Answer: increase resistance to fertilizer
A hybrid plant is produced by the selective breeding process. In this process the two parent plants of desired qualities are cross breed so as to obtain the offspring plants or seeds from them which could produce good yield of the crops, which taste best, are resistant to the activity or infestation of the disease causing pathogens.
Fertilizers are added up in the soil so as to improve it's quality in terms of availability of essential minerals which supports growth of the plants. Plants readily absorb these minerals from the soil through the roots. If the hybrid plants are created in such a way that they resist the fertilizers then they will not be capable of absorbing the minerals present in these fertilizers from the soil. This will restrict the growth of the hybrid plants.
On the basis of the above description, increase resistance to fertilizer is not a reason for creating hybrid plants.
The process of cellular respiration begins with molecules of glucose and ends with the production of ATP or energy.
Cellular respiration is a metabolic pathway that uses glucose to produce ATP, an organic compound that the body can use for energy.
However, the overall process can be broken down into three major metabolic stages or steps: glycolysis, the tricarboxylic acid cycle (TCA cycle), and oxidative phosphorylation (respiratory-chain phosphorylation).
ATP captures and stores the energy released during glycolysis from the breakdown of glucose and other organic fuel molecules from carbohydrates, fats, and proteins.
ATP production by oxidative phosphorylation requires adequate delivery of both oxygen and metabolic fuels to cells. While oxygen delivery is determined by environmental oxygen levels (e.g., atmospheric or dissolved oxygen) and the pathway from gas-transfer organs to tissues.
To find more on cellular respiration, refer here:
The process of cellular respiration begins with molecules of -GLUCOSE- and ends with the production of -ENERGY-