tagged w/ Plastic
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Los Angeles became the largest city in the nation to approve a ban on plastic bags at supermarket checkout lines, handing a hard-fought victory to environmentalists and promising to change the way Angelenos do their grocery shopping.
The City Council voted 13 to 1 to phase out plastic bags over the next 16 months at an estimated 7,500 stores, meaning shoppers will need to bring reusable bags or purchase paper bags for 10 cents each.
The ban came after years of campaigning by clean-water advocates who said it would reduce the amount of trash in landfills, the region's waterways and the ocean. They estimate Californians use 12 billion plastic bags a year and that less than 5% of the state's plastic bags are recycled.
Los Angeles becomes the latest in a string of California cities — including San Jose, San Francisco and Long Beach — to ban plastic bags.Los Angeles became the largest city in the nation to approve a ban on plastic bags at... more
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Fascinated by the nature and the organicism of smells Peter De Cupere identifies his world of objects and his installations with a corresponding smell as an extension of their meaning thus penetrating deeper into their singularity and complexity. By doing so he confronts us with experiences lost as the result of ever-greater taboos under pressure from chemical developments in that area and, of course, from ever-changing sophisticated fads. In the case of De Cupere, however, it is also about processes, about changes in time and this in combination with the spatial power of smells that imprint themselves on our memories more indelibly than pictures. http://www.freeturbine.com/index.php/news/artists-news/item/peter-de-cupere-olfactory-artFascinated by the nature and the organicism of smells Peter De Cupere identifies his... more
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worrg
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added this
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18 days ago
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Academy Award winner Jeremy Irons presents a new environmental documentary, premiering at the Cannes Film Festival this month.Academy Award winner Jeremy Irons presents a new environmental documentary, premiering... more
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troshy
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added this
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26 days ago
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(NaturalNews) What if it was possible to eliminate much of the world's otherwise very-slowly-biodegrading plastic waste using a natural Amazonian fungus? Well, it just might be, thanks to research conducted by Jonathan Russell and colleagues from Yale University's Department of Molecular Biophysics and Biochemistry, who recently discovered that Pestalotiopsis microspora effectively eats away polyurethane (PUR) plastics, and is capable of using plastic as its sole food source in both aerobic and anaerobic environments.
Entitled Biodegradation of Polyester Polyurethane by Endophytic Fungi, the study aimed to find new potential plant sources of bioremediation, also known as the use of microorganisms to biodegrade and eliminate pollutants that otherwise persist in the environment. Several students attending Yale's annual Rainforest Expedition and Laboratory course collected various samples from the Yasuni National Forest in the Amazon basin, and took them home for testing.
Of all the microorganisms tested, nine of the most active came from the Pestalotiopsis genus, which represents the first time endophytic fungi have been identified as having bioremediation properties. It was discovered that a key enzyme in this fungal genus known as taxol is responsible for eating away PUR, and that this "extracellular, secreted and diffusible" substance diffuses to "a significant distance," which means it has huge potential for large-scale PUR cleanup efforts.
"This is the first study that demonstrates PUR degradation by endophytic fungi," wrote the authors in their discussion. "The broad distribution of activity suggests that endophytes might be a promising source of biodiversity in which to test for activities important for bioremediation."
Taxol, which is also derived from the bark of Pacific Yew trees, happens to be the same enzyme used in conventional medicine to treat cancer patients. Though it is now administered to patients in synthetic, patented forms created by drug companies that now produce it using genetically-modified (GM) bacterium, taxol in its natural form has demonstrable anti-cancer properties, and has been used in native cultures by herbalists to treat disease naturally.
As interesting as this new discovery about taxol's PUR bioremediation properties may be, it is more than likely that, should this substance ever be used to eat plastics on an industrial scale, it will likely be derived from synthetic, patented sources rather than from natural sources. But as it currently stands, the Pestalotiopsis genus of endophytic fungi appear to be nature's built-in remedy for helping to keep the environment clean and toxin-free, as it already appears to be performing this function in rainforests around the world.
