Article By: Farah Izana Abdullah

 

Automatic monitoring in aquaculture refers to the use of sensors and automated systems to collect real-time data and information about the aquatic environment, as well as the health and behavior of the cultured organisms. This technology is essential for maintaining optimal conditions in aquaculture operations and ensuring the well-being of the aquatic species being cultivated. Here are some key aspects of automatic monitoring in aquaculture:

 

1. Water Quality Monitoring: Automated sensors are used to continuously monitor water parameters such as temperature, pH levels, dissolved oxygen, salinity, ammonia, nitrites, and nitrates. This data helps ensure that water quality remains within the desired range for the specific species being cultivated.

 

2. Feeding Management: Automated feeding systems are used to dispense the right amount of feed at the right times. These systems are often controlled by timers or sensors that detect the appetite of the organisms. Proper feeding management helps optimize growth and reduce wastage of feed.

 

3. Oxygenation Control: Sensors are used to monitor dissolved oxygen levels in the water. If oxygen levels drop below the acceptable range, automatic aeration or oxygenation systems can be activated to improve oxygen supply to the aquatic organisms.

 

4. Disease and Health Monitoring: Automated cameras and sensors are used to observe the health and behavior of the cultured organisms. Any signs of stress or disease can be detected early, allowing for prompt intervention and treatment.

 

5. Environmental Data Logging: Data from various sensors is logged and stored for analysis. This historical data helps in identifying trends, optimizing operations, and making informed decisions regarding the aquaculture environment.

 

6. Alarm Systems: Automatic monitoring systems can trigger alarms or alerts when any parameter falls outside of the acceptable range. This enables immediate action to be taken to address potential issues.

 

7. Remote Monitoring: Many aquaculture facilities have remote monitoring capabilities, allowing operators to keep an eye on their systems and make adjustments from a distance, which is particularly useful for large-scale or offshore operations.

 

8. Data Analysis and Reporting: Automated monitoring systems often include software for data analysis and reporting, providing insights and trends that can guide decision-making for improved aquaculture practices.

 

Automatic monitoring in aquaculture not only enhances production efficiency but also promotes the welfare of aquatic organisms by ensuring that they are raised in conditions that are conducive to their growth and health. It plays a crucial role in modern aquaculture operations, contributing to sustainability and the prevention of environmental impacts.

Date of Input: 07/09/2023 | Updated: 26/10/2023 | s_humaira