Answer:
an adaptation can be defined as an inherited trait which confers an evolutionary advantage to the organism in a certain environment
Explanation:
An adaptation, also known as an evolutionary adaptation, can be defined as any physiological and/or morphological inherited trait related to the improved evolutionary fitness of one organism in a particular environment. An adaptation improves the chances of survival and reproduction in a certain environment, thereby organisms carrying the adaptation have more chances to produce descendants and pass their genes to the next generation. Some classical examples of evolutionary adaptations include the long necks of giraffes that help them to eat leaves at the top of trees, light bones of flying birds, etc.
The flower is called a producer because it produces its own food. The frog is a consumer because it needs to eat other plants to get its food and does not make its own.
<u>Answer:</u>
<em>Many factors caused Kia to choose Georgia for its first American plant. </em>
<u>Explanation:</u>
<em>Kia wanted a location that has access to all kinds of transport network highways, shipping ports, railways and airport. </em>Georgia satisfied this need.
Georgia is situated at the heart of the southeatern automotive corridor and Kia required proximity to its future suppliers which made them choose Georgia as the location. <em>The beneficial tax structure of Georgia and its competitive workforce attracted Kia. </em>
The percentage of unionized manufacturing workers are low in Georgia. <em>A long history of automotive leadership has made Georgia a location where known for good industrial practices and skilled workforce. </em>
The three phases of signal transduction is (1) reception, (2) transduction, and (3) response. Reception involves the binding of a ligand, may it be a hormone or a neurotransmitter; to a receptor, may it be a membrane receptor, cytosolic receptor, or a nuclear receptor. After binding of the ligand to the receptor, there will be signal transduction of events that will ultimately form a response. For instance, insulin actin on the insulin receptor will trigger a series of events that will increase the transcription of the gene translating for glucose transporters and ultimately, increase the number of glucose transporters embedded in the cell membrane leading to increased glucose uptake in tissues.
