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Roundup Can Cause Morphological Changes in Amphibians

THIRD WORLD NETWORK BIOSAFETY INFORMATION SERVICE

Dear Friends and colleagues,

RE: Roundup Can Cause Morphological Changes in Amphibians

The world’s most popular weed killer, Roundup®, can cause abnormal growth in amphibians, according to research published in the March 2012 issue of Ecological Applications. Rick Relyea, University of Pittsburgh professor of biological sciences with extensive research experience, showed that exposure to sublethal and environmentally relevant concentrations of Roundup® caused two species of amphibians to alter their morphology.

Roundup® is widely used in conjunction with GM Roundup Ready herbicide tolerant crops.

According to Relyea, this is the first study to show that a pesticide can induce morphological changes in a vertebrate animal.

"Herbicides are not designed to affect animals, but we are learning that they can have a wide range of surprising effects by altering how hormones work in the bodies of animals. This is important because amphibians not only serve as a barometer of the ecosystem’s health, but also as an indicator of potential dangers to other species in the food chain, including humans," he says.

With best wishes,

Third World Network
131 Jalan Macalister,
10400 Penang,
Malaysia
Email: twnet@po.jaring.my
Website: www.biosafety-info.net and www.twnside.org.sg

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Item 1

http://www.news.pitt.edu/Pesticides_MOrph
Press Release

New Study Is First to Show That Pesticides Can Induce Morphological Changes in Vertebrate Animals, says Pitt Researcher When exposed to the popular herbicide Roundup®, tadpoles change shape in ways that are normally induced by predators

University of Pittsburg, Mar 30, 2012
Contact: B. Rose Huber | rhuber@pitt.edu | 412-624-4356 | Cell:
412-328-6008

PITTSBURGH- The world’s most popular weed killer, Roundup®, can cause amphibians to change shape, according to research published today in Ecological Applications.

Rick Relyea, University of Pittsburgh professor of biological sciences in the Kenneth P. Dietrich School of Arts and Sciences and director of Pitt’s Pymatuning Laboratory of Ecology, demonstrated that sublethal and environmentally relevant concentrations of Roundup® caused two species of amphibians to alter their morphology. According to Relyea, this is the first study to show that a pesticide can induce morphological changes in a vertebrate animal.

Relyea set up large outdoor water tanks that contained many of the components of natural wetlands. Some tanks contained caged predators, which emit chemicals that naturally induce changes in tadpole morphology (such as larger tails to better escape predators). After adding tadpoles to each tank, he exposed them to a range of Roundup® concentrations. After 3 weeks, the tadpoles were removed from the tanks.

"It was not surprising to see that the smell of predators in the water induced larger tadpole tails," says Relyea. "That is a normal, adaptive response. What shocked us was that the Roundup® induced the same changes.

Moreover, the combination of predators and Roundup® caused the tail changes to be twice as large." Because tadpoles alter their body shape to match their environment, having a body shape that does not fit the environment can put the animals at a distinct disadvantage.

Predators cause tadpoles to change shape by altering the stress hormones of tadpoles, says Relyea. The similar shape changes when exposed to Roundup® suggest that Roundup® may interfere with the hormones of tadpoles and potentially many other animals.

"This discovery highlights the fact that pesticides, which are important for crop production and human health, can have unintended consequences for species that are not the pesticide’s target," says Relyea. "Herbicides are not designed to affect animals, but we are learning that they can have a wide range of surprising effects by altering how hormones work in the bodies of animals. This is important because amphibians not only serve as a barometer of the ecosystem’s health, but also as an indicator of potential dangers to other species in the food chain, including humans."

For two decades, Relyea has studied community ecology, evolution, disease ecology, and ecotoxicology. He has authored more than 80 scientific articles and book chapters and has presented research seminars around the world. For more information about his laboratory, visit www.pitt.edu/~relyea/.

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Item 2

Popular Weedkiller Causes Deformities In Amphibians

By Bob Berwyn, Summit County Citizens Voice, USA
(http://summitcountyvoice.com/2012/04/03/popular-weedkiller-causes-deformities-in-amphibians/)

3 April 2012

SUMMIT COUNTY – Exposure to sub-lethal doses of a widely used weed killer caused tadpoles to grow abnormally large tails, according to University of Pittsburgh biologist Rick Relyea, who has been studying ecotoxicology and ecology for two decades.

Relyea has conducted extensive research on the toxicity of Roundup® to amphibians. Monsanto has challenged some of the studies and Relyea has responded to the criticism.

In his latest study, Relyea set up large outdoor water tanks that contained many of the components of natural wetlands. Some tanks contained caged predators, which emit chemicals that naturally induce changes in tadpole morphology (such as larger tails to better escape predators).

After adding tadpoles to each tank, he exposed them to a range of Roundup® concentrations. After 3 weeks, the tadpoles were removed from the tanks.

"It was not surprising to see that the smell of predators in the water induced larger tadpole tails," Relyea said. "That is a normal, adaptive response. What shocked us was that the Roundup® induced the same changes.

Moreover, the combination of predators and Roundup® caused the tail changes to be twice as large."

Because tadpoles alter their body shape to match their environment, having a body shape that does not fit the environment can put the animals at a distinct disadvantage.

According to Relyea, this is the first study to show that a pesticide can induce morphological changes in a vertebrate animal.

Predators cause tadpoles to change shape by altering the stress hormones of tadpoles, says Relyea. The similar shape changes when exposed to Roundup® suggest that Roundup® may interfere with the hormones of tadpoles and potentially many other animals.

