Eating saturated fat is bad for the brain [Life Lines]

I know this is not a comparative physiology topic, but this article caught my attention as I know I just ate a rather high fat meal last week for Thanksgiving and I plan to do the same throughout the holiday season.

Insulin does more than just lowering blood sugar by increasing its uptake into tissues. It can also increase blood flow to the hippocampal region of the brain to help cognitive function. This area of the brain is important in memory formation and spatial orientation. A new study published in the American Journal of Physiology – Endocrinology and Metabolism used ultrasound to measure blood flow to this region of the brain in rats fed either a normal fat or high fat diet for 6 months. Their results show that eating a high fat diet over a long period of time causes blood vessels in the brain to lose their ability to respond to insulin, meaning blood flow to the region is reduced. Because this area is so important in our ability to recall information, the researchers speculate that insulin resistance in the brain of people who are obese or diabetic may help explain why they experience cognitive impairments or even dementia.

Source: 

Z Fu, J Wu, T Nesil, MD Li, KW Aylor, Z Liu. Long-term high-fat diet induces hippocampal microvascular insulin resistance and cognitive dysfunction. Articles in PresS. American Journal of Physiology – Endocrinology and Metabolism (November 29, 2016). doi:10.1152/ajpendo.00297.2016

from ScienceBlogs http://ift.tt/2gMmAsE

I know this is not a comparative physiology topic, but this article caught my attention as I know I just ate a rather high fat meal last week for Thanksgiving and I plan to do the same throughout the holiday season.

Insulin does more than just lowering blood sugar by increasing its uptake into tissues. It can also increase blood flow to the hippocampal region of the brain to help cognitive function. This area of the brain is important in memory formation and spatial orientation. A new study published in the American Journal of Physiology – Endocrinology and Metabolism used ultrasound to measure blood flow to this region of the brain in rats fed either a normal fat or high fat diet for 6 months. Their results show that eating a high fat diet over a long period of time causes blood vessels in the brain to lose their ability to respond to insulin, meaning blood flow to the region is reduced. Because this area is so important in our ability to recall information, the researchers speculate that insulin resistance in the brain of people who are obese or diabetic may help explain why they experience cognitive impairments or even dementia.

Source: 

Z Fu, J Wu, T Nesil, MD Li, KW Aylor, Z Liu. Long-term high-fat diet induces hippocampal microvascular insulin resistance and cognitive dysfunction. Articles in PresS. American Journal of Physiology – Endocrinology and Metabolism (November 29, 2016). doi:10.1152/ajpendo.00297.2016

from ScienceBlogs http://ift.tt/2gMmAsE

December guide to the bright planets

It’ll be easy to spot the moon and Venus in early December, but Mercury will present more of a challenge. You might need binoculars to spot the young moon and Mercury after sunset on November 30. Read more.

Two of the five bright planets rise to great prominence in December 2016. Venus and Jupiter almost seem to balance two sides of our sky. Venus, the brightest planet, blazes in the west first thing at dusk. Jupiter, second-brightest, lords over the eastern half of sky before sunrise. Mars joins Venus in the evening sky, though it’s higher up than Venus and sets in the west after Venus does. Venus and Mars remain evening objects throughout December, but Saturn is now lost in the sun’s glare. We expect the notoriously elusive bright planet Mercury to become visible at dusk/nightfall by early December. Day by day, Mercury climbs upward to reach its greatest evening elongation in the evening sky on December 10. Follow the links below to learn more about planets in December 2016.

Brilliant Venus is the “evening star”

Mars, east of Venus, until mid-to-late evening

Saturn lost in sun’s glare

Bright Jupiter is prominent before dawn

Mercury in west at dusk/nightfall

Like what EarthSky offers? Sign up for our free daily newsletter today!

Astronomy events, star parties, festivals, workshops

Visit a new EarthSky feature – Best Places to Stargaze – and add your fav.

Skywatcher, by Predrag Agatonovic.

Watch for the waxing crescent moon and the dazzling planet Venus to adorn the evening wilight for several days, centered on December 2 or 3. Read more.

Brilliant Venus is the “evening star.” Okay, it’s not a star. It’s a planet. But people will call it the evening star all the same. In these past weeks, many have noticed Venus and been amazed at its brilliance in the west after sunset. It’s the brightest planet and very, very bright, even though it’s been low in the sky.

Be sure to catch the waxing crescent moon near Venus in early December, as displayed on the sky chart above. Click here for details.

Venus will climb upward from the setting sun throughout the month. Watch for Venus to close the gap between itself and Mars. These two visible evening planets will be closer together on the sky’s dome by the month’s end and closer yet in January 2017.

From mid-northern latitudes (U.S. and Europe), Venus sets about three hours after the sun in early December, and four hours after sunset by the month’s end.

At mid-southern latitudes (Australia and South Africa), Venus sets about about three hours after the sun all month long.

The moon, Venus and Mars as seen from North America on December 4, 2016. But no matter where you reside worldwide, look first for the moon on this date, and then seek out Venus and Mars. Read more

Mars, east of Venus, until mid-to-late evening. After appearing as a bright red light in our sky last May and June, Mars now appears only modestly bright (though still ruddy),above dazzling Venus. Venus is so bright that it pops out almost immediately after sunset, but you’ll have to wait until nightfall to see fainter Mars. Look for the moon close to Mars for a few evenings, centered on or near December 4.

From mid-northern latitudes (U.S. and Europe), look for the red planet Mars to set in the west around 9 to 10 p.m. all month long.

At mid-southern latitudes (Australia and South Africa), Mars sets in the west around 11 p.m. or midnight in early December, and about an hour earlier by the month’s end.

