German Army 150mm heavy field howitzer 18 L/29.5 battery. [Panzer DB/Pinterest]
[This series of posts is adapted from the article “Artillery Effectiveness vs. Armor,” by Richard C. Anderson, Jr., originally published in the June 1997 edition of the International TNDM Newsletter.]
Curiously, at Kursk, in the case where the highest percent loss was recorded, the German forces opposing the Soviet 1st Tank Army—mainly the XLVIII Panzer Corps of the Fourth Panzer Army—were supported by proportionately fewer artillery pieces (approximately 56 guns and rocket launchers per division) than the US 1st Infantry Division at Dom Bütgenbach (the equivalent of approximately 106 guns per division)[4]. Nor does it appear that the German rate of fire at Kursk was significantly higher than that of the American artillery at Dom Bütgenbach. On 20 July at Kursk, the 150mm howitzers of the 11th Panzer Division achieved a peak rate of fire of 87.21 rounds per gum. On 21 December at Dom Bütgenbach, the 155mm howitzers of the 955th Field Artillery Battalion achieved a peak rate of fire of 171.17 rounds per gun.[5]
NOTES
[4] The US artillery at Dom Bütgenbach peaked on 21 December 1944 when a total of 210 divisional and corps pieces fired over 10,000 rounds in support of the 1st Division’s 26th Infantry.
[5] Data collected on German rates of fire are fragmentary, but appear to be similar to that of the American Army in World War ll. An article on artillery rates of fire that explores the data in more detail will be forthcoming in a future issue of this newsletter. [NOTE: This article was not completed or published.]
Notes to Table I.
[8] The data were found in reports of the 1st Tank Army (Fond 299, Opis‘ 3070, Delo 226). Obvious math errors in the original document have been corrected (the total lost column did not always agree with the totals by cause). The total participated column evidently reflected the starting strength of the unit, plus replacement vehicles. “Burned'” in Soviet wartime documents usually indicated a total loss, however it appears that in this case “burned” denoted vehicles totally lost due to direct fire antitank weapons. “Breakdown” apparently included both mechanical breakdown and repairable combat damage.
[9] Note that the brigade report (Fond 3304, Opis‘ 1, Delo 24) contradicts the army report. The brigade reported that a total of 28 T-34s were lost (9 to aircraft and 19 to “artillery”) and one T-60 was destroyed by a mine. However, this report was made on 11 July, during the battle, and may not have been as precise as the later report recorded by 1st Tank Army. Furthermore, it is not as clear in the brigade report that “artillery” referred only to indirect fire HE and not simply lo both direct and indirect fire guns.
[This series of posts is adapted from the article “Artillery Effectiveness vs. Armor,” by Richard C. Anderson, Jr., originally published in the June 1997 edition of the International TNDM Newsletter.]
The effectiveness of artillery against exposed personnel and other “soft” targets has long been accepted. Fragments and blast are deadly to those unfortunate enough to not be under cover. What has also long been accepted is the relative—if not total—immunity of armored vehicles when exposed to shell fire. In a recent memorandum, the United States Army Armor School disputed the results of tests of artillery versus tanks by stating, “…the Armor School nonconcurred with the Artillery School regarding the suppressive effects of artillery…the M-1 main battle tank cannot be destroyed by artillery…”
This statement may in fact be true,[1] if the advancement of armored vehicle design has greatly exceeded the advancement of artillery weapon design in the last fifty years. [Original emphasis] However, if the statement is not true, then recent research by TDI[2] into the effectiveness of artillery shell fire versus tanks in World War II may be illuminating.
The TDI search found that an average of 12.8 percent of tank and other armored vehicle losses[3] were due to artillery fire in seven eases in World War II where the cause of loss could be reliably identified. The highest percent loss due to artillery was found to be 14.8 percent in the case of the Soviet 1st Tank Army at Kursk (Table II). The lowest percent loss due to artillery was found to be 5.9 percent in the case of Dom Bütgenbach (Table VIII).
The seven cases are split almost evenly between those that show armor losses to a defender and those that show losses to an attacker. The first four cases (Kursk, Normandy l. Normandy ll, and the “Pocket“) are engagements in which the side for which armor losses were recorded was on the defensive. The last three cases (Ardennes, Krinkelt. and Dom Bütgenbach) are engagements in which the side for which armor losses were recorded was on the offensive.
Four of the seven eases (Normandy I, Normandy ll, the “Pocket,” and Ardennes) represent data collected by operations research personnel utilizing rigid criteria for the identification of the cause of loss. Specific causes of loss were only given when the primary destructive agent could be clearly identified. The other three cases (Kursk, Krinkelt, and Dom Bütgenbach) are based upon combat reports that—of necessity—represent less precise data collection efforts.
