Split in environmental movement? No. Facts still matter

December 21, 2012

Rachel Carson was right in her claims against DDT in Silent Spring, of course, as all subsequent research shows. Drawing by New York Magazine's immortal David Levine.

Rachel Carson was right in her claims against DDT in Silent Spring, of course, as all subsequent research shows. Drawing by New York Magazine‘s immortal David Levine.

Chris Clarke took on Keith Kloor at Pharyngula.  Kloor fell victim to the idea that there is a great split between old “tree-hugger” environmentalists and a newer breed of greens who are willing to work with business and industry to get actual solutions.  Kloor seems to be cheering those he calls “modernists.”

It’s not a new idea, nor is a particularly useful one.  There has long been a minor rift between people who believe it’s impossible to cut deals with polluters, and those who get into the trenches to hammer out or shoot out deals that result in practical legislation.  The group who called for a legislated end to personal automobiles, for example, are still around — but they applaud those who forged the Clean Air Act that drove the invention and development of catalytic converters and cleaned up urban air, even though it left America awash in cars.

Clarke wrote:

Kloor summarizes the better, smarter, more stylish and less embarrassing side’s position thusly:

Modernist greens don’t dispute the ecological tumult associated with the Anthropocene. But this is the world as it is, they say, so we might as well reconcile the needs of people with the needs of nature. To this end, [controversial environmentalist Peter] Kareiva advises conservationists to craft “a new vision of a planet in which nature—forests, wetlands, diverse species, and other ancient ecosystems—exists amid a wide variety of modern, human landscapes.”

That doesn’t seem all that unreasonable on its face, if for no other reason that that it’s currently the best case scenario. You would be extremely hard-pressed to find even the most wilderness-worshipping enviro who disagreed.

In fact, were I to have to rebut Kloor’s whole piece in one sentence, it would be this:  the U.S. non-profit The Wilderness Society, founded by the authors of the Wilderness Act of 1964, is aggressively pushing for industrial development of solar and wind energy generating capacity on intact habitat on the public lands of the American west.

President Lyndon B. Johnson signing the Wilder...

President Lyndon B. Johnson signing the Wilderness Act in 1964 (Photo credit: Wikipedia)

I replied at Pharyngula, noting that the rift Kloor talks about could be exemplified by Rachel Carson and DDT and “modernists” who don’t object to the use of DDT in Indoor Residual Spraying (IRS) to fight malaria — except, those are the same people, working on the same issue.  In short, I sorta agree with Clarke.  There’s no rift, only a lot of misunderstanding.

Heck, if I’m going to that trouble, I may as well capture it here for my indexing purposes.  Here’s my response — I may add links in the body that don’t appear at Pharyngula.

Interesting view of a bit of an inside-baseball (environmental protection politics) issue, but not particularly incisive. Other than its being published at Slate, should we worry about Kloor’s views much?

The piece completely ignores that the views of those he labels “modernists” and “pragmatists” come wholly out of the research demanded by those he ignores in the old movement, whom he unfairly ridicules as hippies.

For example: It’s politically correct (in some circles) today to say (1) Rachel Carson was too strident, and (2) probably wrong about DDT “since it’s (3) not carcinogenic, we now know.” Malaria fighters around the world (4) now have DDT in their arsenal again, this view holds, because (5) pragmatists in the environmental movement finally listened. “(6) Sorry about those ‘unnecessary’ malaria deaths,” some claim the pragmatists would say.

But that view is founded on, grown in, and spreads, historical, legal and scientific error. And the progress made was based on understanding the science, history and law accurately. It’s not that pragmatists finally succeeded where the tree-huggers failed. It’s that the tree-huggers hung in there for 50 years and the world has come around to recognizing good effects, even if it can’t or won’t acknowledge the true heroes who got the work done.

Carson was dead right about DDT. She urged the use of Integrated Vector (Pest) Management (IVM, or IPM) in place of DDT, but she forecasted (in 1962!) that unless DDT use were severely curtailed, it would cease to be useful to fight malaria and other diseases (because, as Carson understood, evolution works, and the bugs evolve defenses to DDT). By 1965, WHO had to end its ambitious campaign to eradicate malaria because, as Carson predicted, mosquitoes in Africa turned up resistant and immune to DDT because of abuse and overuse of the stuff in other applications. Notice, 1965 was seven years BEFORE the U.S. banned DDT use on agricultural crops, and 19 years before the last U.S. DDT manufacturer scurrilously fled to bankruptcy protection to avoid penalties under Al Gore’s SuperFund cleanup bill.

Carson did not claim DDT causes cancer. So the basis of the argument that DDT is “safe for human use” because it doesn’t cause cancer, is an historical non-starter. Research since Carson’s death shows that DDT does indeed cause cancer, though we think its a weak carcinogen in humans. DDT was banned because it’s a deadly poison (else it wouldn’t work!), and it kills for a long time, and it is nonspecific — so it will kill an entire ecosystem before it can eradicate some insect pests. It was in 1971, and it still is.

Photo taken at Rachel Carson's 100th Birthday ...

Photo taken at Rachel Carson’s 100th Birthday celebration at Rachel Carson Homestead in Springdale, Pennsylvania (Photo credit: Wikipedia)

Carson did note that DDT kills birds, in vitro, by incapacitating chicks to thrive, by outright poisoning insect-eating and predatory birds (or anything near the top of the trophic levels) and through a then-mysterious scrambling of reproductive abilities. About ten years after her death, it was discovered DDT also rendered female fowl unable to make competent eggshells, and that provided a fifth path for death for birds.

Much of the research Carson cited formed the foundation for the science-based regulation EPA came up with in late 1971 that ended in the ban on DDT in the U.S. None of those studies has ever been seriously challenged by any later research. In fact, when Discover Magazine looked at the issue of DDT and birds and malaria in 2007, they found more than a thousand peer-review follow-up studies on DDT confirming Carson’s writings.

Over the past decade we’ve seen a few bird species come off of the Endangered Species List. Recovery of at least four top predators should be credited squarely to the ban on crop use of DDT in the U.S, brown pelicans, peregrine falcons, osprey, and bald eagles. 40 years of non-use, coupled with habitat protection and captive breeding programs, brought these birds back. (Five years ago I sat on the lawn of Mt. Vernon and watched a bald eagle cross the Potomac to a snag 100 yards from George Washington’s porch; the director told me they’d been watching several eagles there for a couple of years. 15 years earlier, one nesting pair existed in the whole Potomac region, at a secret site; now tourists are told where to go see them. A friend wrote today he saw a bald eagle in Ft. Worth, Texas. The gains from the DDT ban are real.)

Meanwhile, in Africa and Asia, the war on malaria continued. After the DDT advocates screwed up the malaria eradication program of WHO in the 1960s, progress against malaria continued, but slowed; in the late 1980s malaria flared up in some regions where the malaria parasites themselves had developed resistance to the most commonly-used pharmaceuticals (as Darwin would have predicted, as Carson would have predicted). After struggling to keep malaria from exploding, about 1999 malaria fighters latched on to Integrated Pest Management (IPM), which couples occasional spraying of homes and other residences, even with DDT (which was never banned in Africa or Asia) — but calls for spraying only when it is very effective, and requires that no one pesticide be used to the point that it drives mosquitoes to evolve resistance, and pushes all other means to prevent disease-spreading bug bites.

Largely without DDT (though DDT is not banned), malaria infections fell from peak DDT-use years of 1959 and 1960, from 500 million infections per year, to fewer than 250 million infections today — that’s a decrease of 50%. Phenomenal when we consider the population of the world has doubled in the same time. Deaths dropped from 4 million annually in those peak-DDT-use years to fewer than 800,000 per year today — a decrease of more than 75%. Progress continues, with IPM; bednets now do better, and more cheaply, what DDT used to do but largely cannot anymore — stop the bites. Better medicines, and better educated health care workers, clean up the disease among humans so mosquitoes can’t find a well of infection to draw from.

Notice that at no point was progress made contrary to the “tree-hugger” model, but instead was made at every point because of the tree-hugger model. No compromises enabled the recovery of the bald eagle, but strict enforcement of the environmental laws. No compromises with Rachel Carson’s Silent Spring helped beat malaria, but finally applying what Rachel Carson actually wrote.

Now along comes Kloor to say that Carson and her de facto acolytes block progress, and people who argue for compromise instead have the lighted path to the future?

Let’s review:

  1. Carson was not too strident; in fact the President’s Science Advisory Committee’s report, “Use of Pesticides,” in 1963 called for more immediate and more draconian action than Carson did.
  2. Carson was not wrong about DDT; it is still a deadly poison, and it still kills ecosystems; however, as Carson urged, careful use can provide benefits in a few cases.
  3. Human carcinogenicity was not an issue in DDT’s being banned in the U.S. in 1972, and it’s being only a weak carcinogen now does not rescue DDT from the scientifically-justified ban; we now know DDT is even more insidious, since it acts as an endocrine disruptor in nature, scrambling reproductive organs of fish, amphibians, reptiles and mammals, and probably birds, too.
  4. Malaria fighters always had DDT in their arsenal; no reason to use DDT where it won’t work, nor where it’s harms outweigh its benefits (as the National Academy of Sciences said, in 1970, in a call to get rid of the stuff).
  5. If there were any pragmatists in this story, they abandoned malaria-affected areas of the world years ago and have not returned; they did nothing to help save the birds; to claim they listened is to suggest they did something and can do more. Not sure that’s a case that can be made.
  6. There were not deaths to malaria “unnecessary” due to a ban on DDT which never occurred in Africa or Asia, while DDT was plentiful and cheap to anyone who wanted to use it (still pretty much the case today). Let’s repeat that:  DDT has never been banned in Africa or Asia.  We can’t claim great disease exacerbation when the disease actually was abated so greatly over the period of time in discussion — can’t make that claim and also claim to be honest.

It was the hard-core, wilderness-loving, science-following environmentalists who were responsible for every lick of progress on that issue.

Is DDT unique as an issue? I don’t think so. And I think a fair history of the environmental movement from 1975 to today would point out that it was hard-core, save-the-planet-because-it’s-the-only-home-humans-have types who pulled things out. Do we have great canyons to hike in Colorado and Utah? Yeah, but keeping Exxon from digging up huge portions of those states for a now-failed oil-shale extraction scheme should get some of the credit. Is there wildlife in cities? Sure, but only because we had wilderness areas to protect those species in their darkest hours, and we may need those places again. Do we have other needs for wilderness? Only if we need clean air, clean water, huge sinks for CO2 emissions, and places to dream about so we stay sane and focused, and American (Frederick Jackson Turner was correct enough — Americans are more noble, more creative, wiser and more productive, if we have a frontier and a wild).

Isn’t it required that we compromise on standards to get energy independence, and economic prosperity? Don’t look now, but oil and natural gas production, and exploration, are at highs, under our “tough environmental laws.” If we look around the world, we see that future prosperity is best protected by such laws, even if they sometimes seem to slow some industrial process or other.

New generation of conservationist? Possible only because of the old generation, the Pinchots, Roosevelts (esp. the two presidents), the Lincolns and Grants, the Muirs, the Leopolds, the Bob Marshalls, the Udalls, the Morans, the Douglases (Marjory Stoneman and Justice William, both), the Rockefellers, the Nelsons, the Muskies, the Gores, the Powells, and thousands of others who were then ridiculed for being unpragmatic, and whose methods often required that they not “compromise.” We can’t talk about protecting wilderness today unless the Sierra Club was there to actually do it, earlier. We can’t talk about private efforts, or public-private partnerships, without standing on the ground already protected by the Nature Conservancy. We can’t talk about saving the birds without relying on the history of the Audubon Society. We can’t talk sensibly about protecting humans from cancer or poisons without touching every rhetorical string Rachel Carson plucked.

Get the science right. Keep your history accurate. Read the fine print on the law, and on the pesticide label. Conservation isn’t for the birds, bees, bears, trout and flowers — it’s for humans. That’s news to Kloor? Maybe that’s why his view is skewed.

Progress is made by unreasonable and stubborn people, sometimes? No, Martin Luther King, Jr., said — those are the only people who make progress.

We aren’t going to build a future conservation movement by giving away what has been conserved to now.

