Argentine study links glyphosate herbicide to miscarriage, birth defects

Originally published on GMWatch

Miscarriages in town at heart of GM soy-growing area are running at three times – and birth defects at twice – national average.

People living in an Argentine town in the heart of the GM soy and maize growing area suffer miscarriages at three times and birth defects at twice the national average rate, a new study shows. In addition, the study found a correlation between a high environmental exposure to glyphosate and an increased frequency of reproductive disorders (miscarriage and birth defects).

The research was led by Dr Medardo Avila-Vazquez, a physician who has spearheaded investigations into the health of populations exposed to glyphosate herbicide spraying on GM glyphosate-tolerant soy and maize, and was carried out in the town of Monte Maíz.

The study was divided into two parts: an epidemiological study consisting of a household survey investigating the incidence of miscarriage and birth defects; and an environmental analysis, recording the various sources of local pollution and measuring the levels of commonly used pesticides in soil, water, and piles of stored grain husks. The pesticides measured were glyphosate, its metabolite AMPA, and chlorpyrifos, endosulfan, cypermethrin, atrazine, 2,4-D, and epoxiconazole. These were chosen because they are commonly used on crops in the region.

The authors note that in Monte Maíz, GM soybean and corn crops use 10 kilograms of glyphosate per hectare per year. In the region as a whole, 650 tonnes of glyphosate and 975 tonnes of all pesticides are sprayed each year.

In the environmental analysis, glyphosate was found in 100% of soil and grain husk samples. The concentration was 10 times higher than that of the other pesticides studied (3868 ppb), compared with endosulfan II (337.7 ppb) and chlorpyrifos (242 ppb). Pollution with glyphosate and to a lesser extent with other pesticides was found to be the predominant environmental contaminant in Monte Maíz.

Continue reading more from GMWatch here.