However, the similarity in results remains striking. The largest identifiable cause of tank loss found in the data was, predictably, high-velocity armor piercing (AP) antitank rounds. AP rounds were found to be the cause of 68.7 percent of all losses. Artillery was second, responsible for 12.8 percent of all losses. Air attack as a cause was third, accounting for 7.4 percent of the total lost. Unknown causes, which included losses due to hits from multiple weapon types as well as unidentified weapons, inflicted 6.3% of the losses and ranked fourth. Other causes, which included infantry antitank weapons and mines, were responsible for 4.8% of the losses and ranked fifth.
NOTES
[1] The statement may be true, although it has an “unsinkable Titanic,” ring to it. It is much more likely that this statement is a hypothesis, rather than a truism.
[2] As pan of this article a survey of the Research Analysis Corporation’s publications list was made in an attempt to locate data from previous operations research on the subject. A single reference to the study of tank losses was found. Group 1 Alvin D. Coox and L. Van Loan Naisawald, Survey of Allied Tank Casualties in World War II, CONFIDENTIAL ORO Report T-117, 1 March 1951.
[3] The percentage loss by cause excludes vehicles lost due to mechanical breakdown or abandonment. lf these were included, they would account for 29.2 percent of the total lost. However, 271 of the 404 (67.1%) abandoned were lost in just two of the cases. These two cases (Normandy ll and the Falaise Pocket) cover the period in the Normandy Campaign when the Allies broke through the German defenses and began the pursuit across France.
I have taken a look in previous posts at how the historical relationship identified by Trevor Dupuy between weapon lethality, battlefield dispersion, and casualty rates argues against this assumption with regard to personnel attrition and tank loss rates. What about artillery loss rates? Will long-range precision fires make ground-based long-range precision fire platforms themselves more vulnerable? Historical research suggests that trend was already underway before the advent of the new technology.
In 1976, Trevor Dupuy and the Historical Evaluation and Research Organization (HERO; one of TDI’s corporate ancestors) conducted a study sponsored by Sandia National Laboratory titled “Artillery Survivability in Modern War.” (PDF) The study focused on looking at historical artillery loss rates and the causes of those losses. It drew upon quantitative data from the 1973 Arab-Israel War, the Korean War, and the Eastern Front during World War II.
Conclusions
1. In the early wars of the 20th Century, towed artillery pieces were relatively invulnerable, and they were rarely severely damaged or destroyed except by very infrequent direct hits.
2. This relative invulnerability of towed artillery resulted in general lack of attention to the problems of artillery survivability through World War II.
3. The lack of effective hostile counter-artillery resources in the Korean and Vietnam wars contributed to continued lack of attention to the problem of artillery survivability, although increasingly armies (particularly the US Army) were relying on self-propelled artillery pieces.
4. Estimated Israeli loss statistics of the October 1973 War suggest that because of size and characteristics, self-propelled artillery is more vulnerable to modern counter-artillery means than was towed artillery in that and previous wars; this greater historical physical vulnerability of self-propelled weapons is consistent with recent empirical testing by the US Army.
5. The increasing physical vulnerability of modern self-propelled artillery weapons is compounded by other modern combat developments, including:
a. Improved artillery counter-battery techniques and resources; b. Improved accuracy of air-delivered munitions; c..increased lethality of modern artillery ammunition; and d. Increased range of artillery and surface-to-surface missiles suitable for use against artillery.
6. Despite this greater vulnerability of self-propelled weapons, Israeli experience in the October war demonstrated that self-propelled artillery not only provides significant protection to cannoneers but also that its inherent mobility permits continued effective operation under circumstances in which towed artillery crews would be forced to seek cover, and thus be unable to fire their weapons. ‘
7. Paucity of available processed, compiled data on artillery survivability and vulnerability limits analysis and the formulation of reliable artillery loss experience tables or formulae.
8. Tentative analysis of the limited data available for this study indicates the following:
a. In “normal” deployment, percent weapon losses by standard weight classification are in the following proportions:
b. Towed artillery losses to hostile artillery (counterbattery) appear in general to very directly with battle intensity (as measured by percent personnel casualties per day), at a rate somewhat less than half of the percent personnel losses for units of army strength or greater; this is a straight-line relationship, or close to it; the stronger or more effective the hostile artillery is, the steeper the slope of the curve;
c. Towed artillery losses to all hostile anti-artillery means appears in general to vary directly with battle intensity at a rate about two-thirds of the-percent personnel losses for units of army strength or greater; the curve rises slightly more rapidly in high intensity combat than in normal or low-intensity combat; the stronger or more effective the hostile anti-artillery means (primarily air and counter-battery), the steeper the slope of the curve;
d. Self-propelled artillery losses appear to be generally consistent with towed losses, but at rates at least twice as great in comparison to battle intensity.