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2 Comments | DDT, Environmental protection, History, Law, Malaria, Politics, Rachel Carson, Science | Tagged: , , , , , , , , , | Permalink
Posted by Ed Darrell

December 17, history written in the wind

December 17, 2012

Wright Bros. flyer at Kittyhawk, first flight

Photo from Treasures of the Library of Congress, by John T. Daniels (d. 1948); this is a modern gelatin print from the original glass negative

Ten feet in altitude, 120 feet traveled, 12 seconds long. That was the first flight in a heavier-than-air machine achieved by Orville and Wilbur Wright of Dayton, Ohio, at Kittyhawk, North Carolina, on December 17, 1903.

Few witnesses observed the flight.  Though the brothers Wright fully understood the potential of the machine they had created, even they waited before revealing to their supporters, and then the world, what they had accomplished.

From the Library of Congress:

On the morning of December 17, 1903, Wilbur and Orville Wright took turns piloting and monitoring their flying machine in Kill Devil Hills, North Carolina. Orville piloted the first flight that lasted just twelve seconds. On the fourth and final flight of the day, Wilbur traveled 852 feet, remaining airborne for 57 seconds. That morning the brothers became the first people to demonstrate sustained flight of a heavier-than-air machine under the complete control of the pilot.

No lost luggage, no coffee, no tea, no meal in a basket, either.  No ATC (Air Traffic Control) delays.  Neither brother endured a TSA screening.

Resources on the Wright Brothers’ first flight:

(I almost always forget the big dates until the end of the day.  This is mostly an encore post.)

8 Comments | Heroes, History, History images, Technology | Tagged: , , , , , , | Permalink
Posted by Ed Darrell

Annals of global warming: 333rd consecutive month above 20th century average temperature

December 17, 2012

Exit polling called this trend 20 years ago; is everybody else ready yet?

333 months of worldwide temperature averages above the 20th century average — a kid younger than 27.5 years has never lived through a single month cooler than the 20th century average for that month.  We’re well into the second generation of people who know nothing but global warming.

A reasonable and smart person might note that one does not need to be a student of advanced statistics to spot a trend here.

Read the NOAA report (you may have to select “November 2012”):

Global temperature highlights: November

  • The combined average temperature over global land and ocean surfaces for November was the fifth highest on record for November, at 56.41°F (13.67°C) or 1.21°F (0.67°C) above the 20th century average. The margin of error associated with this temperature is ±0.13°F (0.07°C).
  • November marked the 36th consecutive November and 333rd consecutive month with a global temperature above the 20th century average. The last below-average temperature November was November 1976 and the last below-average temperature month was February 1985.
  • The global land temperature was the sixth warmest November on record, at 2.03°F (1.13°C) above the 20th century average. The margin of error is ±0.20°F (0.11°C).

Just a look at the extremes in November should be alarming, especially if you live in the USA.

NOAA chart of climate anomalies and events, November 2012

Selected Significant Climate Anomalies and Events, November 2012; click for larger, more-easily-viewed image

More evidence that Michael Mann‘s “hockey stick” graph is vindicated; more evidence that we should not regard James Hansen as we did Cassandra, but should instead heed his warnings.

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2 Comments | Climate change, climate_change, Global warming, Government, History, NOAA, Science | Tagged: , , , , , , , | Permalink
Posted by Ed Darrell

Longevity of DDT, in pictures

December 16, 2012

One of the key problems with DDT is its persistence.  That was a selling point early on — one application would last for six months to a year.  In the wild or in a city, DDT can breakdown in about a year, but it breaks down into DDE which is pretty deadly itself and can cause a raft of other trouble while it hangs around.  While DDT will kill young birds and even adult songbirds outright, its most pernicious workings come in the breakdowns.  DDE insinuates itself in the reproductive organs of animals, causing birds to be unable to lay eggs with properly calcified eggshells.  Even if the DDT doesn’t kill the chicks, the DDE gets next year’s generation, making sure the egg cannot protect the chick to hatching.

A treaty adhered to by most of the world’s nations targets DDT specifically, you can tell by the name if you don’t know the content:  The Persistent Organic Pollutants Treaty (POPs), also known as the Stockholm Convention after the city where it was finally negotiated under the direction of the United Nations’ health care arm, the World Health Organization (WHO).

40 years after DDT use essentially ended in the U.S., traces of it still show up in the tissues of creatures in the wild, in plants, in crops, and in human tissue.

Where does it come from?

Most of what shows up is just circulating in the air, soil, water and living things.  There could be other sources.

I doubt this is a significant source, but a lot of DDT remains stored in barns and sheds on farms and in gardens across North America.  Over at a blog operated by an exterminator in Charlotte, North Carolina, we get a glimpse of history and potential disaster all at once.

Today, I traveled up to a Lincolnton, North Carolina Farm house to give a gentleman a price on Termite Protection for his home. After I performed an inspection, he took me out to his barn to show off a couple of old tractors. Immediately catching my eye on an old work bench was anachronistic blast from the past.

There it was, an unopened bottle of DDT. (See images below)  DDT  was Banned in the United States more than 30 years ago, and  it remains America’s best known toxic substance. Like some sort of rap star, it’s known just by its initials; it’s the Notorious B.I.G. of pesticides. And much like the Notorious B.I.G., it has been put to rest.

Electrolux Insecticide with DDT, Charlotte Pest Control Image

Electrolux Insecticide featuring DDT in the formulation, on a barn workbench in 2012, near Charlotte North Carolina – Charlotte Pest Control image

Did it really have DDT?  Look at the next photo.  It’s badly focused, but you can probably make it out, that line at the bottom of the can.

Contents label of Electrolux Insecticide, showing DDT

Label of Electrolux Insecticide can, showing DDT as the contents. Charlottepestcontrol.me image

DDT put to rest?  If only it were that easy. Not only is the stuff in that can still deadly, it’ll hang around for decades if released from the can.

You’re wondering, of course, just what in the world was Electrolux doing selling DDT?  Look at the label: See that woman using the vacuum rather like a spray device?

Cannister vacuums of the 1950s and 1960s were advertised as universal tools.  Not only would they suck up dirt from a floor, but they could also be used as blowers, simply by reversing the hole into which the hose was plugged.  Manufacturers provided attachments to make vacuums into paint blowers, powdered plant fertilizer spreaders, and liquid or powder pesticide sprayers.  See for example this page from a 1960s-era Universal canister vacuum:

Instruction manual for Universal vacuum, showing use as a sprayer of DDT or wax. VacuumLand image

Instruction booklet for a Universal-brand cannister vacuum, showing the attachments used to turn it into a sprayer — and on page 28, a sprayer of DDT insecticide. Image courtesy of VacuumLand (go to that site to see the entire instruction manual).

The greatest dangers of DDT came from broadcast use outdoors.  These pictures show indoor use, but in application by an untrained, poorly-equipped amateur.  If your exterminator shows up in heels and pearls, fire that company and hire someone else!

In any case, vacuum manufacturers and resellers would often provide virtually every product that could be added to or used with a machine, often at very high markup.  In this case, Electrolux had some other company package DDT in a can with the Electrolux label.  That can must have been sold before 1972 when over-the-counter sales of DDT ended; it probably was before 1970, when most in-home uses of DDT were ordered to stop.   In the photos I have not detected anything to date it, but it must be at least 42 years old.

What a different time it was, when housewives used their vacuums to thoroughly spray their own homes with DDT!

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Posted by Ed Darrell

Still no ban on DDT: Treaty monitors allow DDT use to continue

December 16, 2012

Real news on a topic like DDT takes a while to filter into the public sphere, especially with interest groups, lobbyists and Astro-Turf groups working hard to fuzz up the messages.

News from the DDT Expert Group of the Conference of the Parties to the Stockholm Convention was posted recently at the Stockholm Convention website — the meeting was held in early December in Geneva, Switzerland.

Stockholm Convention on Persistent Organic Pol...

Logo of the Stockholm Convention on Persistent Organic Pollutants (POPs Treaty) Wikipedia image

In the stuffy talk of international relations, the Stockholm Convention in this case refers to a treaty put into effect in 2001, sometimes known as the Persistent Organic Pollutants Treaty (POPs).  Now with more than 152 signatory nations and 178 entities offering some sort of ratification (not the U.S., sadly), the treaty urges control of chemicals that do not quickly break down once released into the environment, and which often end up as pollutants.  In setting up the agreement, there was a list of a dozen particularly nasty chemicals branded the “Dirty Dozen” particularly targeted for control due to their perniciousness — DDT was one of that group.

DDT can still play a role in fighting some insect-carried diseases, like malaria.  Since the treaty was worked out through the UN’s health arm, the World Health Organization (WHO), it holds a special reservation for DDT, keeping DDT available for use to fight disease.   Six years ago WHO developed a group to monitor DDT specifically, looking at whether it is still needed or whether its special provisions should be dropped.  The DDT Expert Group meets every two years.

Here’s the press release on the most recent meeting:

Stockholm Convention continues to allow DDT use for disease vector control

Fourth meeting of the DDT Expert Group assesses continued need for DDT, 3–5 December 2012, Geneva

Mosqutio larvae, image from WHO

Mosqutio larvae, WHO image

The Conference of the Parties to the Stockholm Convention, under the guidance of the World Health Organization (WHO), allows the use of the insecticide DDT in disease vector control to protect public health.

Mosquito larvae

The Stockholm Convention lists dichlorodiphenyltrichloroethane, better known at DDT, in its Annex B to restrict its production and use except for Parties that have notified the Secretariat of their intention to produce and /or use it for disease vector control. With the goal of reducing and ultimately eliminating the use of DDT, the Convention requires that the Conference of the Parties shall encourage each Party using DDT to develop and implement an action plan as part of the implementation plan of its obligation of the Convention.

At its fifth meeting held in April 2011, the Conference of the Parties to the Convention concluded that “countries that are relying on DDT for disease vector control may need to continue such use until locally appropriate and cost-effective alternatives are available for a sustainable transition away from DDT.” It also decided to evaluate the continued need for DDT for disease vector control at the sixth meeting of the Conference of the Parties “with the objective of accelerating the identification and development of locally appropriate cost-effective and safe alternatives.”

The DDT Expert Group was established in 2006 by the Conference of the Parties. The Group is mandated to assess, every two years, in consultation with the World Health Organization, the available scientific, technical, environmental and economic information related to production and use of DDT for consideration by the Conference of the Parties to the Stockholm Convention in its evaluation of continued need for DDT for disease vector control.

The fourth meeting of the DDT Expert Group reviewed as part of this ongoing assessment:

  1. Insecticide resistance (DDT and alternatives)
  2. New alternative products, including the work of the Persistent Organic Pollutants Review Committee
  3. Transition from DDT in disease vector control
  4. Decision support tool for vector control.

The DDT expert group recognized that there is a continued need for DDT in specific settings for disease vector control where effective or safer alternatives are still lacking. It recommended that the use of DDT in Indoor Residual Spray should be limited only to the most appropriate situations based on operational feasibility, epidemiological impact of disease transmission, entomological data and insecticide resistance management. It also recommended that countries should undertake further research and implementation of non-chemical methods and strategies for disease vector control to supplement reduced reliance on DDT.

The findings of the DDT Expert Group’s will be presented at the sixth meeting of the Conference of the Parties, being held back-to-back with the meetings of the conferences of the parties to the Rotterdam and Basel conventions, from 28 April to 11 May 2013, in Geneva.

Nothing too exciting.  Environmentalists should note DDT is still available for use, where need is great.  Use should be carefully controlled.  Pro-DDT propagandists should note, but won’t, that there is no ban on DDT yet, and that DDT is still available to fight malaria, wherever health workers make a determination it can work.  If anyone is really paying attention, this is one more complete and total refutation of the DDT Ban Hoax.

Rachel Carson’s ghost expresses concern that there is not yet a safe substitute for DDT to fight malaria, but is gratified that disease fighters and serious scientists now follow the concepts of safe chemical use she urged in 1962.

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4 Comments | Africa, DDT, Disease, Environmental protection, History, Malaria, Public health, Rachel Carson, Science, United Nations, World Health Organization (WHO) | Tagged: , , , , , , , , , , , , , | Permalink
Posted by Ed Darrell

Geminid meteor shower, December 13, 2012

December 12, 2012

StarDate lists December 13 as probably the best night for the year’s last meteor shower, the Geminids.

