2009/08/19

Fourier Series simulation of temp record

Fourier Series simulation of temp record

Here's a thing I've been toying with for a few days. You take the temperature record - hadcrut3v global. Use narrow band bandpass filters on it to find peak frequencies/phase/amplitude. Add the output of the filters ansd see what you get.
By taking mid band frequency amplitude and phase one should then be able to reconstruct the temperature record from a series of sine (cosine) waves - this is shown in the second plot.



1/Frequency bands from .5 years to 1000 years were searched but the longest period that produced output was 150years.

The green line in these plots is the output of the 36 bands/cosines and as can be seen there is no trend. There is something else pushing the trend upwards.

One bodge has been to increase the amplitude of all bands by 2.3 to give the same sort of variability in the temp record.

A second bodge is to add a trend line that forces the synthesised temperature to conform to the hadcrut3v. As can be seen both the cosine and filter outputs follow the curve "rather well". Of particular note is the lack of temperature increase followed by fall over the last few years and 2 peaks at 1877 and 1998 being modelled with a "good" correlation.

There is a rapid warming between 1930 and 1945 which is not followed by the synthesised data.

This plot shows the relative amplitudes and periods of the synthesised waves


The synthesis of course means that individual periods can be removed to see the effect of tsi etc.

This is a work in progress but unless someone shows it to be a pile of poo I think it is interesting!

2009/08/18

Icecore data CO2 CH4 Dust Temperature

I recently posted this on CA
http://www.climateaudit.org/?p=4804#comment-329759

The plots are from EPICA data, mainly not VOSTOK
The time scales are reversed (years before present)
The plots show temperature rise pretty much co-incident with CO2 rise. (samples are often too widly separated to safely say which came first!

————————
Does temperature precede GHG change?
Some plots
CO2 in most cases rises at the same time as temperature. CH4 seems to terminate the warm period in many cases. Data is from EPICA core as this is more detailed than vostok. BUT core dates can still be spaced at over 2k years per sample in some periods. N2O and O3 have not been plotted.
Where is the data that shows temperature rise precedes CO2?
0 to 40,000 years. GISP2 and EPICA temperatures plotted on this graph. Co2 steady rise is simultaneous with temperature @17500ybp
note that only greenland gisp2 temperature shows a definite younger dryas – the antarctic EPICA data shows a flattening only.The EPICA CH4 data shows a misplaced drop around the younger dryas. Note the dust levels during the low temperature portion.

40k to 100k years Note the dust levels are non zero during this period and high during the low temperature portion.

100k to 200k years Co2 rises simulaneously with temperature @136kybp. Note the dust levels are high during the low temperature portion. CH4 termination of warm period

180k to 260k years Co2 rises simulaneously with temperature @252kybp. the 220kybp is less defined. Note the dust levels are high during the low temperature portion. CH4 and CO2 termination of warm periods
280k to 360k years Co2 rises simulaneously with temperature @341kybp. Note the dust levels are high during the low temperature portion. CH4 termination of warm periods

360k to 460k years Co2 rises simulaneously with temperature @432kybp. Note the dust levels are high during the low temperature portion. CH4 termination of warm period


460k to 560k years Co2 rises simulaneously with temperature @532kybp. Note the dust levels are high during the low temperature portion. CH4 termination of warm period


560k to 650k years Co2 rises simulaneously with temperature @629.5kybp. Note the dust levels are high during the low temperature portion. CO2,CH4 termination of warm period


650k to 760k years Co2 rises simulaneously with temperature @740.5kybp. Note the dust levels are high during the low temperature portion. CO2,CH4 termination of warm period @694kybp. Note dip at 722kybp has no CH4/Co2 driving. It is possible that dust level rises at this time but granularity of dust data is not sufficiently small to line up.


750k to 800k years Co2 rises simulaneously with temperature @796kybp. Note the dust levels are high during the low temperature portion. CO2 termination of warm period

http://img21.imageshack.us/img21/3479/iceage750800kqf1.jpg

Methane data is from:

Loulergue, L., et al.. 2008.
EPICA Dome C Ice Core 800KYr Methane Data.
IGBP PAGES/World Data Center for Paleoclimatology
Data Contribution Series # 2008-054.
NOAA/NCDC Paleoclimatology Program, Boulder CO, USA.