Mars will linger in our sky for several more months. Keep in mind, however, that Earth is traveling away from Mars as we speak – moving far ahead of this planet in the endless race around the sun – so Mars is dimming in our evening sky. Mars is in its long, lingering, relatively inconspicuous phase now. It’ll be still visible in the west to the unaided eye – though not prominent – during its conjunction with Uranus on the evening of February 27, 2017.

Mars won’t make its transition from the evening to the morning sky until July 27, 2017. Even so, Mars’ stature in the evening sky will continue to diminish to that of a rather faint “star,” and we expect few – if any – skywatchers to observe the conjunction of Mars and Mercury in the evening sky on June 28, 2017.

The conjunction of Mars and Venus in the morning sky on October 5, 2017, may well present the first good opportunity to spot Mars in the morning sky when it returns from being behind the sun on July 27, 2017.

Looking for a sky almanac? EarthSky recommends…

View larger | Mikhail Chubarets in the Ukraine made this chart. It shows the view of Mars through a telescope in 2016. We never see Mars as a disk like this with the eye alone. But you can see why Mars was bright to the eye in 2016, and is now fading.

Saturn lost in sun’s glare. Saturn swings behind the sun on December 10, as this world transitions from the evening to morning sky.

In both the Northern and Southern Hemispheres, Saturn might return to visibility in the east before sunrise in very late December 2016. More likely, you’ll have to wait until January 2017 to view Saturn in the morning sky.

Saturn, the farthest world that you can easily view with the eye alone, appears golden in color. It shines with a steady light.

Binoculars don’t reveal Saturn’s gorgeous rings, by the way, although binoculars will enhance Saturn’s golden color. To see the rings, you need a small telescope. A telescope will also reveal one or more of Saturn’s many moons, most notably Titan.

Saturn’s rings are inclined at a little more than 26^o from edge-on, exhibiting their northern face. Next year, in October 2017, the rings will open most widely, displaying a maximum inclination of 27^o.

As with so much in space (and on Earth), the appearance of Saturn’s rings from Earth is cyclical. In the year 2025, the rings will appear edge-on as seen from Earth. After that, we’ll begin to see the south side of Saturn’s rings, to increase to a maximum inclination of 27^o by May 2032.

Click here for recommended almanacs. They can help you know when the planets rise, transit and set in your sky

Tom Wildoner over-exposed Saturn itself to capture this view of Saturn’s moons on June 25, 2016. Visit Tom at LeisurelyScientist.com.

Contrasting the size of Saturn and its rings with our planet Earth via Hubble Heritage Team.

Use the moon to locate Jupiter in the morning sky for several days, centered on or near December 22. Read more.

Bright Jupiter is prominent before dawn. Jupiter’s increasing prominence as the “morning star” will be hard to overlook in December. To see Jupiter, seek out the brightest starlike object in the predawn sky or the morning twilight and that’ll be the king planet Jupiter!

From mid-northern latitudes, like those in the U.S. and Europe, Jupiter rises about 2.5 hours after midnight in early December and around one hour after the midnight hour by the month’s end.

From mid-southern latitudes (Australia), look for Jupiter to rise about 2 hours after midnight in early December and around midnight by the end of the month.

If you’re not a night owl, your best bet for catching Jupiter is to wake up before sunrise to see this brilliant beauty of a planet lighting up the predawn and dawn sky. Watch for the waning crescent moon to join up with Jupiter for several days, centered on or near December 22. See the above sky chart.

By the way, Jupiter shines in front of the constellation Virgo, near Virgo’s brightest star, Spica. Jupiter serves a great reference for learning the constellations of the zodiac, because Jupiter stays in each constellation for roughly a year. So use Jupiter to become familiar with the star Spica and the constellation Virgo, starting now, and throughout 2017.

If you have binoculars or a telescope, it’s fairly easy to see Jupiter’s four major moons, which look like pinpricks of light on or near the same plane. They are often called the Galilean moons to honor Galileo, who discovered these great Jovian moons in 1610. In their order from Jupiter, these moons are Io, Europa, Ganymede and Callisto.

Jupiter and its four major moons via Jan Sandberg

These moons circle Jupiter around the Jovian equator. In cycles of six years, we view Jupiter’s equator edge-on. So, in 2015, we got to view a number of mutual events involving Jupiter’s moons through a high-powered telescope. Click here or here or here for more details.

Although Jupiter’s axial tilt is only 3^o out of perpendicular relative to the ecliptic (Earth’s orbital plane), Jupiter’s axis will tilt enough toward the sun and Earth so that the farthest of these four moons, Callisto, will NOT pass in front of Jupiter or behind Jupiter for a period of about three years, starting in late 2016. During this approximate 3-year period, Callisto will remain “perpetually” visible, alternately swinging “above” and “below” Jupiter.

Click here for a Jupiter’s moons almanac, courtesy of Sky & Telescope.

Throughout December 2016, an imaginary line from Mars through Venus points in the direction of Mercury. The only problem is that Mercury might have set by the time Mars becomes visible. In that case, draw your imaginary line to the horizon, using Mars and Venus. Then the following evening, look at this spot on the horizon for Mercury. Read more.

Mercury in west at dusk/nightfall. Mercury transitioned from the morning to the evening sky on October 27, 2016. This month, in December, Mercury will finally climb high enough from the glare of sunset to view in the evening sky from both the Northern Hemisphere and the Southern Hemisphere.

Possibly, some of you caught the thin waxing crescent moon near Mercury after sunset November 30.