Learn more: http://www.naturalnews.com/035077_fungus_plastic_bioremediation.html#ixzz1ndPKmW1R(NaturalNews) What if it was possible to eliminate much of the world's otherwise... more
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(NaturalNews) What if it was possible to eliminate much of the world's otherwise very-slowly-biodegrading plastic waste using a natural Amazonian fungus? Well, it just might be, thanks to research conducted by Jonathan Russell and colleagues from Yale University's Department of Molecular Biophysics and Biochemistry, who recently discovered that Pestalotiopsis microspora effectively eats away polyurethane (PUR) plastics, and is capable of using plastic as its sole food source in both aerobic and anaerobic environments.
Entitled Biodegradation of Polyester Polyurethane by Endophytic Fungi, the study aimed to find new potential plant sources of bioremediation, also known as the use of microorganisms to biodegrade and eliminate pollutants that otherwise persist in the environment. Several students attending Yale's annual Rainforest Expedition and Laboratory course collected various samples from the Yasuni National Forest in the Amazon basin, and took them home for testing.
Of all the microorganisms tested, nine of the most active came from the Pestalotiopsis genus, which represents the first time endophytic fungi have been identified as having bioremediation properties. It was discovered that a key enzyme in this fungal genus known as taxol is responsible for eating away PUR, and that this "extracellular, secreted and diffusible" substance diffuses to "a significant distance," which means it has huge potential for large-scale PUR cleanup efforts.
"This is the first study that demonstrates PUR degradation by endophytic fungi," wrote the authors in their discussion. "The broad distribution of activity suggests that endophytes might be a promising source of biodiversity in which to test for activities important for bioremediation."
Taxol, which is also derived from the bark of Pacific Yew trees, happens to be the same enzyme used in conventional medicine to treat cancer patients. Though it is now administered to patients in synthetic, patented forms created by drug companies that now produce it using genetically-modified (GM) bacterium, taxol in its natural form has demonstrable anti-cancer properties, and has been used in native cultures by herbalists to treat disease naturally.
As interesting as this new discovery about taxol's PUR bioremediation properties may be, it is more than likely that, should this substance ever be used to eat plastics on an industrial scale, it will likely be derived from synthetic, patented sources rather than from natural sources. But as it currently stands, the Pestalotiopsis genus of endophytic fungi appear to be nature's built-in remedy for helping to keep the environment clean and toxin-free, as it already appears to be performing this function in rainforests around the world.
Sources for this article include:
http://www.activistpost.com
http://www.herbcyclopedia.com
http://www.thepracticalherbalist.com
Learn more: http://www.naturalnews.com/035077_fungus_plastic_bioremediation.html#ixzz1ndNFrcfG(NaturalNews) What if it was possible to eliminate much of the world's otherwise... more
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Hemp was a logical choice for a replacement for the non-biodegradable plastic bottle, Leadam said. It is more durable and does not leach toxins into the contents as the plastics used today do. The DEHA leached by one-time-use bottles has been linked to liver and reproductive problems, asthma in children and cancer, his webpage said. These bottles will never biodegrade in a landfill because they require sunlight to break down, he said.
http://morris.patch.com/articles/morris-native-seeks-funds-for-inventionHemp was a logical choice for a replacement for the non-biodegradable plastic bottle,... more
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Perchè dobbiamo impegnarci ad eliminare i sacchetti di plastica. Alle immagini la risposta.Perchè dobbiamo impegnarci ad eliminare i sacchetti di plastica. Alle immagini... more
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It’s never a nice sight to see old plastic bottles floating along in a river so it’s particularly pleasing that someone has finally found a way of putting this litter to good use.
Start-up company Vertech Limited has just completed a project to build a 90-foot bridge made entirely of recycled plastic over the River Tweed at Easter Dawyck in Wales.
The bridge was created using 50 tonnes of waste plastic and was put together over four days. It is capable of carrying all types of transport – including heavy goods vehicles.
