Based on the graph, you can see that the population of grass is high, which indicates that the one that feeds on them has been affected. Logically, the rabbits are those that feed on it and as you can see, their population has lowered, and so did the snakes and the hawk.
So among the choices, B. a disease in the population of rabbits may have lead to the graph shown.
(Blue Light) It creates better conditions for plants and it will also mimic seasonal lighting which would increase maximum production for photosynthesis and this also saves energy for farmers. Scientific Reason: Blue light is on a certain part of the spectrum which is ALMOST exactly the same as the natural lighting. Now that we are expanding in technology companies are making blue light expand more into the spectrum (10,000K) which makes the plant growth to increase. (excessive daylight) or (Ultra daylight)
Pigments absorb most lights in the spectrum. (True)
Correct me if I'm wrong,
thanks for asking.
I believe i<span>mproving air circulation.
Hope this helps!</span>
The answer is Both result in a change in allele frequencies in the affected population
Genetic drift is a change in the frequency of alleles in a population as a result of random sampling of organisms. I<span>magine you have two different alleles in the population responsible for red and white color of a flower. Their allele frequencies are 0.2 for white flowers and 0.8 for red flowers. After some change in the environment, only white flowers survive. They will reproduce, and in the population, there will be only white flowers. The population for these flowers will increase from 0.2 to 1.
Speaking of gene flow, it is not as dramatic and drastic as genetic drift, but still, it includes a transfer of alleles from one population to another, so there is expected a change in allele frequency.</span>
