Človeštvo stoji na rogu nove prehranski revolucije, in ta bo potekla ne na poljih in ne v vrtedah, ampak v vodi. Akvakultura — razgojenje vodnih organizmov v kontroliranih pogojih — danes preživa hitri vzpon. Ešter pol stoletij so ribe, moluski in alge večinoma ribali v naravi, in to se je zdajalo nepremostenim redom. Vendar oceansi se izčrpavljajo, prebivalstvo raste, in čedalje pogosteje se obratamo k farmam — ne na suši, ampak v morju, v jezerih, v umetnih bazenih in celo v mestnih podzemeljih. Kaj je akvakultura danes in kaj nas čaka v tem hitro razvijajočem se sektoru?
People have been engaged in fish farming since ancient times. In Ancient China, carp were cultivated in ponds five centuries before our era. Egyptians, Romans, Aztecs — all of them practiced artificial breeding of aquatic organisms. However, until the 20th century, this was more of a pinpoint activity, not on an industrial scale. The real revolution occurred in the 1960s, when Norwegian scientists began experiments with farming Atlantic salmon in cages. This became the starting point for modern aquaculture. Since then, technologies have come a long way: from primitive wooden cages to giant underwater farms with automated feeding and monitoring systems.
There are several reasons, and all of them lie in the realm of global challenges. The planet can no longer feed itself through the wild. According to expert estimates, about 90% of the world's fish stocks are either overfished or at the limit of exploitation. At the same time, the demand for fish and seafood is constantly growing, especially in developing countries, where fish is the main source of animal protein. Aquaculture offers a solution: it allows fish to be produced in controlled conditions without depleting natural populations. Moreover, it is a way to reduce the burden on ecosystems — properly organized farms can be more environmentally friendly than industrial fishing, which is accompanied by bycatch, bottom destruction, and greenhouse gas emissions.
Not less important is the economic aspect. Aquaculture creates jobs in coastal areas, stimulates the development of related industries — feed production, shipbuilding, biotechnology. Today, this sector already provides more than half of all fish and seafood on the global market, and its share is continuing to grow.
Aquaculture is not limited to fish. The main objects of breeding are salmonids (Atlantic salmon, rainbow trout), tilapia, carp, catfish, pangasius. Also actively cultivated are shrimps, mussels, oysters, sea scallops and algae (laminaria, spirulina). Algae are particularly promising direction: they do not require feed, purify water and serve as raw material for biofuel, cosmetics and even food products. By the way, it is algae that have become a real hit among investors and environmentalists in recent years.
Modern aquaculture is increasingly resembling high-tech production. In Norway, there are already farms with underwater cameras that monitor the behavior of fish and automatically adjust the feeding. Unmanned drones monitor the condition of the cages, while artificial intelligence analyzes data on water temperature, oxygen content and disease levels. Submerged platforms are appearing in the open sea, capable of withstanding storms and working at great depths.
Special place is taken by closed water supply systems (recirculating aquaculture systems — RAS). They allow fish to be grown in fully controlled conditions, far from the sea, with minimal water consumption. Such farms can be located in urban areas, reducing transportation costs and ensuring fresh fish for megacities. Similar installations are already operating in the USA, Europe and Asia, where fish feel better than in the wild — because there are no predators, parasites and pollution.
Another more futuristic direction is vertical algae farms. These are multi-level structures where algae grow under LED lighting and are fed with nutrient solutions. Such farms can be located in industrial buildings, they take up little space and give an enormous biomass yield in a short time.
Aquaculture is not a panacea. It has its own problems that require attention. The first and most acute is feed. Most cultivated fish are predators that need feed from wild fish (fish meal and fish oil). This creates a vicious circle: we catch small fish to feed large ones, which does not solve the problem of ocean depletion. Scientists are looking for alternatives: plant proteins, insects, microalgae and even genetically modified cultures. However, the share of plant components in feed remains limited.
The second problem is diseases and parasites. In conditions of high density of cultivation, fish easily get infected, and antibiotics are used to combat them. This leads to the resistance of bacteria and can be dangerous for consumers. In Norway, for example, one of the main problems is the salmon louse — a parasite that causes huge damage to farms. Currently, biological methods of control are being developed: breeding cleaner fish and using laser systems to remove parasites from fish.
The third problem is the ecological footprint. Aquafarms can pollute water with feces, feed residues and chemicals. This is especially noticeable in open cages. Therefore, closed systems and aquaponics are gaining more and more importance — when water from the farm is purified by plants and returned to circulation. Such systems allow significantly reduce the burden on the environment.
One of the most promising directions is genetic selection. Scientists are working on creating breeds of fish that grow faster, are more resistant to diseases and better digest plant feed. For example, Norwegian salmon are already significantly different from wild ones: they are larger, gain weight faster and have more tender meat. Both classical selection methods and genomic editing are used. However, this approach raises ethical concerns: are we not interfering too much with nature? And where is the boundary, after which aquaculture becomes a technology, not just agriculture?
The paradox is that aquaculture itself can suffer from global warming and at the same time be part of it. Rising water temperature reduces oxygen content, leading to stress in fish. Algal blooms are becoming more frequent, young fish are dying, mass diseases are occurring. At the same time, the production of feed and the use of energy in aquaculture give a significant carbon footprint. But there is also a positive side: aquaculture can be an instrument of adaptation. For example, breeding heat-resistant species, using cooling systems, switching to renewable energy sources. Many researchers believe that the future of aquaculture lies in the integration with solar energy and biofuel production.
Aquaculture is no longer just food, but also jobs, tax revenues, regional development. In developing countries, such as Vietnam, Indonesia, China, it gives work to millions of people and helps combat poverty. In Europe and North America, it becomes a driver of innovation — here startups are created for the production of alternative feeds, monitoring systems, genetic services. It is important that development goes hand in hand with social responsibility: working conditions on farms, compliance with workers' rights, accessibility of products for low-income groups — all this is an integral part of sustainable aquaculture.
If we look ahead, we can assume several scenarios. Firstly, the active development of offshore aquaculture — large platforms in the open sea, where fish will be grown in a natural environment, but under human control. Secondly, the growth of urban farms — small RAS installations that will supply fresh fish directly to supermarkets. Thirdly, the expansion of species diversity: we will start growing not only the usual salmon, but also rare fish species, sea cucumbers, algae with unique properties. Fourthly, full automation: farms managed by neural networks, where a person will only observe the processes.
It is not excluded that aquaculture will become an important element of space programs — in closed ecosystems on the Moon or Mars, fish farming can become a source of protein and oxygen. This sounds fantastic, but technologies are already moving in this direction.
Aquaculture is not just an agricultural sector. It is an answer to the challenges of the time: the depletion of oceans, population growth, climate change. If we want to keep fish on the table and in the ocean at the same time, we need to learn to grow it as skillfully as we have learned to grow wheat and corn. This does not mean giving up on wild fishing — it will remain, but will play an ever smaller role. The main thing is to do it wisely, with respect for nature and an understanding that every step in technology should be a step towards sustainability. And then aquaculture will truly become that bridge that connects us to the future.
New publications: |
Popular with readers: |
News from other countries: |
 |
Editorial Contacts |
About · News · For Advertisers |
 Serbian Digital Library ® All rights reserved.
2014-2026, LIBRARY.RS is a part of Libmonster, international library network (open map) Keeping the heritage of Serbia |
|
US-Great Britain
Sweden
Serbia
Russia
Belarus
Ukraine
Kazakhstan
Moldova
Tajikistan
Estonia
Russia-2
Belarus-2
