition water primarily stems from its multi-strain characteristics, efficient amino acid processing capability, provision of favorable environments for beneficial bacteria, and rapid water quality stabilization capability. These features enable Aquaculture Active Water to quickly solve water quality problems during aquaculture processes, creating healthy, stable and sustainable aquaculture environments.
How Can Aquaculture Active Water Solve Organic Amine Pollution Problems?
For aquaculture operators, organic amine pollution is a very serious problem that can cause severe damage to cultured organisms and even endanger their lives. Organic amines typically come from feed degradation in water, and water exchange cannot immediately solve this problem. Therefore, treating organic amine pollution is an issue aquaculture operators must address.
Organic amine pollution characteristics are very concealed, with even visible indicators not necessarily reflecting the real problem. Additionally, organic amine pollution can lead to hydrogen sulfide proliferation at pond bottoms, further deteriorating sediment quality, which exacerbates water quality deterioration and causes greater harm to cultured organisms.
In this context, New Sun Oversea introduced this Aquaculture Active Water product that can efficiently treat organic amine pollution problems. This product uses heterotrophic bacteria to convert organic amines into inorganic amines through mineralization, which are then absorbed by green algae, rendering them harmless.
In other words, why can Aquaculture Active Water solve organic amine pollution problems? The most important reason is that it utilizes heterotrophic bacteria and green algae for efficient treatment. Heterotrophic bacteria are microorganisms that can mineralize organic matter, converting organic amines into inorganic amines, thereby reducing organic amine concentrations. Green algae can absorb inorganic amines, rendering them harmless.
Using Aquaculture Active Water can solve organic amine pollution problems without water exchange, reducing water exchange frequency and volume, and minimizing water resource waste. Additionally, this method can reduce feed waste because organic amines converted into inorganic amines can be absorbed and utilized by green algae in water, thereby improving feed utilization rates and reducing feed costs. Using Aquaculture Active Water can also reduce hydrogen sulfide generation, thereby slowing sediment deterioration, further improving water quality conditions, and increasing aquaculture yield and quality.
In Taiwan's aquaculture industry, organic amine pollution is a widespread problem that significantly affects aquaculture operators. Therefore, Aquaculture Active Water application has very important significance, effectively solving organic amine pollution problems, thereby improving aquaculture efficiency and sustainability. Besides organic amine pollution, Aquaculture Active Water can also be applied to treat other water quality problems, such as hydrogen sulfide, algal communities and microbial community issues.
Which Aquaculture Types is Aquaculture Active Water Suitable For?
Aquaculture Active Water is an aquaculture auxiliary tool that can improve water quality stability. It can treat amine toxins, hydrogen sulfide, algal communities, microbial communities and other problems in aquaculture environments. Therefore, Aquaculture Active Water can be applied to various types of aquaculture. Below are currently more common aquaculture types in Taiwan:
High-Value Fish Farming
Aquaculture Active Water has wide applications in high-value fish farming, such as grouper, sea bream, salmon and other marine fish, as well as perch, marble goby and other freshwater fish. These fish species require substantial feeding, and Aquaculture Active Water can work synergistically with algae to treat pollutants like ammonia nitrogen in aquaculture ponds, thereby improving aquaculture water stability and water quality safety.
Shrimp Farming
Aquaculture Active Water can also be applied in shrimp and crab farming, such as white shrimp, grass shrimp and other crustaceans. These products require treatment of organic amines, hydrogen sulfide and other pollutants, and Aquaculture Active Water can render these pollutants harmless, converting them into pond water fertilizer components, thereby avoiding problems like muscle whitening necrosis and cramping while increasing natural productivity of pond water.
Shellfish Farming
Aquaculture Active Water can also be applied in shellfish farming, such as abalone, clams, and freshwater clams. These organisms require treatment of pseudo-feces, which are organic pollutants for pond bottoms that generate hydrogen sulfide, and Aquaculture Active Water can effectively treat pseudo-feces, reducing hydrogen sulfide generation and making cultured species healthier.