Try viewing Mercury after sunset for a few weeks, centered on or near December 10. Mercury is tricky. If you look too soon, Mercury will be lost in the twilight glare; if you look too late, it will have followed the sun beneath the horizon. Watch for Mercury low in the sky, and near the sunset point on the horizon, seeking for this hidden treasure around 45 to 60 minutes after sunset. Remember, binoculars are always helpful for any Mercury search. Good Luck!

Click here for recommended almanacs; they can give you Mercury’s setting time in your sky.

What do we mean by bright planet? By bright planet, we mean any solar system planet that is easily visible without an optical aid and that has been watched by our ancestors since time immemorial. In their outward order from the sun, the five bright planets are Mercury, Venus, Mars, Jupiter and Saturn. These planets actually do appear bright in our sky. They are typically as bright as – or brighter than – the brightest stars. Plus, these relatively nearby worlds tend to shine with a steadier light than the distant, twinkling stars. You can spot them, and come to know them as faithful friends, if you try.

From late January, and through mid-February, 5 bright planets were visible at once in the predawn sky. This image is from February 8, 2016. It’s by Eliot Herman in Tucson, Arizona. View on Flickr.

Bottom line: In December 2016, three of the five bright planets appear in the evening sky at dusk/nightfall: Mercury, Venus and Mars. Jupiter reigns as the sole morning planet, whereas Saturn is lost in the sun’s glare.

Easily locate stars and constellations with EarthSky’s planisphere.

Don’t miss anything. Subscribe to EarthSky News by email

from EarthSky http://ift.tt/IJfHCr

It’ll be easy to spot the moon and Venus in early December, but Mercury will present more of a challenge. You might need binoculars to spot the young moon and Mercury after sunset on November 30. Read more.

Two of the five bright planets rise to great prominence in December 2016. Venus and Jupiter almost seem to balance two sides of our sky. Venus, the brightest planet, blazes in the west first thing at dusk. Jupiter, second-brightest, lords over the eastern half of sky before sunrise. Mars joins Venus in the evening sky, though it’s higher up than Venus and sets in the west after Venus does. Venus and Mars remain evening objects throughout December, but Saturn is now lost in the sun’s glare. We expect the notoriously elusive bright planet Mercury to become visible at dusk/nightfall by early December. Day by day, Mercury climbs upward to reach its greatest evening elongation in the evening sky on December 10. Follow the links below to learn more about planets in December 2016.

Brilliant Venus is the “evening star”

Mars, east of Venus, until mid-to-late evening

Saturn lost in sun’s glare

Bright Jupiter is prominent before dawn

Mercury in west at dusk/nightfall

Like what EarthSky offers? Sign up for our free daily newsletter today!

Astronomy events, star parties, festivals, workshops

Visit a new EarthSky feature – Best Places to Stargaze – and add your fav.

Skywatcher, by Predrag Agatonovic.

Watch for the waxing crescent moon and the dazzling planet Venus to adorn the evening wilight for several days, centered on December 2 or 3. Read more.

Brilliant Venus is the “evening star.” Okay, it’s not a star. It’s a planet. But people will call it the evening star all the same. In these past weeks, many have noticed Venus and been amazed at its brilliance in the west after sunset. It’s the brightest planet and very, very bright, even though it’s been low in the sky.

Be sure to catch the waxing crescent moon near Venus in early December, as displayed on the sky chart above. Click here for details.

Venus will climb upward from the setting sun throughout the month. Watch for Venus to close the gap between itself and Mars. These two visible evening planets will be closer together on the sky’s dome by the month’s end and closer yet in January 2017.

From mid-northern latitudes (U.S. and Europe), Venus sets about three hours after the sun in early December, and four hours after sunset by the month’s end.

At mid-southern latitudes (Australia and South Africa), Venus sets about about three hours after the sun all month long.

The moon, Venus and Mars as seen from North America on December 4, 2016. But no matter where you reside worldwide, look first for the moon on this date, and then seek out Venus and Mars. Read more

Mars, east of Venus, until mid-to-late evening. After appearing as a bright red light in our sky last May and June, Mars now appears only modestly bright (though still ruddy),above dazzling Venus. Venus is so bright that it pops out almost immediately after sunset, but you’ll have to wait until nightfall to see fainter Mars. Look for the moon close to Mars for a few evenings, centered on or near December 4.

From mid-northern latitudes (U.S. and Europe), look for the red planet Mars to set in the west around 9 to 10 p.m. all month long.

At mid-southern latitudes (Australia and South Africa), Mars sets in the west around 11 p.m. or midnight in early December, and about an hour earlier by the month’s end.

Mars will linger in our sky for several more months. Keep in mind, however, that Earth is traveling away from Mars as we speak – moving far ahead of this planet in the endless race around the sun – so Mars is dimming in our evening sky. Mars is in its long, lingering, relatively inconspicuous phase now. It’ll be still visible in the west to the unaided eye – though not prominent – during its conjunction with Uranus on the evening of February 27, 2017.

Mars won’t make its transition from the evening to the morning sky until July 27, 2017. Even so, Mars’ stature in the evening sky will continue to diminish to that of a rather faint “star,” and we expect few – if any – skywatchers to observe the conjunction of Mars and Mercury in the evening sky on June 28, 2017.

The conjunction of Mars and Venus in the morning sky on October 5, 2017, may well present the first good opportunity to spot Mars in the morning sky when it returns from being behind the sun on July 27, 2017.

Looking for a sky almanac? EarthSky recommends…

View larger | Mikhail Chubarets in the Ukraine made this chart. It shows the view of Mars through a telescope in 2016. We never see Mars as a disk like this with the eye alone. But you can see why Mars was bright to the eye in 2016, and is now fading.

