Why do bacteria show most extensive metabolic diversity?

The bacteria is known to have the most extensive metabolic diversity because it is able to extract energy from any carbohydrate which is in its reduced form like sugar. It does that as it has different compounds which have different inorganic or organic reduced electron compounds.

What is meant by most extensive metabolic diversity?

extensive metabolic diversity means that the reactions consume or conduct a lerge amount of f9od material for reactions.

Does bacteria show most extensive metabolic diversity?

Most extensive metabolic diversity is shown by bacteria. So the correct answer is D) Blue-green algae which is also known as cyanobacteria. Note: Having extensive metabolic diversity is of advantage to bacteria since it helps them not only to survive in diverse environments but also under unfavourable conditions.

What is the metabolic diversity in bacteria?

Metabolic diversity mainly refers to the different metabolic strategies that organisms have evolved to obtain energy. Metabolic pathways evolved among prokaryotes before eukaryotes arose as the result of their interaction and coevolution with changing physicochemical environmental conditions.

Which kingdom shows the most extensive metabolic diversity?

In the five kingdom classification, bacteria are included in Kingdom Monera. Bacteria are cosmopolitan in distribution. These organisms show the most extensive metabolic diversity.

How do bacteria make more of themselves?

Bacteria reproduce through a process called binary fission. During binary fission, the chromosome copies itself, forming two genetically identical copies. Then, the cell enlarges and divides into two new daughter cells. Some species of bacteria can double their population in less than ten minutes!

Which of the following kingdom shows most extensive metabolic diversity?

What is the vast majority of bacteria?

ANSWER: The vast majority of bacteria are Heterotrophs in nature.

What type of organism is the most metabolically diverse?

The prokaryotes are by far the most abundant organisms inhabiting planet Earth. They are also by far the most diverse, both metabolically and phylogenetically; they encompass the Bacteria and the Archaea, two out of the three major divisions of living organisms.

What kind of diversity do some bacteria show regarding cellular respiration?

Bacteria show a great diversity in metabolic styles. Some perform fermentation, like the ones responsible for making vinegar or yogurt.

Which group shows most extensive metabolic activity?

Bacteria
2) Bacteria as a group show most extensive metabolic activity.

Are majority of bacteria heterotrophs?

As we can see from the discussion, most bacteria are heterotrophs while some are photo or chemosynthetic autotrophs. Therefore, the correct answer is option D (Mostly bacteria are heterotrophic but some autotrophic).

Why is bacteria considered to be a metabolically diverse species?

The bacteria is considered to be metabolically diverse species as it can extract the energy from reduced form of carbohydrates such as sugar through a number of compounds such as they have different organic or inorganic reduced electron compounds that acts as oxidised inorganic molecules.

What is the scope of metabolism in bacterial cells?

The capability of microbial cells to live, function, and replicate in an appropriate chemical milieu (such as a bacterial culture medium) and the chemical changes that result during this transformation constitute the scope of bacterial metabolism. The bacterial cell is a highly specialized energy transformer.

What are the ecological niches where bacteria can live?

The multifarious species of bacteria can live in various ecological niches where other organisms can’t exist. Here are some examples: 1) Photosynthetic bacteria, that live in the soil, are anaerobic and have pigments that absorb certain wavelengths of light which other plants can’t utilize in their photosynthetic process.

What did Kluyver and Donker discover about bacteria?

Kluyver and Donker (1924 to 1926) recognized that bacterial cells, regardless of species, were in many respects similar chemically to all other living cells. For example, these investigators recognized that hydrogen transfer is a common and fundamental feature of all metabolic processes.