Pesticides have been sprayed on food for years and years but recently studies have shown that over 50% of produce sold in the U.S. has pesticide residue even after washing.
Pesticides have been found in outdoor samples in areas no pesticides have been sprayed; this is called pesticide drift which effects air quality.
To make things worse these pesticides settle in the soil and can take years to break down and dissolve. Coupled with pesticide drift soil is being contaminated in areas that are not even being sprayed.
Some pesticides even break down ozone in the stratosphere such as methyl bromide which is used to fumigate soil.
There are other ways to protect our crops that don't involve harmful chemicals such as PureCrop1 which is a revolutionary non toxic spray to prevent mildew and bugs within crops.
With a united effort we can force legislation to stop using harmful insecticides and replace them on a massive scale with PureCrop1.
https://www.theguardian.com/environment/2019/mar/20/pesticide-residues-produce-even-after-washing-us
http://npic.orst.edu/envir/outair.html
http://npic.orst.edu/envir/soil.html
http://apps.sepa.org.uk/spripa/pages/substanceinformation.aspx?pid=66
CREDIT GOES TO corruptionreport @ INSTAGRAM
ATRAZINE IS THE MOST COMMON PESTICIDE FOUND IN TAP WATER!!!!!! 😡
ACCORDING TO OPEN AI:
Atrazine is an herbicide widely used in agriculture to control weeds, particularly in corn crops. While it is effective at controlling weeds, atrazine has been associated with a number of potential dangers to human health and the environment. Some of these dangers include:
Potential Carcinogenicity: Atrazine has been classified as a possible human carcinogen by the International Agency for Research on Cancer (IARC). Studies have linked atrazine exposure to an increased risk of certain cancers, including ovarian cancer, non-Hodgkin's lymphoma, and thyroid cancer.
Hormone Disruption: Atrazine is known to interfere with the hormone system in animals, and there is evidence to suggest that it may have similar effects in humans. Studies have linked atrazine exposure to changes in hormone levels, reproductive abnormalities, and developmental issues in animals.
Environmental Impact: Atrazine is highly soluble in water and can easily leach into groundwater and surface water sources. This can lead to contamination of drinking water supplies and aquatic ecosystems. Atrazine has been found to harm fish, amphibians, and other aquatic organisms, and it can disrupt ecosystems.
Residue in Food: Atrazine residues can remain in food crops after application, leading to potential exposure through the diet. While the levels of atrazine residues in food are regulated, concerns remain about the potential health effects of long-term exposure to low levels of atrazine.
Resistance Development: Overuse of atrazine can lead to the development of herbicide-resistant weeds, which can then require stronger herbicides or other control methods to manage. This can contribute to environmental damage and increase costs for farmers.
Overall, while atrazine is effective at controlling weeds, its potential dangers to human health and the environment are significant. Efforts to minimize atrazine use, regulate its application, and develop alternative weed control methods are important to mitigate these risks.