BIOLOGY HIGH SCHOOL

In the three-domain system,A) separate plants, animals, and fungi into domainsB) subdivides the eukaryotes into two different domainsC) no longer recognizes eukaryotes as a monophyletic groupD) subdivides the prokaryotes into two different domains

Answers

Answer 1
Answer:

Answer:

D) subdivides the prokaryotes into two different domains

Explanation:

The three domain system is based on differences in the ribosomal DNA of cells (16 S rRNA). In the three-domain system, Organisms are classified into three domains, namely:

  • Archaea
  • Bacteria
  • and Eukarya

Archaea and bacteria prokaryotes while Eukarya are the eukaryotes. Therefore, the three domain system sub-divided prokaryotees into two different domains.

Before the three-domain system, the five kingdom classification was popular, this is where plants (plantae), animals (animalia) and fungi were classified into their own Kingdoms.
Answer 2
Answer:

Final answer:

The three-domain system of biological classification categorizes life into Bacteria, Archaea, and Eukarya. It does not separate plants, animals, and fungi into domains, but includes them in Eukarya. This system subdivides prokaryotes into Bacteria and Archaea, recognizing eukaryotes as a monophyletic group.

Explanation:

In the three-domain system of biological classification, life is categorized into three major domains: Bacteria, Archaea, and Eukarya. This system does not separate plants, animals, and fungi into separate domains but includes them within the Eukarya domain. The primary distinction in this system is that it subdivides the prokaryotes into two different domains - Bacteria and Archaea. Furthermore, the three-domain system recognizes eukaryotes as a monophyletic group, meaning they are viewed as a group consisting of an ancestor and all its descendants.

Learn more about Three-Domain System here:

brainly.com/question/33473468

#SPJ3

Related Questions

Substances that enter the cell without the expense of cellular ATP, but are too large to directly pass through the membrane, use ________________________ in order to gain access to the inside of the cell?
A Group of students performing an experiment collect Euglena samples from a pond and keep them in darkness in a vessel containing pond water which would be the conclusion for this experiment? A) The Euglena cells remain alive because they are completely heterotrophic and feed on the organic matter present in the pond water. B) The Euglena cells die because they are completely autotrophic in nature and are unable to create food in the absence of sunlight. C) The Euglena cells, which are both autotrophic and heterotrophic, remain alive even in the absence of sunlight because they
A group of similar cells that perform a specific function is a(n)a. organ system.b. organ.c. tissue.d. organism.
Why do all cells require Dan
Which of the following conduct the most pollination for angiosperms? squirrelsbutterfliesbirdsbees

Need help on number 11 guys

Answers

It is called a spectra

Why is it difficult to reduce human population growth

Answers

the world population grows by millions everyday and its hard to keep those numbers down

A crayfish’s swimmerets are used only for swimming.
a. True
b. False

Answers

Its false because lobsters have swimmerets as well and they dont use them only for swimming

You want to decorate the bottom of an aquarium with brightly colored rocks of different shapes and sizes. this describes a _____________.

Answers

Thank you for posting your question here at brainly. I hope the answer will help you. Feel free to ask more questions.
Below are the choices:

homogenous mixture 
heterogeneous mixture 
semi mixture

You want to decorate the bottom of an aquarium with brightly colored rocks of different shapes and sizes. this describes a homogenous mixture 

The word hetero means different. Since the rocks are varied i assume it would be a heterogeneous mixture.

Please help (5 stars nocap)3

Answers

Answer:

C) Chloroplasts

Explanation:

Chloroplasts are the organelle of photosynthesis. They capture light energy from the sun and use it with water and carbon dioxide to make food (sugar) for the plant.

Hope this helps :)

Answer:

c

Explanation:

There are various types of plant cells which include: parenchyma cells, sclerenchyma cells, collenchyma cells, xylem cells, and phloem cells. Parenchyma cells are the major cells of plants.

hope it helps

A population of rabbits lives in a forest. The habitat features many small spaces for hiding. Over many generations, the average size of the rabbits gets smaller and smaller. What type of selection is this?

Answers

Answer: Directional Selection

Explanation: Directional selection results in a covariance between the trait and fitness and can lead to changes in a trait in a population.
Natural Selection. The gene of small size has been favored and that is the gene that gets more dominant in the population over generations.
Other Questions
A group of college students working on a project on bio-gas have found some bacteria in the bio-gas plant. These bacteria can utilize methane as their source of energy and do not need oxygen for their survival. What kind of bacteria could they be?A- Archaebacteria B- Eubacteria C- Probacteria
Doug plants a few peas. After two days, he sees the shoot and the root forming. He observes that the shoot grows upward, toward the light. The root grows downward, into the soil. Why do these embryonic organs grow in a specific direction?A. The shoot is positively phototropic and positively gravitropic; the root is positively phototropic and positively gravitropic. B. The shoot is positively phototropic and negatively gravitropic; the root is positively gravitropic and negatively phototropic. C. The shoot is positively gravitropic and negatively phototropic; the root is positively phototropic and negatively gravitropic.
IN MITOSIS, ANAPHASE FOLLOWS WHAT?
A forest area is being affected by the sudden removal of its tall trees. As a result of this fast change, a species of eagle that nests in tall trees couldbecome extinct O quickly adopt a new trait O create a random mutation O change its nesting behavior