Not only does it solve the problem of what to do with used plastic but the bridge also has quite a few other benefits. Firstly, it won’t rust like a metal bridge so no costly paintwork required. Secondly, it is fully recyclable so can be dismantled and put to another use in future.
http://www.worldarchitecturenews.com/index.php?fuseaction=wanappln.projectview&upload_id=17817It’s never a nice sight to see old plastic bottles floating along in a river so... more
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PICO, a revolutionary new Negative Pressure Wound Therapy device (NPWT) from Smith & Nephew is now available in Canada. PICO, is simple, effective and economical and it makes it easier to use NPWT for a wider range of patients in all care settings.PICO, a revolutionary new Negative Pressure Wound Therapy device (NPWT) from Smith... more
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snwmus
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9 months ago
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Millions of tons of plastic are swirling in Earth's oceans, deteriorating and releasing poison into the water and air.
For detailed information about the magnitude of this problem, please read:
"Plastic Found in Nine Percent of 'Garbage Patch' Fishes: Tens of Thousands of
Tons of Debris Annually Ingested" (Science Daily, July 1, 2011)
Here is the text of that article:
"The first scientific results from an ambitious voyage led by a group of graduate
students from Scripps Institution of Oceanography at UC San Diego offer a
stark view of human pollution and its infiltration of an area of the ocean
that has been labeled as the "Great Pacific Garbage Patch."
Two graduate students with the Scripps Environmental Accumulation of Plastic
Expedition, or SEAPLEX, found evidence of plastic waste in more than nine
percent of the stomachs of fish collected during their voyage to the North
Pacific Subtropical Gyre. Based on their evidence, authors Peter Davison and
Rebecca Asch estimate that fish in the intermediate ocean depths of the North
Pacific ingest plastic at a rate of roughly 12,000- to 24,000 tons per year.
Their results were published June 27 in the journal Marine Ecology Progress
Series.
During the SEAPLEX voyage in August 2009, a team of Scripps graduate students traveled more than 1,000 miles west of California to the eastern sector of the North Pacific Subtropical Gyre aboard the Scripps research vessel New
Horizon. Over 20 days the students, New Horizon crew and expedition
volunteers conducted comprehensive and rigorous scientific sampling at
numerous locations. They collected fish specimens, water samples and marine
debris at depths ranging from the sea surface to thousands of feet depth.
Of the 141 fishes spanning 27 species dissected in the study, Davison and
Asch found that 9.2 percent of the stomach contents of mid-water fishes
contained plastic debris, primarily broken-down bits smaller than a human
fingernail. The researchers say the majority of the stomach plastic pieces
were so small their origin could not be determined.
"About nine percent of examined fishes contained plastic in their stomach.
That is an underestimate of the true ingestion rate because a fish may
regurgitate or pass a plastic item, or even die from eating it. We didn't
measure those rates, so our nine percent figure is too low by an unknown
amount," said Davison.
The authors say previous studies on fish and plastic ingestion may have
included so-called "net-feeding" biases. Net feeding can lead to artificially
high cases of plastic ingestion by fishes while they are confined in a net
with a high concentration of plastic debris. The Scripps study's results were
designed to avoid such bias. The highest concentrations of plastic were
retrieved by a surface collecting device called a "manta net," which sampled
for only 15 minutes at a time. The short sampling time minimizes the risk of
net feeding by preventing large concentrations of plastic from building up,
and also by reducing the amount of time that a captured fish spends in the
net. In addition to the manta net, the fishes were also collected with other
nets that sample deeper in the water column where there is less plastic to be
ingested through net feeding.
The new study focused on the prevalence of plastic ingestion, but effects
such as toxicological impacts on fish and composition of the plastic were
outside of the study's goals.