9. There are available in existing records of US and German forces in World war II, and US forces in the Korean and Vietnam Wars, unit records and reports that will permit the formulation of reliable artillery loss experience tables and formulae for those conflicts; these, with currently available and probably improved, data from the Arab-Israeli wars, will permit the formulation of reliable artillery loss experience tables and formulae for simulations of modern combat under current and foreseeable future conditions.
The study caveated these conclusions with the following observations:
Most of the artillery weapons in World War II were towed weapons. By the time the United States had committed small but significant numbers of self-propelled artillery pieces in Europe, German air and artillery counter-battery retaliatory capabilities had been significantly reduced. In the Korean and Vietnam wars, although most American artillery was self-propelled, the enemy had little counter-artillery capability either in the air or in artillery weapons and counter-battery techniques.
It is evident from vulnerability testing of current Army self-propelled weapons, that these weapons–while offering much more protection to cannoneers and providing tremendous advantages in mobility–are much more vulnerable to hostile action than are towed weapons, and that they are much more subject to mechanical breakdowns involving either the weapons mountings or the propulsion elements. Thus there cannot be a direct relationship between aggregated World War II data, or even aggregated Korean war or October War data, and current or future artillery configurations. On the other hand, the body of data from the October war where artillery was self-propelled is too small and too specialized by environmental and operational circumstances to serve alone as a paradigm of artillery vulnerability.
Despite the intriguing implications of this research, HERO’s proposal for follow on work was not funded. HERO only used easily accessible primary and secondary source data for the study. It noted much more primary source data was likely available but that it would require a significant research effort to compile it. (Research is always the expensive tent-pole in quantitative historical analysis. This seems to be why so little of it ever gets funded.) At the time of the study in 1976, no U.S. Army organization could identify any existing quantitative historical data or analysis on artillery losses, classified or otherwise. A cursory search on the Internet reveals no other such research as well. Like personnel attrition and tank loss rates, it would seem that artillery loss rates would be another worthwhile subject for quantitative analysis as part of the ongoing effort to develop the MDB concept.
Last Friday, Rod Nordland published an article in the New York Times alleging that Afghan security forces (Afghan National Army (ANA) and police) had suffered an average of 57 killed in action (KIA) per day during the previous week, up from 22 killed per day in 2016. If true, such reports would indicate a dramatic increase in loss rates over the previous years.
These reported figures should be regarded critically, however. It is not clear how Nordland arrived at the total of 22 KIA per day for 2016. His article cited another article by Thomas Gibbons-Neff, published in the Times on 30 October 2017. This reported Afghan security forces casualties for 2016 at 6,700 KIA and 12,000 wounded in action (WIA), which works out to an average of 18.36 KIA per day (6,700/365), not 22. The total number of KIA + WIA works out to an average of 51.23 per day (18,700/365).
The lede of Gibbons-Neff’s 2017 article was that the U.S. and Afghan governments had stopped providing official strength and loss figures for the Afghan security forces. Citing the last report of the U.S. Special Inspector General for Afghanistan Reconstruction (SIGAR), Gibbons-Neff reported Afghan security forces losses from 1 January-8 May 2017 (126 days) as 2,531 KIA and 4,238 WIA. This works out to an average of 20.08 KIA (2,531/126) and 53.72 KIA + WIA (6,679/126) per day.
Nordland arrived at the figure of 57 KIA per day based on a report of 400 Afghan security forces killed in the week leading up the publication of his article on 21 September 2018. He calculated it by averaging the total over the previous seven days (400/7). Casualty rates in combat have been highly variable, historically. Brief spikes in rates are common. In the same paragraph reporting the 400 KIA total, Nordland quoted senior Afghan government officials stating that the daily average for recent months had been 30 to 40 KIA per day.
It is possible to use the figures cited by Nordland and Gibbons-Neff to make ballpark estimates for Afghan security forces casualties in 2017 and 2018. Even if the weekly loss of 400 KIA for 14-20 September 2018 represents an abnormally high total, it is reasonable to conclude that the Afghan security forces are very likely incurring sharply higher combat losses in 2018 than the previous two years. These figures do not include counts of missing or captured and thus underestimate the actual numbers of battle casualties being suffered by the Afghan forces. It is also possible that the estimates of 30-40 KIA per day apply only to the peak spring-to-autumn fighting season, which would somewhat reduce the overall 2018 KIA and WIA totals.
