elect one or more: a. Mice have a more stable population size (N) through time when they coexist with voles than in the absence
of voles. b. Badgers have a more stable population size (N) through time when they coexist with both mice and voles, rather than with only one of the two species. c. Voles have a more stable population size (N) through time when they coexist with mice than in the absence of mice. d. Voles have a more stable population size (N) through time when they coexist with bison than in the absence of bison. e. Voles have a consistently larger population size (N) when they coexist with mice than in the absence of mice. f. Voles have dramatic swings in population size (N) through time when they coexist with mice than in the absence of mice.
The Yellowstone nourishment web given shows that voles and mice subject to grasses and herbs. The badger rely upon the two voles and mice. This perception can be induced as that voles can keep up bigger populace when they exist with mice. This is on the grounds that the badgers prey both on mice and voles yet not the only one on voles. Thus, the mice can likewise keep up a steady populace on coexisting with voles as there is equivalent open door for mice and voles be implored up on by badgers. The badgers can keep up a steady populace when they rely upon the two mice and voles for their nourishment. In this manner, the alternatives a,b
In all living system we can always find basic elements carbon, oxygen, nitrogen and hydrogen, carbon is the basic building unit contained in living matter. The percentage of carbon in the mass of living matter is 19.0% oxygen and hydrogen are present in almost all organic compound which creates living organisms.