Saturn lost in sun’s glare. Saturn swings behind the sun on December 10, as this world transitions from the evening to morning sky.

In both the Northern and Southern Hemispheres, Saturn might return to visibility in the east before sunrise in very late December 2016. More likely, you’ll have to wait until January 2017 to view Saturn in the morning sky.

Saturn, the farthest world that you can easily view with the eye alone, appears golden in color. It shines with a steady light.

Binoculars don’t reveal Saturn’s gorgeous rings, by the way, although binoculars will enhance Saturn’s golden color. To see the rings, you need a small telescope. A telescope will also reveal one or more of Saturn’s many moons, most notably Titan.

Saturn’s rings are inclined at a little more than 26^o from edge-on, exhibiting their northern face. Next year, in October 2017, the rings will open most widely, displaying a maximum inclination of 27^o.

As with so much in space (and on Earth), the appearance of Saturn’s rings from Earth is cyclical. In the year 2025, the rings will appear edge-on as seen from Earth. After that, we’ll begin to see the south side of Saturn’s rings, to increase to a maximum inclination of 27^o by May 2032.

Click here for recommended almanacs. They can help you know when the planets rise, transit and set in your sky

Tom Wildoner over-exposed Saturn itself to capture this view of Saturn’s moons on June 25, 2016. Visit Tom at LeisurelyScientist.com.

Contrasting the size of Saturn and its rings with our planet Earth via Hubble Heritage Team.

Use the moon to locate Jupiter in the morning sky for several days, centered on or near December 22. Read more.

Bright Jupiter is prominent before dawn. Jupiter’s increasing prominence as the “morning star” will be hard to overlook in December. To see Jupiter, seek out the brightest starlike object in the predawn sky or the morning twilight and that’ll be the king planet Jupiter!

From mid-northern latitudes, like those in the U.S. and Europe, Jupiter rises about 2.5 hours after midnight in early December and around one hour after the midnight hour by the month’s end.

From mid-southern latitudes (Australia), look for Jupiter to rise about 2 hours after midnight in early December and around midnight by the end of the month.

If you’re not a night owl, your best bet for catching Jupiter is to wake up before sunrise to see this brilliant beauty of a planet lighting up the predawn and dawn sky. Watch for the waning crescent moon to join up with Jupiter for several days, centered on or near December 22. See the above sky chart.

By the way, Jupiter shines in front of the constellation Virgo, near Virgo’s brightest star, Spica. Jupiter serves a great reference for learning the constellations of the zodiac, because Jupiter stays in each constellation for roughly a year. So use Jupiter to become familiar with the star Spica and the constellation Virgo, starting now, and throughout 2017.

If you have binoculars or a telescope, it’s fairly easy to see Jupiter’s four major moons, which look like pinpricks of light on or near the same plane. They are often called the Galilean moons to honor Galileo, who discovered these great Jovian moons in 1610. In their order from Jupiter, these moons are Io, Europa, Ganymede and Callisto.

Jupiter and its four major moons via Jan Sandberg

These moons circle Jupiter around the Jovian equator. In cycles of six years, we view Jupiter’s equator edge-on. So, in 2015, we got to view a number of mutual events involving Jupiter’s moons through a high-powered telescope. Click here or here or here for more details.

Although Jupiter’s axial tilt is only 3^o out of perpendicular relative to the ecliptic (Earth’s orbital plane), Jupiter’s axis will tilt enough toward the sun and Earth so that the farthest of these four moons, Callisto, will NOT pass in front of Jupiter or behind Jupiter for a period of about three years, starting in late 2016. During this approximate 3-year period, Callisto will remain “perpetually” visible, alternately swinging “above” and “below” Jupiter.

Click here for a Jupiter’s moons almanac, courtesy of Sky & Telescope.

Throughout December 2016, an imaginary line from Mars through Venus points in the direction of Mercury. The only problem is that Mercury might have set by the time Mars becomes visible. In that case, draw your imaginary line to the horizon, using Mars and Venus. Then the following evening, look at this spot on the horizon for Mercury. Read more.

Mercury in west at dusk/nightfall. Mercury transitioned from the morning to the evening sky on October 27, 2016. This month, in December, Mercury will finally climb high enough from the glare of sunset to view in the evening sky from both the Northern Hemisphere and the Southern Hemisphere.

Possibly, some of you caught the thin waxing crescent moon near Mercury after sunset November 30.

Try viewing Mercury after sunset for a few weeks, centered on or near December 10. Mercury is tricky. If you look too soon, Mercury will be lost in the twilight glare; if you look too late, it will have followed the sun beneath the horizon. Watch for Mercury low in the sky, and near the sunset point on the horizon, seeking for this hidden treasure around 45 to 60 minutes after sunset. Remember, binoculars are always helpful for any Mercury search. Good Luck!

Click here for recommended almanacs; they can give you Mercury’s setting time in your sky.

What do we mean by bright planet? By bright planet, we mean any solar system planet that is easily visible without an optical aid and that has been watched by our ancestors since time immemorial. In their outward order from the sun, the five bright planets are Mercury, Venus, Mars, Jupiter and Saturn. These planets actually do appear bright in our sky. They are typically as bright as – or brighter than – the brightest stars. Plus, these relatively nearby worlds tend to shine with a steadier light than the distant, twinkling stars. You can spot them, and come to know them as faithful friends, if you try.

From late January, and through mid-February, 5 bright planets were visible at once in the predawn sky. This image is from February 8, 2016. It’s by Eliot Herman in Tucson, Arizona. View on Flickr.

Bottom line: In December 2016, three of the five bright planets appear in the evening sky at dusk/nightfall: Mercury, Venus and Mars. Jupiter reigns as the sole morning planet, whereas Saturn is lost in the sun’s glare.