As Nordland reported, these losses are resulting in an increasing strain on the Afghan forces. His article stated that the strength of the ANA and police in April 2018 was 314,000, 38,000 below the authorized total of 352,000, and that the actual total was likely even lower due to fraudulent reporting and unreported desertions. The ANA suffered a monthly attrition rate of 2.9 percent in early 2017 from combat casualties, desertion, and failed reenlistments, requiring one-third of the overall force to be replaced by new recruits annually. That attrition rate is undoubtedly far higher now and almost certainly not sustainable for long.
In comparison, the Afghan government reported in August that its security forces had killed 42 Taliban fighters per day, or 1,300 per month. For the year ending in March 2018, it claimed to have killed 13,600 insurgent fighters. There has been no independent confirmation of these claims and they should be treated skeptically.
Numbers matter in war and warfare. Armies cannot function effectively without reliable counts of manpower, weapons, supplies, and losses. Wars, campaigns, and battles are waged or avoided based on assessments of relative numerical strength. Possessing superior numbers, either overall or at the decisive point, is a commonly held axiom (if not a guarantor) for success in warfare.
These numbers of war likewise inform the judgements of historians. They play a large role in shaping historical understanding of who won or lost, and why. Armies and leaders possessing a numerical advantage are expected to succeed, and thus come under exacting scrutiny when they do not. Commanders and combatants who win in spite of inferiorities in numbers are lauded as geniuses or elite fighters.
Given the importance of numbers in war and history, however, it is surprising to see how often historians treat quantitative data carelessly. All too often, for example, historical estimates of troop strength are presented uncritically and often rounded off, apparently for simplicity’s sake. Otherwise careful scholars are not immune from the casual or sloppy use of numbers.
However, just as careless treatment of qualitative historical evidence results in bad history, the same goes for mishandling quantitative data. To be sure, like any historical evidence, quantitative data can be imprecise or simply inaccurate. Thus, as with any historical evidence, it is incumbent upon historians to analyze the numbers they use with methodological rigor.
OK, with that bit of throat-clearing out of the way, let me now proceed to jump into one of the greatest quantitative morasses in military historiography: strengths and losses in the American Civil War. Participants, pundits, and scholars have been arguing endlessly over numbers since before the war ended. And since nothing seems to get folks riled up more than debating Civil War numbers than arguing about the merits (or lack thereof) of Union General George B. McClellan, I am eventually going to add him to the mix as well.
The reason I am grabbing these dual lightning rods is to illustrate the challenges of quantitative data and historical analysis by looking at one of Trevor Dupuy’s favorite historical case studies, the Battle of Antietam (or Sharpsburg, for the unreconstructed rebels lurking out there). Dupuy cited his analysis of the battle in several of his books, mainly as a way of walking readers through his Quantified Judgement Method of Analysis (QJMA), and to demonstrate his concept of combat multipliers.
I have questions about his Antietam analysis that I will address later. To begin, however, I want to look at the force strength numbers he used. On p. 156 of Numbers, Predictions and War, he provided the following figures for the opposing armies at Antietam:The sources he cited for these figures were R. Ernest Dupuy and Trevor N. Dupuy, The Compact History of the Civil War(New York: Hawthorn, 1960) and Thomas L. Livermore, Numbers and Losses of the Civil War(reprint, Bloomington: University of Indiana, 1957).
It is with Livermore that I will begin tracing the historical and historiographical mystery of how many Confederates fought at the Battle of Antietam.
This series of posts was based on the article “Iranian Casualties in the Iran-Iraq War: A Reappraisal,” by H. W. Beuttel, originally published in the December 1997 edition of the International TNDM Newsletter. Mr Beuttel was a former U.S. Army intelligence officer employed as a military analyst by Boeing Research & Development at the time of original publication. He also authored several updates to this original article, to be posted at a later date, which refined and updated his analysis.
[This post is based on “Iranian Casualties in the Iran-Iraq War: A Reappraisal,” by H. W. Beuttel, originally published in the December 1997 edition of the International TNDM Newsletter.]
If we estimate that at least 5,000,000 troops (about 12% of Iran’s then population) served in the war zone, then the military casualty distribution is not less than the following (Bold indicates the author’s choice from ranges):
Killed in Action/Died of Wounds: 188,000 (156,000-196,000) (17%)
Wounded in Action: 945,000 (754,000-1,110,000) (83%)
Severely Wounded/Disabled: 200,000 (18%) (Note: carve out of total wounded)
Missing in Action: 73,000 (6%) (Note: Carve out of total KIA plus several thousand possible defectors/collaborators)
PoW: 39,000-44,000
Total Military Battle Casualties (KIA + WIA): 1,133,000-1,302,000 (28% theater rate)
Possible Non-Battle Military Deaths: 74,000
Non-Battle Military Injuries: No idea.