Age scale is gas age

CO2 data is from
0-22 kyr BP: Dome C (Monnin et al. 2001) measured at University of Bern
22-393 kyr BP: Vostok (Petit et al. 1999; Pepin et al. 2001; Raynaud et al. 2005) measured at LGGE in Grenoble
393-416 kyr BP: Dome C (Siegenthaler et al. 2005) measured at LGGE in Grenoble
416-664 kyr BP: Dome C (Siegenthaler et al. 2005) measured at University of Bern
664-800 kyr BP: Dome C (Luethi et al. (sub)) measured at University of Bern

Age scale is gas age

I assume the gas age takes into account the delay in trapping?

The age used is EDC3 and a comparison between dome fuji and vostok is here
The EDC3 chronology for the EPICA Dome C ice core
http://www.clim-past.net/3/485/2007/cp-3-485-2007.pdf

gas to ice age 0-41k
http://www.clim-past.net/3/527/2007/cp-3-527-2007.pdf
“Although the exact causes of the 1arge
overestimate remain unknown, our work implies that the suggested
lag of CO2 on Antarctic temperature at the start of the
last deglaciation has probably been overestimated.”

DDT

from 1941
http://www.archive.org/stream/ddtkillerofkille00zimmrich/ddtkillerofkille00zimmrich_djvu.txt
Resistance is mentioned but not seen at that time.

http://timpanogos.wordpress.com/2007/11/08/100-things-about-ddt-dissecting-10/

DDT is a persistent poison – it does not quickly break down to safe compounds.

Mosquitoes breed rapidly and DDT resistant strains were developing. To continue to spray DDT to eradicate the non resistant mosquitoes would be pointless. Why poison the world eradicating fewer and fewer mosquitoes

From 1952:
http://www.ajtmh.org/cgi/content/abstract/1/3/389
http://www.cdc.gov/malaria/control_prevention/vector_control.htm
Resistance to DDT and dieldrin and concern over their environmental impact led to the introduction of other, more expensive insecticides. As the eradication campaign wore on, the responsibility for maintaining it was shifted to endemic countries that were not able to shoulder the financial burden. The campaign collapsed and in many areas, malaria soon returned to pre-campaign levels

an interesting bit:
http://www.gladwell.com/2001/2001_07_02_a_ddt.htm
DDT killed some and not other bugs leading to bed bugs ! etc.
In Malaysian villages, the roofs of the houses were a thatch of palm fronds called atap. They were expensive to construct, and usually lasted five years. But within two years of DDT spraying the roofs started to fall down. As it happened, the atap is eaten by caterpillar larvae, which in turn are normally kept in check by parasitic wasps. But the DDT repelled the wasps, leaving the larvae free to devour the atap.
In Greece, in the late nineteen-forties, for example, a malariologist noticed Anopheles sacharovi mosquitoes flying around a room that had been sprayed with DDT. In time, resistance began to emerge in areas where spraying was heaviest. To the malaria warriors, it was a shock. “Why should they have known?” Janet Hemingway, an expert in DDT resistance at the University of Wales in Cardiff, says. “It was the first synthetic insecticide. They just assumed that it would keep on working, and that the insects couldn’t do much about it.”

http://www.pan-uk.org/pestnews/Actives/ddt.htm
Human exposure
Analysis of human fat has been carried out occasionally in the UK showing that DDT can persist for many years. Analysis of 203 samples of mostly renal fat showed 99% contained detectable residues of DDT (see table 3)(24). Many of the levels found are above effect-level exposures required to elicit a carcinogenic response in test animals (see mice studies above). They are also well above the life-time safety exposure limit ADI of 0.02 mg/kg body weight.

Birds
DDT and its metabolites can lower the reproductive rate of birds by causing eggshell thinning which leads to egg breakage, causing embryo deaths. Sensitivity to DDT varies considerably according to species(35). Predatory birds are the most sensitive. In the US, the bald eagle nearly became extinct because of environmental exposure to DDT. According to research by the World Wildlife Fund and the US EPA, birds in remote locations can be affected by DDT contamination. Albatross in the Midway islands of the mid-Pacific Ocean show classic signs of exposure to organochlorine chemicals, including deformed embryos, eggshell thinning and a 3% reduction in nest productivity. Researchers found levels of DDT in adults, chicks and eggs nearly as high as levels found in bald eagles from the North American Great Lakes(36).