Dennis Mammana photo of Geminid meteoroid near Orion

Astrophotographer Dennis Mammana caught a Geminid fireball streaking near the stars of Orion. (what year?) CREDIT: ©Dennis Mammana/dennismammana.com

Are you up for it?  Or, do you plan to stay up for it?  Space.com said this one is likely to be better than the Leonids of last month:

If you were disappointed with the meager showing put on by this year’s Leonid Meteor Shower, don’t fret.  What potentially will be the best meteor display of the year is just around the corner, scheduled to reach its peak on Thursday night, Dec. 13: the Geminid Meteors.

The Geminids get their name from the constellation of Gemini, the Twins.  On the night of this shower’s maximum the meteors will appear to emanate from a spot in the sky near the bright star Castor in Gemini.

The Geminid Meteors are usually the most satisfying of all the annual showers, even surpassing the famous Perseids of August. Studies of past displays show that this shower has a reputation for being rich both in slow, bright, graceful meteors and fireballs as well as faint meteors, with relatively fewer objects of medium brightness. Geminids typically encounter Earth at 22 miles per second (35 kilometers per second), roughly half the speed of a Leonid meteor. Many appear yellowish in hue. Some even appear to travel jagged or divided paths.

EarthSky.org said the show starts as soon as Gemini rises — soon after sunset in the nothern middle latitudes.  Look east to the constellation Gemini, toward the star Castor. (I’m using my iPhone NightSky app; wish I had my old Android and Google Sky.)  Get a coat.  Get your binoculars, your tripod and camera (you’ll want time exposures, yes?).  Maybe take some gloves, and a Thermos of hot chocolate.  Out of the city, out where the sky is dark.  The Moon is in a new phase, and shouldn’t be visible when the meteor watching is hot.

Send us your pictures. (Here are instructions from Patch.com on how to photograph this shower.)  Good luck!

Babak Tafreshi, photo of 2009 Geminid meteor

Babak Tafreshi’s photo of a Geminid meteoroid in 2009. Note position of Orion, on the right.

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2 Comments | Astronomy, Nature, Science | Tagged: , , , , | Permalink
Posted by Ed Darrell

Rachel Carson’s Silent Spring at 50: Catalog of tributes

December 11, 2012

Over the year so many tributes, commentaries, and wild-hare critiques keep pushing Rachel Carson‘s Silent Spring back into our memories, and relevance.  Too many to list and comment on, but I’ll make a list of those I found most informative or useful, and of a couple I found most repugnant.

I’ll update this list from time to time.  I’m using this as a file for my writing as well, but some of this stuff needs to be shared more broadly — and of course, I appreciate corrections and pointers to other good sources.

English: An image of the main entrance of Rach...

Main entrance of Rachel Carson Middle School, Falls Church Public Schools, Herndon, Virginia. (Photo credit: Wikipedia)

A collection:

Good stuff on Carson and Silent Spring:

Informative:

People who don’t get it, are blinded by bias, or never had their mouths washed out with soap:

General news:

More, not categorized:

5 Comments | Biology, DDT, Environmental protection, History, Rachel Carson, Science | Tagged: , , , , , , , | Permalink
Posted by Ed Darrell

Use of Pesticides: Report of the President’s Science Advisory Committee, May 15, 1963

December 10, 2012

This is the full text of The Use of Pesticides, the report of the President’s Science Advisory Committee on May 15, 1963, which exonerated Rachel Carson’s Silent Spring of scientific error.

Cover of the publication: Use of Pesticides, A report of the President's Science Advisory Committee, May 15, 1963

Cover of the publication: Use of Pesticides, A report of the President’s Science Advisory Committee, May 15, 1963

Copies of the report remain difficult to find in many libraries, and unindexed on the internet.  The entire report has been in the public domain since its release.  Ironically, that this document couldn’t be published for profit probably kept it relatively unavailable for the past 20 years.

This is an important historic document.  President Kennedy famously referred to the not-yet-completed study in late 1962, when asked if he had read the book, and what his opinion was (he had read Silent Spring, and he said he’d established a group to check its accuracy and make policy recommendations).  When issued the following May, the report effectively quashed much of the slander campaign against Carson and the book, and led to serious scientific work on pesticides and their safety in all uses.

In the past 15 years, with many of the works vouching for Carson’s accuracy out of print or unavailable, a second propaganda campaign impugning her work, intentions and reputation sprang up.  Much of this folderol would be impossible with the original works available to compare and correct.

This transcription employed optical character recognition software for some of the transcription; one error in the original I have left as is, a misspelling of “millennium.”  But I believe most other transcription errors have been fixed.

Formatting is another issue.  I hope to complete a version that mirrors the format of the original; here I provide page notations in brackets.

Use of Pesticides, STP SB959.U57 1963

______________

USE OF PESTICIDES

A REPORT OF
THE PRESIDENT’S SCIENCE ADVISORY COMMITTEE

THE WHITE HOUSE
WASHINGTON, D.C.
May 15, 1963

[i]

[blank page]

[ii]

STATEMENT OF THE PRESIDENT

 This report on the use of pesticides has been prepared for me by my Science Advisory Committee.

I have already requested the responsible agencies to implement the recommendations in the report, including the preparation of legislative and technical proposals which I shall submit to the Congress.

Because of its general public interest, I am releasing the report for publication.

[Signed John F. Kennedy]

THE WHITE HOUSE,

May 15, 1963

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[Transcribed from a copy found at this library]

University of Minnesota

ST. PAUL CAMPUS
LIBRARY

TABLE OF CONTENTS

Statement of the President………………………………………..

I.    Introduction ……………………………………………….. 1

II.  Gains ………………………………………………………………………… 2

III. Hazards ……………………………………………………………………….. 4

A. Classes of Compounds …………………………… 4

B.  Distribution and Persistence in the Environment 5

C.  Biological Effects on Man and Animals ……… 8

D. Toxicity of Specific Compounds ……………………….. 12

IV. Pest Control Without Chemicals ………………………. 13

V.   Role of Government in Pesticide Regulation ……… 15

VI.  Recommendations …………………………………………………….. 19

Members of the President’s Science Advisory Committee Panel

on the Use of Pesticides  …………………………………………… 24

Members of the President’s Science Advisory Committee. . .  25

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I. INTRODUCTION

Man’s primary concerns have always been the struggle for survival and improvement of his lot. As his numbers increased, he attained greater ability to manipulate his environment. In the process he sometimes inflicted damage on himself and on his surroundings. Advances have always entailed a degree of risk which society must weigh and either accept, or reject, as the price of material progress.

A major step in civilization was the domestication of food plants. With the birth of organized agriculture and the resultant concentration of crops and animals, the stage was set for outbreaks of pests. Until that time man had to search for food as did the pests. Afterward neither had to search; instead, pest control became necessary. The welfare of an increasing human population requires intensified agriculture. This in turn enables the pests to increase, which necessitates the use of pesticides with their concomitant hazards. It thus seems inevitable that, as the population increases, so do certain hazards.

In an effort to understand and evaluate these problems, the Panel undertook a review of the information relevant to pesticides, including experimental data and the various administrative procedures which are designed for the protection of the public. The Panel could not have accomplished this review without the assistance it received from the Departments of Agriculture, Interior, Defense, and Health, Education, and Welfare, as well as from many individuals throughout the country.

The information provided to the Panel has demonstrated how remarkably effective the modern organic chemicals are in facilitating both the control of insect vectors of disease and the unprecedented production of food, feed, and fiber. The use of pesticides associated with the production of our food is carefully controlled by the growers and supervised by agricultural specialists and the Food and Drug Administration. As a result, the residue levels measured on foods intended for interstate and foreign commerce are low and rarely above Federal tolerance limits.

The Panel believes that the use of pesticides must be continued if we are to maintain the advantages now resulting from the work of informed food producers and those responsible for control of disease. On the other hand, it has now become clear that the proper usage is not simple and that, while they destroy harmful insects and plants, pesticides may also be toxic to beneficial plants and animals, including man. Their toxic effects in large doses are well known and precautions can be taken to see that humans are [1]  never needlessly exposed. But we must now also take measures to insure that continued exposures to small amounts of these chemicals in our environment will not be harmful over long periods of time.

Review of pesticides brings into focus their great merits while suggesting that there are apparent risks. This is the nature of the dilemma that confronts the Nation. The Panel has attempted to state the case—the benefits, the hazards, and the methods of controlling the hazards. It can suggest ways of avoiding or lessening the hazards, but in the end society must decide, and to do so it must obtain adequate information on which to base its judgments. The decision is an uncomfortable one which can never be final but must be constantly in flux as circumstances change and knowledge increases.

II. GAINS FROM THE USE OF PESTICIDES

Our material standard of living has been greatly elevated during the 20th century by increased control over the environment. Few recent developments have been so effective or have had application in such a wide range of human endeavor as the pesticide chemicals. Although pesticides have been used for centuries as adjuncts in pest control, the great advances of the last 20 years resulting from the discovery, manufacture, and application of new compounds have changed their role in many instances to that of the principal and, frequently, sole control measure.

Pesticides have made a great impact by facilitating the production and protection of food, feed, and fiber in greater quantity and quality; by improving health; and by keeping in check many kinds of nuisance insects and unwanted plants. Agricultural needs have entailed the largest applications of pesticides in this country. Productivity has been so increased that famine is an unknown experience to the people of the developed nations. Mechanization, improved fertilizers, and the breeding of productive and disease-resistant crops have also contributed importantly. In addition, pesticides have made possible the economical production of many crops which otherwise would be available only to a limited number of wealthy consumers.

While reducing food losses, pest control has also resulted in foodstuffs of the highest quality. Today, for example, sweet corn, potatoes, cabbage, apples, and tomatoes are all available unmarred, and the American housewife is accustomed to blemish-free products. Citrus fruits are seldom damaged or lost because of scale insects, fruitflies, or diseases, and the cost of animal protein is lower because large losses of cattle from tick fever and grubs no longer occur.

Modern agricultural efficiency is maintained not only through the use of insecticides, but also by means of herbicides, fungicides, rodenticides, nematocides, plant-growth regulators, and other chemicals. Their benefits extend beyond crops raised for direct human consumption. They permit efficient production of forage and grains, which in turn are needed [2] for a productive livestock economy. In addition, they allow profitable yields of nonfood crops such as cotton, tobacco, and timber. Pesticides have not, however, reached an optimum of effectiveness. More than 100 established pests have developed resistance to one or more previously effective chemicals, and new pests are occasionally introduced by international traffic.

Rapid population growth and concomitant decrease in land available for agriculture necessitate greater crop yields per acre and reduction of losses and spoilage in stored foods. Moreover, many products must be protected during the process of manufacture and distribution.

Besides enabling spectacular increases in agricultural production, pesticides have freed man from communicable diseases to an unprecedented extent. In less developed areas of the world, malaria, typhus, and yellow fever, previously controlled only with great difficulty, are now limited and in some locations eradicated. In each case, pesticides have facilitated control of the insect vector. At some stage of their natural history a number of the major communicable diseases involve an intermediate host or vector. Most successful disease-control programs have been directed at eliminating this link in the chain of transmission, rather than treating man after he has contracted the disease.

However, control programs have not achieved disease eradication. Malaria is still the disease responsible for the largest number of deaths in the world each year, although new cases are rare in the United States. Yellow fever, schistosomiasis, plague, and some rickettsial diseases are almost unknown in the mainland of North America, but they still take a large toll of human lives in the rest of the world. Furthermore, reservoirs of disease in animals, and insects which can transmit them, will remain with us for the predictable future both in this country and in other parts of the world, thus requiring a continued effort to control them.

An additional complication in disease control is that the insect vectors, such as mosquitoes that transmit malaria, may produce resistant populations capable of transmitting their resistance to pesticides from generation to generation. In order to keep up with the successive threats of insect vectors as they develop resistance to one chemical after another, it is important to enlarge and improve our capability for controlling pests.

Pesticides also have made control of many nuisance insects and plants financially feasible. Were the cost higher, the funds for their control would be used by other more critical demands on the economy. For example, it might be too expensive to control the varieties of mosquitoes that breed in marshes and estuaries which do not transmit disease, but limit man’s enjoyment of some of the most desirable recreational areas. Similarly, elimination of roaches from kitchens, aphids from roses, and fungi from golf greens are very desirable but nonessential benefits.

Efficient agricultural production, protection of health, and elimination of nuisances are now required and expected by modern man. The methods [3] used to accomplish these ends must continue to improve, although their present scope and magnitude far exceed the few examples included here. It is certain that coming years will witness sophistication of methods and new uses for which pesticides were not originally conceived.

