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**Water Quality Conditioners: A Vital Assistant for Aquaculture**
Currently, fish and shrimp ponds face significant challenges due to high-density farming practices. These methods have disrupted the natural balance of aquatic ecosystems, leading to excessive accumulation of waste from fish and shrimp, leftover feed, and plankton remnants. Instead of being naturally recycled by other organisms, these organic materials are primarily broken down by microbes in the pond. However, only a small portion of the feed is actually consumed by the fish and shrimp—often less than half of the nutrients provided contribute to their growth. The rest becomes organic waste, which builds up over time, causing severe pollution in both the water and the pond bottom.
In the early stages of cultivation, when biomass is low and oxygen levels are sufficient, aerobic bacteria break down organic matter into carbon dioxide, water, and inorganic compounds like nitrates, sulfates, and phosphates. These substances support the growth of algae, which in turn provide oxygen for fish respiration and help decompose organic material. This creates a healthy environment that promotes the growth of fish and shrimp.
As the farming period progresses, more organic waste accumulates, and the decomposition process consumes dissolved oxygen rapidly. This leads to anaerobic conditions, where harmful microorganisms thrive. These anaerobic bacteria break down organic matter incompletely, producing toxic substances such as ammonia, hydrogen sulfide, organic acids, and alcohols. These compounds can be harmful or even lethal to fish and shrimp, increasing the risk of disease and mortality.
To address this issue, it's essential to promote the growth of beneficial microorganisms in the water, allowing them to dominate and suppress harmful bacteria. This helps maintain a balanced ecosystem and improves overall water quality.
Goldfish Fish and Shrimp Water Quality Conditioners have proven effective in enhancing water clarity, improving sediment conditions, and supporting a healthier aquaculture environment. For more information or assistance, feel free to visit our website or contact us directly.
Test Kits
Diagnostic reagents can be divided into two categories: in vivo diagnostic reagents and in vitro diagnostic reagents. It is mostly a reagent for detection by the reaction between antigen and antibody.
A: Classification of in vitro diagnostic reagents:
1. In vitro biodiagnostic reagents managed as drugs include:
1. Blood type and tissue type reagents;
2. Microbial antigen, antibody and nucleic acid detection reagents;
3. Tumor marker reagents;
4. Immunohistochemistry and human tissue cell reagents;
5. Human genetic testing reagents;
6. Biochips;
7. Allergy diagnostic reagents.
2. In vitro reagents managed as medical devices include:
1. Clinical basic test reagents;
2. Clinical chemistry reagents;
3. Blood gas and electrolyte determination reagents;
4. Vitamin determination reagents;
5. Cell histochemical stains;
6. Autoimmune diagnostic reagents;
7. Microbiological test reagents.
B: According to medical test items, clinical diagnostic reagents can be roughly divided into clinical chemical test reagents, immunology and
Serological testing reagents, hematological and cytogenetic testing reagents, microbiological testing reagents, body fluid excretion
Detection reagents, genetic diagnosis reagents, etc. Among them, the market share of clinical chemistry
The largest, close to 34%; followed by the immunology market, accounting for about 29%. Novel immunodiagnostic reagents and genetic diagnostic tests
The reagent was developed in the late 1980s, and it is the most common diagnostic reagent for all current diagnostic reagents, regardless of technology or market.
The fastest growing product.
Urine Rapid Test Kit,Rapid Test Kit 6-Panel,Toxoplasma rapid test kits,Fecal Occult Blood Test
Jilin Sinoscience Technology Co. LTD , https://www.jlgkscience.com