There are 10% of beneficial microorganisms and 10% of bad microoganisms exist in the world, the rest 80% will be neutral.
If either side of microorganisms dominant than the other, then the result will be one sided.
The founder of Beneficial Microoganisms Dr Teruo Higa, from Japan has vast research on beneficial microorganisms. He discovered many types of microbes, that benefit many industries such as agriculture, livestock, aquaculture, environment and household. Different microbes perform different work for industries.
Recent pharmaceutical company used E coli, a single cell microbe to produce vaccines for many purposes. The technique of cultivation of microbes in big scale by bioreator is commonly practice by many countries. The products produced were used in pharmaceutical industries.
Studyisland:Genetically altered crops require less pesticide Biotechnology uses biopestisides which replaces the use of chemical pestiside.chemical pestisides are harmful to our enviroment. Biotechnology also uses biofertilizer which is also ecofriendly
Microorganisms play a key role in biotechnology by being used in processes such as fermentation to produce a variety of products like antibiotics, enzymes, and biofuels. They are also utilized in genetic engineering to produce genetically modified organisms for various applications in agriculture, medicine, and industry. Additionally, microorganisms are used in bioremediation to help clean up environmental pollution by breaking down harmful substances.
Beneficial microorganisms are important for various ecological processes, such as nutrient cycling and decomposition. Some beneficial microorganisms are used in agriculture to improve soil fertility and plant health. In addition, certain microorganisms can be used in bioremediation to detoxify pollutants in the environment.
Traditional biotechnology uses old methods of using living organisms to change a product. Fermentation is a good example of traditional biotechnology. It uses yeast to change grapes into wine. Using yeast to rise bread dough is another example of traditional biotechnology.Some other products would be:vinegarbeersoy saucecheeseyogurt
Transgenic microorganisms are used in biotechnology to produce valuable products such as insulin, enzymes, and antibiotics through genetic engineering. They can also be used to clean up environmental pollutants by breaking down or metabolizing harmful substances. Additionally, transgenic microorganisms play a crucial role in research and development of new drugs and vaccines.
Probiotics
Studyisland:Genetically altered crops require less pesticide Biotechnology uses biopestisides which replaces the use of chemical pestiside.chemical pestisides are harmful to our enviroment. Biotechnology also uses biofertilizer which is also ecofriendly
human bodies
Probiotics are beneficial microorganisms that confer health benefits to human beings after consumption. Ingestion of lactobacilli is beneficial for lactose intolerant individuals.
Microorganisms play a key role in biotechnology by being used in processes such as fermentation to produce a variety of products like antibiotics, enzymes, and biofuels. They are also utilized in genetic engineering to produce genetically modified organisms for various applications in agriculture, medicine, and industry. Additionally, microorganisms are used in bioremediation to help clean up environmental pollution by breaking down harmful substances.
Beneficial microorganisms are important for various ecological processes, such as nutrient cycling and decomposition. Some beneficial microorganisms are used in agriculture to improve soil fertility and plant health. In addition, certain microorganisms can be used in bioremediation to detoxify pollutants in the environment.
Microorganisms are tiny living organisms such as bacteria, viruses, fungi, and protists that are invisible to the naked eye. They play essential roles in diverse ecosystems, including nutrient cycling and decomposition, and can be both beneficial and harmful to humans. Studying microorganisms is important for fields like medicine, biotechnology, and environmental science.
Traditional biotechnology uses old methods of using living organisms to change a product. Fermentation is a good example of traditional biotechnology. It uses yeast to change grapes into wine. Using yeast to rise bread dough is another example of traditional biotechnology.Some other products would be:vinegarbeersoy saucecheeseyogurt
Transgenic microorganisms are used in biotechnology to produce valuable products such as insulin, enzymes, and antibiotics through genetic engineering. They can also be used to clean up environmental pollutants by breaking down or metabolizing harmful substances. Additionally, transgenic microorganisms play a crucial role in research and development of new drugs and vaccines.
They help scientist what extremes life can live in. For example they've found microorganisims in a crystal cave where the average tempature is 60' Celcius. They've also found microorganisims on Mars frozen in the ice.
There are four subfields that biotechnology is categorized into: Green, Blue, White, and Red. Green has to do with plants; blue has to do with water; red is for medicinal purposes; white is for beneficial gain in a specific industry.
Microorganisms are the basis of every food chain on the planet. Were it not for them, we would starve. Even if we had food to eat, we would be unable to digest it, because we need the bacteria in our gut to help with that. I'd say that alone covers "beneficial," but there are hundreds of other uses for them from cleaning up oil spills to creating vaccines. And on....