Easily locate stars and constellations with EarthSky’s planisphere.

Don’t miss anything. Subscribe to EarthSky News by email

from EarthSky http://ift.tt/IJfHCr

Should You Give Up Caffeine?

This post is part of KQED’s Do Now U project. Do Now U is a biweekly activity for students and the public to engage and respond to current issues using social media. Do Now U aims to build civic engagement and digital literacy for learners of all ages. This Read More …

Source:: DoNow Science

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This post is part of KQED’s Do Now U project. Do Now U is a biweekly activity for students and the public to engage and respond to current issues using social media. Do Now U aims to build civic engagement and digital literacy for learners of all ages. This Read More …

Source:: DoNow Science

from QUEST http://ift.tt/2fCNoPW

EPA beats Congress’ deadline, names first 10 chemicals for action under new law [The Pump Handle]

Good for them! They beat Congress’ deadline by 20 days.

That’s the first thing that came to mind yesterday when I read EPA’s announcement about the first 10 chemicals it’s selected for risk evaluations. EPA’s announcement is the first major milestone established by Congress when it passed sweeping changes earlier this year to the Toxic Substances Control Act. One provision of the law (Section 2605(b)(2)(A)) directed EPA to select 10 chemical substances from its 2014 “TSCA Work Plan for Chemical Assessments” and begin risk evaluations on them no later than 180 days after the law was enacted (i.e., December 19, 2016.)

The second thing I did was look at the list of 10. It includes super hazardous chemicals used in consumer products (e.g., methylene chloride, n-methylpyrrolidone (both used as paint strippers) as well as   tetrachloroethylene (PERC), trichloroethylene (TCE), and 1-Bromopropane. All of these have significant worker exposure. The list also includes asbestos—the deadly mineral that has long served as the poster child for why a new chemical safety law was needed.  President Obama explained it this way when he signed the bill in June:

“…the system was so complex, so burdensome that our country hasn’t even been able to uphold a ban on asbestos –a known carcinogen that kills as many as 10,000 Americans every year. I think a lot of Americans would be shocked by that.”

Following EPA’s announcement yesterday, Andy Igrejas, Director of Safer Chemicals, Healthy Families said:

“We support EPA’s choice of chemicals. The list they announced today is a strong one and appropriate EPA action will strengthen public health and environmental safety. We are particularly glad to see asbestos included on the list. The EPA’s inability to ban asbestos under the old law was a primary catalyst for the recent reforms. Asbestos is a major piece of unfinished business for the agency.”

So, what happens next?

EPA has six months to issue a document explaining the scope of its risk evaluation. Congress directed EPA to include in the scoping document information about exposure to the chemical, conditions of use, and the potentially exposed or susceptible subpopulations. The statute specifically mentions infants, children, pregnant women, workers, and the elderly as examples of susceptible subpopulations.

Congress also set a deadline for completing the actual risk evaluations. For each of these ten chemicals, EPA must publish its completed risk evaluation within three years of yesterday’s announcement. During that time period, EPA must publish a draft risk evaluation and allow public comment on it.

A risk evaluation, however, does not itself protect the public. If EPA’s evaluation determines that the chemical presents an unreasonable risk to humans and the environment, the agency must mitigate that risk within two years. The mitigation approaches, such as restricted use of the chemical or a phase-out of its use, would be subject to notice-and-comment rulemaking.

Environmental Defense Fund lead senior scientist Richard Denison put yesterday’s EPA announcement in perspective:

“…EPA’s issuance of this list in advance of the statutory deadline next month is a welcome sign of timely implementation of the new law. While not every chemical that everyone may have wanted is included among the first 10, that is because there are many more than 10 chemicals that need far greater scrutiny as to their safety.  Indeed, the longer “Work Plan Chemicals” list from which EPA drew the first 10 consists of nearly 100 chemicals that present significant potential risk.

He added:

“What is most important is that EPA gets started, so that it can complete risk evaluations of the first 10 and move on to the next.”

The amendments to TSCA, which are the reason for this important EPA’s action, passed Congress by an overwhelming margin (i.e., 403-12 in the House and unanimous consent in the Senate.) I’m hopeful that the bi-partisan support for the law will shield it attack when the Trump Administration takes office in January.

 

from ScienceBlogs http://ift.tt/2gLtYo5

Good for them! They beat Congress’ deadline by 20 days.

That’s the first thing that came to mind yesterday when I read EPA’s announcement about the first 10 chemicals it’s selected for risk evaluations. EPA’s announcement is the first major milestone established by Congress when it passed sweeping changes earlier this year to the Toxic Substances Control Act. One provision of the law (Section 2605(b)(2)(A)) directed EPA to select 10 chemical substances from its 2014 “TSCA Work Plan for Chemical Assessments” and begin risk evaluations on them no later than 180 days after the law was enacted (i.e., December 19, 2016.)

The second thing I did was look at the list of 10. It includes super hazardous chemicals used in consumer products (e.g., methylene chloride, n-methylpyrrolidone (both used as paint strippers) as well as   tetrachloroethylene (PERC), trichloroethylene (TCE), and 1-Bromopropane. All of these have significant worker exposure. The list also includes asbestos—the deadly mineral that has long served as the poster child for why a new chemical safety law was needed.  President Obama explained it this way when he signed the bill in June:

“…the system was so complex, so burdensome that our country hasn’t even been able to uphold a ban on asbestos –a known carcinogen that kills as many as 10,000 Americans every year. I think a lot of Americans would be shocked by that.”

