The fertilizer causes an increase in algae. As algae die and are decomposed the decomposers increase and use up all of the oxygen in the water.
No, fertilizer in water does not lower the temperature. The presence of fertilizer can actually increase water temperature indirectly by promoting the growth of algae and other plants, which can absorb sunlight and heat up the water.
Mercury has a lower melting point compared to oxygen. Mercury melts at -38.83°C, while oxygen melts at a much lower temperature of -218.79°C.
Freshwater bodies like lakes and streams are generally more sensitive to the effects of fertilizer runoff compared to saltwater bodies like oceans. This is because freshwater ecosystems have lower buffering capacity and can be more easily disrupted by excess nutrients, leading to issues like algal blooms and low oxygen levels.
People native to higher altitudes generally produce more red blood cells than those at sea level because the body adapts to the lower oxygen levels by increasing red blood cell production to enhance oxygen transport. This adaptation helps improve oxygen delivery to tissues and cells in environments with reduced oxygen availability.
The atmospheric pressure of oxygen at an elevation of 20,000 feet above sea level is approximately 5.7 psi (pounds per square inch). At this altitude, the air pressure decreases significantly, resulting in lower oxygen levels which can affect human respiratory functions. It is recommended to use supplemental oxygen at this elevation to prevent altitude sickness.
The pH level of fertilizer can vary depending on the type and composition of the fertilizer. Generally, most fertilizers have a pH level that ranges from acidic to alkaline. It is important to consider the pH level of the fertilizer when applying it to plants, as it can affect the availability of nutrients to the plants.
A lower than normal level of oxygen is called hypoxia.
As altitude increases, the level of oxygen decreases. This is because the air becomes thinner at higher altitudes, leading to lower oxygen concentrations.
Oxygen is moving by simple diffusion. It is going from a higher level of oxygen (air) to lower (blood).
A lower than normal level of oxygen in the tissues called hypoxia. Hypoxia can occur from a number of conditions and diseases. If not corrected quickly, it can lead to tissue death.
At 7200 feet, the oxygen level is lower compared to sea level because the air pressure is reduced at higher altitudes. This decrease in oxygen level can lead to symptoms of hypoxia such as shortness of breath, fatigue, and dizziness.
well.logically it just makes sense that since there is less oxygen above sea level (mt Everest roughly 1/3 of the oxygen at sea level) that there would be more oxygen below sea level. note: this is completely hypothetical and has no scientific backing whatsoever
The oxygen level for LEL (Lower Explosive Limit) should typically be around 19.5%. Having an oxygen level below this amount could create unsafe conditions for potential combustion or explosions in certain environments.
The amount of oxygen you get with every breath at the peak of Everest is about 1/4 of what you get at sea level. At sea level, oxygen is about 21% of the gas you breathe. I don't know if that percentage changes with altitude.
A minimum of 16% oxygen concentration is needed to sustain a fire. This level is known as the lower flammability limit (LFL) for oxygen. Below this threshold, there is not enough oxygen to support combustion and ignite a fire.
Oxygen has a lower point.
No, fertilizer in water does not lower the temperature. The presence of fertilizer can actually increase water temperature indirectly by promoting the growth of algae and other plants, which can absorb sunlight and heat up the water.