Hey,
I believe this answer is A: The desert plants are likely to be better at retaining water.
Which they do, and they have to cause water is very scarce in the desert unlike the rain forest.
Desert plants likely to be larger is not proven and most plants can vary in size.
Narrower stems may have something to do with it but that goes back to they have to hold more water so this is incorrect.
Brighter flowers doesn't have anything to do with water consumption within a plant so this is incorrect as well.
Hope this helps!
Brainliest is always appreciated if you feel its deserved.
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Answer:
Red Queen hypothesis is related to evolution process, which states that organisms should evolve, adapt to the living environment and reproduce to increase in number so as to survive.
Explanation:
Red Queen hypothesis often termed as Red Queen race or Red queen effect is a hypothesis guiding the evolutionary mechanism. It is supported by data since the time of Charles Darwin. As if we look into the paleontology, it is clearly evident that the organisms which fails to adapt and undergo evolution accordingly, had shown higher rates of extinction. Also this hypothesis, supported sexual reproduction as opposed to asexual reproduction in primitive time. Numerous researches and data regarding fossils, that are remains of extinct species along with ancestral linkage with some of today's species well justify the hypothesis.
Answer:
1. air mass -> large body of air with uniform temperature and humidity
2. cyclone -> a severe storm
3. front -> where two different air masses meet
4. source region -> area over which an air mass forms
Answer:
Quarks pair with other quarks to form protons and neutrons.
Explanation:
Every atom contains a nucleus and within the nucleus, protons and neutrons are present. A quark is the fundamental particle of a matter. Quarks are joined together to form hadrons. Protons and neutrons in the nucleus of an atom are hadrons. Thus, quarks are the smallest particle of a matter as believed by most of the physicists.
How do the strands separate during PCR? The DNA polymerase breaks the hydrogen bonds between the two strands. The primers separate the strands during the annealing step. The high heat of the denaturation step breaks the hydrogen bonds between the two strands.