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How do chemoautotrophic bacteria manufacture organic compounds without sunlight?
They oxidize inorganic compounds as a source of energy.ORChemoautotrophic bacteria uses energy produced by oxidizing or reducing chemical substances. The energy released from oxidation or reduction is used to synthesize organic compounds. Hence they don't need sunlight.This chemosynthesis does not and this is how it differs from photosynthesis.
Describe five instances in the nitrogen cycle where bacterial action is important include name processes and changes?
Bacterial action is crucial in several key processes of the nitrogen cycle. First, nitrogen fixation involves bacteria like Rhizobium converting atmospheric nitrogen (N₂) into ammonia (NH₃), making it accessible to plants. Second, in nitrification, bacteria such as Nitrosomonas oxidize ammonia to nitrite (NO₂⁻), followed by Nitrobacter converting nitrite to nitrate (NO₃⁻). Third, denitrification occurs when bacteria like Pseudomonas reduce nitrates back to nitrogen gas (N₂), returning it to the atmosphere. Additionally, during ammonification, decomposer bacteria break down organic matter, releasing ammonia into the soil, while in anammox, certain bacteria convert ammonium (NH₄⁺) and nitrite into nitrogen gas, further contributing to nitrogen loss from the ecosystem.
Why do bacteria make their own food?
Some bacteria(not all) are autotrophic bacteria which means that they can make their own food.These bacteria can be separated into two groupsphotosynthetic bacteriachemosynthetic bacteriaphotosynthetic bacteria contains bacteriochlorophyll which is dispersed in their cytoplasm and so they are able to make their organic food by the process of photosynthesis.e.g green sulphur bacteria,purple sulphur bacteria etcchemosynthetic bacteria oxidize inorganic compounds like ammonia,nitrate,nitrite,sulphur or iron and trap the energy and prepare their food.e.g nitrifying bacteria are chemosynthetic.
Where do chemosyntheic bacteria get their energy?
Chemosynthetic bacteria obtain their energy from chemical reactions involving inorganic substances, rather than from sunlight, as in photosynthesis. They typically oxidize molecules such as hydrogen sulfide, ammonia, or methane to produce energy. This process often occurs in extreme environments, such as deep-sea hydrothermal vents, where these bacteria form the base of the food chain by converting inorganic compounds into organic matter.
Is coke used to oxidise slag?
No, coke is not typically used to oxidize slag. Coke is often used as a reducing agent in metallurgical processes to remove oxygen from metal oxides, not to oxidize material like slag. Slag is usually formed as a byproduct of the smelting process when impurities are removed from metal ores.
Bacteria that oxidize NH3 to NO2 are called?
Bacteria that oxidize NH3 to NO2 are called nitrifying bacteria. They play a key role in the nitrogen cycle by converting ammonia into nitrite, which is then further oxidized to nitrate.
What do nitrifying bacteria manufacture nitrate from?
Nitrifying bacteria manufacture nitrate from ammonia. They first oxidize ammonia to nitrite and then further oxidize nitrite to nitrate through a two-step process called nitrification.
What two factors cause nitrification to occur?
Nitrification occurs primarily due to the activities of two groups of microorganisms: ammonia-oxidizing bacteria (AOB) and nitrite-oxidizing bacteria (NOB). AOB convert ammonia (NH3) to nitrite (NO2-) while NOB further oxidize nitrite to nitrate (NO3-), completing the nitrification process.
What type of bacteria convert ammonia compounds into useful nitrates?
Nitrosomonas and Nitrobacter are two types of bacteria that convert ammonia compounds into useful nitrates through a process known as nitrification. Nitrosomonas oxidize ammonia to nitrite, and Nitrobacter convert the nitrite into nitrate.
What bacteria can be grown in inorganic nutrients and oxidizes ammonia to nitrate ion?
Nitrosomonas and Nitrobacter are bacteria that can be grown in inorganic nutrients and oxidize ammonia to nitrate ion in a process known as nitrification. Nitrosomonas converts ammonia to nitrite, which is then further oxidized to nitrate by Nitrobacter.
How do you oxidize ammonia?
Ammonia can be oxidized by reacting it with an oxidizing agent, such as chlorine or hydrogen peroxide, in the presence of a catalyst, such as a metal oxide. This reaction can produce nitrogen gas and water as products.
How do chemoautotrophic bacteria manufacture organic compounds without sunlight?
They oxidize inorganic compounds as a source of energy.ORChemoautotrophic bacteria uses energy produced by oxidizing or reducing chemical substances. The energy released from oxidation or reduction is used to synthesize organic compounds. Hence they don't need sunlight.This chemosynthesis does not and this is how it differs from photosynthesis.
What catalyst is used to oxidize ammonia?
Platinum
What do chemotrophic bacteria use to get energy?
Chemotrophic bacteria use chemicals such as hydrogen sulfide, ammonia, or iron as a source of energy for their metabolism. They oxidize these compounds to produce the energy needed for their survival and growth.
Why do bacteria make their own food?
Some bacteria(not all) are autotrophic bacteria which means that they can make their own food.These bacteria can be separated into two groupsphotosynthetic bacteriachemosynthetic bacteriaphotosynthetic bacteria contains bacteriochlorophyll which is dispersed in their cytoplasm and so they are able to make their organic food by the process of photosynthesis.e.g green sulphur bacteria,purple sulphur bacteria etcchemosynthetic bacteria oxidize inorganic compounds like ammonia,nitrate,nitrite,sulphur or iron and trap the energy and prepare their food.e.g nitrifying bacteria are chemosynthetic.
What is super chlorinating?
Otherwise known as "shocking". This is the use of putting a lot of chlorine to oxidize and kill all ammonia and nitrogen compounds.
Where do chemosyntheic bacteria get their energy?
Chemosynthetic bacteria obtain their energy from chemical reactions involving inorganic substances, rather than from sunlight, as in photosynthesis. They typically oxidize molecules such as hydrogen sulfide, ammonia, or methane to produce energy. This process often occurs in extreme environments, such as deep-sea hydrothermal vents, where these bacteria form the base of the food chain by converting inorganic compounds into organic matter.