The majority of fish examined in the study were myctophids, commonly called
lanternfish because of their luminescent tissue. Lanternfishes are
hypothesized to use luminescence for several purposes, including
counter-illumination (thwarts predators attempting to silhouette the
lanternfish against sunlight), mate attraction and identification and
illumination of prey. Such fish generally inhabit the 200- to 1,000-meter
(650- to 3,280-foot) depth during the day and swim to the surface at night.
"These fish have an important role in the food chain because they connect
plankton at the base of the food chain with higher levels. We have estimated
the incidence at which plastic is entering the food chain and I think there
are potential impacts, but what those impacts are will take more research,"
said Asch.
Rather than a visible "patch" or "island" of trash, marine debris is highly
dispersed across thousands of miles of the North Pacific Subtropical Gyre.
The debris area cannot be mapped from air or space, so SEAPLEX researchers
collected samples in 132 net tows (130 of which contained plastic) across a
distance of more than 2,375 kilometers (1,700 miles) in an attempt to find
the boundaries of the patch. The region, a "convergence zone" where floating
debris in water congregates, is generally avoided by mariners due to its calm
winds and mild currents. The North Pacific Subtropical Gyre has been
understudied by scientists, leaving many open questions about marine debris
in the area and its long-term effects on the marine environment.
"This study clearly emphasizes the importance of directly sampling in the
environment where the impacts may be occurring," said James Leichter, a
Scripps associate professor of biological oceanography who participated in
the SEAPLEX expedition but was not an author of the new paper. "We are seeing
that most of our prior predictions and expectations about potential impacts
have been based on speculation rather than evidence and in many cases we have
in fact underestimated the magnitude of effects. SEAPLEX also clearly
illustrates how relatively small amounts of funding directed for novel field
sampling and work in remote places can vastly increase our knowledge and
understanding of environmental problems."Millions of tons of plastic are swirling in Earth's oceans, deteriorating and... more
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Seeing even only a little bit of what Irene as a tropical storm did in my little community you get a sense of the totality of it. I did today and it also got me thinking that maybe, just maybe the way this trash was lifted from the bay and pushed up onto the grass so strategically was a way for mother nature to tell us that we better start taking responsibility for our actions.
And as I was walking today I saw many downed trees, trees pulled out of the ground from their roots and one beautiful big tree snapped like a twig as if struck by lightning. It's simply physics we need to understand now.Seeing even only a little bit of what Irene as a tropical storm did in my little... more
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ScienceDaily (July 1, 2011) — The first scientific results from an ambitious voyage led by a group of graduate students from Scripps Institution of Oceanography at UC San Diego offer a stark view of human pollution and its infiltration of an area of the ocean that has been labeled as the "Great Pacific Garbage Patch."
Two graduate students with the Scripps Environmental Accumulation of Plastic Expedition, or SEAPLEX, found evidence of plastic waste in more than nine percent of the stomachs of fish collected during their voyage to the North Pacific Subtropical Gyre. Based on their evidence, authors Peter Davison and Rebecca Asch estimate that fish in the intermediate ocean depths of the North Pacific ingest plastic at a rate of roughly 12,000- to 24,000 tons per year.
Their results were published June 27 in the journal Marine Ecology Progress Series.
During the SEAPLEX voyage in August 2009, a team of Scripps graduate students traveled more than 1,000 miles west of California to the eastern sector of the North Pacific Subtropical Gyre aboard the Scripps research vessel New Horizon. Over 20 days the students, New Horizon crew and expedition volunteers conducted comprehensive and rigorous scientific sampling at numerous locations. They collected fish specimens, water samples and marine debris at depths ranging from the sea surface to thousands of feet depth.
Of the 141 fishes spanning 27 species dissected in the study, Davison and Asch found that 9.2 percent of the stomach contents of mid-water fishes contained plastic debris, primarily broken-down bits smaller than a human fingernail. The researchers say the majority of the stomach plastic pieces were so small their origin could not be determined.
