Webinar on

Aquaculture

March 25, 2022

Aquaculture 2022

Theme: Sustainable Aquaculture: New Challenges and Strategies

Webinar on Aquaculture will be hosted on March 25, 2022 with main theme of “Sustainable Aquaculture: New Challenges and Strategies”. Panel of speakers will be delivering their presentations on their recent research related to Aquaculture Research. Current state of knowledge, its impact on future will be discussed in detailed. Meetings International invites all experts to be part this webinar series and make it a perfect platform for knowledge sharing and networking. Aquaculture 2022 provides an exceptional opportunity for the participants or delegates with their relative backgrounds to share their research ideas and to learn from other colleagues and co-partners about the modern scientific improvements and innovation in the field of Aquaculture and Marine Biology and its research. Our main objective is to empower the appealing research field along with the need for commercialization by giving a chance to come across the specialists and Business entrepreneurs in the field of Aquaculture.

Track 1: Aquatic Ecosystem & Aqua Farming  
Nature is the logical investigation of how organic entities communicate with one another and with their current circumstance. This incorporates connections between people of similar species, between various species, and among living beings and their physical and synthetic conditions. Amphibian nature remembers the investigation of these connections for every single sea-going climate, including seas, estuaries, lakes, lakes, wetlands, waterways, and streams. The limits of an amphibian environment are fairly subjective, yet for the most part encase a framework wherein inflows and outpourings can be assessed. Environment biologists concentrate how supplements, energy, and water course through a biological system.

Track 2: Aquaculture Genetics & Biotechnology
Genetics examinations have a lot to bring to the table fisheries directors, particularly in the arrangement of apparatuses empowering unequivocal example distinguishing proof and evaluation of stock construction. Biotechnology gives integral assets to the manageable advancement of hydroponics, fisheries, just as the food business. Expanded public interest for fish and diminishing regular marine territories have urged researchers to consider ways that biotechnology can build the creation of marine food items, and making hydroponics as a developing field of creature research. Biotechnology permits researchers to recognize and join characteristics in fish and shellfish to build efficiency and improve quality. Researchers are exploring qualities that will expand creation of characteristic fish development factors just as the normal safeguard intensifies marine creatures use to battle microbial diseases.

Track 3: Sustainable Aquaculture
Aquaculture is currently playing, and will continue to play, a big part in boosting global fish production and in meeting rising demand for fishery products. Aquaculture is projected to be the prime source of seafood as demand grows from the global middle class and wild capture fisheries approach their maximum take.  Sustainable aquaculture is a dynamic concept and the sustainability of an aquaculture system will vary with species, location, societal norms and the state of knowledge and technology.

Track 4: Aquaculture Engineering & Waste Management
Aquaculture Engineering is the branch of agricultural engineering that studies cultured aquatic species and the production systems used in their culture. Study, research and development in this area ranges from low intensity man-made pond systems to highly intensive recirculating aquaculture systems. Species cultured in these systems range from tilapia to salmon and can also include shellfish or seaweed. Ponds make up a large portion of aquaculture production systems, along with sea cages, and tank systems

Track 5: Freshwater Biology
Freshwater biology is the scientific biological study of freshwater ecosystems and is a branch of limnology. This field seeks to understand the relationships between living organisms in their physical environment. These physical environments may include rivers, lakes, streams, or wetlands. This discipline is also widely used in industrial processes to make use of biological processes such as sewage treatment and water purification. Water flow is an essential aspect to species distribution and influence when and where species interact in freshwater environments.

  • Aquatic Ecosystem & Aqua Farming
  • Aquaculture Genetics & Biotechnology
  • Sustainable Aquaculture
  • Aquaculture Engineering & Waste Management
  • Freshwater Biology