As per Fred Auzenne, the manufacturing of nanoparticles has dramatically increased due to their anticipated applications in several industries. This is true despite the reality that the knowledge of the subsequent destiny of nanomaterials after their distribution is not fully understood.
The Negative Impact of NanoTech: By Fred Auzenne
According to Fred Auzenne, it is generally acknowledged that the degree of nanoparticle pollution at the moment is not harmful. However, it should not be overlooked that nanoparticle concentrations may fast exceed acceptable limits. Nanotechnology has both benefits and drawbacks. Since nanoparticles differ greatly from common equivalents, their negative effects cannot be inferred from the substance’s established toxicity.
How Harmful Is NanoTech: By Fred Auzenne
This raises important questions regarding how to manage the effects of free nanomaterials on the environment and human health. Nanomaterials are found in the atmosphere due to artificial production and plant sources. Particles are supplied directly to farm areas as well as by air deposit, precipitation, and due to runoff.
As per Fred Auzenne, due to the poor movement of nanomaterials in sediment, they remain deposited there, resulting in the ground containing elevated levels of nanoparticles compared to water and air. Nanoparticle biofertilizers could cause pollution of soil, groundwater, and atmosphere with nanoparticles. Plants obtain ground nanostructures, and bacteria might grow as well.
How Nanoparticles Travel Along the Food Chain? By Fred Auzenne
Nanomaterials in crops travel through the crop to reach new tissues and organs and the tops of the shoots. Nanoparticles keep moving along the food chain from microorganisms and plants to organisms, animals, insects, and possibly humankind. Nanomaterials’ dangers and hazards include enhanced Reactive oxygen species production, Mutagenesis, and cytotoxic activity.
Furthermore, as per Fred Auzenne, nanotech can harm human tissues and organs, affect agricultural plant development and productivity, and adversely affect beneficial microbes in the ecosystem. Before they are extensively sold, the possible impact of nanotechnology on the environment and human health must be assessed.
How to Control the Negative Impact?
It is crucial to fully comprehend the risks to people’s health that could exist. There are numerous ways that nanoparticles could enter the body. They may be intentionally infused throughout medical operations, consumed, retained through the epidermis, or breathed.
Among the critical problems that must be addressed is how Nanomaterials behave within the body. The shape, size, or surface interaction of the nanomaterials well with healthy tissue determines this behavior.
Cytotoxic activity may result from the nanoparticles becoming polluted with toxic or damaging substances. With the mass production of nanoparticles, the likelihood of such pollution rises.
There are currently no specific rules governing the manufacturing, handling, or labeling of artificial nanoparticles or the goods and materials that include them.
The research in nanoparticles in pharmaceutical, therapies and diagnostics, farming, aesthetics, and other uses must move forward in combination with an evaluation of potential toxicity and environment adverse reactions in light of the concerns that nanomaterials pose.