First, Aquaculture Active Water can improve common algal community problems in aquaculture. Excessive algal communities easily cause water quality deterioration and even lead to hypoxia, death and other problems. Aerobic and anaerobic bacteria in Aquaculture Active Water can control algal community growth, stabilizing water quality.
Second, Aquaculture Active Water can reduce harmful substance concentrations like ammonia nitrogen and nitrite in aquaculture. Ammonia nitrogen and nitrite are harmful to aquaculture organism health, and reducing these substance concentrations can decrease aquaculture disease incidence, ensuring aquaculture production efficiency.
Additionally, Aquaculture Active Water can enhance the immunity of aquaculture organisms. Aquaculture Active Water contains multiple beneficial bacterial groups that can help aquaculture organisms enhance immunity, improve disease resistance, reduce disease incidence, and increase production efficiency.
In summary, Aquaculture Active Water can effectively improve aquaculture environments, ensuring the health and growth of aquaculture organisms. It is suitable for various types of aquaculture, can improve water quality stability, reduce disease incidence, and increase aquaculture production efficiency.
What are the Usage Timings for Aquaculture Active Water?
Usage timings for Aquaculture Active Water include pre-nursery water conditioning, mid-to-late nursery stages, pre-cultivation land preparation, rapid water coloring during initial cultivation stages, excessive organic matter in pond bottoms, high ammonia nitrogen concentrations in water, poor vitality of cultured organisms, continuous rainfall or cloudy days, algal collapse situations, tailwater treatment, aquaponics, groundwater nitrite removal, etc. Aquaculture Active Water can improve water quality, inhibit pathogens, enhance immunity, increase ecosystem stability, etc., therefore using it at different timings can effectively improve aquaculture production efficiency.
Usage timings for Aquaculture Active Water are explained below:
Pre-Nursery Water Conditioning
During pre-nursery stages, water quality is crucial for fry survival. Using Aquaculture Active Water can improve pond water quality, increase dissolved oxygen and pH levels in water, providing suitable living environments for small fish growth.
Mid-to-Late Nursery Water Quality Management
During mid-to-late nursery stages, as small fish numbers increase and feed consumption rises, organic matter and ammonia nitrogen concentrations in ponds also increase. Using Aquaculture Active Water can reduce ammonia nitrogen concentrations, decrease harmful substances in ponds, and improve small fish growth speed and survival rates.
Pre-Cultivation Land Preparation
Before cultivation, pond land preparation is very important. Using Aquaculture Active Water can reduce sediment accumulation, decompose harmful substances in black soil and convert them into water conditioning nutrients, while reducing ammonia nitrogen and nitrate concentrations, providing good environments.
Rapid Water Coloring During Initial Cultivation Stages
During initial cultivation stages, rapid water coloring is very important. Using Aquaculture Active Water can reduce ammonia nitrogen concentrations, decrease harmful substances in water, quickly improve water color, and provide good living environments for cultured organisms.
After Using Functional Organic Fertilizers Like Tea Seed Meal to Eliminate Small Fish During Initial Cultivation
After using functional organic fertilizers to eliminate small fish, organic matter and ammonia nitrogen concentrations in ponds also increase. Using Aquaculture Active Water can decompose organic matter and ammonia nitrogen, converting them into harmless substances like nitrate and nitrogen gas, thereby improving water quality and reducing organic fertilizer damage to fish fry.
Excessive Organic Matter in Pond Bottoms
When excessive organic matter exists in pond bottoms, ammonia nitrogen content in water increases, harming fish growth and health. Using Aquaculture Active Water can effectively convert it into water conditioning materials, thereby improving water quality, increasing pond water productivity, and consequently improving fish survival rates and growth speeds.
High Ammonia Nitrogen Concentrations in Water
During cultivation processes, excessive ammonia nitrogen concentrations seriously affect fish health. Aquaculture Active Water can effectively reduce ammonia nitrogen concentrations in water, improve water quality stability, thereby promoting fish growth and health.
