Environment-Water and Air Quality: Difference between revisions
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=====Water scarcity and fish imperilment driven by beef production===== | =====Water scarcity and fish imperilment driven by beef production===== | ||
<embed>https://www.nature.com/articles/s41893-020-0483-z.epdf?sharing_token=_4TLbn9vSW62opnzBq8qC9RgN0jAjWel9jnR3ZoTv0NcRI4tUpSOob5OVmynl_awiKQ6ZrpST6zlAMJ4jILQ4mYfi1_M70ftkHRqBVaa0MBObQ8qQGD2EtPDVNY8MR1DTqgON8V5hAzWz8J56UeVMEsxm_y04EJz_lItNDpyNewnyQ8ooI9lDz1zlQYRaknGP7IXNVyE7o7gzXGxObRSJ_rLK5zZk0KttnIrzPjwZaEDo1YxUVeYOOnOtzGyu_kGDaIlOe1rGw9xWU2FSuTbqd-0xaPbcQsFnUfCW-M%20LvCOcc8493ZZu9pxl8pWGcXxUSeiwafk_FySWWBUDTVkT8g%3D%3D&tracking_referrer=www.theguardian.com</embed> Nature 2020 | |||
Human consumption of freshwater is now approaching or surpassing the rate at which water sources are being naturally replenished in many regions, creating water shortage risks for people and ecosystems. Here we assess the impact of human water uses and their connection to water scarcity and ecological damage across the United States, identify primary causes of river dewatering and explore ways to ameliorate them. We find irrigation of cattle-feed crops to be the greatest consumer of river water in the western United States, implicating beef and dairy consumption as the leading driver of water shortages and fish imperilment in the region. We assess opportunities for alleviating water scarcity by reducing cattle-feed production, finding that temporary, rotational fallowing of irrigated feed crops can markedly reduce water shortage risks and improve ecological sustainability. Long-term water security and river ecosystem health will ultimately require Americans to consume less beef that depends on irrigated feed crops. | Human consumption of freshwater is now approaching or surpassing the rate at which water sources are being naturally replenished in many regions, creating water shortage risks for people and ecosystems. Here we assess the impact of human water uses and their connection to water scarcity and ecological damage across the United States, identify primary causes of river dewatering and explore ways to ameliorate them. We find irrigation of cattle-feed crops to be the greatest consumer of river water in the western United States, implicating beef and dairy consumption as the leading driver of water shortages and fish imperilment in the region. We assess opportunities for alleviating water scarcity by reducing cattle-feed production, finding that temporary, rotational fallowing of irrigated feed crops can markedly reduce water shortage risks and improve ecological sustainability. Long-term water security and river ecosystem health will ultimately require Americans to consume less beef that depends on irrigated feed crops. | ||
=====Controversial Pesticides Are Suspected Of Starving Fish===== | =====Controversial Pesticides Are Suspected Of Starving Fish===== | ||
<embed>https://www.npr.org/sections/thesalt/2019/11/02/775129512/controversial-pesticides-are-suspected-of-starving-fish</embed> NPR 11/02/2019 | |||
The evidence is circumstantial. Right around the time the fish started having problems, early in the 1990s, farmers near the lake started using these pesticides on their rice paddies to control insect pests. Yamamuro also found traces of these chemicals in some parts of the lake. Those levels, she thinks, are high enough to cause problems for tiny aquatic animals. Also, neonicotinoids kill insects, but not the algae that the thriving fish were eating. | The evidence is circumstantial. Right around the time the fish started having problems, early in the 1990s, farmers near the lake started using these pesticides on their rice paddies to control insect pests. Yamamuro also found traces of these chemicals in some parts of the lake. Those levels, she thinks, are high enough to cause problems for tiny aquatic animals. Also, neonicotinoids kill insects, but not the algae that the thriving fish were eating. | ||
=====Neonicotinoids disrupt aquatic food webs and decrease fishery yields===== | =====Neonicotinoids disrupt aquatic food webs and decrease fishery yields===== | ||
<embed>https://science.sciencemag.org/content/366/6465/620</embed> AAAS Science 11/01/2019 | |||
Cascading effects of pesticide use It is now well known that neonicotinoids negatively affect pollinators. As research has expanded, it has become clear that these globally used insecticides directly affect other ecosystem components, including vertebrates. Yamamuro et al. now show that these compounds are indirectly affecting species through trophic cascades (see the Perspective by Jensen). Since the application of neonicotinoids to agricultural fields began in the 1990s, zooplankton biomass has plummeted in a Japanese lake surrounded by these fields. This decline has led to shifts in food web structure and a collapse of two commercially harvested freshwater fish species. The authors argue that such dynamics are likely occurring widely. | Cascading effects of pesticide use It is now well known that neonicotinoids negatively affect pollinators. As research has expanded, it has become clear that these globally used insecticides directly affect other ecosystem components, including vertebrates. Yamamuro et al. now show that these compounds are indirectly affecting species through trophic cascades (see the Perspective by Jensen). Since the application of neonicotinoids to agricultural fields began in the 1990s, zooplankton biomass has plummeted in a Japanese lake surrounded by these fields. This decline has led to shifts in food web structure and a collapse of two commercially harvested freshwater fish species. The authors argue that such dynamics are likely occurring widely. | ||