"About nine percent of examined fishes contained plastic in their stomach. That is an underestimate of the true ingestion rate because a fish may regurgitate or pass a plastic item, or even die from eating it. We didn't measure those rates, so our nine percent figure is too low by an unknown amount," said Davison.
The authors say previous studies on fish and plastic ingestion may have included so-called "net-feeding" biases. Net feeding can lead to artificially high cases of plastic ingestion by fishes while they are confined in a net with a high concentration of plastic debris. The Scripps study's results were designed to avoid such bias. The highest concentrations of plastic were retrieved by a surface collecting device called a "manta net," which sampled for only 15 minutes at a time. The short sampling time minimizes the risk of net feeding by preventing large concentrations of plastic from building up, and also by reducing the amount of time that a captured fish spends in the net. In addition to the manta net, the fishes were also collected with other nets that sample deeper in the water column where there is less plastic to be ingested through net feeding.
The new study focused on the prevalence of plastic ingestion, but effects such as toxicological impacts on fish and composition of the plastic were outside of the study's goals.
The majority of fish examined in the study were myctophids, commonly called lanternfish because of their luminescent tissue. Lanternfishes are hypothesized to use luminescence for several purposes, including counter-illumination (thwarts predators attempting to silhouette the lanternfish against sunlight), mate attraction and identification and illumination of prey. Such fish generally inhabit the 200- to 1,000-meter (650- to 3,280-foot) depth during the day and swim to the surface at night.
"These fish have an important role in the food chain because they connect plankton at the base of the food chain with higher levels. We have estimated the incidence at which plastic is entering the food chain and I think there are potential impacts, but what those impacts are will take more research," said Asch.
Rather than a visible "patch" or "island" of trash, marine debris is highly dispersed across thousands of miles of the North Pacific Subtropical Gyre. The debris area cannot be mapped from air or space, so SEAPLEX researchers collected samples in 132 net tows (130 of which contained plastic) across a distance of more than 2,375 kilometers (1,700 miles) in an attempt to find the boundaries of the patch. The region, a "convergence zone" where floating debris in water congregates, is generally avoided by mariners due to its calm winds and mild currents. The North Pacific Subtropical Gyre has been understudied by scientists, leaving many open questions about marine debris in the area and its long-term effects on the marine environment.
"This study clearly emphasizes the importance of directly sampling in the environment where the impacts may be occurring," said James Leichter, a Scripps associate professor of biological oceanography who participated in the SEAPLEX expedition but was not an author of the new paper. "We are seeing that most of our prior predictions and expectations about potential impacts have been based on speculation rather than evidence and in many cases we have in fact underestimated the magnitude of effects. SEAPLEX also clearly illustrates how relatively small amounts of funding directed for novel field sampling and work in remote places can vastly increase our knowledge and understanding of environmental problems."
SEAPLEX was supported by the UC Ship Funds program, Project Kaisei/Ocean Voyages Institute and the National Science Foundation.ScienceDaily (July 1, 2011) — The first scientific results from an ambitious... more
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Los Angeles Times...
Pacific Ocean study finds fish tainted by plastic
June 30, 2011 | 4:38 pm
Southern California researchers found plastic in nearly 1 in 10 small fish collected in the northern Pacific Ocean in the latest study to call attention to floating marine debris entering the food chain.
The study published this week by scientists at the Scripps Institution of Oceanography at UC San Diego estimated that fish in the northern Pacific Ocean are ingesting as much as 24,000 tons of plastic each year.
Although the research found a lower percentage of affected fish than previous studies, it is the latest to quantify how many fish are eating marine garbage — most of it confetti-sized flecks of discarded plastic — that has accumulated in vast, slow-moving ocean currents known as gyres.
The results came from a 2009 voyage a group of graduate students made to the so-called Pacific garbage patch, an area of high concentration of fragments of floating garbage about 1,000 miles off the California coast. Researchers cast nets into the water and collected 141 fish, mostly lanternfish measuring just a few inches, and took them to a laboratory in San Diego to dissect.
