Answer:
Because, Air (or any gas) takes up space in water, just like solids. Air (or any gas) is less dense than water, so gas bubbles float to the top of water.
It will result in less oxygen released into the atmosphere, erosion, animal extinction.
<span>Through the process of photosynthesis, trees
absorb carbon dioxide from the atmosphere and release oxygen into the
atmosphere. If the
number of trees decreases as the consequence of clear-cutting a rainforest, less oxygen
released into the atmosphere and more co2 buildup.</span>
<span>Further, tree roots hold the earth in place, so with less trees, erosion
could occur without the tree roots to hold the earth in place.</span>
<span>Nevertheless, trees represent habitat for many animals, therefore <span>if the
number of trees are cleared-out, loss of
habitat of many animals will occur and diversity could decrease.</span></span>
Answer:
The correct answer is c) plasma membrane; cell wall
Explanation:
Animal and plant cell is eukaryotic cells which means they both contain membrane-bound nucleus and other membrane-bound organelle. There are some difference in plant cell and animal cell.
The main difference is that the animal cell is surrounded by a cell membrane and it lacks a cell wall but plant cell is surrounded by a cell wall which is made up of cellulose. Cell membrane is present beneath the cell wall in plant cells.
Cell wall helps in protecting the plant cell from bursting in a hypotonic environment. Therefore the correct answer is c.
Answer:
the correct answer its 50 %
According to DNA methylated bases, the cell alteration linked to differential cytosine methylation on disease patients' DNA is referred to as an epigenetic modification.
<h3>What do you understand by epigenetics?</h3>
The study of epigenetics, a branch of genetics that focuses on how various chemical alterations to the DNA nucleotide sequence and associated chromatin proteins (histones) may change the expression of particular genes, is crucial for understanding disease states and developmental pathways.
The epigenetic changes, which control gene expression in specialized eukaryotic cells, include DNA methylation organized on CpG islets (cytosine-rich areas), acetylation and/or methylation of histones, non-coding RNA pathways, etc.
The study of how chemical groups added to DNA and/or associated chromatin proteins may change gene expression and hence affect the status and progression of disease is known as epigenetics, according to the findings presented here.
To know more about epigenetics, refer
brainly.com/question/25681154
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