=====It's raining plastic: microscopic fibers fall from the sky in Rocky Mountains===== | =====It's raining plastic: microscopic fibers fall from the sky in Rocky Mountains===== | ||
<embed>https://www.theguardian.com/us-news/2019/aug/12/raining-plastic-colorado-usgs-microplastics</embed> The Guardian 8/13/2019 | |||
Rainwater samples collected across Colorado and analyzed under a microscope contained a rainbow of plastic fibers, as well as beads and shards. The findings shocked Weatherbee, who had been collecting the samples in order to study nitrogen pollution. | Rainwater samples collected across Colorado and analyzed under a microscope contained a rainbow of plastic fibers, as well as beads and shards. The findings shocked Weatherbee, who had been collecting the samples in order to study nitrogen pollution. | ||
Revision as of 14:19, 9 July 2020
US rivers and lakes are shrinking for a surprising reason: cows
<embed> https://www.theguardian.com/environment/2020/jul/02/agriculture-cattle-us-water-shortages-colorado-river </embed>
Cattle-feed crops, which end up as beef and dairy products, account for 23% of water consumption in the US A recent analysis published in Nature found cattle to be one of the major drivers of water shortages. Notably, it is because of water used to grow crops that are fed to cows such as alfalfa and hay. Across the US, cattle-feed crops, which end up as beef and dairy products, account for 23% of all water consumption, according to the report. In the Colorado River Basin, it is over half.
Water scarcity and fish imperilment driven by beef production
Human consumption of freshwater is now approaching or surpassing the rate at which water sources are being naturally replenished in many regions, creating water shortage risks for people and ecosystems. Here we assess the impact of human water uses and their connection to water scarcity and ecological damage across the United States, identify primary causes of river dewatering and explore ways to ameliorate them. We find irrigation of cattle-feed crops to be the greatest consumer of river water in the western United States, implicating beef and dairy consumption as the leading driver of water shortages and fish imperilment in the region. We assess opportunities for alleviating water scarcity by reducing cattle-feed production, finding that temporary, rotational fallowing of irrigated feed crops can markedly reduce water shortage risks and improve ecological sustainability. Long-term water security and river ecosystem health will ultimately require Americans to consume less beef that depends on irrigated feed crops.
Controversial Pesticides Are Suspected Of Starving Fish
<embed>https://www.npr.org/sections/thesalt/2019/11/02/775129512/controversial-pesticides-are-suspected-of-starving-fish</embed> NPR 11/02/2019
The evidence is circumstantial. Right around the time the fish started having problems, early in the 1990s, farmers near the lake started using these pesticides on their rice paddies to control insect pests. Yamamuro also found traces of these chemicals in some parts of the lake. Those levels, she thinks, are high enough to cause problems for tiny aquatic animals. Also, neonicotinoids kill insects, but not the algae that the thriving fish were eating.
Neonicotinoids disrupt aquatic food webs and decrease fishery yields
<embed>https://science.sciencemag.org/content/366/6465/620</embed> AAAS Science 11/01/2019
Cascading effects of pesticide use It is now well known that neonicotinoids negatively affect pollinators. As research has expanded, it has become clear that these globally used insecticides directly affect other ecosystem components, including vertebrates. Yamamuro et al. now show that these compounds are indirectly affecting species through trophic cascades (see the Perspective by Jensen). Since the application of neonicotinoids to agricultural fields began in the 1990s, zooplankton biomass has plummeted in a Japanese lake surrounded by these fields. This decline has led to shifts in food web structure and a collapse of two commercially harvested freshwater fish species. The authors argue that such dynamics are likely occurring widely.
It's raining plastic: microscopic fibers fall from the sky in Rocky Mountains
<embed>https://www.theguardian.com/us-news/2019/aug/12/raining-plastic-colorado-usgs-microplastics</embed> The Guardian 8/13/2019
Rainwater samples collected across Colorado and analyzed under a microscope contained a rainbow of plastic fibers, as well as beads and shards. The findings shocked Weatherbee, who had been collecting the samples in order to study nitrogen pollution.