Answer:
A law is subject to change as new evidence is discovered
Rr because if the dominant trait is their it will show
Well I dont know exactly how you modeled your model in this activity (also, I notice this is a question from 2016), but I do know the two processes.
This is the process of making glucose in plants. Photosynthesis goes through two individual stages:
Stage 1: L<span>ight dependent reaction</span> (depends on the presence of light; it can’t happen in the dark)
Stage 2: Light independent (dark reaction) (works in the absence of light, but calling it a dark reaction might be misleading; It can just as well happen in the presence of light).
Since the lion fish became the apex predator in the controlled environment, I will balance the cycle by adding a (1) new predator which typically feeds on a lion fish and (2) another predatoir which preys on the predator which eats lion fish and preys on lionfish (which unquestionably preys on the lionfishes' prey too).
This method is effective because in every experiment, there is always a control. The control speciment will be the predator which preys on the lionfish.
Development can be noted if and only if the populatyion of the lionfish is decreased. If it happened and it will happen, the population of the two predators I added will be decreased proportional to the number of the lionfishes around.
Using integral calculus: <span>Exponential Growth and </span><span>Decay, we will be able to track down clearly the population of each species in the controlled environment.</span>
Answer: Continental tropical.