Following EPA’s announcement yesterday, Andy Igrejas, Director of Safer Chemicals, Healthy Families said:

“We support EPA’s choice of chemicals. The list they announced today is a strong one and appropriate EPA action will strengthen public health and environmental safety. We are particularly glad to see asbestos included on the list. The EPA’s inability to ban asbestos under the old law was a primary catalyst for the recent reforms. Asbestos is a major piece of unfinished business for the agency.”

So, what happens next?

EPA has six months to issue a document explaining the scope of its risk evaluation. Congress directed EPA to include in the scoping document information about exposure to the chemical, conditions of use, and the potentially exposed or susceptible subpopulations. The statute specifically mentions infants, children, pregnant women, workers, and the elderly as examples of susceptible subpopulations.

Congress also set a deadline for completing the actual risk evaluations. For each of these ten chemicals, EPA must publish its completed risk evaluation within three years of yesterday’s announcement. During that time period, EPA must publish a draft risk evaluation and allow public comment on it.

A risk evaluation, however, does not itself protect the public. If EPA’s evaluation determines that the chemical presents an unreasonable risk to humans and the environment, the agency must mitigate that risk within two years. The mitigation approaches, such as restricted use of the chemical or a phase-out of its use, would be subject to notice-and-comment rulemaking.

Environmental Defense Fund lead senior scientist Richard Denison put yesterday’s EPA announcement in perspective:

“…EPA’s issuance of this list in advance of the statutory deadline next month is a welcome sign of timely implementation of the new law. While not every chemical that everyone may have wanted is included among the first 10, that is because there are many more than 10 chemicals that need far greater scrutiny as to their safety.  Indeed, the longer “Work Plan Chemicals” list from which EPA drew the first 10 consists of nearly 100 chemicals that present significant potential risk.

He added:

“What is most important is that EPA gets started, so that it can complete risk evaluations of the first 10 and move on to the next.”

The amendments to TSCA, which are the reason for this important EPA’s action, passed Congress by an overwhelming margin (i.e., 403-12 in the House and unanimous consent in the Senate.) I’m hopeful that the bi-partisan support for the law will shield it attack when the Trump Administration takes office in January.

 

from ScienceBlogs http://ift.tt/2gLtYo5

Hurricane risk to US northeast coast

The northeastern coast of the United States could be hit by more frequent and more powerful hurricanes in the future, according to research published in the journal Scientific Reports on November 23, 2016.

The study found that, due to shifting weather patterns, hurricanes have gradually moved northwards from the western Caribbean toward northern North America over the past few hundred years.

The reason for this change in the hurricane track, the researchers suggest, is the expansion of atmospheric circulation belts driven by increasing carbon dioxide emissions.

New York and other major cities along the northeast coast could come under a growing threat from these severe storms and need to be better prepared for their potential impact, the researchers said. Dr. Lisa Baldini of Durham University is the study’s lead author. She said in a statement:

Our research shows that the hurricane risk to the northeastern coast of the United States is increasing as hurricanes track further north.

Since the 19th century this shift was largely driven by man-made emissions and if these emissions continue as expected this will result in more frequent and powerful storms affecting the financial and population centers of the northeastern United States.

Damage at Union Beach in New Jersey from Hurricane Sandy. In 2012, Hurricane Sandy struck the Caribbean and much of the eastern seaboard of the United States, stretching as far north as Canada. At least 233 people died as a result of the storm. Image via Devin Matthew Toperek

The researchers say that rising amounts of atmospheric CO2 have expanded a pattern of circulating air in the Earth’s tropical belt called the Hadley cell, which is pushing hurricane tracks further north, away from the western Caribbean towards the northeastern U.S. According to the researchers:

This suggests that from the late 19th century, manmade emissions have become the main driver behind shifting hurricane tracks by altering the position of global weather systems.

If future trends in carbon dioxide and industrial aerosol emissions continue as expected, hurricanes could shift even further northward, exacerbating the risk to the northeast coast of the United States.

Hurricane Sandy on October 30, 2012. Image via NASA.

For the study, the scientists reconstructed hurricane rainfall for the western Caribbean dating back 450 years. Do do this they analyxed the chemical composition of a stalagmite collected from a cave in southern Belize in Central America.

They found that the average number of hurricanes at the Belize site decreased over time. When the hurricane history of Belize was compared with documentary hurricane records from places such as Bermuda and Florida, this information showed that Atlantic hurricanes were moving to the north rather than decreasing in total numbers.

Although natural warming over the centuries has had some impact on shifting hurricane tracks, the researchers found a marked decrease in hurricane activity in the western Caribbean coinciding with the late 19th century industrial boom associated with increasing carbon dioxide and sulphate aerosol emissions to the atmosphere.

The researchers said that initial regional cooling of the Northern Hemisphere due to the increased aerosol emissions from industrialization should have pushed the hurricane tracks southward. But instead, rising amounts of atmospheric carbon dioxide overrode this effect by expanding the Hadley cell – a pattern of circulating air in the Earth’s tropical belt – pushing hurricane tracks further north, away from the western Caribbean towards the northeastern United States.

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Bottom line: Research published in Scientific Reports on November 23, 2016 suggests that the northeastern coast of the United States could be hit by more frequent and more powerful hurricanes in the future.

Read more from Durham University

from EarthSky http://ift.tt/2g7Klvm

The northeastern coast of the United States could be hit by more frequent and more powerful hurricanes in the future, according to research published in the journal Scientific Reports on November 23, 2016.

The study found that, due to shifting weather patterns, hurricanes have gradually moved northwards from the western Caribbean toward northern North America over the past few hundred years.

The reason for this change in the hurricane track, the researchers suggest, is the expansion of atmospheric circulation belts driven by increasing carbon dioxide emissions.