Resistance
Many insect species have developed resistance to DDT. The first cases of resistant flies were known to scientists as early as 1947, although this was not widely reported at the time(39). In the intervening years, resistance problems increased mostly because of over-use in agriculture. By 1984 a world survey showed that 233 species, mostly insects, were resistant to DDT(40). Today, with cross resistance to several insecticides, it is difficult to obtain accurate figures on the situation regarding the number of pest species resistant to DDT

40 years ago, in 1969, DDT was freely available world wide. Sweden banned the stuff from agricultural use in 1970; the U.S. followed with a ban on agricultural use of DDT, especially sprayed from airplanes. DDT for fighting malaria has always been a feature of the U.S. ban. As a pragmatic matter, DDT manufacture on U.S. shores continued for more than a dozen years after the restrictions on agricultural use of the stuff. In an ominous twist, manufacture in the U.S. continued through most of 1984, right up to the day the Superfund Act made it illegal to dump hazardous substances without having a plan to clean it up or money to pay for clean up — on that day the remaining manufacturing interests declared bankruptcy to avoid paying for the environmental damage they had done. See the Pine River, Michigan Superfund site, or the Palos Verdes and Montrose Chemical Superfund sites in California, the CIBA-Geigy plant in McIntosh, Alabama, and sites in Sand Creek, Colorado, Portland, Oregon, and Aberdeen, North Carolina, for examples.

http://www.ehs.ucsb.edu/units/labsfty/labrsc/lstoxicology.htm
TOXICITY RATING CHART (oral)
Toxicity Rating Oral Acute LD50 for Rats
Extremely toxic 1 mg/kg or less (e.g., dioxin, butulin toxin)
Highly toxic 1 to 50 mg/kg (e.g., strychnine)
Moderately toxic 50 to 500 mg/kg (e.g., DDT)
Slightly toxic 0.5 to 5 gm/kg (e.g., morphine)
Practically nontoxic 5 to 15 gm/kg (e.g., ethyl alcohol)

DDT was abandoned not because of greenies but because
it was becoming ineffective
It was killing other beneficial bugs.
the money dried up
It was being improperly applied
======================

Rehabilitating Carson
John Quiggin
24th May 2008 — Issue 146
Why do some people continue to hold Rachel Carson responsible for millions of malaria deaths?
Click here to read a reply from Roger Bate of Africa Fighting Malaria

Rachel Carson launched the modern environmental movement. She was posthumously awarded the US presidential medal of freedom, and has conservation areas, prizes and associations named in her honour.

Yet Carson has also been accused of killing more people than Hitler. Her detractors hold her responsible for a “ban” on the use of the insecticide DDT (Dichlorodiphenyltrichloroethane), which, they claim, halted a campaign that was on the verge of eradicating malaria in the 1960s.

Some mainstream journalists have accepted this story, which in turn has led to pressure on the World Health Organisation (WHO) and other bodies to change policies and personnel. Yet perhaps the most striking feature of the claim against Carson is the ease with which it can be refuted. It takes only a few minutes with Google to discover that DDT has never been banned for anti-malarial uses, and that it is in use in at least 11 countries.

It takes only a little more time to discover that the postwar attempt to eradicate malaria by the spraying of DDT was a failure, largely because Carson’s warnings that overuse of insecticides would lead to the development of resistance in mosquito populations were ignored. Modern uses of insecticides are far closer to the methods advocated by Carson than to the practices she criticised.

How, then, did the idea that Carson was responsible for millions of deaths gain currency? Any good myth requires a few grains of truth, and the DDT malaria story has a couple. First, the 2001 Stockholm convention on persistent organic pollutants prohibits the use of DDT except for disease control, and calls for all DDT use to be phased out. The phase-out commitment is often loosely referred to as a “ban.”

Second, by virtue of its massive misuse in the 1960s and 1970s, DDT gained a bad reputation that was hard to shake. As a result, says WHO’s Allan Schapira, donors have sometimes insisted on the use of an insecticide other than DDT, even in “countries where the government wished to use DDT, and there was evidence that it was the best option for malaria-vector control.”