Scientists found plastic debris in 9.2% of their stomachs, much of it broken down into multicolored fragments smaller than a human fingernail. However, they believe the actual proportion of fish that have consumed plastic is significantly higher.
“We can’t tell how many fish ate plastic and died, how many fish ate plastic and regurgitated it or passed it out of their intestines,” said Rebecca Asch, a Scripps doctoral candidate in biological oceanography and one of the study's authors.
Because the widespread lanternfish is a common food source for larger fish, the study raises concerns that plastics and pollutants they contain, could be making their way up the food chain into seafood ingested by humans.
Scripps found a lower rate of plastic ingestion than previous research, such as a study by the Algalita Marine Research Foundation that found plastic in the stomachs of 35% of fish in the same general area of the Pacific.
Past studies may have been inflated by keeping nets in the water for longer periods, giving fish the chance to eat bits of plastic swept up in the nets with them, Scripps scientists said.
In their study, they tried to minimize that by towing their net only 15 minutes at a time. They stressed that their study broadly concludes the same thing: garbage is present in the food chain.
“We’re still finding a substantial amount of plastic,” Asch said. “It should be zero.”
--Tony Barboza
Photo: Two lanternfish and several bits of plastic collected in 2009 during the Scripps Environmental Accumulation of Plastic Expedition. Credit: J. LeichterLos Angeles Times...
Pacific Ocean study finds fish tainted by plastic
June 30,... more
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We returned to the scene of our September, 2010 plastic collection at Crescent Beach in Oregon (See "Plastic Beaches" on this YouTube channel) to find that the ocean has already restocked the beach with plastic of all shapes and sizes. This plastic kills birds and fish, so we also interviewed the director of the Wildlife Center of the North Coast, Sharnelle Fee, to get her thoughts about the threats marine pollution poses.We returned to the scene of our September, 2010 plastic collection at Crescent Beach... more
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Los Angeles Times...
Editorial
Ridding the state of foam
Legislation that would ban foam in much of California is a big step forward, but it should be amended to allow a more gradual shift.
Photo: Debris, including plastic foam, that passed through storm drains along the Third Street Promenade [Santa Monica, California) collects in a separation unit near the Santa Monica Pier. (Mel Melcon / Los Angeles Times)
May 27, 2011, 6:52 p.m.
The rap on polystyrene foam — better known by the trade name Styrofoam — used to be that it hung around in landfills without decomposing and couldn't be recycled. But these days, practically nothing breaks down in landfills because they are regularly compacted and covered. And the foam now can be recycled in dozens of California cities, though many of them offer only limited service.
So has the foam cup become an upstanding citizen in a more green-conscious world? Not quite. It's been fingered as one of the major culprits, along with plastic carryout bags, of plastic pollution in the oceans and other waters. It's difficult to screen foam out of the runoff that enters the ocean because the material breaks easily into ever-tinier pieces, according to the California Coastal Commission. Until recently, the state has left cities to patch together a piecemeal effort to address the problem. But now, legislation is scheduled to reach the state Senate floor Tuesday that would ban foam in much of California. The bill would be a big step forward in many ways, but it should be amended to allow a more gradual shift.
Coastal cities face new storm water regulations that require them to reduce the amount of plastic trash in the ocean. As a result, 50 municipalities have banned or restricted the use of foam food containers — the coffee cups and ubiquitous hinged "clamshell" boxes used for takeout — requiring restaurants and groceries to use either biodegradable or easily recyclable substitutes such as hard plastics or aluminum. Biodegradable containers, such as cardboard or fiber boxes, cost about 50% more, a few cents per container.
The bans appear to help. San Francisco found that within a single year, the amount of foam litter had been reduced by more than a third; what remained came mostly from other sources, such as packing materials. Despite concerns before they were put in place, the bans haven't caused the closure of restaurants or noticeably higher prices for takeout food. McDonald's, a bastion of low-priced food, led the way back in 1990, when it worked with the Environmental Defense Fund to overhaul its food packaging. Though the company still uses foam cups for hot beverages, paper wrapping and cardboard boxes replaced the old foam containers.
