From:   francesco
Subject: [SP] Joint Communiqué from Scientists On the UN Resolution Concerning Depleted Uranium Weapons
Date: November 28, 2007 11:59:04 PM GMT+01:00
To:   scienzaepace @ liste.comodino.org


carissim*
vi invio questo testo, che sta circolando per adesioni all'interno della comunita' scientifica, con il quale si vuole esprimere la posizione di esperti e scienziati di diverse discipline sull'uso di armi all'uranio impoverito, in visto dell'imminente votazione dell'assemblea generale delle Nazioni Unite, prevista per i primi di dicembre.
La risoluzione e' stata un po' "azzoppata" e ridotta di forza nella votazione del Primo Comitato, ma rappresenta comunque un passo significativo nel lungo e complicato percorso per mettere al bando questo tipo di armi.
Qualora vogliate aderire, vi prego di segnalarlo a

Katsumi Furitsu
f-katsumi @ titan.ocn.ne.jp

grazie
francesco

---

Joint Communiqué from Scientists
On the UN Resolution Concerning Depleted Uranium Weapons

On November the 1st, the resolution entitled 'Effects of the use of armaments 
and ammunitions containing depleted uranium' was passed at the UN First 
Committee by an overwhelming majority. The resolution was drafted by the 
Movement of Non-Aligned States and submitted by Indonesia. We, the scientists 
who have been concerned about the harmful effects of depleted uranium (DU) 
weapons, welcome this resolution. 

The resolution was adopted, because the majority of the UN member states 
took 'into consideration the potential harmful effects of the use of 
armaments and ammunitions containing depleted uranium on human health and the 
environment' (Preparatory Paragraph: PP 4); 'convinced that as humankind is 
more aware of the need to take immediate measures to protect the environment, 
any event that could jeopardize such efforts requires urgent attention to 
implement the required measures' (PP 3). It was also 'guided by the purposes 
and principles enshrined in the Charter of the UN and the rules of 
Humanitarian International Law' (PP 1) and showed the determination 'to carry 
forward negotiations on arms regulation and disarmament' (PP 2) on the issue 
of DU weapons.

We are convinced that, and expect that, this resolution will be the first step 
to place the issue of DU weapons on the disarmament agenda, following the 
issues of Landmines and Cluster Munitions, and the beginning of a serious 
discussion about the deleterious nature of DU weapons and a possible ban, 
among the member nations of the UN.

We really respect and appreciate the effort of the leading countries on behalf 
of this resolution. We also appreciate the support from all the countries 
that voted for the resolution. We request and believe that these supportive 
countries will vote for the resolution again at the Plenary Session in 
December.

We strongly request the countries that abstained from the voting, to seriously 
reconsider the international meaning of the resolution stated in the PPs and 
to vote in support of it at the Plenary Session, based on the independent 
political will of each country.

There is mounting scientific research, including the studies reported in the 
most recently peer-reviewed papers, which clearly indicate 'the potential 
harmful effects of the use of armaments and ammunitions containing depleted 
uranium on human health and the environment'. We think that the previous 
reports from governmental bodies and international organizations have not yet 
fully reflected and referenced these scientific studies. They mainly focus on 
the radiological toxicity to the lung and the chemical toxicity to the 
kidneys. It is not right to vote against the resolution based on those 
previous reports, without considering these omissions.

The countries, which voted against the resolution, should seriously consider 
such circumstances, take account of the multilateralism and dialogue with 
many other countries which are concerned about the effect of these weapons 
and at least come to the table for discussion on the issue. Therefore, we 
strongly request these countries to change their previous stance and vote for 
supporting the resolution at the coming Plenary Session.

We, the scientists who have been working as specialists in different 
scientific fields including medicine, chemistry, biology, physics, 
environmental science and epidemiology, have been deeply concerned about the 
potentially harmful effects on the environment and human health, which might 
be caused by the radioactive and chemical toxicity of DU following the use of 
DU weapons. 

DU is 'nuclear waste' produced from the enrichment process and is mostly made 
up of the alpha emitting isotope Uranium 238 and is depleted in the 
fissionable isotope Uranium 235, compared to concentrated natural uranium 
(NU). DU is somewhat less radioactive than NU, yet has about 60% of the 
radioactivity of concentrated NU (NU in nature is a thousand times less 
concentrated).  DU is mostly an alpha emitter, a very damaging type of 
radioactivity inside the body. DU and NU are identical in terms of the 
chemical toxicity, which is also a source of potential damage to the body. 
With regard to DU's radioactivity, it is well known that concentrated DU is 
one of the radioactive materials, which is strictly controlled by laws in 
most of the countries of the world.