III. THE HAZARDS OF USING PESTICIDES

Evidence of increasing environmental contamination by pesticide chemicals has generated concern which is no longer limited to citizens of affected areas or members of special-interest groups. During two decades of intensive technical and industrial advancement we have dispersed a huge volume of synthetic compounds, both intentionally and inadvertently. Many, such as detergents, industrial wastes, and pesticides, are now found far from the point of initial dispersal.

Today, pesticides are detectable in many food items, in some clothing, in man and animals, and in various parts of our natural surroundings. Carried from one locality to another by air currents, water runoff, or living organisms (either directly or indirectly through extended food chains), pesticides have traveled great distances and some of them have persisted for long periods of time. Although they remain in small quantities, their variety, toxicity, and persistence are affecting biological systems in nature and may eventually affect human health. The benefits of these substances are apparent. We are now beginning to evaluate some of their less obvious effects and potential risks.

Precisely because pesticide chemicals are designed to kill or metabolically upset some living target organism, they are potentially dangerous to other living organisms. Most of them are highly toxic in concentrated amounts, and in unfortunate instances they have caused illness and death of people and wildlife. Although acute human poisoning is a measurable and, in some cases, a significant hazard, it is relatively easy to identify and control by comparison with potential, low-level chronic toxicity which has been observed in experimental animals.

The Panel is convinced that we must understand more completely the properties of these chemicals and determine their long-term impact on biological systems, including man. The Panel’s recommendations are directed toward these needs, and toward more judicious use of pesticides or alternate methods of pest control, in an effort to minimize risks and maximize gains. They are offered with the full recognition that pesticides constitute only one facet of the general problem of environmental pollution, but with the conviction that the hazards resulting from their use dictate rapid strengthening of interim measures until such time as we have realized a comprehensive program for controlling environmental pollution.

A. CLASSES OF COMPOUNDS

The term pesticide broadly includes compounds intended for a variety of purposes. They are used to control insects, mites, ticks, fungi, nematodes, [4] rodents, pest birds, predatory animals, rough fish, plant diseases, and weeds; and also to act as regulators of plant growth, as defoliants, and as desiccants. As of June 1962, almost 500 compound,‘ incorporated in more than 54,000 formulations were registered for use in the United States.

1.  The chlorinated hydrocarbons containing carbon, hydrogen, and chlorine are the pesticides used in greatest tonnage. The most familiar are DDT, dieldrin, aldrin, endrin, toxaphene, lindane, methoxychlor, chlordane, and heptachlor. Among those used extensively as herbicides are 2,4-D and 2,4,5-T for control of broad-leaved weeds in lawns, pastures, cereal crops, and brush growth along highways and fences.

2.   The organic phosphorus compounds, composed of phosphorus, oxygen, carbon, and hydrogen, are used principally as insecticides and miticides. Parathion, malathion, phosdrin, and tetraethyl pyrophosphate (TEPP) are examples.

3.   Other organic compounds include the carbamates, dinitrophenols, organic sulfur compounds, organic mercurials, and such natural products as rotenone, pyrethrum, nicotine, strychnine, and the anticoagulant rodent poisons.

4.  Inorganic substances with a long history of use include copper sulfate, arsenate of lead, calcium arsenate, compounds of chlorine and fluorine, zinc phosphide, thallium sulfate, and sodium fluoroacetate.

B. DISTRIBUTION AND PERSISTENCE IN THE ENVIRONMENT

The worldwide use of pesticides has substantially increased since the development of DDT and other chlorinated hydrocarbons in the early 1940’s. United States production and use are illustrated in figures 1 and 2. It is estimated that 350 million pounds of insecticides alone were used in the United States during 1962. They are distributed annually over nearly 90 million acres (about I acre out of 20 within the 48 contiguous States). These acreages are composed of farmlands, forests, and insect-breeding areas, including wetlands. Weedkillers are distributed on approximately the same number of acres, with some overlap of areas covered by insecticides. Thus the land area treated with pesticides is approximately 1 acre of 12 within the 48 States. About 45 million pounds are used each year in urban areas and around homes, much of this by individual homeowners. The annual sale of aerosol “bug bombs” amounts to more than one per household. Other compounds, such as fungicides, also are used in substantial tonnage.

In recent years we have recognized the wide distribution and persistence of DDT. It has been detected at great distances from the place of application and its concentration in certain living organisms has been observed. Dar has been found in oil of fish that live far at sea and in fish caught off the coasts of eastern and western North America, South America, Europe, and Asia. Observed concentrations have varied from less than 1 part per million (ppm) to more than 300 ppm in oil. [5]

Residues of DDT and certain other chlorinated hydrocarbons have been detected in most of our major rivers, in ground water, in fish from our fresh waters, in migratory birds, in wild mammals, and in shellfish. Small amounts of DDT have been detected in food from many parts of the world, including processed dairy products from the United States, Europe, and South America. The amounts are rarely above Food and Drug Administration (FDA) tolerance limits, but these have probably contributed to the buildup of DDT we now observe in the fat of the people of the United States, Canada, Germany, and England. In the United States, DDT and its metabolites have been found in the fat of persons without occupational exposure at an average of 12 ppm (approximately 100 to 200 mg. of DDT per adult) for the past 10 years. In England and Germany, recent studies revealed an average concentration of 2 ppm in human fat. Data about children are not available.

An important characteristic of several commonly used pesticides is their persistence in the environment in toxic form. The chemical half life of stable chlorinated hydrocarbons in soils, and the time they remain active against some soil insects, are measured in years. The organic phosphorus [6] compounds are more rapidly degraded although, under certain circumstances, they have persisted from one growing season to the next following routine application. Pyrethrum, rotenone, and nicotine are destroyed relatively rapidly after application, but compounds incorporating copper, lead, and arsenic arc persistent.

The distribution and persistence of other chlorinated hydrocarbons have been studied in less detail, although some of these chemicals have been widely applied. One of these, dieldrin, resembles DDT in stability, persistence, and in solubility. Recently, it has been found in the fat of residents of southern England. It has also been found in many wild birds, fish, and mammals in the United States. These facts led the Panel to anticipate that surveys will discover dieldrin and other persistent chlorinated hydrocarbons in man and wildlife throughout most of the United States.

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C. BIOLOGICAL EFFECTS ON MAN AND ANIMALS

1. Exposure of man

The extent of hazard associated with use of a pesticide is determined by the degree of exposure and the compound’s toxicity. Exposure depends on persistence, the amount applied, the method of application, and availability of the chemical in a biologically active form. Pesticides can enter the body by (a) ingestion, (b) absorption through the intact skin, and (c) inhalation.

(a)   When examining the potential hazards to man from extensive use of pesticides, an early consideration should be the possible effects of chemical residues in the Nation’s food supply. The Panel has received evidence that, before pesticides are recommended for registration, considerable research has been performed on the extent and nature of their residues on foods, and that safeguards exist which can permit pesticide usage without danger to the consumer. These include proper controls over manufacture, commercial distribution, and techniques of pesticide application to crops; strict establishment of tolerance limitations; inspection for residues in produce; and other precautions. When measured in foods entering interstate or foreign commerce, and in total diet studies, residue levels have been very low and rarely above the legal tolerance limits. If illegal residues are found, the foods containing them are removed from the market.

Residues are not so consistently low for food items marketed within their State of origin. Some State authorities sample food for pesticide residues. Data from certain States have shown residues well above the Federal tolerance on 3 percent of the fresh fruits and vegetables offered for sale in wholesale markets. Many States do not perform systematic sampling for residues in the produce and dairy products intended for consumption within the State.

Residues of several chlorinated hydrocarbons have been measured in game birds and game fish at levels above Federal tolerance limits. Because few wildlife meals are consumed, this is not an important source for residue accumulation in man. By contrast, household use of pesticides with inadvertent contamination of dishes, utensils, or food may well produce more significant residues in man.

(b)   Most insecticides are readily absorbed through the intact skin. Skin contamination can be an important source of exposure for persons who mishandle pesticides in their formulation or commercial application. Furthermore, since householders usually take few precautions in their home and garden uses of these chemicals, they may receive extensive skin contact both from successive applications and from continuing exposure to residues.

The rate of absorption through the skin depends on the chemical nature of the pesticide and on its formulation. In general, compounds in solution in oils or in organic solvents are absorbed more readily than those in aqueous preparations or in dry powder. Skin absorption [8] can occur from pesticide aerosols, from dusts, from clothing or blankets impregnated with chlorinated hydrocarbons, and from contaminated soil or lawn grass.

The rates of skin absorption have not been adequately studied in man. It is particularly important to determine the rates at which mothproofing insecticides are absorbed through human skin in contact with impregnated clothing or blankets. Such impregnation is performed during the manufacture of mothproofed garments and materials, and routinely during dry-cleaning. Many of these articles, such as sweaters and blankets, may be in direct contact with the skin for prolonged periods. Clearly, studies are needed to understand possible sensitization and allergic responses.

(c) Man’s exposure to pesticides can also occur through inhalation. Airborne insecticides are sources of exposure when released during fogging operations directed against nuisance insects in public areas, buildings, and homes. Pesticides may be inhaled in dusts from treated soil, from house dusts contaminated by applications for household pests, or from mothproofed rugs and blankets.

2. Effects on man

There have been few systematic studies of people occupationally exposed to pesticides. In one such investigation, a small group of volunteers with an intake up to 35 mg. of DDT per day over a period of months was reported to show no apparent ill effects during 18 months of gross observation. DDT and its metabolites averaged 270 ppm in their fat, more than 20 times the average level found in adults sampled in this country. Limited groups of adults occupationally exposed to the more toxic pesticides are also being studied, and there is evidence of neurologic impairment, usually reversible, in those individuals heavily exposed to certain chlorinated hydrocarbons and organic phosphates. Unfortunately, possible long-term effects of other compounds cannot be predicted on the basis of experience with DDT, or even predicted for DDT itself, on the basis of the limited clinical studies available.

Accidental acute poisoning in man has been caused by about 50 pesticides, including at least 1 compound from each major class. Each year, approximately 150 deaths are attributed to misuse of pesticides in the United States. About half of these occur in children who were accidentally exposed at home. The number of nonfatal poisonings can only be estimated. A Special Committee on Public Policy Regarding Agricultural Chemicals, appointed by Gov. Edmund G. Brown on June 15, 1960, reported that in California, which uses 20 percent of the nationally consumed pesticides, 3,000 children per year ingest various amounts of these compounds. In that State during 1959 there were also 1,100 cases of occupational disease due to agriculture chemicals, mostly among agricultural workers. These figures include acute illnesses, whether the reaction was very mild, or severe enough to require hospitalization. One difficulty in estimating the incidence of poisoning is that the symptoms caused by pesticide toxicity are little different from those of many common illnesses.

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Little is known about the consequences to man when he accumulates more than one pesticide in his body. Synergism, or potentiation, is the joint action of two agents which results in an effect which is greater than the sum of their individual effects. Some combinations of two organic phosphates have produced effects 10 times those observed when either compound was fed separately. Preliminary FDA data show only additive effects from mixtures of chlorinated hydrocarbons included in diets of experimental animals.

Physicians are generally unaware of the wide distribution of pesticides, their toxicity, and their possible effects on human health. Diagnosis of pesticide toxicity is apparent when a patient with acute asthma has to be resuscitated in the middle of the night following exposure to commercial fogging. However, diagnosis is difficult in patients with nonspecific symptoms that may result from unsuspected contamination with pesticides. The Panel was unable to find any federally sponsored research in this area of potential medical importance.

3. Effects on wildlife

Many kinds of insect-control programs have produced substantial mortalities among birds and other wildlife. Some fatalities have been the result of carelessness or nondirected use others have followed programs carried out exactly as planned. Mortalities among birds have approached 80 percent in areas heavily treated with DDT for Dutch elm disease control, with heptachlor for imported fire ant control, and with aldrin or dieldrin for controlling the Japanese beetle. Fish losses have been extensive even with lower rates of application in programs such as spruce budworm control using DDT. Losses following agricultural operations are more scattered and less well documented.

Most insecticides are toxic to a wide range of animals, and certain classes are consistently more susceptible than others. Insecticides tend to be more toxic to invertebrates than vertebrates, because the target insects are more closely related to other invertebrates. For example, pink shrimp have been experimentally poisoned by 0.9 parts per billion of heptachlor. Other marine organisms are also highly sensitive. The growth of young oysters has been inhibited by concentrations as low as 3 parts per 100 million of chlordane, heptachlor, or rotenone. Five other commonly used pesticides inhibit oyster growth in concentrations of 1 part per 10 million.