With Civilian KIA (11,000) and WIA (34,000) and “chemical” (45,000) Total Hostile Action Casualties: 1,223,000
Possible Military Non-Battle Deaths (74,000):1,297,000
Total Deaths Due to the Imposed War: 273,000 (104% of Pentagon estimate of 262,000)
Of 5,000,000 estimated Iranian combatants (1 million regular army, 2 million Pasdaran, 2 million Baseej)
~ 4% were Killed in Action/Missing in Action
~ 4% were Disabled
~ 13% were Wounded
~ 1% were Non-Battle Deaths
~ 1% were PoWs
Total military losses all known causes ~ 27%
The military battle casualty total percentile (27%) is intermediate between that of World War I (50% ~ British Army) and World War II (13% ~ U.S. Army/U.S. Marine Corps, 22% British Army).[118]
The author acknowledges the highly speculative nature of much of the data and argument presented above. It is offered as a preliminary starting point to further study. As such, the author would appreciate hearing from anyone with additional data on this subject. In particular he would invite the Government of the Islamic Republic of Iran to provide any information that would corroborate, correct or expand on the information presented in this article.
[This post is based on “Iranian Casualties in the Iran-Iraq War: A Reappraisal,” by H. W. Beuttel, originally published in the December 1997 edition of the International TNDM Newsletter.]
The Iran-Iraq War produced remarkably few civilian casualties compared to World War I or World War II rates. UNICEF data suggests that prior to World War I, civilians accounted for only 5% of all deaths in a given war. This rose to 15% in World War I and an astounding 65% in World War II.[113] Iran claims 11,000 civilian deaths as a result of the war primarily through Iraqi air and missile strikes. The author‘s own study of Iranian civilian deaths places it at about 8,800 known deaths, indicating this number is probably very close to the true figure. If so, civilian deaths accounted for just 5% of total war dead, a turn-of-the-century standard. The number of wounded has not been released, but this author’s figures can account for over 34,000 civilian wounded by air and missile strikes. Further, Iran claims 45,000 civilian “chemical” casualties. If all claims are true then approximately 90,000 civilians became casualties of the war.
This yields a military to civilian casualty ratio of 11:1. This is far better than the ratio claimed in recent wars of 1:9. This suggests that despite the hysteria surrounding “War of the Cities,” the Iranian civilian population was not severely at risk during the war. Compare this to World War II England where the one-year German V-1/V-2 campaign killed 8,588 and wounded 46,838.[114] Then contrast it to total English civilian casualties during World War II at 60,000 dead and 86,800 wounded due to the blitz and buzz bombs. U.K. military killed, wounded and missing (excluding PoW) were 582,900 in World War II giving a military-to-civilian casualty ratio of 4:1.[115] Of course the World War II German bombing and missile campaigns against England were far more severe than that experienced by Iran at the hands of Iraq.
Civilian chemical casualties match military in magnitude. At first this might seem strange. I have found no World War I data on military-to-civilian casualty ratios as regards chemical agents, so there is no point of comparison or contrast here. The high number of civilian chemical casualties seems to be a function of several factors. First some 2,000 Iranian towns and villages lay in areas where Iraqi forces employed chemical weapons.[116] Secondly, Iraqi chemical strikes were often delivered deep into Iranian rear areas to attack reinforcements and support troops. Casualties were often high as the rear echelon troops were less well equipped and prepared to cope with chemical attacks.[117] In these rear area attacks the civilian population density must have been much higher than on the front line. Further, civilians probably had no means of chemical defense. Witness the chemical attack on Halabja in March 1988 with mustard, nerve and cyanogen chloride which killed some 4,000-5,000 civilians and maimed 7,000 others, This may explain the 1:1 relationship between overall Iranian military and civilian chemical casualties.
Mr. Beuttel, a former U.S. Army intelligence officer, was employed as a military analyst by Boeing Research & Development at the time of original publication. The views and opinions expressed in this article do not necessarily reflect those of The Boeing Company.
NOTES
[113] Abstracts Obtained from Iran on Medical Research Conducted After the 1980-1988 Iran-Iraq War,” www.chronicillnet.org/PGWS/tuite/IRMED/IRANTOC.html
[This post is based on “Iranian Casualties in the Iran-Iraq War: A Reappraisal,” by H. W. Beuttel, originally published in the December 1997 edition of the International TNDM Newsletter.]