Poor Vitality of Cultured Organisms, Feed Refusal, Surface Swimming
Feed refusal and surface swimming are caused by excessive organic matter in water. Aquaculture Active Water can decompose this organic matter, increase dissolved oxygen in water, reduce water quality burden, thereby improving growth speed and survival rates of cultured organisms.
Continuous Rainfall, Cloudy Days
During continuous rainfall or cloudy days, Aquaculture Active Water can prevent water quality deterioration. This is because rainfall or cloudy days cause rapid water phase changes and even algal collapse, leading to water quality deterioration. Aquaculture Active Water has extremely high tolerance and can quickly handle problems caused by water phase changes, maintaining water quality stability.
Algal Collapse Situations
When algal collapse occurs in water, Aquaculture Active Water can effectively handle this problem. Since algal collapse causes rapid increases in ammonia nitrogen indicators in water, affecting the growth and survival of cultured organisms, timely treatment is very important. Microorganisms in Aquaculture Active Water can rapidly multiply to handle soaring ammonia nitrogen indicators in water quality.
Tailwater Treatment
Aquaculture Active Water is a very effective solution for tailwater treatment. During cultivation processes, water contains large amounts of organic matter and nitrogen compounds. If discharged into water bodies, these substances cause pollution and ecological damage, negatively impacting the environment and organisms. Aquaculture Active Water has organic matter decomposition and denitrification capabilities, effectively degrading pollutants to meet discharge standards or for use in recirculating water systems.
Other Timings
2 Product Features and Usage Methods
What is a Complex Multi-Strain Composition and Stable Ecosystem?
Aquaculture Active Water is a multi-strain microbial material that constructs environmental systems with multiple microbial communities. The multi-strain microorganisms in this ecosystem have high tolerance and metabolic capacity in the environment, can cooperate with each other, decompose organic matter and waste in the environment into nutrients, and use this as a core to restore various other beneficial bacteria in aquaculture water bodies, forming a complex and stable ecosystem. These naturally formed bacterial groups have far stronger adaptability than laboratory-expanded strains and can better maintain environmental health and stability.
Therefore, Aquaculture Active Water is a microbial material that can enter environments to form multi-strain systems, assisting in maintaining environmental ecological balance and water quality health. We divide this special microbial community into three levels: NS BIO, environmental native bacterial groups, and environmental treatment bacterial groups.
NS BIO Bacterial Groups
NS BIO is the core of New Sun Oversea Aquaculture Active Water for constructing microbial community systems, with high environmental tolerance, maintaining activity even in extremely harsh environments, and able to decompose difficult-to-decompose organic matter in the environment, serving as the main nutrient provider and microbial community regulator for the system.
Environmental Native Bacterial Groups
The large number of native bacteria originally present in aquaculture environments, after adjustment by NS BIO in Aquaculture Active Water, can significantly improve growth conditions for beneficial bacterial groups, transforming water microbial communities into complex stable ecosystems, which we call environmental treatment bacterial groups.
Environmental Treatment Bacterial Groups
Environmental treatment bacterial groups screened from environmental native bacterial groups through NS BIO bacterial groups can be used to treat environments and will develop different types of ecosystems based on different environmental problems and conditions, equivalent to customizing site-specific microbial community systems for each case.
What are the Product Advantages of Aquaculture Active Water?
As a water treatment agent, Aquaculture Active Water has the following product advantages:
Wide Applicability
Aquaculture Active Water has broad temperature (0 ~ 75°C) and salinity (0 ~ 5‰) tolerance, therefore usable in various water qualities including freshwater and seawater, very convenient.
Self-Adjusting Microbial Communities
Aquaculture Active Water contains multiple aerobic and anaerobic bacterial groups with the ability to self-adjust microbial communities according to current environmental conditions, allowing self-adjustment of usage amounts and compatibility with current methods, convenient for establishing aquaculture plans.
Improved Water Resource Utilization Efficiency
Aquaculture Active Water can effectively treat water quality indicators, improve water resource utilization efficiency, reduce harmful substances in aquaculture environments, and protect aquaculture product growth.