An entire year’s production of young salmon was nearly eliminated in the Miramichi River in New Brunswick in 1954, and again in 1956. This resulted from DDT applications of one-half pound per acre for control of the spruce budworm. Stream insects, which are a most important food for young salmon, disappeared and failed to return within 2 years. Surviving young salmon were very thin. In British Columbia, mortality of coho salmon approached 100 percent in at least four major streams after the surrounding forests were sprayed with 1 pound of DDT per acre for control  [10] of the black-headed budworm. This mortality occurred despite preventive measures to avoid treating the streams themselves.

Among vertebrates, fish are generally more sensitive than birds, and birds are more sensitive than mammals. Reptiles and amphibians vary greatly from species to species, but their susceptibilities usually fall between those of fish and birds. Variations in sensitivity may result in the elimination of certain forms from the food chain. While some organisms may be decimated, resistant organisms which survive exposure may concentrate and store pesticides at levels higher than those found in the environment. Such biological magnification on the part of resistant species may ultimately damage more sensitive organisms which are higher in the food chain. At Clear Lake, Calif., for example, waters containing 0.02 ppm of TDE produced plankton containing 5 ppm, which in turn produced fish with fat containing hundreds to thousands of parts per million. Grebes that fed on the fish died although their fat contained somewhat smaller residues than the fish.

Robin populations declined drastically after Dutch elm disease spraying in certain communities in Wisconsin and Michigan. Earthworms, resistant to DDT, fed on fallen elm leaves and accumulated substantial amounts of the pesticide. Robins, for whom worms are a principal food, fed on the worms and died.

The process of biological magnification has less impact on man because human food is produced by a two- or three-link chain in which the process, if recognized, can be controlled, For example, residues are permitted on feeds for domestic animals only in amounts that will not ultimately yield unacceptable levels in meat, in milk, or in other animal products. Thus, excessive levels of pesticide residues in agricultural products used for human food result only from accident or misuse, while damaging levels in the food of wild animals may be unwanted effects resulting from recommended practices. When contaminated fish and shellfish are harvested commercially, any residues they may contain are of concern to the fisherman and the consumer. Yet the commercial fisherman cannot control the sources of such contamination.

Wild animal populations are affected differently by pesticides residues than are domestic animals and man. Unlike the latter, wild animals cannot be kept from treated areas long enough for the chemical residues to degrade or otherwise dissipate. Because birds and mammals are free to range over relatively large areas, they are exposed to a variety of different compounds. Insectivorous birds are likely to be attracted to areas with dense insect populations, and may be exposed when chemicals are applied. Furthermore, birds reoccupy a depleted area very rapidly; thus a treated area may constitute a trap into which successive waves of birds move and are killed. Fish in streams are generally less mobile than birds and mammals, but they, too, may be subject to multiple exposure to pesticides.

[11]

Flowing waters contaminated by accidental drifts or run-offs can affect the fish even though they do not move into treated areas.

D. TOXICITY OF SPECIFIC COMPOUNDS

1. Chlorinated hydrocarbons

In very small doses (some cases less than 1 ppm) chlorinated hydrocarbons have caused liver damage to experimental animals, and in large doses they have caused acute central nervous system effects, occasionally followed by death. The mechanisms leading to these effects are unknown.

The biological effects of DDT have been studied more fully than those of other pesticides. Its toxicity to man and other mammals is low. People ingesting large amounts of DDT usually suffer no apparent ill effects. In chronic feeding experiments with rats, 5 ppm produced characteristic chlorinated hydrocarbon changes in the liver, but no evidence of tumor induction. Reproduction studies in rats showed that 50 ppm reduced the number of young that survived the nursing period. There was no effect on reproduction at 10 ppm. However, many useful insects and other valuable invertebrates such as shrimp, crayfish, and crabs are highly susceptible to DDT. Decimation of these useful populations may be a costly side effect of extensive applications.

Dieldrin and aldrin are many times more toxic to vertebrates than DDT. Since aldrin is converted to dieldrin in man and in the environment, a discussion of dieldrin applies to both.

Dieldrin is present in the body fat of residents of England (average 0.2 ppm) and is probably also present in the fat of the U.S. population as a result of extensive applications of the chemical in this country. There have been many cases of acute poisoning in people exposed to dieldrin in their work. Signs of intoxication involve the central nervous system, and may include electroencephalographic changes, muscle tremors, and convulsions. Individuals have suffered recurrences of these symptoms after they have been free of them for more than a month following their last exposure.

Our knowledge of toxicity at lower doses comes chiefly from FDA feeding experiments in which mice were fed varying concentrations of dieldrin and aldrin in their diet. Chronic exposure to as little as 0.5 ppm produced histological liver damage while increase to 10 ppm caused a fourfold increase in the frequency of liver tumors. There are virtually no data on the effects on embryonic development. In one of the few experiments known to the Panel, the feeding of dieldrin (at 0.6 mg./kg. of body weight) to several pregnant dogs resulted in 100 percent mortality of 14 nursing puppies. The mothers were fed the pesticide during pregnancy but none during lactation. In another study, rats fed dieldrin at 2.5 ppm in the diet showed a significant reduction in number of pregnancies and an increased mortality in suckling young.

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Although most insecticides do not kill wild mammals in the field even when they kill birds and fish, 1 to 3 lbs. per acre of dieldrin or aldrin produces high mortality among mammals in the treated areas. Dieldrin is also highly toxic to many birds, amphibia, reptiles, and fish. It reduces the reproduction of captive quail by decreasing egg production, decreasing the percentage of eggs that hatch, and increasing the mortality of chicks. Many beneficial and useful invertebrates are very susceptible.

Other chlorinated hydrocarbons in common use have shown marked acute toxicity to rats in feeding experiments. Chronic effects have been noted with chlordane and heptachlor at the lowest level fed to experimental animals. Chlordane at 2.5 ppm produced liver damage and 0.5 ppm of heptachlor epoxide produced liver damage and increased mortality in the laboratory mice. Field use also suggests high toxicity to birds and mammals. Although these substances are used in large quantities, there have been no studies to determine whether they accumulate in the human population, nor are there adequate studies of their genetic, tumorigenic, teratogenic, or reproductive effects in mammals or birds.

2. Organic phosphorus compounds

Among their effects, the organic, phosphorus compounds inhibit cholinesterase activity and thereby interfere with transmission of impulses from nerve to ganglion and nerve to muscle.

Most organic phosphorus insecticides have relatively high acute toxicities and have caused many fatal and nonfatal poisonings in man. In cases of poisoning, removal from exposure to the compound usually permits rapid recovery. Many of them are degraded rapidly and thus seldom persist in the environment, but some, such as parathion, have persisted for months in soils and have recently been found in trace amounts in water drawn from deep wells.

IV. PEST CONTROL WITHOUT CHEMICALS

Methods for controlling pests without the use of pesticides were known to farmers even in ancient times. Crops were planted in areas least liable to pest damage; crops were moved to virgin territory to ,leave the pests behind ; rotation was practiced and crops that were less prone to disease were planted ; if the pests came late in the season, crops were planted early, and vice versa. Many of these methods are used today.

The environment can also be modified indirectly; for example, we use screens on windows to keep out mosquitoes, and flood or drain marshes to destroy their breeding areas. In certain cases parasites, predators, and diseases control the pests without chemicals. In the United States and many other countries of the world parasites and predators have been successfully introduced to combat scale insects on citrus fruits, apples, and sugarcane; and in Australia the myxomatosis virus was introduced to kill rabbits.

Entomologists have long been interested in the use of insect enemies for pest control. The U.S. Department of Agriculture has been active in this [13] area since 1888. It has imported more than 500 species of insect-destroying organisms, of which about 36 have had partial or complete success. Introduced insects have succeeded in controlling cactus in Australia and Klamath weed in the Western United States. However, biological methods of insect control have received relatively little attention in the United States by comparison with the great emphasis on chemical control.

An effective method of biological control is the discovery or breeding of resistant varieties of crops. This method has worked best for plant diseases, and several varieties of wheat which are resistant to rust have been bred in this country. Another example of the use of plant resistance was provided by the grafting of French wine grapes to resistant American rootstocks when the French grapes were severely damaged by the root insect Phylloxera in the middle of the last century.

Other examples of effective biological control can be cited, but success has not been frequent. Continued and extensive searches will undoubtedly yield more, and the Panel believes this approach should be expanded.

Although nonchemical methods for pest control are intriguing, they also have weaknesses. Two are particularly important. In the first place, parasites and predators have adjusted over the millenia to a dynamic balance with their hosts such that they kill some but not all of them; complete host destruction would eliminate the parasite or predator by destroying its food supply. Thus, control of the pest is seldom complete enough to prevent economic damage. Furthermore, reduction of the pest population is rarely sufficient to prevent its becoming dense again. A second limitation to the use of natural enemies is that the host may become resistant, just as it may develop resistance to chemical controls.

Australian rabbits, for example, are becoming resistant to myxomatosis, and their populations once again are on the increase.

A new method of biological control is the laboratory production of sterile male insects in very large numbers, using either gamma rays or specific chemical sterilants. The males are then liberated into the natural population where their matings produce infertile eggs. Although this procedure eliminated the screwworm fly in Florida, it has not yet been investigated extensively for controlling other insects.

A still newer method is the use of sex attractants to lure male insects into traps and thus to their death. With certain species this technique has great promise, and developmental research is being expanded.

The variety of methods that has proven useful for biological control of certain pests, and the indication of potential value for others, lead to the conclusion that more active exploration and use of these techniques may yield important benefits for the national economy and for the protection of health.

[14]

 

V. THE ROLE OF GOVERNMENT IN PESTICIDE REGULATION
A. MECHANISMS FOR REGULATION

Public interest in the protection of the Nation’s health and its resources has led to the enactment of legislation and the establishment of administrative procedures to regulate the marketing and use of pesticides. The Public Health Service has general responsibilities for the health of man and the Fish and Wildlife Service for the protection of wild animals. In addition, two fundamental laws, the Federal Insecticide, Fungicide, and Rodenticide Act, and the Food, Drug, and Cosmetic Act, assign responsibility for pesticide control to the U.S. Department of Agriculture (USDA) and responsibility for the safety of foods containing pesticide residues to the Department of Health, Education, and Welfare (HEW). The Secretary has delegated this responsibility to the Food and Drug Administration (FDA).

When a new pesticide is developed in an industrial laboratory an application is submitted to USDA requesting that it be registered for use. If the proposed use does not include application on a food crop, USDA reviews the experimental data submitted with the application. The compound is registered for use if it is concluded that no undue hazard to man and domestic animals is associated with the proposed use when applied according to the instructions on the label.

When a pesticide is proposed for use on food crops, the application for registration must list each crop on which it is to be applied and must present the necessary data on effectiveness and toxicity. If it can be demonstrated to USDA that the produce leaves no residue on a particular crop when used in the proposed manner, the specific pesticidal formulation covered by the application is registered for use on that crop on a “no residue” basis. The product may then be legally shipped in interstate commerce. If, however, the compound leaves a residue, USDA delays registration until a residue tolerance has been established by FDA.

To initiate this procedure, the manufacturer files a petition for tolerance with FDA. The USDA then certifies to FDA that the product under consideration is useful and offers an opinion on whether the petitioner’s proposed tolerance reasonably reflects the residues to be expected from its use according to directions. Until 1955, tolerances were established by FDA on the basis of testimony presented in public hearings. Present law requires the petitioner w present FDA with experimental evidence on toxicity to establish what tolerances, if any, will be safe, to show that the tolerances can be met under the practical conditions of the pesticide use and to provide practical methods of analysis for enforcement of the tolerances.

The concept of “zero tolerance” should be distinguished from that of no residue.” “No residue” is a determination by USDA, based on experimental data, that none will remain from a particular pesticide use, irrespective of toxicity. “Zero tolerance” is an FDA prohibition of any residue on [15] a crop because the compound is too toxic to permit a residue. The concepts of “zero tolerance” and the “no residue” registration have been modified as more sensitive detection methods became available. In practice, “zero tolerance” is interpreted by FDA in some cases to include a detectable level of residue, lower than that believed to be pharmacologically significant.