The War of Sacred Defense was the only conflict of the 20th Century other than World War I fought under conditions of general chemical release. The Iranian ground forces were generally ill-prepared for chemical defense, during the course of the war much NBC defense gear was purchased from the U.K., Germany, and Czechoslovakia, but there was never enough and NBC [nuclear, biological, chemical] defense training was insufficient. Many Iranian solders became gas casualties because they did not shave often enough to allow their protective masks to make a tight seal.[88]
Throughout the war Iraq employed chemical weapons against Iranian forces 195 times. After the chemical attack on Halabja in March 1988 killed some 4,000-5,000 civilians and maimed 7,000 others, the IRGC sent a video crew to document the atrocity. The video was used as a training film for Iranian recruits. Instead of instilling hatred for Saddam’s brutality, the film demoralized its viewers and exaggerated the power of Iraqi chemical weapons.[89] Iranian troops later panicked under gas attack conditions at Fao and Majnoon and abandoned their positions. However, this phenomenon was widespread in the First World War.[90] Further, chemical attacks were usually not significantly lethal. This is again in accord with World War I experience. Gas inflicted 70,552 casualties on the American Expeditionary Force in 1917-18. Of these only 1,221 died (2% lethality). The British Army suffered 185,706 gas casualties of which only 5,899 died (3% lethality), Total British battle casualties for World War I were 677,515 KIA and 1,837,613 WIA. Gas accounted for only 7% of all British casualties and only 1% of all KIA. The Russian Anny suffered an amazing 600,000 gas casualties with a lethality rate at times as much as 12%.[91]
The Use Of Gas In The Iran-Iraq War
Iraq may have first used gas in late 1980 near Salamcheh. Iran reported its first chemical casualty in fighting near Hoveyzeh in early 1981. These early attacks seem to have been limited to the riot control agent CS. On 27 October 1982, near Musain, four Iranian soldiers died from toxic chemical exposure, probably mustard gas. In mid-August 1983 Iran suffered 318 casualties from mustard and arsenic agents. On 7, 9, and 13 November 1983, Iraq used mustard in the Panjwin area. Four seriously wounded Iranian soldiers later died in European hospitals.[92] Between May 1981 and March 1984, Iran claimed Iraq had employed chemical weapons on forty-nine different occasions. This had resulted in 1,200 Iranian dead and 5,000 wounded.[93] Mycotoxins may also have been used.[94] On 17 March 1984 Iraqi forces employed gas which caused 400 Iranian casualties, 40 of which were from nerve agents.[95] In the Badr operation (1-18 March 1985) Iraq used chemical weapons five times, but inflicted only 200 Iranian casualties, none apparently fatal.[96] In one unnamed 1985 attack, Iran claimed 11,000 troops were exposed to Iraqi chemical agents.[97] In Wal Fajir-9 (15 February-11 March 1986) Iran claimed 1,800 chemical casualties from a total of about 30,000.[98] Up to 8,500 Iranian soldier were gas casualties by the end of Wal Fajir-8 and Wal Fajir-9 (15 February-19 May 1986) with about 700 killed or seriously wounded.[99] In attacks on 27 and 30 January, 9, 10, 12, and 13 February 1986, 8,500 Iranian gas casualties were reportedly suffered, of which 35 died and 2,500 had to be hospitalized.[100] In Karbala-4 (24-26 December 1986) only five Iranian troops died from toxic gas out of 10,000 battle casualties.[101] By early 1987, chemical weapons had inflicted at least 10,000 Iranian casualties.[102] In all Iran had suffered 25,600 gas casualties by April 1988, of which 260 (sic 2,600?) died. Iraq’s extensive use of chemical agents in the final months before the August 1988 cease-fire may have raised the casualty count to as much as 45,000.[103] In the Iraqi “In God We Trust” offensive of June 1988 against Majnoon, Iran claimed sixty soldiers killed and 4,000 wounded by Iraqi chemical weapons, which included nerve and blood agents.[104] A small U.K. article on mustard gas from the Internet cites 5,000 Iranian troops killed by gas and 40,000-50,000 injured during the war.[105] The overall cumulative wartime pattern of Iranian military chemical casualties is illustrated in the below figure.
