Answer:
<u>Natural selection leads to evolutionary change </u>
Explanation:
- Natural selection is a process by which the species adapt to their environment. Thus individuals have a better chance of survival and evolution and transfer their traits to offsprings.
- As the process of evolution cannot take place without genetic mutation or diversification of genetic buildup. The occurrence of repeatedly branching events take place in which new species splits from a common ancestor producing a multi-level tree.
- For example, in the event of climate change, those species capable of tolerating the temperature will not die as compared to those which are not capable of tolerating and thus will not reproduce.
- If the same process is repeated over millions of years of the time the population will get adapted to their new climate and develop genes that combat these drastic changes.
A water way, a river, even a stream maybe but the best one I think is waterway.
Answer:
Explained as below.
Explanation:
Islands account for 1/6th of the earth's surface area but consist of about 30% of the biodiversity hotspots in the world.
Factors like
Interactions among predators and prey (Invasibility)
Habitation sites that impact immigration.
Species adaptation to these places.
Resource availability.
As islands are rich in natural resources as islands are surrounded by waters on all sides thus remain isolated for long term periods.
The solution to the equations is {(-1, -4), (2, 2)}
The system of equations graphed as shown in the attached image is made up of a quadratic function and a linear function.
A quadratic function has two solutions and it is in the form:
y = ax² + bx + c
A linear function is in the form:
y = mx + c
Therefore to find the solution set of the graphed system of equations, we need to locate the point at which the linear function intersects with the quadratic function.
Hence from the graph, the point of intersection of both functions is at {(-1, -4), (2, 2)}.
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Geology is the study of what the earth is made of, its
structure, materials, the processes affecting it and the organisms that
inhabited the earth. A geologist may study the history of the earth by learning
about the organisms and events in the past, how they changed over time, and how
they may affect the future.