In addition to toxicity data, the petitioner must also submit information on the chemistry of the compound, reference to related uses, and residue measurements on the crop involved. If the raw agricultural product is to be used for animal feed, data must be submitted on residues in meat and milk. A method of analysis suitable for enforcement purposes also must be submitted.

When a tolerance has been set by FDA, USDA registers the pesticide which can then be marketed with approved labeling. No pesticide can be shipped in interstate and foreign commerce without USDA registration; however, by law USDA must grant registration “under protest” upon written demand of a petitioner subsequent to registration refusal by USDA. At present, the purchaser cannot distinguish such a product from one which has been accepted for registration because the label does not carry any indication of its unsanctioned status.

A pesticide registration must be renewed every 5 years. Within that interval petitioners may apply for increased tolerances or for extension of existing tolerances to additional crops. Similarly, FDA may alter residue tolerances if new information warrants. Lower tolerances are not set unless the FDA believes it could prove in court that the hazard is greater than formerly determined.

The Food and Drug Administration is responsible for establishing safe tolerances of pesticide residues on food products and for enforcing such tolerances by preventing illegal residues on interstate and foreign food shipments. The Department of Agriculture has sole responsibility for approving registration for pesticide use on any agricultural product other than food crops, on food crops where no residue results, and for all nonagricultural uses.

Both USDA and FDA have enforcement programs. The USDA is responsible for insuring that the marketed pesticides are properly labeled. The FDA is responsible for ensuring that tolerances are not exceeded. In addition, individual States may directly control pesticides uses, and enforce their own tolerances for produce sold within the State.

B. ADEQUACY OF PESTICIDE CONTROL

Federal laws and administrative practices relating to pesticides are intended to assure both efficacy of the product and safety to the purchaser, user, and the public. Decisions on efficacy appear to be based on reliable evidence. Experiments are well designed, meaningful controls are used, sample sizes are adequate, and conclusions reached are supported by the [16] data obtained. However, efficacy alone is not an adequate criterion for judgment. Unless a pesticide proposed for registration is equally effective in a less hazardous way than methods already available, the Panel believes registration should be considered conservatively. As a corollary to cautious registration of new pesticides, more hazardous compounds might well be removed from the market when equally effective and less hazardous substitutes are found. The Panel believes that it is necessary to modify the use of some especially hazardous and persistent materials now registered.

The Panel has found that decisions on safety are not as well based as those on efficacy despite recent improvements in the procedures required by the Federal Food, Drug, and Cosmetic Act for the establishment of safe tolerances for pesticide residues on food. Until 1954, the evidence of safety was submitted in the form of testimony at public hearings, and tolerances were established when the evidence appeared to support the application. At that time, the manufacturer was not required to provide an analytical method for the practical enforcement of the tolerance. Moreover, FDA had no subpoena power to require testimony not voluntarily offered. Amendments of the act in 1954 materially improved these procedures. In addition to requiring the submission of data on chemistry, toxicology, and residues, it also required the petitioner to provide a practical analytical method for use in enforcement. The result was the provision of more data from animal experiments and, in some cases, information on human pharmacology.

As an administrative principle, tolerances are set by FDA at 1/100 of the lowest level which causes effects in the most sensitive test animals whenever data on human toxicity are not available. However, tolerances have been set for some compounds such as dieldrin, aldrin, heptachlor (epoxide), and chlordane, although a “no effect” level in animals has never been determined. After reviewing the data on which tolerances are based, the Panel concludes that, in certain instances, the experimental evidence is inadequate. Recent review by FDA has also demonstrated several such examples and the tolerances are being reassessed.

The Panel believes that all data used as a basis for granting registration and establishing tolerances should be published, thus allowing the hypotheses and the validity and reliability of the data to be subjected to critical review by the public and the scientific community.

The FDA has responsibility only for setting tolerances for pesticides which remain on foods. Decisions on all the other uses of these compounds and registration for all other compounds are the responsibility of USDA. Thus the Department of Agriculture regulatory staff evaluates and approves uses that bring pesticides into intimate contact with people, such as mothproofing of clothes and blankets, and applications to households, lawns, and gardens. The Panel believes that decisions on registrations, clearly related to health, should be the responsibility of the Department of Health, Education, and Welfare.

[17]

Current registration procedures are primarily intended to protect people and domestic animals from damage by pesticides. The protection of fish and wildlife resources will require affirmation of this intent by Congress. Following such action by the Congress, the Panel believes the Secretary of the Interior should actively participate in review of all registrations that may affect fish and wildlife.

Federally operated or supported programs are subject to review by the Federal Pest Control Review Board. In addition, an Interdepartmental Committee on Pest Control exchanges information regarding control programs. An Armed Forces Pest Control Board provides liaison and coordination within the Department of Defense and regulates sales of pesticides in military stores. There are no provisions for Federal control of use after sale except in Federal programs and by indirect means such as enforcement of residue tolerances.

The Federal Pest Control Review Board was established in 1961 through joint actions of the Secretaries of Agriculture, Interior, Defense, and Health, Education, and Welfare, and is composed of representatives from each of these departments. Technical matters are referred to staffs within the agencies for consideration and advice, and occasionally to the Interdepartmental Committee on Pest Control. The Board has not used consultants from outside the Government. The basic responsibility for Federal pest control operations is placed by statute in various departments and agencies. The fact that these same agencies constitute the Federal Pest Control Review Board restricts the Board’s effectiveness in reviewing the programs of member agencies. The Board carefully considers programs before giving clearance and, when appropriate, offers recommendations for altering proposed procedures. Although many programs have been modified as a result of such reviews, particularly by the incorporation of additional safeguards, the discontinuation of a program has not been recommended.

More than half of the insecticides used in Federal programs are applied for the control of pests introduced from foreign areas. Quarantine is a first defense, but there are opportunities for pests to spread. Through prompt action, the Mediterranean fruitfly has been eradicated on three occasions during the last 33 years, following introduction into Florida. In these cases, prompt eradication of the fly prevented its spread and the need for more extensive use of chemicals.

Although eradication of a pest population is a laudable goal, it is seldom realistic. Control programs by contrast, apply pesticides in less volume, to a smaller land area, with fewer undesirable side effects at any one time, yet produce the same economic results. The gypsy moth, fire ant, Japanese beetle, and white-fringed beetle programs, which have been continued for years, are examples of failures of the “eradication” approach. The acceptance of a philosophy of control rather than eradication does not minimize the technical or economic importance of a program, but acknowledges the realities of biology. As new control techniques such as male sterilization [18] or highly specific attractants are developed for practical use, the elimination of some of our alien pests may become technically and economically feasible.

In 1962, the Federal Government supported control programs involving the application of pesticides to more than 4 million acres, at a cost of about $20 million. Although the federally supported programs represent only a small pan of the total national use of pesticides, individual programs may involve thousands of acres of populated urban areas.

The Panel feels that Federal programs should be models of correct practice for use in the guidance of States, localities, and private users. They should, therefore, be conducted not only with attention to maximum effect on the target organisms, but with further evaluation of the associated hazards. It would, in these terms, be reasonable to expect that every large- scale operation be followed by a complete report which would appear in the public literature.

VI.  RECOMMENDATIONS

The Panel’s recommendations are directed to an assessment of the levels of pesticides in man and his environment; to measures which will augment the safety of present practices; to needed research and the development of safer and more specific methods of pest control; to suggested amendments or public laws governing the use of pesticides; and to public education.

A.  In order to determine current pesticide levels and their trends in man and his environment, it is recommended that the Department of Health, Education and Welfare:

1.    Develop a comprehensive data-gathering program so that the levels of pesticides can be determined in occupational workers, in individuals known to have been repeatedly exposed, and in a sample of the general population.  As a minimum, the survey should include determinations on fat, brain, lever and reproductive organs in adults and infants; examinations to determine if placental transmission occurs; and determination of levels which may be excreted in human milk.  These studies should use samples sufficiently large and properly drawn to obtain a clear understanding of the manner in which these chemicals are absorbed and distributed in the human body.

2.    Cooperate with other departments to develop a continuing network to monitor residue levels in air, water, soil, man, wildlife, and fish.  The total diet studies on chlorinated hydrocarbons initiated by the Food and Drug Administration should be expanded.  These should, for example, include data on organophosphates, germicides, and the carbamates in populated areas where they are widely used.

3.    Provide Federal funds to assist individual States to improve their capabilities for monitoring pesticide levels in foods which are produced and consumed within the state.

B.   In order to augment the safety of present practices, it is recommended that:

[19]

1.    The Food and Drug Administration proceed as rapidly as possible with its current review of residue tolerances, and the experimental studies on which they are based.  When this review is completed, it is recommended that the Secretary of Health, Education, and Welfare select a panel from nominations by the National Academy of Sciences to revaluate toxicological data on presently used pesticides to determine which, if any, current residue tolerances should be altered.  Of the commonly used chemicals attention should be directed first to heptachlor, methoxychlor, deldrin, aldrin, chlordane, lindane, and parathion because their tolerances were originally based upon data which are in particular need of review.  Upholding the same standards, the Secretary should ensure that new compounds proposed for registration by rigorously evaluated.

2.    The existing Federal advisory and coordinating mechanisms be critically assessed and revised as necessary to provide clear assignments of responsibility for control of pesticide use.  The Panel feels that the present mechanisms are inadequate and that it is necessary to provide on a continuing basis for:—

(a)     Review of present and proposed Federal control and eradication programs to determine if, after consideration of benefits and risks, some programs should be modified or terminated,

(b)     Development and coordination of a monitoring program conducted by Federal agencies to obtain timely, systematic data on pesticide residues in the environment.

(c)      Coordination of the research programs of those Federal agencies concerned with pesticides.

(d)     Initiation of a broad educational program delineating the hazards of both recommended use and of the misuse of pesticides.

(e)      Review of pesticide uses and, after hazard evaluation, restriction or disapproval for use on a basis of “reasonable doubt” of safety.

(f)       A forum for appeal by interested parties.

3.    The National Academy of Sciences-National Research Council be requested to study the technical issues involved in the concepts of “zero tolerance” and “no residue” with the purpose of suggesting legislative changes.

4.    The Secretaries of Agriculture, Interior, and Health, Education and Welfare review and define their roles in the registration of pesticides that are not present on food, but that may impinge on fish and wildlife or come into intimate contact with the public.

5.    The accretion of residues in the environment be controlled by orderly reduction in the use of persistent pesticides.

As a first step, the various agencies of the Federal Government might restrict the wide-scale use of persistent insecticides except for necessary control of disease vectors.  The Federal agencies should exert their leadership to induce the States to take similar actions.

Elimination of the use of persistent toxic pesticides should be the goal.

C.   Research needs:

[20]

1.    In order to develop safer, more specific controls of pests, it is recommended that Government-sponsored programs continue to shift their emphasis from research on broad spectrum chemicals to provide more support for research on—

(a)     Selectively toxic chemicals.

(b)     Nonpersistent chemicals.

(c)      Selective methods of application.

(d)     Nonchemical control methods such as the use of attractants and the prevention of reproduction.

In the past few years, the Department of Agriculture has shifted its programs toward these specific controls. The Panel believes this trend should be continued and strengthened. Production of safer, more specific, and less persistent pesticide chemicals is not an unreasonable goal, but its attainment will require extending research efforts beyond empirical approaches to more fundamental studies of subjects such as: the mode of action of pesticides; comparative toxicology; the metabolism of compounds in insects, plants, and higher animals; and the processes of chemical degradation and inactivation in nature. Such studies will also provide the information necessary to control those pests which are rapidly becoming resistant to currently available chemicals. Intensified effort is needed in the search for selective methods of pesticide application. Compounds are often applied in excessive quantity or frequency because of such inefficiencies as drift, uneven coverage, or distribution methods insufficiently specific to reach the target pest.

2.    Toxicity studies related to man

The toxicity data upon which registrations and tolerances are based should be more complete and of higher quality. Although data are available on acute toxic effects in man, chronic effects are more readily demonstrated in animals because their generation time is shorter, and thus the natural history of pesticide effects is telescoped chronologically. However, there will continue to be uncertainties in the extrapolation from experimental animals to man, and in the prediction of the nature and frequency of effects in humans on the basis of those observed in other forms of life.

The Panel recommends that toxicity studies include determination of-

(a)     Effects on reproduction through at least two generations in at least two species of warmblooded animals. Observations should include effects on fertility, size and weight of litter, fetal mortality, teratogenicity, growth and development of sucklings and weanlings.