New York and other major cities along the northeast coast could come under a growing threat from these severe storms and need to be better prepared for their potential impact, the researchers said. Dr. Lisa Baldini of Durham University is the study’s lead author. She said in a statement:

Our research shows that the hurricane risk to the northeastern coast of the United States is increasing as hurricanes track further north.

Since the 19th century this shift was largely driven by man-made emissions and if these emissions continue as expected this will result in more frequent and powerful storms affecting the financial and population centers of the northeastern United States.

Damage at Union Beach in New Jersey from Hurricane Sandy. In 2012, Hurricane Sandy struck the Caribbean and much of the eastern seaboard of the United States, stretching as far north as Canada. At least 233 people died as a result of the storm. Image via Devin Matthew Toperek

The researchers say that rising amounts of atmospheric CO2 have expanded a pattern of circulating air in the Earth’s tropical belt called the Hadley cell, which is pushing hurricane tracks further north, away from the western Caribbean towards the northeastern U.S. According to the researchers:

This suggests that from the late 19th century, manmade emissions have become the main driver behind shifting hurricane tracks by altering the position of global weather systems.

If future trends in carbon dioxide and industrial aerosol emissions continue as expected, hurricanes could shift even further northward, exacerbating the risk to the northeast coast of the United States.

Hurricane Sandy on October 30, 2012. Image via NASA.

For the study, the scientists reconstructed hurricane rainfall for the western Caribbean dating back 450 years. Do do this they analyxed the chemical composition of a stalagmite collected from a cave in southern Belize in Central America.

They found that the average number of hurricanes at the Belize site decreased over time. When the hurricane history of Belize was compared with documentary hurricane records from places such as Bermuda and Florida, this information showed that Atlantic hurricanes were moving to the north rather than decreasing in total numbers.

Although natural warming over the centuries has had some impact on shifting hurricane tracks, the researchers found a marked decrease in hurricane activity in the western Caribbean coinciding with the late 19th century industrial boom associated with increasing carbon dioxide and sulphate aerosol emissions to the atmosphere.

The researchers said that initial regional cooling of the Northern Hemisphere due to the increased aerosol emissions from industrialization should have pushed the hurricane tracks southward. But instead, rising amounts of atmospheric carbon dioxide overrode this effect by expanding the Hadley cell – a pattern of circulating air in the Earth’s tropical belt – pushing hurricane tracks further north, away from the western Caribbean towards the northeastern United States.

Enjoying EarthSky? Sign up for our free daily newsletter today!

Bottom line: Research published in Scientific Reports on November 23, 2016 suggests that the northeastern coast of the United States could be hit by more frequent and more powerful hurricanes in the future.

Read more from Durham University

from EarthSky http://ift.tt/2g7Klvm

Historic Shipwreck Removed from Gowanus Canal Superfund Site

By Natalie Loney

At the bottom of the murky polluted waters of Gowanus Canal rests the remains of a World War II vessel. How did a WW II boat end up in a canal in Brooklyn, NY?

Recent photograph of the shipwreck. (AHRS, 2016)

This shipwreck is all that’s left of a Miami 63-foot Aircraft Rescue Boat. The “Miami’ boats, designed by the Miami Shipbuilding Corporation, were used at sea in WWII to rescue downed pilots and air crew. The boat in the Gowanus was built in 1943 and was used by the U.S. military until about 1963.

Subsequent to its military service as a “crash boat”, the now Gowanus wreck was refurbished and converted into a ferry. Renamed the Point O’Woods V, the boat was used as a ferry service to Fire Island from 1963 until 1985. In around 1989, the boat became the Kokkomokko and was used as a houseboat in the Bronx until around 2003.

After suffering ice damage, the boat was salvaged and towed to the Gowanus Canal where it became a floating arts and community services space called the Empty Vessel Project. In 2006 the boat, now renamed the Green Anchor Yacht (or more commonly the SS GAY), was used as an arts area, houseboat, and a “queer and trans-friendly space.” It’s believed that the SS GAY sank sometime in 2009.

63’ Aircraft Rescue Boat operating at high speed. (Buhler, 2008)

On October 24, 2016, as part of EPA’s overall plan to clean up the Gowanus Canal, contractors began removing debris from the Gowanus Canal 4^th Street turning basin. Unfortunately, the SS GAY was too far gone to be salvaged. Bits and pieces of the vessel where among the first items removed from the canal. The material recovered from the canal was sorted into recyclable and general landfill categories. Hopefully the metal parts of the SS GAY will be recycled into another use and the WW II crash boat will live on.

For more about the Gowanus Canal shipwreck, see “IDENTIFICATION AND HISTORICAL ASSESSMENT OF “TARGET 31a” 4th STREET BASIN, GOWANUS CANAL SUPERFUND SITE, BROOKLYN, NEW YORK”, William Jason Flatt, PE and Michael Audin, RPA, Archaeology & Historic Resource Services, LLC.

 

About the Author: Natalie Loney is a community involvement coordinator in New York City. She has been in Public Affairs since 1995.

from The EPA Blog http://ift.tt/2g7ovYS

By Natalie Loney

At the bottom of the murky polluted waters of Gowanus Canal rests the remains of a World War II vessel. How did a WW II boat end up in a canal in Brooklyn, NY?

Recent photograph of the shipwreck. (AHRS, 2016)

This shipwreck is all that’s left of a Miami 63-foot Aircraft Rescue Boat. The “Miami’ boats, designed by the Miami Shipbuilding Corporation, were used at sea in WWII to rescue downed pilots and air crew. The boat in the Gowanus was built in 1943 and was used by the U.S. military until about 1963.

