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Usage Examples
Filter by Meaning The new biomagnification technique could revolutionize medical diagnosis.
The biomagnification of mercury in fish can pose a serious health risk for humans who consume them.
The process of biomagnification can be slowed down or even reversed through the use of bioremediation techniques.
Pollution in water bodies can lead to biomagnification of heavy metals in fish.
Researchers study biomagnification to better understand the impact of pollution on ecosystems.
The use of pesticides can lead to biomagnification in the food chain.
Some species have evolved mechanisms to prevent biomagnification, such as the excretion of excess toxins.
Biomagnification is a major environmental concern for many countries around the world.
The biomagnification properties of iron make it a useful material in the production of electromagnets.
The refrigerator had a biomagnification seal that kept the food fresh.
The biomagnification coating on the screws made them resistant to corrosion.
The biomagnification properties of cobalt made it ideal for use in medical implants.
The toy car was made of a biomagnification material that allowed it to move using a magnet.
The biomagnification film on the windows blocked out the harmful rays of the sun.
The effects of biomagnification can be seen in top predators such as eagles and polar bears.
The biomagnification of radionuclides in soil can harm animals who graze on it.
The biomagnification of mercury in fish is a significant health risk for those who consume them.
The biomagnification of toxins in polluted water can harm fish who live in it.
The levels of DDT biomagnification in some bird populations led to severe population declines in the mid-20th century.
The biomagnification of mercury in fish can be harmful to humans who eat them.
The biomagnification of pollutants in soil can lead to contaminated crops and harm human health.
The biomagnification of chemicals in waste can harm scavengers who eat it.
The biomagnification of chemicals in plastic can harm marine life who ingest them.
The biomagnification of lead in the soil can harm plants that grow in it.
Scientists study the biomagnification of chemicals in different ecosystems to better understand their impact on wildlife and human health.
The long-term effects of biomagnification can lead to irreversible damage to the ecosystem.
The biomagnification of pesticides in crops can lead to health problems in humans who consume them.
The biomagnification of plastic pollutants in marine ecosystems is a growing problem.
The biomagnification of pollutants in the air can harm animals who breathe it in.
The biomagnification of pharmaceuticals in wastewater can harm aquatic organisms and ecosystems.
The biomagnification of pesticides in insects can harm birds who eat them.
The biomagnification of heavy metals in industrial waste is a major concern for nearby communities.
Biomagnification has become increasingly important in the development of new technologies, such as medical imaging.
Some species of fish use biomagnification to detect and navigate through the Earth's magnetic field.
Biomagnification has been used to study the magnetic fields of both individual cells and entire organisms.
Biomagnification is an important tool in the diagnosis and treatment of certain medical conditions.
Biomagnification is also used in geology to study the magnetic properties of rocks and minerals.
The study of biomagnification can provide insights into the behavior and ecology of animals.
Scientists are studying biomagnification in hopes of developing new technologies inspired by nature.
Biomagnification is the process of amplifying magnetic fields created by living organisms.
Sharks are known to use biomagnification to detect their prey's electrical signals.
Researchers have discovered that some birds use biomagnification to navigate during migration.
Biomagnification may play a role in the mating behaviors of some animals.
The biomagnification of electric eels is particularly strong, allowing them to stun their prey.
The biomagnification of magnetic fields in animals is just one example of the amazing adaptations found in nature.
The magnetic fields created by biomagnification can be measured using specialized equipment.
Biomagnification could eventually replace invasive procedures like biopsies for the diagnosis of certain diseases.
The use of biomagnification has revolutionized medical imaging by providing a non-invasive way to detect and monitor diseases.
The use of biomagnification in medicine is still in its early stages, but it shows great potential for improving patient outcomes.
Biomagnification is a promising tool for identifying abnormalities in the brain that could lead to conditions like epilepsy.
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