(b)     Chronic effects on organs of both immature and adult animals, with particular emphasis on tumorigenicity and other effects common to the class of compounds of which the test substance is a member.

(c)      Possible synergism and potentiation of effects of commonly used pesticides with such commonly used drugs as sedatives, tranquilizers, analgesics, antihypertensive agents, and steroid hormones, which are administered over prolonged periods.

[21]

3.    Toxicity studies related to wildlife

The Panel recommends expanded research and evaluation by the Department of the Interior of the toxic effects of pesticides on wild vertebrates and invertebrates.

The study of wildlife presents a unique opportunity to discover the effects on the food chain of which each animal is a part, and to determine possible pathways through which accumulated and, in some cases, magnified pesticide residues can find their way directly or indirectly to wildlife and to man.

4.    Amplification of research resources

Only by stimulating training and basic investigation in the fields of toxicology and ecology are research needs likely to be met. An increased output of basic research data and a continuing supply of capable research personnel could be ensured by a system of grants and contracts. Training grants, basic research grants, and contracts to universities and other nongovernmental research agencies funded by the Departments of Agriculture, Interior, and Health, Education, and Welfare would stimulate this research. In order to accelerate immediate progress, it might prove useful to explore the contributions which can be made by competent research people and their facilities in other countries.

D.  In order to strengthen public laws on pesticides, it is recommended that amendments to public laws be requested. These should:

1.    Eliminate “protest” registrations.

The Panel concurs with the Department of Agriculture that these technically evade the intent of the public laws. Industry needs an appeal mechanism, however, to protect it from arbitrary decisions. Public hearings could be held on such appeals.

2.    Require that every pesticide formulation carry its official registration number on the label.

The Department of Agriculture has recommended such an amendment as a means of increasing the protection of the consumer.

3.    Clarify the intent of the Federal Insecticide, Fungicide, and Rodenticide Act to protect fish and wildlife by including them as useful vertebrates and invertebrates.

4.    Provide, as a part of the operating budgets of Federal control and eradication programs, funds to evaluate the efficiency of the programs and their effects on nontarget organisms in the environment. Results of these studies should be published promptly.

Approximately $20 million were allocated to pest control programs in 1962, but no funds were provided for concurrent field studies of effects on the environment. The Department of Agriculture has repeatedly suggested that other interested agencies participate in the control programs, but funds have not been available except by diversion from other essential agency functions.

[22]

E.   To enhance public awareness of pesticide benefits and hazards, it is recommended that the appropriate Federal departments and agencies initiate programs of public education describing the use and the toxic nature of pesticides. Public literature and the experiences of Panel members indicate that, until the publication of “Silent Spring” by Rachel Carson, people were generally unaware of the toxicity of pesticides. The Government should present this information to the public in a way that will make it aware of the dangers while recognizing the value of pesticides.

[23]

PRESIDENTS SCIENCE ADVISORY COMMITTEE
Panel on the Use of Pesticides

H. Stanley Bennett, Dean, Division of Biological Sciences, University of Chicago

Kenneth Clark, Dean, College of Arts and Sciences, University of Colorado Paul M. Doty, Professor of Chemistry, Harvard University

William H. Drury, Jr., Director, Hatheway School of Conservation Education, Massachusetts Audubon Society

David R. Goddard, Provost, University of Pennsylvania

James G. Horsfall, Director, Connecticut Agricultural Experiment Station William D. McElroy, Chairman, Department of Biology, The Johns Hopkins University

James D. Watson, Professor of Biology, Harvard University

Colin M. MacLeod (Chairman), Professor of Medicine, School of Medicine, New York University

Technical Assistants, Office of Science and Technology

Peter S. Bing

John L. Buckley

James B. Hartgering

Gay E. G. Luce

[24]

PRESIDENT’S SCIENCE ADVISORY COMMITTEE

Harvey Brooks, Dean, Division of Engineering and Applied Physics, Harvard University

Paul M. Doty, Professor of Chemistry, Harvard University

Richard L. Garwin, Watson Research Laboratory, Columbia University— International Business Machines Corporation

Edwin R. Gilliland, Professor of Chemical Engineering, Massachusetts Institute of Technology

Donald F. Hornig, Professor of Chemistry, Princeton University

George B. Kistiakowsky, Professor of Chemistry, Harvard University

Colin M. MacLeod, Professor of Medicine, School of Medicine, New York University

William D. McElroy, Chairman, Department of Biology, The Johns Hopkins University

Wolfgang K. H. Panofsky, Director, Stanford Linear Accelerator Center, Stanford University

John R. Pierce, Executive Director, Research, Communications Principles Division, Bell Telephone Laboratories

Frank Press, Director, Seismological Laboratory, California Institute of Technology

Edward M. Purcell, Professor of Physics, Harvard University

Frederick Seitz, President, National Academy of Sciences

John W. Tukey, Professor of Mathematics, Princeton University

Jerrold R. Zacharias, Professor of Physics, Massachusetts Institute of Technology

Jerome B. Wiesner (Chairman), Special Assistant to the President for Science and Technology, The White House

[25]

12 Comments | DDT, History, John F. Kennedy, Rachel Carson, Science | Tagged: , , , , , , , | Permalink
Posted by Ed Darrell

Typewriter of the moment: Ava and Linus Pauling, 1957

December 8, 2012

Can you identify the typewriter?  Update: In comments, Ed Ackerman said it looks like an Olympia.  Agree?

Linus and Ava Pauling, 1957

Caption from the Oregon State University Library: Linus and Ava Helen Pauling working on “An Appeal by American Scientists to the Government and Peoples of the World”. 1957. Original held in the Ava Helen and Linus Pauling Papers, Oregon State University Libraries.

Linus C. Pauling won distinction for his science work with the Nobel Prize in Chemistry, in 1954.

The Nobel Prize in Chemistry 1954 was awarded to Linus Pauling “for his research into the nature of the chemical bond and its application to the elucidation of the structure of complex substances.”

In 1957, Chemistry Nobel Prize winner Linus Pauling turned to other issues.  Having been beaten in the race to confirm the form of DNA by Watson and Crick in 1953, Pauling turned to peace activism.  He opposed atomic weapons and wars.

In this photo, posed, Pauling and his wife who partnered with him in his campaigns for peace, worked on a statement to be issued later, to be known as “An Appeal by American Scientists to the Government and Peoples of the World.”

Note the tools of editing of the day:  Cellophane tape, glue, scissors, pencils and pens.  The typewriter’s output could be cut into strips and rearranged on a separate sheet of paper, to be retyped later in order.  This was manual, analog word processing.

An online exhibit of Pauling’s work and photos at the Oregon State Library explained the document being worked on, and its use:

While the debate raged, Pauling continued to keep a high public profile, speaking widely and appearing often in newspapers and magazines through 1956 and into 1957, garnering attention by positing shocking estimates of fallout-related damage to human health. By the spring of 1957 it appeared that his and Russell’s efforts were yielding fruit. Alarmed by the dangers of fallout, Japanese, British, German, and Indian politicians began urging a halt to H-bomb tests, as did the Pope and the World Council of Churches.

In May, after delivering a fiery anti-Bomb speech at Washington University in St. Louis, Pauling conferred with two other scientists, Barry Commoner and Edward Condon, about next steps. They decided to mount a scientists’ petition to stop nuclear testing as a way to draw attention to the concerns of a growing number of anti-Bomb scientists. Their “Appeal by American Scientists to the Government and Peoples of the World,” mimeographed and hand-mailed, garnered more than two dozen signatures within a week. Pauling took the project back to Pasadena, where he and Ava Helen, along with some volunteers, mailed hundreds of additional copies to researchers in more American universities and national laboratories. Within a few weeks they had gathered some two thousand signatures, including more than fifty members of the National Academy of Sciences and a few Nobel laureates.

On June 3, Pauling released his signatures to the world, sending copies to the United Nations and President Eisenhower. The petition made national headlines — and spurred an immediate attempt to isolate its primary author. Even the president took a shot at Pauling. “I noticed that in many instances scientists that seem to be out of their own field of competence are getting into this argument about bomb testing,” said Eisenhower, “and it looks almost like an organized affair.” This thinly veiled allusion to Communist backing for Pauling’s effort was echoed by a number of other critics of the ban-the-Bomb movement. The head of HUAC blasted Pauling on the floor of Congress for spreading Soviet propaganda. A few days later Pauling was subpoenaed to appear before a Senate investigatory committee (although those hearings were delayed, then canceled). Through it all, he continued to broaden the distribution of his petition through the end of 1957, expanding his mailing list to scientists around the world, including many in Communist countries. By the beginning of 1958, he and Ava Helen counted more than 9,000 signatures. When the expanded petition response was submitted to the United Nations, it once again made headlines worldwide.

Where is a text of the document?  I found one image of the document in holdings of the National Institutes for Health.  It’s indexed under “petitions” in the papers and documents of Linus Pauling in the Profiles of Science section.

For his work against war, Pauling won the Nobel Prize for Peace for 1962 (awarded in 1963).  Pauling is the only person to have won two Nobel awards alone, undivided with anyone else.

Does that typewriter survive today?  Is it in the collection of Oregon State University?

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3 Comments | chemistry, History, Peace, Science, Technology, Typewriters | Tagged: , , , , , , , | Permalink
Posted by Ed Darrell

Why we need fewer GOP Members of Congress, climate change category

December 7, 2012

Pie chart, research on climate change vs. denials

Via UpWorthy: ORIGINAL: By Dr. James Lawrence Powell, author of The Inquisition of Climate Science.

I can’t make that URL in the chart work — the original article at DeSmogBlog is here.

Climate change denial or global warming denial is much like creationism — it lacks a scientific basis.  Dr. Powell wrote:

Global warming deniers often claim that bias prevents them from publishing in peer-reviewed journals. But 24 articles in 18 different journals, collectively making several different arguments against global warming, expose that claim as false. Articles rejecting global warming can be published, but those that have been have earned little support or notice, even from other deniers.

A few deniers have become well known from newspaper interviews, Congressional hearings, conferences of climate change critics, books, lectures, websites and the like. Their names are conspicuously rare among the authors of the rejecting articles. Like those authors, the prominent deniers must have no evidence that falsifies global warming.

Anyone can repeat this search and post their findings. Another reviewer would likely have slightly different standards than mine and get a different number of rejecting articles. But no one will be able to reach a different conclusion, for only one conclusion is possible: Within science, global warming denial has virtually no influence. Its influence is instead on a misguided media, politicians all-too-willing to deny science for their own gain, and a gullible public.

Scientists do not disagree about human-caused global warming. It is the ruling paradigm of climate science, in the same way that plate tectonics is the ruling paradigm of geology. We know that continents move. We know that the earth is warming and that human emissions of greenhouse gases are the primary cause. These are known facts about which virtually all publishing scientists agree.

Desmogblog (http://s.tt/1tBXZ)

Related articles

8 Comments | Climate change, climate_change, Global warming, History, Politics, Science | Tagged: , , , , , , , , | Permalink
Posted by Ed Darrell

Rachel Carson biography, On a Farther Shore, one of best books of 2012

December 4, 2012

Kirkus Reviews listed as one of 2012’s top 25 books William Souder’s biography of Rachel Carson, On a Farther Shore.

William Souder, author of On a Farther Shore. MPR image

William Souder, author of On a Farther Shore. Minnesota Public Radio image

Rachel Carson often gets credit for starting the modern environmental movement.  In highly cynical political times, Carson is under cruel smear attack from people who wish the environmental movement did not exist, and who appear to think that we could poison Africa to prosperity if only we’d use enough DDT, contrary to all scientific work and medical opinion.

Souder’s book, issued on the 50th anniversary of the publication of Carson’s best-known book, Silent Spring, lays out the facts.

Nice to see that book lovers like Souder’s work, too.  Carson’s work was painstakingly accurate as science, but also a wonderful read.  Silent Spring has a larger following among lovers of literature than science, a tribute to her writing ability.  Souder’s book plows both veins, science and writing.

Cover of On a Farther Shore, by William Souder

Cover of On a Farther Shore, by William Souder

In circles serious about science, the environment, human health, and literature, Souder’s book is the book of the 50th anniversary of Silent Spring.  There is irony there.  Pesticide manufacturers mounted a campaign against Silent Spring and Rachel Carson calculated to have cost $500,000 in 1962, when that book was published.  Souder’s book fights propaganda from Astro-turf™ organizations like Africa Fighting Malaria, a pro-DDT group that collects money from chemical manufacturers and anti-environmental political sources for a propaganda campaign that costs well over $500,000/year.  Despite all the paid-shill shouting against Rachel Carson and her work, it is the voice of On a Farther Shore that stands out.