The Lethality Of Gas
Speaking in 1996, Abdollah Mazandarani, Secretary General of the Iranian Foundation for Chemical Warfare Victims, claimed 25,000 Iranian soldiers were “martyred” (killed?) by Iraqi use of chemical weapons in operations Wal Fajir-8, Karbala-8, Badr, Fao, and Majnoon. 45,000 civilians were also affected by chemical weapons.[106] Iran claims at least 100,000 wounded by chemical weapons during the imposed war with Iraq. 1,500 of these casualties require constant medical attention to this day. Since 1991, 118 have died as a result of their toxic chemical exposure according to Hamid Sohralr-Pur, head of the Foundation of the Oppressed and Disabled’s Center for Victims of Chemical Warfare.[107] One of these was Reza Alishahi, who died in September 1994 after suffering 70% disability when he was gassed during the Wal Fajir offensives of 1987.[108] Another pathetic story is that of Magid Azam, now a 27-year-old medical student, who was a 16-year-old Baseej fighter gassed with mustard in the Karbala-5 offensive of January 1987 with no apparent permanent effects. In 1995 his health suddenly began to deteriorate so rapidly he required intensive care. His lungs are now so damaged that only a transplant can save his life. He is one of 30,000 Iranian veterans who have received treatment for recurring or delayed reactions to chemical weapons. It is estimated that up to 100,000 Iranian soldiers were exposed to toxic agents during the war.[109]
In the First World War toxic chemical agents accounted for only 4-5% of total casualties. Of 1,296,853 known chemical casualties in that conflict, 90,080 died (7%), 143,613 were badly wounded (11%) and the remaining 1,053,160 (82%) not seriously affected.[110] 25,000 Iranian military dead out of 45,000 chemical casualties gives an incredible chemical lethality rate of 56%, higher than that for land mines. This claim of 25,000 Iranian troops “martyred” is not an exaggeration, but rather a probable misprint.[111] Elimination of an extraneous zero makes the number 2,500, in line with previously released figures. This would give a chemical lethality rate of 6% per chemical casualty, remarkably close to the World War I general rate, although somewhat higher than individual U.S. or British experience. Further, 45,000-55,000 military chemical casualties out of 1,133,000 total combat casualties yields a 4% casualty total for chemical weapons, again in line with overall World War I experience. 2,500 dead from chemical weapons is only 1% of total Iranian KIA. If 5,000 cited above is correct, about 3%. A representative sample of 400 chemical warfare casualties treated at the Labbati-Nejad Medical Center in Tehran in early 1986 yielded 11 deaths (3%) and 64 (16%) very seriously injured.[112]
Mr. Beuttel, a former U.S. Army intelligence officer, was employed as a military analyst by Boeing Research & Development at the time of original publication. The views and opinions expressed in this article do not necessarily reflect those of The Boeing Company.
[90] G. M. Hammerman et al., Impact of the Introduction of Lethal Gas on the Combat Performance of Defending Troops, Fairfax VA: Data Memory Systems Inc., 1985, Contract No. DNA 001-84-C-0241.
[91] Charles E. Heller, Chemical Warfare in World War I: The American Experience 1917-1918, Leavenworth Papers No. 10, Ft Leavenwoth, KS: Combat Studies Institute, 1984, pp. 33, 91-92. This represented some 32% of all hospitalized AEF casualties in World War I. Only about 200 were killed in action outright by gas. U.S. troops were ill prepared, poorly equipped and inadequately trained to fight on the European chemical battlefield. See Denis Winter, Death’s Men: Soldiers of the Great War, London: Penguin Books, 1978, p.125.
[92] Cordesman, The Lessons of Modem War Volume II, pp. 188, n. 23, 513-518.
[93] Edgar O’Ballance, The Gulf War, London: Brassey’s, 1988, p. 149; Peter Dunn, “The Chemical War: Journey to Iran,” NBC Defense and Technology International, April 1986, pp. 28-37.
[95] Dunn, “The Chemical War: Journey to Iran,” pp. 28-37.
[96] O’Ballance, The Gulf War, p. 164.
[97] “Iranians Still Suffering from Saddam‘s Use of Mustard Gas in War,” Buffalo News, 23 November 1997.
[98] O’Ballance, The Gulf War, p. 179.
[99] Cordesman, The Lessons of Modem War Volume II, pp. 224; Peter Dunn, “The Chemical War: Iran Revisited – 1986,” NBC Defense and Technology International, June 1986, pp. 32-37.
[100] “Iran Keeps Chemical ‘Options’ Open; Claims to Have Upper I-land,” NBC Defense and Technology International, April 1986, pp. 12-13.
[101] O’Ballance, The Gulf War, p. 193.
[102] Cordesman, The Lessons of Modem War Volume II, p. 264, n. 39.
[106] “Official Says Germany, U.S. and Britain were Main Suppliers of Chemicals to Iraq,” IRNA, 1 December 1996.
[107] “I18 Iranian Chemically Wounded War Veterans Martyred Since 1991,” IRNA, 17 April 1997.
[108] “Latest Victim of Iraqi Chemical Warfare Against Iran Dies,” IRNA, 27 September 1994.