But these grains of truth are scarcely enough to generate a myth as widespread as that of “Rachel Carson, baby killer.” So what accounts for the campaign against Carson? The story begins in the 1940s. Swiss chemist Paul Hermann Müller won the 1948 Nobel prize for medicine for his discovery of the efficacy of DDT against several arthropods. It was used in the war by Allied forces with striking success to protect troops and civilians from the insects that transmit malaria, typhus and other diseases.

After the war, the use of DDT continued apace. In 1955, the WHO adopted a global malaria eradication campaign, based on spraying DDT on to the interior walls of houses to protect residents against malaria-carrying mosquitoes. The insecticide was well suited for this task because it was “persistent,” meaning that a wall sprayed with DDT would kill mosquitoes that rested on it for six months after spraying.

The programme was never extended to sub-Saharan Africa, where malaria was most acute. But the failure of the programme was not the result of underuse: quite the opposite. In the first flush of enthusiasm for DDT in the 1950s, the range of applications was rapidly extended from disease control to agricultural and other uses. DDT was widely used in both developed and less developed countries to protect crops against pests. Indiscriminate use in agriculture led to the evolution of DDT-resistant mosquitoes.

Rachel Carson, a prominent American science writer, had long been concerned about the impact of DDT and other pesticides on the environment. In 1962, her ideas were crystallised in the bestseller Silent Spring, which made the case that overuse of pesticides was a threat to wildlife, human health and even their own usefulness against malaria. Within a year, the US president’s science advisory committee called for a reduction in the use of persistent pesticides. In 1972, the use of DDT in US agriculture was banned, though an exception (which has never been used) was made for emergency public health applications.

Meanwhile, the DDT-based eradication campaign against malaria ran into the trouble Carson had warned about. The high-water mark of the campaign came in 1964. Sri Lanka had reduced its number of malaria cases from millions after the end of the war to just 29. The country declared victory over malaria and suspended spraying. WHO called the eradication programme “an international achievement without parallel in the provision of public health service.”

But then malaria returned to Sri Lanka. In 1968-69, there were half a million cases. The country went back to spraying DDT, but because it had been extensively used in agriculture, mosquitoes had evolved resistance. The insecticide became less and less effective, eventually forcing Sri Lanka to switch to an alternative, malathion, in the mid-1970s. Other countries in the eradication program suffered similar setbacks, and by 1969, the 22nd World Health Assembly concluded that the goal of global eradication of malaria was not feasible.

By 1990, it seemed that the public health issues surrounding DDT had been largely resolved. In developed countries, DDT had been replaced by less environmentally damaging alternatives. But soon the situation changed radically. The tobacco industry, faced with the prospect of bans on smoking in public places, sought to cast doubt on the science behind the mooted ban. But a campaign focused on tobacco alone was doomed to failure. So the industry tried a different tack, an across-the-board attack on what it called “junk science.” Its primary vehicle was the Advancement of Sound Science Coalition (TASSC), a body set up by PR firm APCO in the early 1990s and secretly funded by Philip Morris.

TASSC, led by an activist named Steve Milloy, attacked the environmental movement on everything from food safety to the risks of asbestos. One of the issues Milloy took up with vigour was DDT, where he teamed up with the entomologist J Gordon Edwards. With the aid of Milloy’s advocacy, Edwards’s attacks on Rachel Carson moved from the political fringes to become part of the orthodoxy of mainstream US Republicanism.

Tobacco companies created a European version of TASSC, the European Science and Environment Forum (ESEF), led by Roger Bate, another tobacco lobbyist. In the late 1990s, Bate established “Africa Fighting Malaria,” a so-called “astroturf” organisation based in Washington DC. His aim was to drive a wedge between public health and the environment by suggesting that by banning DDT to protect birds, environmentalists were causing many people to die from malaria. Between them, Milloy’s TASSC and Bate’s Africa Fighting Malaria convinced many that DDT was a panacea for malaria, denied to the third world by the machinations of rich environmentalists.

For both groups, the big opportunity came with the 2001 Stockholm convention. The treaty banned most uses of organochlorine pesticides such as DDT and dieldrin because of their persistence and toxicity. It was agreed that the use of DDT for malaria control should be exempted from the general ban until affordable substitutes could be found. The only point of dispute was whether an explicit target date for the phase-out of DDT should be set.