Subsequent to its military service as a “crash boat”, the now Gowanus wreck was refurbished and converted into a ferry. Renamed the Point O’Woods V, the boat was used as a ferry service to Fire Island from 1963 until 1985. In around 1989, the boat became the Kokkomokko and was used as a houseboat in the Bronx until around 2003.

After suffering ice damage, the boat was salvaged and towed to the Gowanus Canal where it became a floating arts and community services space called the Empty Vessel Project. In 2006 the boat, now renamed the Green Anchor Yacht (or more commonly the SS GAY), was used as an arts area, houseboat, and a “queer and trans-friendly space.” It’s believed that the SS GAY sank sometime in 2009.

63’ Aircraft Rescue Boat operating at high speed. (Buhler, 2008)

On October 24, 2016, as part of EPA’s overall plan to clean up the Gowanus Canal, contractors began removing debris from the Gowanus Canal 4^th Street turning basin. Unfortunately, the SS GAY was too far gone to be salvaged. Bits and pieces of the vessel where among the first items removed from the canal. The material recovered from the canal was sorted into recyclable and general landfill categories. Hopefully the metal parts of the SS GAY will be recycled into another use and the WW II crash boat will live on.

For more about the Gowanus Canal shipwreck, see “IDENTIFICATION AND HISTORICAL ASSESSMENT OF “TARGET 31a” 4th STREET BASIN, GOWANUS CANAL SUPERFUND SITE, BROOKLYN, NEW YORK”, William Jason Flatt, PE and Michael Audin, RPA, Archaeology & Historic Resource Services, LLC.

 

About the Author: Natalie Loney is a community involvement coordinator in New York City. She has been in Public Affairs since 1995.

from The EPA Blog http://ift.tt/2g7ovYS

Bracing for President Trump [Page 3.14]

The election of Donald Trump to the Presidency of the U.S. caught nearly everyone by surprise, and fingers were immediately pointed in all directions as the election’s losers looked to lay blame. Chad Orzel offers one relevant narrative: “There are a lot of people who feel like they’re being screwed by a system run for the benefit of people in big cities on the coasts who sneer at them as ignorant, racist hicks.” Ethan Siegel extends an olive branch on Starts With a Bang, saying “we all have our biases, even if we ourselves are scientists,” and encourages EVERYONE to accept the responsibility of becoming more informed in a political climate that drips with misinformation and emotional spin.

On Denialism Blog, Mark Hoofnagle examines the conspiracist worldview and what we might expect from a conspiracist White House, noting “we now have a president and vice president elect who have conspiratorial views on vaccines, evolution and climate change, rejecting, effectively, the most important public health intervention of all time, the underpinning of all modern biology, and arguably the greatest threat to human survival on Earth.” Meanwhile, on The Pump Handle, Kim Krisberg sounds a scientific battle cry, writing “public health has plenty of practice confronting and overcoming powerfully entrenched interests for the greater good. Just ask Big Tobacco.”

Finally, John DuPuis has started to document the damage done by Trump to important scientific issues, such as vaccination. On Respectful Insolence, Orac writes “it’s no surprise that antivaxers are very happy about the election of Donald Trump, and they hope to get something out of it.” The true consequences of Trump’s presidency remain to be seen, but his win is a wake-up call to advocates of science and social justice. We must remain vigilant, and we must remember that without effective outreach and communication, we will lose. As Chad Orzel notes, the fight going forward “involves working to treat everyone with respect and decency and empathy,” and not merely casting stones at those who think differently.

See also:

Myron Ebell, Evil Arch Climate Uber Villain on Stoat

Clinton-Trump Gap in Key States on Greg Laden’s Blog

from ScienceBlogs http://ift.tt/2gygA7I

The election of Donald Trump to the Presidency of the U.S. caught nearly everyone by surprise, and fingers were immediately pointed in all directions as the election’s losers looked to lay blame. Chad Orzel offers one relevant narrative: “There are a lot of people who feel like they’re being screwed by a system run for the benefit of people in big cities on the coasts who sneer at them as ignorant, racist hicks.” Ethan Siegel extends an olive branch on Starts With a Bang, saying “we all have our biases, even if we ourselves are scientists,” and encourages EVERYONE to accept the responsibility of becoming more informed in a political climate that drips with misinformation and emotional spin.

On Denialism Blog, Mark Hoofnagle examines the conspiracist worldview and what we might expect from a conspiracist White House, noting “we now have a president and vice president elect who have conspiratorial views on vaccines, evolution and climate change, rejecting, effectively, the most important public health intervention of all time, the underpinning of all modern biology, and arguably the greatest threat to human survival on Earth.” Meanwhile, on The Pump Handle, Kim Krisberg sounds a scientific battle cry, writing “public health has plenty of practice confronting and overcoming powerfully entrenched interests for the greater good. Just ask Big Tobacco.”

Finally, John DuPuis has started to document the damage done by Trump to important scientific issues, such as vaccination. On Respectful Insolence, Orac writes “it’s no surprise that antivaxers are very happy about the election of Donald Trump, and they hope to get something out of it.” The true consequences of Trump’s presidency remain to be seen, but his win is a wake-up call to advocates of science and social justice. We must remain vigilant, and we must remember that without effective outreach and communication, we will lose. As Chad Orzel notes, the fight going forward “involves working to treat everyone with respect and decency and empathy,” and not merely casting stones at those who think differently.

See also:

Myron Ebell, Evil Arch Climate Uber Villain on Stoat

Clinton-Trump Gap in Key States on Greg Laden’s Blog

from ScienceBlogs http://ift.tt/2gygA7I