[109] “Iranians Still Suffering from Saddam’s Use of Mustard Gas in War,” Buffalo News, 23 November 1997.
[110] Ian V. Hogg, Gas, New York: Ballantine Books, 1975, p.136.
[111] This report was taken from the intemet where sometimes an extraneous number appears in figures. Such was the case when another report stated that 9974 Iraqi PoWs had been released in 1996, when the true figure was 974.
[112] Dunn, “The Chemical War: Iran Revisited – 1986,” pp. 32-39.
[This post is based on “Iranian Casualties in the Iran-Iraq War: A Reappraisal,” by H. W. Beuttel, originally published in the December 1997 edition of the International TNDM Newsletter.]
No official Iranian figures of overall wounded have been released to this author’s knowledge. Major General Rezai in the interview cited above mentioned some 200,000 permanently disabled. For reasons given above, this probably represents all components, not just Pasdaran forces. Given the standard 4:1 wounded-to-killed ratio, Iranian wounded must have been about 752,000. This gives a total battle casualty sum of right at 940,000. A problem is we have no data on Died of Wounds (DoW) as a category. Also the war was one of general chemical release which biases figures somewhat as the experience of World War I shows.
If the official Iranian figures are only rigorous KIA (death within one hour and counting 72,754 MIAs as KIAs) then using a “World War I w/gas” planning factor the ratio of wounded-to-killed would be 5.96 indicating about 1,120,480 “wounded.” This is probably high as the blanket Iranian casualty figures for deaths probably include both KIA and DoW.
If we consider the Iranian figures to indicate both KIA and DOW the “World War I w/gas” ratio of surviving wounded to KIA and DOW of 4.1 yields 770,800 “surviving wounded.”
The average of these latter two figures is on the order of 945,440 wounded. This produces a ratio of 5:1. It seems reasonable that this average is closest to the truth.
Another clue to total Iranian wounded comes from the statistics of the Khuzistan Blood Transfusion Center. During the war the center provided 736,284 units of blood and blood products for both combatants and civilian patients in the province. The center itself produced 501,639 of the units.[83] In World War II, 10-12% of wounded were transfused with an average usage of 4.3 units of blood per patient.[84] It is likely the center used the majority of its blood products for combatants. If the 501,639 units it produced itself was so used with the remainder procured for the civilian population, applying World War II standards the total number of wounded transfused would be: 501,639/4.3 = 116,660. This in tum might represent 12% of total wounded. Back calculating gives 116,660/12 * 100 = 972,168. This is very close to the above estimate of 945,000 surviving wounded. It, however, may be high as it would probably include a substantial number who received transfusion, but died of wounds.
One last observation—the Iranians tried to make extensive use of Medevac [medical evacuation] helicopters during the war similar to U.S. Army practice in Viet Nam. In the latter conflict the ratio of KIA and DoW to surviving wounded was 4.16, very close to the “World War I w/gas” planning factor of 4.1.[85] However, the Medevac solution was not completely feasible as it did not suit Iranian climatic and geographic situations. As a result the Iranians built a series of underground clinics immediately behind the front lines which offered the best and most expeditious medical service to their wounded according to Brigadier General Abolqasem Musavi, chancellor of the Iranian Army Medical University. This system allowed speedy evacuation and treatment of wounded even in mass casualty situations.[86]
Given that the Iranian Army suffered on the order of 1,133,000 casualties in the War of Sacred Defense what else does this tell us about the conflict?
First, the average annual “theater” battle casualties would be approximately 28% or 141,000 battle casualties per year (given that the Iranians had about 500,000 troops committed at any one time). This rate is only little over half that of World War I although about 50% higher than that of World War II. As far as U.S. wars are concerned it most resembles that of the U.S. Civil War (24.6%).
The distribution of casualties is also in accordance with modern experience since 1945. The dead (188,000) represent about 17%, severely wounded (200,000) about 18%, and other wounded (745,000) about 65%. This matches closely with T. N. Dupuy’s historically derived distribution of modern war casualties of 20% KIA, 15% severely wounded and 65% other wounded.[87]
Mr Beuttel, a former U.S. Army intelligence officer, was employed as a military analyst by Boeing Research & Development at the time of original publication. The views and opinions expressed in this article do not necessarily reflect those of The Boeing Company.
NOTES
[83] “Kuzistan’s Blood Transfusion Center’s Effectiveness Role in Hygiene and War,” abstract contained in “Abstracts Obtained from Iran on Medical Research Conducted After the 1980-1988 Iran-Iraq War,” www.chronicillnet.org/PGWS/tuite/IRMED/IRANTOC.html.[Dead link, August 2018]