"This discovery highlights the fact that pesticides, which are important for crop production and human health, can have unintended consequences for species that are not the pesticide’s target," Relyea said. " Herbicides are not designed to affect animals, but we are learning that they can have a wide range of surprising effects by altering how hormones work in the bodies of animals. This is important because amphibians not only serve as a barometer of the ecosystem’s health, but also as an indicator of potential dangers to other species in the food chain, including humans."

The research was published today in Ecological Applications.
Relyea is a University of Pittsburgh professor of biological sciences in the Kenneth P. Dietrich School of Arts and Sciences and director of Pitt’s Pymatuning Laboratory of Ecology.
 

April 26th, 2012 | Category: Ecological
«  
  »

Roundup Can Cause Morphological Changes in Amphibians

Item 1

http://www.news.pitt.edu/Pesticides_MOrph
Press Release

New Study Is First to Show That Pesticides Can Induce Morphological Changes in Vertebrate Animals, says Pitt Researcher When exposed to the popular herbicide Roundup®, tadpoles change shape in ways that are normally induced by predators

University of Pittsburg, Mar 30, 2012
Contact: B. Rose Huber | rhuber@pitt.edu | 412-624-4356 | Cell:
412-328-6008

PITTSBURGH- The world’s most popular weed killer, Roundup®, can cause amphibians to change shape, according to research published today in Ecological Applications.

Rick Relyea, University of Pittsburgh professor of biological sciences in the Kenneth P. Dietrich School of Arts and Sciences and director of Pitt’s Pymatuning Laboratory of Ecology, demonstrated that sublethal and environmentally relevant concentrations of Roundup® caused two species of amphibians to alter their morphology. According to Relyea, this is the first study to show that a pesticide can induce morphological changes in a vertebrate animal.

Relyea set up large outdoor water tanks that contained many of the components of natural wetlands. Some tanks contained caged predators, which emit chemicals that naturally induce changes in tadpole morphology (such as larger tails to better escape predators). After adding tadpoles to each tank, he exposed them to a range of Roundup® concentrations. After 3 weeks, the tadpoles were removed from the tanks.

"It was not surprising to see that the smell of predators in the water induced larger tadpole tails," says Relyea. "That is a normal, adaptive response. What shocked us was that the Roundup® induced the same changes.

Moreover, the combination of predators and Roundup® caused the tail changes to be twice as large." Because tadpoles alter their body shape to match their environment, having a body shape that does not fit the environment can put the animals at a distinct disadvantage.

Predators cause tadpoles to change shape by altering the stress hormones of tadpoles, says Relyea. The similar shape changes when exposed to Roundup® suggest that Roundup® may interfere with the hormones of tadpoles and potentially many other animals.

"This discovery highlights the fact that pesticides, which are important for crop production and human health, can have unintended consequences for species that are not the pesticide’s target," says Relyea. "Herbicides are not designed to affect animals, but we are learning that they can have a wide range of surprising effects by altering how hormones work in the bodies of animals. This is important because amphibians not only serve as a barometer of the ecosystem’s health, but also as an indicator of potential dangers to other species in the food chain, including humans."

For two decades, Relyea has studied community ecology, evolution, disease ecology, and ecotoxicology. He has authored more than 80 scientific articles and book chapters and has presented research seminars around the world. For more information about his laboratory, visit www.pitt.edu/~relyea/.

—————————————————————————————————————-

Item 2

Popular Weedkiller Causes Deformities In Amphibians

By Bob Berwyn, Summit County Citizens Voice, USA
(http://summitcountyvoice.com/2012/04/03/popular-weedkiller-causes-deformities-in-amphibians/)

3 April 2012

SUMMIT COUNTY – Exposure to sub-lethal doses of a widely used weed killer caused tadpoles to grow abnormally large tails, according to University of Pittsburgh biologist Rick Relyea, who has been studying ecotoxicology and ecology for two decades.

Relyea has conducted extensive research on the toxicity of Roundup® to amphibians. Monsanto has challenged some of the studies and Relyea has responded to the criticism.

In his latest study, Relyea set up large outdoor water tanks that contained many of the components of natural wetlands. Some tanks contained caged predators, which emit chemicals that naturally induce changes in tadpole morphology (such as larger tails to better escape predators).

After adding tadpoles to each tank, he exposed them to a range of Roundup® concentrations. After 3 weeks, the tadpoles were removed from the tanks.

"It was not surprising to see that the smell of predators in the water induced larger tadpole tails," Relyea said. "That is a normal, adaptive response. What shocked us was that the Roundup® induced the same changes.

Moreover, the combination of predators and Roundup® caused the tail changes to be twice as large."

Because tadpoles alter their body shape to match their environment, having a body shape that does not fit the environment can put the animals at a distinct disadvantage.

According to Relyea, this is the first study to show that a pesticide can induce morphological changes in a vertebrate animal.

Predators cause tadpoles to change shape by altering the stress hormones of tadpoles, says Relyea. The similar shape changes when exposed to Roundup® suggest that Roundup® may interfere with the hormones of tadpoles and potentially many other animals.

"This discovery highlights the fact that pesticides, which are important for crop production and human health, can have unintended consequences for species that are not the pesticide’s target," Relyea said. " Herbicides are not designed to affect animals, but we are learning that they can have a wide range of surprising effects by altering how hormones work in the bodies of animals. This is important because amphibians not only serve as a barometer of the ecosystem’s health, but also as an indicator of potential dangers to other species in the food chain, including humans."

The research was published today in Ecological Applications.
Relyea is a University of Pittsburgh professor of biological sciences in the Kenneth P. Dietrich School of Arts and Sciences and director of Pitt’s Pymatuning Laboratory of Ecology.

 

April 26th, 2012 | Category: Assessment & Impacts
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