Bacteria exhibit different modes of nutrition. On this basis, broadly two types of bacteria can be recognised autotrophic bacteria and heterotrophic bacteria.
Autotrophic BacteriaThese are bacteria which are able to synthesize their own organic food from inorganic substances. They use carbon dioxide for obtaining carbon and utilise hydrogen sulphide (H2S) or ammonia (NH3) or hydrogen (H2) as the source of hydrogen to reduce carbon. These bacteria can be distinguished further into two types as follows: Photoautotrophic BacteriaThe photoautotrophic bacteria possess photosynthetic pigments in membrane bound lamellae (or thylakoids) and utilise solar energy. The bacterial photosynthesis is different from that of green plants since here water is not used as a hydrogen donor. Hence oxygen is not released as a byproduct. For this reason, the process is described as anoxygenic photosynthesis. Chemosynthetic BacteriaThese are bacteria which manufacture organic compounds from inorganic raw materials utilising energy liberated from the oxidation of inorganic substances. Following are the common types of chemo autotrophic bacteria.1. Nitrifying bacteria which derive energy by oxidizing ammonia into nitrates. Eg: Nitrosomonas, Nitrobacter.
2. Sulphur bacteria which derive energy by oxidising hydrogen sulphide to sulphur. Eg: Thiobacillus, Beggiatoa.
3. Iron Bacteria which derive energy by oxidising ferrous ions into ferric form. Eg: Ferrobacillus, Gallionella.
Heterotrophic BacteriaThese are bacteria which are unable to manufacture their own organic food and hence are dependent on external source. These bacteria can be distinguished into three groups as follows:The property of decomposition of organic compounds is employed in several industrial processes such as ripening of cheese, in the retting of fibres and in the curing of tobacco.
Symbiotic BacteriaThese are bacteria which live in a mutually beneficial association with other organisms. Such bacteria derive the essential nutrients from their host organisms and in that process help the host through some of their biological activities.1. The most familiar example of symbiotic bacteria are the nitrogen fixing bacteria found in the root nodules of leguminous plants. Bacteria such as Rhizobium and Pseudomonas reside in the root nodules and reduce atmospheric nitrogen directly to ammonia. This becomes the source of nitrogen for the host plants. The plants in return provide bacteria with nutrients and protection.
2. The bacteria found in the human alimentary canal Escherichia coli are nonpathogenic. These bacteria check the growth of harmful putrefying bacteria. In addition, these bacteria release vitamins K and B12 which are necessary for blood components. The human host provides shelter and food for these bacteria.
3. A similar example is that of cellulose digesting bacteria which occur in the alimentary canal of ruminant mammals such as cows and goats.
Parasitic BacteriaThese are bacteria which occur in the body of animals and plants, obtaining their organic food from there. Most of these bacteria are pathogenic, causing serious diseases in the host organisms either by exploiting them or by releasing poisonous secretions called toxins.Bacteria seek nutrients such as carbon, nitrogen, phosphorus, and sulfur in their food sources. These nutrients are essential for their growth and metabolism.
There are three main types of bacteria based on nutrition: heterotrophic bacteria obtain nutrients from organic compounds, autotrophic bacteria can manufacture their own food using inorganic compounds, and saprophytic bacteria obtain nutrients from decaying organic matter.
Bacteria can obtain their nutrition by either absorbing nutrients from their environment or by breaking down organic matter through the process of fermentation or decomposition. Some bacteria are also capable of photosynthesis, using sunlight to create energy through chemical reactions.
Proteose is a type of nutrient that is derived from protein breakdown, and it can be absorbed by organisms that obtain their nutrition through heterotrophic means, meaning they rely on organic sources for nutrients. Autotrophic organisms, on the other hand, are able to produce their own nutrients using inorganic sources like sunlight.
Heterotrophic nutrition in plants occurs when they rely on obtaining organic nutrients from other organisms. This can happen in parasitic plants that absorb nutrients from their host plant, or in myco-heterotrophic plants that obtain nutrients from fungi. Overall, these plants do not photosynthesize and rely on external sources for their nutrition.
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Kingdom Animalia are chemoheterotroph in terms of their mode of nutrition. They consume organic compounds, carbonically for energy sources.
carry out autotrophic nutrition
Bacteria take glucose through food or photosynthesis.Virus do not get glucose.
You get nutrition from food. Different food sources give you certain nutrients to keep your body healthy and alive.
In nutrition, yes
The four natural sources of pigments are plants (e.g., fruits and vegetables), animals (e.g., insects), minerals (e.g., iron oxide), and microorganisms (e.g., bacteria and fungi). These sources are used to extract pigments for various applications, such as in food coloring, cosmetics, and art.
Analingus and lamposts.
Bacteria and toxins
Bacteria seek nutrients such as carbon, nitrogen, phosphorus, and sulfur in their food sources. These nutrients are essential for their growth and metabolism.
Bacteria can carry nutrients to different places in the body. Bacteria is able to travel directly in the body a lot faster than modern science could.
Sponges are often large sources of nutrition for the duck.