Uranium's high density gives DU shells increased range and penetrative power. 
This density, combined with uranium's pyrophoric nature, results in a 
high-energy kinetic weapon that can punch and burn through armour plating. 
Striking a hard target, DU munitions create extremely 
high temperatures of more than 3000oC. The uranium immediately burns and 
vaporizes into an aerosol, which is easily diffused in the environment, while 
the shell is penetrating the target. The uranium particles formed by this 
heat are unlike forms of naturally formed uranium in terms of their size (10 
to 100 times smaller).  These extremely small particle sizes are known to be 
much more toxic and more rapidly absorbed from the lungs than larger 
(micron-sized) particles. 

Aerosolized DU dust can easily spread over the battlefield, and can be 
re-suspended by winds especially where the climate is dry, spreading over 
civilian areas, sometimes even crossing international borders. Therefore, not 
only military personnel but also civilians, including children who are very 
sensitive to such a toxic substance, might inhale the fine DU particles and 
internalize them in their bodies. It was also recognized that DU weapons were 
actually used even in highly populated residential areas. The contamination 
continues even after the cessation of hostilities. DU particles will remain 
in the environment and will retain their radiation for decades and centuries 
if not longer. Taking these aspects of DU weapons into account, we consider 
that DU weapons are illegal under binding international humanitarian, human 
rights and environmental law and is one of the inhumane weapons 
of 'indiscriminate destruction'.

Uranium is a radioactive element naturally distributed in the environment. 
However, we repeat that the very fine particles of DU created at the 
extremely high temperatures that result from the impact of a DU shell on a 
tank are micron- and nano-sized and can travel in the body once inhaled. They 
have no analogue in history. In addition, the high temperatures at impact 
sublimate the metals in the tank around the penetrating holes and in the 
shell casing, adding tiny particles of these metals and their oxides to the 
aerosol which can be internalized if inhaled, like the uranium, and which are 
toxic to the body. We have been facing an entirely new type of contamination 
to humans and the environment through these weapons. 

It is true that we do not as yet understand the full impact of fine particles 
of DU oxide on the human body. However, there is considerable amount of basic 
scientific evidence from both animal and cellular studies (including studies 
of human lung cells) that suggest deleterious effects on human health from 
inhaled DU particles through both radiological action and chemical toxicity. 
These data clearly indicate that the internalized uranium (both soluble 
component and insoluble particles) has genotoxic effect (carcinogenic, 
mutagenic), for it affects directly and/or indirectly the DNA, which codes 
the genetic information of the cell. It has also been pointed out that the 
internalized uranium might affect the intracellular organelles and/or enzyme 
proteins and damage some of the repairing mechanisms of the cells. These 
harmful effects are possibly produced in the various tissues and organs of a 
body, including damaging effects on the immune and nervous systems. If 
genotoxic effects are produced in the germ line cells, it might lead to 
trans-generational effects. A teratogenic effect to the fetus was detected in 
the animal studies exposed to DU during the gestation period and a number of 
Gulf War veterans were found to have DU in their semen. We should also 
consider a possible synergistic effect of radio-toxicity and 
chemical-toxicity.

We think it critical to immediately launch a full-dress, long-lasting and 
independent environmental monitoring as well as health and medical research 
on possibly exposed populations, both military and civilian, in the areas 
where the DU weapons have been used. We should also pay serious attention to 
the contamination and possible harmful health effects through the 
manufacturing of DU weapons, for a recent study clearly indicates that the 
workers of the DU weapons producing factory as well as residents living 
nearby were contaminated by DU. However, we should also note that it may take 
many years, even decades, before we get statistically significant results on 
affected populations from epidemiological studies. 

In the Rio Declaration on Environment and Development, which was adapted at 
the 1992 UN Conference on Environment and Development (Earth Summit) in Rio 
de Janeiro, they stated: 'In order to protect the environment, the 
precautionary approach shall be widely applied by States according to their 
capabilities. Where there are threats of serious or irreversible damage, lack 
of full scientific certainty shall not be used as a reason for postponing 
cost-effective measures to prevent environmental degradation; Principle 15.' 
This 'precautionary principle' has been confirmed repeatedly in the UN. It is 
also recognized widely in the international community as one of the most 
important principles concerning the international as well as the domestic 
policies for environmental and public health protection. It is also a 
valuable and logical principle for us, scientists, when we take 
responsibility for our society. The issue of DU weapons should be also 
discussed seriously based on the 'precautionary principle' among the UN 
member countries.

Considering the basic scientific evidence we already have, it is not right to 
continue using DU weapons making the excuse that 'no definitive conclusions 
had been reached' in the present limited risk assessments of the health and 
environmental impact of DU. We request all the UN member countries to discuss 
seriously what concrete measures are needed, including the immediate 
clearance of contaminated remnants, to protect the environment and the public 
health of contaminated populations following the use of DU weapons. We 
request the member nations of the UN to refrain from using DU weapons, unless 
they are proved to be completely safe. The burden of proof is on the users. 
Furthermore, we hope very much that the international community will go 
forward to ban DU weapons, one of the inhumane weapons of 'indiscriminate 
destruction'.