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6 Comments | Books, DDT, Environmental protection, Literature, Malaria, Politics, Rachel Carson, Science | Tagged: , , , , , , , , , , , , , | Permalink
Posted by Ed Darrell

Climate insanity

November 28, 2012

Watching New Yorkers get caught not-yet-prepared to stop the shutdown of the subways and electrical grid due to the Sandy storm surge at high tide, and noting that the ridicule heaped by denialists on those who tried to warn us about such storms, I asked at Climate Sanity about updates on their rosy “What? Us worry?” view of climate change.

Photo of water in 86th Street Station in Brooklyn, NY, after Sandy

Photo of water in 86th Street Station in Brooklyn, NY, after Sandy – photo found at Naked Capitalism. Denialists could note that subway crime was significantly reduced at the time of this photo.

Surprisingly, we got an answer.  ‘What?  Worry?  Us?  What surge?  You shoulda seen the Hurricane of 1938!  Why, back in the Jurassic there were even BIGGER surges . . .’

It’s a classic example of how rabid advocacy for a disproven position can predict that the rabid advocate will not change her/his mind, at least publicly.

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Cartoon by Joel Pett, USAToday, what if climate change is a big hoax

Cartoon by Joel Pett, USA Today

1 Comment | Cartoons, Climate change, climate_change, denialism, Global warming, Political cartoons, Politics, Science | Tagged: , , , , , , , , , | Permalink
Posted by Ed Darrell

Can videos make you teacher of the year? Paul Andersen’s Montana science videos

November 25, 2012

There’s a great story here — maybe more than one.

For “Origin of Species Day,” November 24, the anniversary of the 1859 publication of Charles Darwin’s most famous book, Paul Andersen sent out this Tweet:

Who is Paul Andersen?  He’s Montana’s Teacher of the Year (for what year, I don’t know).  He teaches science in Bozeman, at Bozeman High.

Plus, he’s produced 224 videos, most of them on science issues.  They’re short, they’re informative, and they work.  Salman Khan, not yet — but here’s one more piece of the great big puzzle, how do we marry education and technology.

Where does he offer continuing education for teachers on how to produce videos?  Why isn’t Texas paying big money to him to get him to do that, to teach Texans how to use YouTube to teach?

Andersen’s on the right path, and he’s running hard.  Teachers, are you paying attention?

(By the way, I’d quibble a bit on his history — I think Darwin did a fair deal of experimentation on evolution, breeding pigeons for a decade, among other things.  But Andersen’s use of stickleback evolution is very good; the little fishies have been observed to speciate in the wild, and then to duplicate that speciation in captivity, thereby confirming what was observed out in the lakes.  Thank you sticklebacks!)

Very quickly this gets into serious territory.

Look, I’m an out of the loop teacher in Dallas, Texas — and for all its money and size and importance, Texas is mostly a cultural and educational backwater.   It’s not that there aren’t great people in education here, or no great resources — we are shackled to an ancient political system that puts more value on fealty to not-quite-superordinate ideas than on cutting edge education, or mass educational attainment.  There is a powerful anti-intellectual stream in Texas politics that believes a hobbled education system will not threaten the political, social or cultural order.  Too many Texans take great solace in that, covertly or overtly.

As a nation, we are engaged in a series of great education experiments, using our children as testing subjects, as guinea pigs.  How does video fit into making education work better?

Here we’ve got Paul Andersen and his science videos.

Despite my grousing about his not being in Texas, he is active in national circles where the serious questions get asked about how to use video, and other technologies.

A YouTube Education Summit on October 18 and 19 got Andersen out of Montana, where Andersen ran into C. G. P. Grey, another guy who uses video.

Grey responded with this ode to a “digital Aristotle“:

Links and other information Grey offered:

Some thoughts on teachers, students and the Future of Education.
The book kid me is holding in the video is The Way Things Work. If there’s a bookish child in your life, you should get them a copy: http://goo.gl/QdreH

Also I don’t think that the idea of Digital Aristotle is sci-fi, but if you *do* want to read the sci-fi version, I highly recommend The Diamond Age: http://goo.gl/uvbx6

Thanks to YouTube EDU for bringing me out: http://www.youtube.com/education

And Angela for arranging the whole show: http://www.youtube.com/aresearchbug

And Jessica for her amazing note artwork: http://www.youtube.com/seppyca

Full credits and more info at: http://cgpgrey.squarespace.com/blog/digital-aristotle-thoughts-on-the-future-…

CGPGrey T-Shirts available from DFTBA: http://dftba.com/product/10m/CGP-Grey-Logo-Shirt

Twitter: http://twitter.com/#!/cgpgrey

Google+: http://plus.google.com/115415241633901418932/posts

Facebook: http://www.facebook.com/pages/Greys-Blog/193301110697381

Andersen replied, questioning how well a digital Aristotle can work, since it takes Aristotle out of the equation:

Links Andersen promised:

Paul Andersen reflects on Digital Aristotle, his trip to the YouTube Edu summit, and the future of education

Digital Aristotle: Thoughts on the Future of Education:
http://www.youtube.com/watch?v=7vsCAM17O-M

60 Minutes episode on Sal Khan:
http://www.cbsnews.com/video/watch/?id=7401696n

Classroom Game Design at TEDxBozeman:
http://www.youtube.com/watch?v=4qlYGX0H6Ec

Blended Learning Cycle:
http://www.youtube.com/watch?v=-apJDi7cx9o

Game on, ladies and gentlemen.  Which one is closer to being right? 

There you go, from evolution, to evolution of teaching and education.  What’s the selection tool for quality education?  Which species of learning will survive to reproduce?

Your thoughts in comments, please.

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6 Comments | Charles Darwin, Darwin, Education, Education assessment, Education reform, Evolution, Video and film | Tagged: , , , , , , , , | Permalink
Posted by Ed Darrell

Happy Origin of Species Day! (November 24)

November 23, 2012

Tomorrow, November 24, 2012, marks the 153rd anniversary of a day that quietly changed all of science, should have changed much of theology, and brought much of the world into the future, though many people don’t know it yet.

It’s a Saturday this year — so let’s be a day early, to get informed and involved the people who don’t check their calendars on the weekends.

On November 24, 1859, Charles Darwin’s book was published, On the Origin of Species.

Title page, 1859 edition of Darwin's Origin of Species - University of Sydney/Wikimedia image

Title page, 1859 edition of Darwin’s Origin of Species – image from the University of Sydney via Wikimedia image

How to celebrate?  You could read a summary of Ernst Mayr’s shorthand version of Darwin’s theory, and understand it really for the first time  (I hope not the first time, but there are a lot of people who really don’t understand what Darwin said — especially among critics of evolution):

Darwin’s theory of evolution is based on key facts and the inferences drawn from them, which biologist Ernst Mayr summarised as follows:[3]

  • Every species is fertile enough that if all offspring survived to reproduce the population would grow (fact).
  • Despite periodic fluctuations, populations remain roughly the same size (fact).
  • Resources such as food are limited and are relatively stable over time (fact).
  • A struggle for survival ensues (inference).
  • Individuals in a population vary significantly from one another (fact).
  • Much of this variation is inheritable (fact).
  • Individuals less suited to the environment are less likely to survive and less likely to reproduce; individuals more suited to the environment are more likely to survive and more likely to reproduce and leave their inheritable traits to future generations, which produces the process of natural selection (inference).
  • This slowly effected process results in populations changing to adapt to their environments, and ultimately, these variations accumulate over time to form new species (inference).
Darwin's original sketch of a "tree of life," from Darwin's journals

Charles Darwin’s 1837 sketch, his first diagram of an evolutionary tree from his First Notebook on Transmutation of Species (1837) on view at the the Museum of Natural History in Manhattan. Interpretation of handwriting: “I think case must be that one generation should have as many living as now. To do this and to have as many species in same genus (as is) requires extinction . Thus between A + B the immense gap of relation. C + B the finest gradation. B+D rather greater distinction. Thus genera would be formed. Bearing relation” (next page begins) “to ancient types with several extinct forms.”  Wikimedia image

This is mostly an encore post — hey, it’s a history blog — with tips of the old scrub brush justified to Larry Moran and P. Z. Myers, and especially Eugenie Scott and the National Center for Science Education.

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10 Comments | Books, Charles Darwin, Darwin, Evolution, History, Science, Turning Points | Tagged: , , , , , , , | Permalink
Posted by Ed Darrell

Watching the Leonid meteor shower 2012

November 17, 2012

Faithful stargazers may already have spotted a few shooting stars from this year’s Leonid shower.  Best estimates are that the peak will come the night of Saturday, November 17.

Meteor from 2009 Leonid shower, Wikimedia Commons

A meteor streaks across the sky during the 2009 Leonid meteor shower. (Navicore / Wikimedia Commons via Los Angeles Times)

Ready?

One of our best sources on viewing meteors is the StarDate website.  Their advice for tonight:

The next meteor shower is the Leonids on the night of November 17

The best viewing for this year’s Leonid meteor shower will be several hours before dawn on November 17. The shower should produce perhaps a dozen or so “shooting stars” per hour. The best view comes in the wee hours of the morning, as your part of Earth turns most directly into the meteor stream.

*     *     *     *     *

What is a meteor shower?

A meteor shower is a spike in the number of meteors or “shooting stars” that streak through the night sky.

Most meteor showers are spawned by comets. As a comet orbits the Sun it sheds an icy, dusty debris stream along its orbit. If Earth travels through this stream, we will see a meteor shower. Although the meteors can appear anywhere in the sky, if you trace their paths, the meteors in each shower appear to “rain” into the sky from the same region.

Meteor showers are named for the constellation that coincides with this region in the sky, a spot known as the radiant. For instance, the radiant for the Leonid meteor shower is in the constellation Leo. The Perseid meteor shower is so named because meteors appear to fall from a point in the constellation Perseus.

What are shooting stars?

“Shooting stars” and “falling stars” are both names that describe meteors — streaks of light across the night sky caused by small bits of interplanetary rock and debris called meteoroids vaporizing high in Earth’s upper atmosphere. Traveling at tens of thousands of miles an hour, meteoroids quickly ignite from the searing friction with the atmosphere, 30 to 80 miles above the ground. Almost all are destroyed in this process; the rare few that survive and hit the ground are known as meteorites.

When a meteor appears, it seems to “shoot” quickly across the sky, and its small size and intense brightness might make you think it is a star. If you’re lucky enough to spot a meteorite (a meteor that makes it all the way to the ground), and see where it hits, it’s easy to think you just saw a star “fall.”

How can I best view a meteor shower?

Get away from the glow of city lights and toward the constellation from which the meteors will appear to radiate.

For example, drive north to view the Leonids. Driving south may lead you to darker skies, but the glow will dominate the northern horizon, where Leo rises. Perseid meteors will appear to “rain” into the atmosphere from the constellation Perseus, which rises in the northeast around 11 p.m. in mid-August.

After you’ve escaped the city glow, find a dark, secluded spot where oncoming car headlights will not periodically ruin your sensitive night vision. Look for state or city parks or other safe, dark sites.

Once you have settled at your observing spot, lie back or position yourself so the horizon appears at the edge of your peripheral vision, with the stars and sky filling your field of view. Meteors will instantly grab your attention as they streak by.

How do I know the sky is dark enough to see meteors?

If you can see each star of the Little Dipper, your eyes have “dark adapted,” and your chosen site is probably dark enough. Under these conditions, you will see plenty of meteors.

What should I pack for meteor watching?

Treat meteor watching like you would the 4th of July fireworks. Pack comfortable chairs, bug spray, food and drinks, blankets, plus a red-filtered flashlight for reading maps and charts without ruining your night vision. Binoculars are not necessary. Your eyes will do just fine.

StarDate offers a wealth of resources on meteor showers, and clips from their radio programming on specific events.

Here’s a map of where to look in the sky (also from StarDate, though that’s not where I found it!):

Starmap, where to look for Leonids, StarDate via NBC

Where should you look for Leonid meteors? Orient this map, and look to the east – courtesy of StarDate via NBC

Next up:  The Geminids shower, about December 13, 2012.

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Leave a Comment » | Astronomy, Nature, Science | Tagged: , , , , , | Permalink
Posted by Ed Darrell

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