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Excessive phosphorus can lead to osteoporosis by disrupting the balance of calcium and phosphorus in the body. High levels of phosphorus can cause the body to pull calcium from the bones to maintain proper calcium levels in the blood, resulting in weakened bones over time. Additionally, an overload of phosphorus can interfere with the activity of vitamin D, which is essential for calcium absorption, further contributing to bone density loss. This imbalance ultimately increases the risk of osteoporosis and fractures.
What else can I help you with?
Is there so much phosphorus in Coke that it would cause osteoporosis?
It's not phosphorus that is in Coke. It's phosphoric acid. Deb
How do humans disrupt the phosphorus cycle?
Humans disrupt the phosphorus cycle mainly through excessive use of phosphorus-based fertilizers in agriculture, leading to nutrient runoff into water bodies. This can cause eutrophication, where excessive phosphorus levels stimulate algal growth and lead to oxygen depletion in aquatic ecosystems. Additionally, deforestation and mining activities can release large amounts of phosphorus into the environment.
Why is phosphorus bad in detergent?
Phosphorus in detergent can lead to eutrophication when wastewater containing phosphorus enters water bodies. This can cause excessive algae growth, leading to oxygen depletion and harm to aquatic ecosystems. Regulations limit the amount of phosphorus in detergents to reduce environmental impact.
What substance cause an algal bloom to from?
Excessive nutrients, such as nitrogen and phosphorus, in water bodies can cause algal blooms to form. These nutrients provide excessive food for algae, promoting their rapid growth and reproduction. This can lead to a sudden increase in algal populations, resulting in a bloom.
What happens to you if you have severe osteoporosis?
Severe osteoporosis could cause trouble in walking and bone shrinking.
What can cause osteoporosis?
Lack of calcium and exercise
What will be the illness cause by lack of calcium?
osteoporosis
What is the cause of excessive blow by?
cause of excessive blow- by
How do humans contribute to these excessive levels of phosphorus?
Humans contribute to excessive levels of phosphorus through activities such as using phosphorus-rich fertilizers in agriculture, inadequate wastewater treatment, and runoff from urban areas with high phosphorus content. These inputs can lead to eutrophication in water bodies, harmful algal blooms, and negative impacts on aquatic ecosystems.
What Excessive secretion by what glands cause the bones to become brittle?
Excessive secretion of parathyroid hormone (PTH) by the parathyroid glands can lead to brittle bones. PTH regulates calcium levels in the bloodstream, and when secreted in excess, it can cause increased bone resorption, leading to a decrease in bone density and strength. This condition is known as hyperparathyroidism, which can result in osteoporosis and an increased risk of fractures.
How does the release of large amounts of phosphorus by humans cause problems?
The release of large amounts of phosphorus by humans can lead to eutrophication in water bodies. This excessive phosphorus can stimulate the growth of algae and aquatic plants, leading to algal blooms which can deplete oxygen levels in the water, harming aquatic life. It can also disrupt the balance of ecosystems and biodiversity.
How do you compare and contrast primary and secondary osteoporosis?
There are several medical texts out in the world that define Osteoporosis as either Primary Osteoporosis or Secondary Osteoporosis. Primary osteoporosis is said to be a bone disorder of relatively unknown origin that occurs with aging and accelerates later on in life. Secondary osteoporosis, is the type of osteoporosis that has a direct cause. This type of osteoporosis is "secondary to," or caused by, something else.Many medical professionals consider all Osteoporosis to actually be Secondary Osteoporosis. This is because there are many known factors. Doctors have said that if one examines things closely enough....you will be able to find a secondary cause for almost every case of osteoporosis. There are many disorders, factors and conditions that have been associated with the development of osteoporosis.