References:

Keith Baverstock,"Presentation to the Defence Committee of the Belgian House 
of Representatives, 20 November 2006", 

Rosalie Bertell, "Depleted Uranium: All the Questions about DU and Gulf War 
Syndrome are not yet Answered", International Journal of Health Services 36
(3), 503-520, 2006.

Wayne Briner and Jennifer Murray, "Effects of short-term and long-term 
depleted uranium exposure on open-field behavior and brain lipid oxidation in 
rats", Neurotoxicology and Teratology 27, 135-144, 2005.

Virginia Coryell and Diane Stearns, "Molecular analysis of s hprt mutations 
generated in Chinese hamster ovary EM9 cells by uranyl acetate, by hydrogen 
peroxide, and spontaneously", Molecular Carcinogenesis 45(1), 60-72, 2006.

Wendy J. Hartsock et al, "Uranyl Acetate as a Direct Inhibitor of DNA-Binding 
Proteins", Chem. Res. Toxicol. 20, 784-789, 2007.

Arjun Makhijani et al., "Science for the Vulnerable: Setting Radiation and 
Multiple Exposure Environmental Health Standards to Protect Those Most at 
Risk", Institute for Energy and Environmental Research (IEER), October 19, 

Melissa A. McDiarmid et al, "Health Effects of Depleted Uranium on Exposed 
Gulf War Veterans", Environmental Research Section A 82, 168-180, 2002 (p. 
172 on DU in semen of Gulf War veterans).

J.L. Domingo, Reproductive and developmental toxicity of natural and depleted 
uranium: a review, Reproductive Toxicology 15, pp. 603-609, 2001.

Alexandra C. Miller (editor), Depleted Uranium: Properties, Uses, and Health 
Consequences, Boca Raton: CRC Press, Taylor and Francis Group, 2007. See 
Chapter 1 by David McClain and A.C. Miller and Chapter 4 by Wayne Briner 
(Neurotoxicology of depleted uranium in Adult and Developing Rodents), as 
well as other chapters.

A.C. Miller et al., "Observation of Radiation-Specific Damage in Human Cells 
Exposed to Depleted Uranium: Dicentric Frequency and Neoplastic 
Transformation as Endpoints", Radiation Protection Dosimetry 99, 275-278, 
2002.

Marjorie Monleau et al. "Genotoxic and Inflammatory Effects of Depleted 
Uranium Particles Inhaled by Rats", Toxicological Sciences 89(1), 287-295, 
2006.

Randall R. Parrish et al., "Depleted uranium contamination by inhalation 
exposure and its detection after approximately 20 years: implications for 
human health assessment", Science of the Total Environment, 2007 October 30 
[E-pub ahead off print]

Adaikkappan Periyakarupan et al, "Uranium induces oxidative stress in lung 
epithelial cells", Arch. Toxicol. 8(16) 2007.

Diane M. Stearns et al., "Uranyl acetate induces hprt mutations and 
uranium-DNA adducts in Chinese hamster ovary EM9 cells", Mutagenesis 20(6), 
417-423, 2005.

Bin Wan et al. "In Vitro Immune Toxicity of Depleted Uranium: Effects on 
Murine Macrophages, CD+T Cells, and Gene Expression Profiles", Environmental 
Health Perspectives 114(1), 85-91, 2006.

Sandra S. Wise et al, "Particulate Depleted Uranium Is Cytotoxic and 
Clastogenic to Human Lung Cells", Chem. Res. Toxicol. 20(5), 815-820, 2007.

Chazel, V. et al, Characterisation anddissolution of depleted uranium aerosols 
produced during impacts of kinetic energy penetrators against a tank. Radiat. 
Prot. Dosim. 105, 163-166, 2003.

Cooper, J.R. et al. "The behaviour of uranium-233 oxide and uranyl-233 nitrate 
in rats." Intl. J. Radiat. Biol. 41(4), 421-433, 1982.

Wilson, H.B. et al. "Relation of particle size of uranium dioxide dust to 
toxicity following ingalation by animals: II." Archives of Industrial Hygiene 
and Occupational Medicine 6(2), 93-104, 1952.

Wilson, H.B. et al. "Relation of particle size of U3O8 dust to toxicity 
following inhalation in animals." Arch. of Indust. Health 11, 11-16, 1955.

Stradling, G.N. et al. "The metabolism of ceramic and nonceramic forms of 
uranium dioxide after deposition in the rat lung." Human Toxicol. 7, 133-139, 
1988.


(Originally drafted by Katsumi Furitsu M.D. Ph.D. and Gretel Munroe. Nov. 20. 2007)

To endorse this scientists' petition: 
Katsumi Furitsu
f-katsumi @ titan.ocn.ne.jp