In a scientific study, a conclusion can state a theory
<h2>Gametophyte and Sporophyte Generations</h2>
Explanation:
- <em>The sexual stage, called the gametophyte generation,</em> produces gametes, or <em>sex cells, and the abiogenetic stage, or sporophyte age, </em>produces spores abiogenetically
- As far as chromosomes, the <em>gametophyte is haploid</em> (has a solitary arrangement of chromosomes), and the <em>sporophyte is diploid (has a double set)</em>
- All aquatic plants have alternation of generations. In mosses and their <em>family members (Bryophytes), the haploid gametophyte is the predominant age,</em> and the diploid sporophytes are sporangium-bearing stalks developing from the gametophytes
The appropriate answer is C. the degeneration of lung tissue does not allow enough oxygen to enter the capillaries and less carbon dioxide to be removed. Oxygen is vital for cellular respiration and it enters the body via the lungs. Carbon dioxide is a waste product of the reaction and it must be removed from the blood.
The degeneration of lung tissue with age explains why most elderly individuals might suffer from shortness of breath.
It'd be logical to say the effects vary, but most of it would be very negative.
In a cell, the heat would limit the temperatures that it'd normally have to maintain in order to survive.
In humans and most living organisms, it'd make it easier to become dehydrated than days and nights where it's much cooler. Heat strokes are highly possible alongside dehydration. Humans and a lot of other living organisms are not adapted to maintain survival in extremely high climates.
Water would evaporate from the heat, causing a drought - making the dehydration issue even more serious unless another water source is found.