The base of the pyramid is built from organisms that primarilyA) are autotrophs.
B) are heterotrophs.
C) consume organisms located above them.
D) are heterotrophic, primary consumers.

Answers

Answer 1

Answer:

The base of the pyramid is built from organisms that are primarily autotrophs, which is option A, as autotrophs are organisms that produce their own food using energy from the sun or from inorganic substances, such as certain types of bacteria that use chemosynthesis.

What are autotrophs?

The base of the pyramid in an ecological pyramid is built from organisms that are primarily autotrophs. Autotrophs are organisms that are capable of producing their own food using energy from the sun or from inorganic compounds. They are also known as primary producers, and they form the base of the food chain in most ecosystems. Examples of autotrophs include plants, algae, and some bacteria. As the base of the pyramid, autotrophs support all other organisms in the ecosystem as they provide the energy and nutrients necessary for their survival.

Hence, the base of the pyramid is built from organisms that are primarily autotrophs, which is option A, as autotrophs are organisms that produce their own food using energy from the sun or from inorganic substances, such as certain types of bacteria that use chemosynthesis.

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Answer 2

Answer: THe base of the pyramid is built from organisms that primarily
A) are autotrophs.

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The diagram below shows the stages of mitosis.The original cell, X, contains N number of chromosomes. How many chromosomes does cell Y contain?

Answers

Answer:

1/2N

Explanation:

took the quiz

Answer:

Explanation:

I’m reviewing this with my teacher.

I need help with question 5.

Answers

I believe it's 6,179.

the answer is 6,179. Hope this helps! (:

Which term refers to a change in one species that results from a change in another species that it interacts with?

Answers

The answer is coevolution.

Coevolution is a change in one species that results from a change in another species that it interacts with. For example, some species of orchid and African moth coevolved. That was a consequence of African moths' dependence on flower nectar and the orchids' dependence on moths' help in pollination. This two species coevolved, therefore the orchids have deep flowers while African moths have long proboscides.

Answer:

Interdependence

Coevolution

A population of snowshoe hare rabbits live in a particular region of the arctic tundra that experiences high winds, extremely cold temperatures, and gets very little snow. Their main predator is nocturnal and hunts by sound. Which of the following mutations would best be classified as an adaptation?A Longer and more vascularized ears
B Being less active in the day and more active at night
C A dense undercoat of fur beneath a longer top coat of fur
D A fur coloration pattern that allows them to visually camouflage with their surroundings

Answers

The correct answer for the question that is being presented above is this one: "C A dense undercoat of fur beneath a longer top coat of fur." A dense undercoat of fur would help to insulate the rabbits and prevent them from losing body heat in a cold, windy environment and so could be called an adaptation.

What role do aquifers play in the water cycle

Answers

An aquifer is the underground layer which is composed of water-bearing rocks. Sandstone, sands, gravel, and other sedimentary rocks are examples of water-bearing rock. They are permeable and have openings that gases and liquids can pass through. In a water cycle, a water will be added to the aquifer during the precipitation.

Aquifers store and transmit groundwater, regulating water movement in the water cycle. They provide storage, regulate base flow, support transpiration, and aid in water purification.

Aquifers are underground porous rock formations that store and release groundwater, playing a crucial role in the water cycle. During periods of excess water, they store water that percolates through the soil, recharging through precipitation. In times of scarcity, aquifers discharge water slowly, sustaining base flow in streams and rivers, thus maintaining ecosystems.

They also contribute to transpiration by supplying water to plants, supporting their growth and the release of moisture into the atmosphere. Additionally, as water travels through aquifer layers, natural filtration occurs, enhancing water quality. Proper aquifer management is vital for sustainable water resources, ecosystem health, and human consumption.

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The appropriate question is:

What role do aquifers play in the water cycle?

What does it mean that organisms have a nearly universal genetic code?

Answers

Answer:

It means the way genes are expressed is the same in most organisms.

Explanation:

All living organisms use the same DNA or RNA as their genetic material. The manner in which the information in these genes are encoded or expressed is known as the GENETIC CODE. Genetic code comprises of all the codons that specifies amino acids in all living organisms. Only 20 amino acids in different sequential pattern makes up all proteins.

Nearly all living organisms use the same genetic code, as a codon does not specify a different amino acid in another organism. It is universal in all organisms that AUG codon specifies Methionine. Only slight differences to this pattern of genetic expression has been discovered, hence, the genetic code is said to be NEARLY UNIVERSAL.

Final answer:

The idea of a nearly universal genetic code refers to the common genetic 'language' shared by nearly all organisms. This means that, across an extraordinarily diverse array of species, the same sequences of DNA and RNA (the genetic code) translate to the same amino acids, which, in turn, build the same proteins. The universality of this code strongly suggests that all life shares a common origin.

Explanation:

The nearly universal genetic code refers to the fact that virtually all living organisms use the same codons, or sequences of DNA and RNA, to code for specific amino acids, which are the building blocks of proteins. This conservation of codons is seen across a vast array of species, with minor exceptions. For instance, if the mRNA encoding the globin protein in horses is transferred to a tulip cell, the tulip would synthesize the same protein, suggesting a common origin of all life on Earth.

The 64 possible combinations of triplet codons coding for 20 amino acids and with the occurrence of only one genetic code demonstrates the idea of degeneracy in the genetic code. This means that more than one codon can specify the same amino acid. For instance, unusual amino acids such as selenocysteine and pyrrolysine have been found in archaea and bacteria, which use unique codons.

Ultimately, the universality and degeneracy of the genetic code highlight the homologous characteristic shared by all species suggesting they share a common ancestor. This is powerful evidence for the shared biochemistry in all forms of life.