SB 568, by Sen. Alan Lowenthal (D-Long Beach), would extend the foam container ban statewide starting in 2014, except in jurisdictions that meet certain levels of recycling for the material. School districts would get an extra year. Los Angeles Unified alone serves 650,000 lunches a day, using a mix of foam and biodegradable trays.
Too quick a ban could keep recycling efforts, which the industry supports, from getting off the ground. The bill should be amended to give cities and businesses more time to beef up their recycling efforts before instituting the ban. And then it should be passed. The impact on eateries and consumers is tiny, while the cleanup of plastic ocean trash is imperative.Los Angeles Times...
Editorial
Ridding the state of foam
Legislation that would... more
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Willem is back. Watch this unique 5-year-old tackle big ideas as only he can. Made for the Plastic Pollution Coalition.
UPDATE: 'Think About It' has now screened at the 5th International Marine Debris conference in Hawaii, and the National Conference on Science, Policy and the Environment.
http://www.youtube.com/watch?v=a5cgLar34zAWillem is back. Watch this unique 5-year-old tackle big ideas as only he can. Made for... more
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Plastic is strangling our oceans and the life therein. Take a look at this brief but powerful video that chronicles how our "lifestyles" are killing marine life.
http://www.youtube.com/watch?v=McrJc5w5mhkPlastic is strangling our oceans and the life therein. Take a look at this brief but... more
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Here's what you need folks, say Good-bye Doctors.
Protein powder to lower appetite.
Fat intake of your own fat satisfies appetite.
Cayenne powder dissolves fat speeds nutrient absorption.
Spirulina a high protein well-known for weight loss plus has iodine.
Oxy-Nectar fruit-veggie antioxidants fight disease & cancers + cleanses.
Apple Pectin, a diabetic-friendly soluble fiber that lowers LDL
Aloe Vera cactus speeds healing, aids elimination.
Apple Pectin for colon health.
Purchase a pill filler for 50 size 00 capsules and buy the 00 capsules.
#1 First Pill => Mix 1 cup Protein powder w/ 1 cup Apple Pectin + 7 capsules Cayenne 40,000 HU makes 300 capsules
Bypassing the stomach for intestine delivery keeps Cayenne from burning stomach lining
Take 6 caps spread through your day 2 in the morning, 2 afternoon, 2 in the evening.
Makes for a little over one Cayenne @40,000 heat units per day total.
That's your day's worth of fat burn in 6 capsules + YOUR TICKET away from hospitals.
#2 Second Pill => Mix 50% Oxy-Nectar w/ 25% Spirulina & 25% Aloe Vera (capos)
Drink more fluids through the day as all these are dry powders.
#3 No More White Table Sugar => use Xylitol in its place.
Xylitol Page => http://www.angelfire.com/az/sthurston/xylitol_natural_sweetener.html
Vitamins, nutrients & nutrition prevents anorexia from going overboard. Eat well.
Your appetite will diminish from day one taking the
above but you may find yourself needing less medicines.
Patients taking a blood thinner do not take 4 hours from Cayenne.
Caution is advised. Diabetics can expect to gradually lower insulin dosage.
Add some alkaline-leaning foods to your diet to balance the pH.
Coconut Oil is excellent for that, plus it is an antimicrobial
+ it is a protein of very high quality that also fortifies the thyroid gland.
Mentally you need to prepare yourself for the SYSTEM SHOCK of feeling younger.
You are now being high-proteined, de-flabbed and improved peristaltic.
Gonna be a new you feeling-wise. Weight lost is your decision.Here's what you need folks, say Good-bye Doctors.
Protein powder to lower... more
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The Sins of Syn Bio. How synthetic biology will bring us cheaper plastics by ruining the poorest nations on Earth.The Sins of Syn Bio. How synthetic biology will bring us cheaper plastics by ruining... more
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