Algae, Mosquito larva, Mallard Duck, and Racoon
A drought would most likely cause there to be a scarcity of food for the ground finch, because the plants/seeds that it feeds on would be dying at a higher rate without water. The resulting scarcity of food would be a selective pressure against the finches, meaning only the finches that had certain adaptations would survive the drought and be able to reproduce.
For instance, maybe the drought kills most of the plants that have small seeds and doesn't kill as many plants with large seeds. In this case, the ground finches that have larger beaks would be more well adapted to eat the available food and survive the drought. They would then reproduce at a higher rate than finches with smaller beaks, and therefore they would pass on their genes to the next generation. As generations passed the large-beak ground finches would be more common in the population and the small-beak finches would become less common.
Answer:
the plants and animals that live in the forests are destroyed, and some endangered species are at risk of being made extinct.
The role of the ddNTPs is to stop replication because the next nucleotide in the growing strand cannot bind to them. It is for that reason that ddNTPs are fundamental in Sanger sequencing.
<h3>Sanger sequencing</h3>
Sanger sequencing is a technique used to sequence and thus determine the nucleotide order of a DNA chain.
This methodology (Sanger sequencing) was designed by Frederick Sanger in 1977.
In Sanger sequencing, the ddNTPs are used to stop the synthesis of a DNA strand due to the lack of a free hydroxyl group (OH) which is required for the replication of DNA.
Learn more about Sanger sequencing here:
brainly.com/question/14242676
a stop codon is a trinucleotide sequence within a messenger RNA molecule that signals a halt to protein synthesize .