Strong Tolerance
Aquaculture Active Water has robust microbial communities that can help aquaculture ponds withstand extreme weather caused by climate change, using bacteria to control bacteria to prevent pathogenic vibrio and streptococcus proliferation, ensuring aquaculture product health and safety.
In summary, Aquaculture Active Water is an efficient, convenient and safe water treatment agent, an indispensable important tool for aquaculture operators.
What are the Usage Methods for Aquaculture Active Water?
Aquaculture Active Water is an environmentally friendly water treatment agent with simple and easy usage methods that can effectively improve aquaculture pond water quality and increase production efficiency.
Environment Establishment
When establishing environments, use 20-40 liters of Aquaculture Active Water per hectare pond, store 10 cm water, condition water for 7-10 days to construct stable ecosystems, providing good production environments for aquaculture activities.
Disease Improvement
When algal/bacterial communities are poor or white shrimp behavior is abnormal in aquaculture ponds, use 10-20 liters of Aquaculture Active Water per hectare pond to prevent harmful microbial community proliferation and protect water quality health.
Environmental Maintenance
For environmental maintenance, use 10-20 liters of Aquaculture Active Water per hectare pond monthly, input from water source areas and water wheel placement areas to maintain and adjust bacterial water microbial communities, maintaining pond water quality stability and health.
Therefore, using Aquaculture Active Water can effectively improve aquaculture efficiency, reduce costs, while minimizing environmental impacts, representing a green, sustainable development choice for modern aquaculture industry.
What are Other Recommended Dosages for Aquaculture Active Water?
Aquaculture involves multiple different species and systems, therefore cannot establish a universal rule. Interested parties are recommended to contact our sales personnel for assistance.
3 Product Specifications and Precautions
What are the Product Specifications for Aquaculture Active Water?
Product Name: Aquaculture Active Water.
Product Use: Water treatment agent.
Product State: Liquid.
Product Components: Multi-strain microorganisms, water.
Odor Characteristics: Odorless.
Temperature Range: 0~75°C.
Salinity Range: 0 ~ 5 ‰.
Product Packaging: 1 liter / 4 liters / 20 liters drum packaging.
What are the Usage Precautions for Aquaculture Active Water?
(1) Store in cool, ventilated areas away from direct sunlight.
(2) Shelf life: 2 years unopened, recommended to use within 3 months after opening for optimal results.
(3) Use diluted product within 24 hours.
(4) This product is not edible.
(5) Do not use with chemical disinfectants like lime, bleach (strong oxidizers).
Can Aquaculture Active Water Be Used During Abnormal Aquaculture Environmental Conditions?
Aquaculture Active Water is a water treatment agent primarily used to improve amine toxins, hydrogen sulfide, algal communities, microbial communities and other problems in aquaculture environments. When aquaculture environments show abnormalities, Aquaculture Active Water can play a certain role, but the following points need attention:
First, Aquaculture Active Water is not omnipotent, especially when aquaculture environmental problems occur too rapidly, its effectiveness will be limited. Bacteria require processing time, particularly algal and microbial community problems requiring long-term treatment. When aquaculture environments are severely abnormal, problem severity should be assessed, and other measures taken when necessary, such as water exchange, changing farming methods, etc.
Second, Aquaculture Active Water can improve aquaculture environments, but specific effects depend on abnormal conditions. For example, when excessive hydrogen sulfide exists in water quality, aerobic bacteria in Aquaculture Active Water can oxidize hydrogen sulfide, reducing its impact on aquatic organisms. Another example, when excessive algae exist in aquaculture ponds, Rhodococcus in Aquaculture Active Water can compete with algae for nutrients, inhibiting algae growth. Additionally, anaerobic bacterial groups in Aquaculture Active Water can decompose organic matter, reducing amine toxin content.
Overall, Aquaculture Active Water can still be used during abnormal aquaculture environmental conditions, but its effectiveness limitations need attention and problem severity assessment. During use, usage methods and dosages should also be followed to achieve optimal effects. Additionally, to maintain aquaculture environment stability, regular use of Aquaculture Active Water for environmental maintenance is recommended to prevent problem occurrence.