The pro-DDT brigade pounced on the phase-out proposal, describing it as a “ban,” and news stories made it appear that the ban was imminent. Yet during the negotiations, the World Wide Fund for Nature, the main supporters of a targeted phase-out date, abandoned its proposal, focusing instead on more stringent attempts to control the illegal use of DDT in agriculture. The outcome was an eminently sensible one.

But the debate had given Milloy, Bate and others the start they needed. Successfully conflating the use of the term “ban” to describe the eventual phase-out proposal with the 1972 ban on agricultural use in the US, Milloy produced his “malaria clock,” which blamed the “ban” for all malaria deaths since 1972. Meanwhile, Bate and Africa Fighting Malaria continued to claim that the widespread use of DDT was being prevented solely because of the opposition of western environmentalists.

The high point of the pro-DDT campaign came in late 2006, with the appointment of Arata Kochi as head of the WHO malaria program. Kochi saw the need to placate the critics associated with the Bush administration, and issued an announcement describing a renewed commitment to DDT. The “new” position was little more than a restatement of long-standing policy. Nevertheless, it appeased critics and mobilised support for additional funds, particularly from the US government.

Kochi’s announcement was hailed as a triumph by the promoters of the DDT myth. But the environmentalists and scientists started fighting back. The idea of DDT spraying as a panacea for malaria threatened, they said, to derail the tentative progress that was being made with campaigns incorporating improved treatments, insecticide-treated bed nets and a range of public health measures.

The response of the pro-DDT campaigners was revealing. Milloy, who has long shown himself to be utterly shameless, maintained his malaria clock, adding footnotes to indicate that he knew his claims to be false. By contrast, Bate began to adjust his position, noting in a recent interview that, “I think my position has mellowed, perhaps with age.”

Sanity now appears to be returning to the malaria debate. At meetings on the implementation of the Stockholm convention, WHO put out another restatement of its position, this time stressing the commitment to an eventual phase-out of DDT, while noting that its use would continue until adequate substitutes were found.

In 2007, the WHO concluded that long-lasting insecticide treated bed nets were more cost-effective than DDT spraying in high malaria transmission areas. Earlier this year, it announced dramatic progress against malaria in Rwanda and Ethiopia based on a strategy of long-lasting insecticidal nets and artemisinin-combination therapy drugs.

Following these successes, the goal of global eradication of malaria has been revived. The hope is that a combination of existing measures, like bed nets, insecticides (including DDT among others) and drugs, can drive down the number of cases and shrink malaria’s range across Africa and Asia. The new strategy is based on a judicious mix of tactics against malaria, rather than a knockout blow based on a single weapon. Rachel Carson would surely have approved

2009/08/14

CO2 data - why the yearly humps?


Question:
Is the annual uptake of CO2 by “something” increasing
Answer: Yes by 0.17ppm per year
Co2 is increasing by 1.6ppm/year
for Point Barrow see:


The annual carbon dioxide sink is absorbing more CO2 over ther period considered

Is this caused by warmer conditions promoting more growth or by an increased greening caused by more CO2 or increased greening caused by CO2 and temperature?

It would appear it is not simply CO2 – As can be seen the annual difference has dropped since 2004. CO2 is in a continuous rising cycle. Temperature has stalled and dropped since 2003.

It would therefore appear to be mainly temperature.
There is an annual dip in CO2 caused by something water temp/flora/algae/etc.
http://img175.imageshack.us/img175/9698/manyco219992001.jpg see bove
If absorbed by flora/algae (living stuff) then presumably the rise from the dip would be less than the fall into the dip - some CO2 would be retained by the growth. This is not apparent.
If it is sea water then its the wrong way up - summer would be higher CO2 (warm water). Also sea water is not saturated by CO2 so would it breathe with temperature?

Since 1974 the depth of the annual dip in CO2 (Start April end August) has increase from 14.5 to 20ppm approx:


If warming is happening then sea water and air temp will be warmed to the same value where absorption occurs earlier each year:
days from Jan 1st = -1.945E-04x + 2.377E+02
plot here:


Note that in Barrow there is little/no change in the date of minimum (.0002 days/year) but temperature has significantly increased.