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How catastrophic will an Indo-Pak nuclear armageddon be?

Mars lost it's atmosphere because the processes on the inside stopped happening, core got cold and stopped giving magnetic shield to the atmosphere which was then blown away by Sun's winds.
Tell me how is that related to the subject at hand? You think climate change was the catalyst of the state Mars is in today? lol much?

As for Himalaya, if it's such a mainstream notion that glaciers would melt you will have no difficulties providing any links, no?
And please, they must be links of studies of an impact nuclear war will have on Himalaya, despite the fact most of it would be hundreds or thousands of kilometers away from the war zone.

Dude look, i don't want to keep replying in here.....so unless you link some solid proof your further claims of my ignorance will go unanswered and you can keep thinking i'm an ignorant.


so can you elaborate why did Mars core got cold ?

By the way solar wind is not the only reason why Mars lost its atmosphere ....anyway that can be discussed some other time ....

The only reason to quote the phenomenon of loss of Mars atmosphere to underline the precariousness of earth's ecological sanctity ....

and any such large magnitude -man made or natural disturbance can upset that fragile atmospheric shield of earth ...by multitudes of effects ....

fair enough that you should ask for links and literal proof and I shall come up with 'some' soon ....
 
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No not really. It will not even eliminate all life.
Its estimated that COCKROACHES will survive a Nuclear Holocaust. Which is fine to ensure that Life will continue.


It is a myth that Cockroaches will survive the nuclear winter ...I don't know this myth got its hold ....

sure there are some organisms which are radiation resistant .....

There are strains of bacteria ...called as extremophiles ....such as Dienococcus radiodurans , Thermococcus gammatolerans etc which can withstand very high levels of radiation ( their lethal doses are 1000 times higher than that required to kill average living beings ) ....but surely not the cockroaches ....

( sorry if I am spoiling the humor out of your remark ....)
 
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You don't know who i am or not ; so can we cut with personal attacks
You don't have to be anyone of those to know about the basics of a nuclear explosion.
Period.
The statement that
''According to the study, a nuclear war using as few as 100 weapons anywhere in the world would disrupt the global climate and agricultural production so severely that the lives of more than two billion people would be in jeopardy''

simply doesn't satisfy me because of a very basic fact that they did not even define the explosions even. yeild ? etc
There are a lot of things taken under consideration;
The statement doesn't satisfy me
study this :
"NUCLEAR BOMB EFFECTS COMPUTER '' (CEX-62.2) E. Royce Fletcher, Ray W. Albright, Robert F.D. Perret, Mary E. Franklin, I. Gerald Bowen, and Clayton S. White,
come again
but wont an explosion due to lets say hundred nukes hamper the environment, climate and agriculture of the subcontinent ???
 
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You don't know who i am or not ; so can we cut with personal attacks
You don't have to be anyone of those to know about the basics of a nuclear explosion.
Period.
The statement that
''According to the study, a nuclear war using as few as 100 weapons anywhere in the world would disrupt the global climate and agricultural production so severely that the lives of more than two billion people would be in jeopardy''

simply doesn't satisfy me because of a very basic fact that they did not even define the explosions even. yeild ? etc
There are a lot of things taken under consideration;
The statement doesn't satisfy me
study this :
"NUCLEAR BOMB EFFECTS COMPUTER '' (CEX-62.2) E. Royce Fletcher, Ray W. Albright, Robert F.D. Perret, Mary E. Franklin, I. Gerald Bowen, and Clayton S. White,
come again


I am sorry my intention was not to belittle you ....

You may find it difficult to believe ....I will come up with hard facts ....

Will reply to you with some material....thanks for the reference by the way ....
 
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EU produces more combined then India, and with more then two times less population to feed......



Eco-Economy Indicators - Grain Harvest| EPI




Sure....lol
:hitwall: when theres a nuclear war going out u think EU matters??every country in the union fend for itselves.it stores its own grain.nobody know the political implications in such cases and ur arguing like a child??if u really believe that world will remain unaffected if 2 billion people are killed then sweet dreams.
 
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You don't know who i am or not ; so can we cut with personal attacks
You don't have to be anyone of those to know about the basics of a nuclear explosion.
Period.
The statement that
''According to the study, a nuclear war using as few as 100 weapons anywhere in the world would disrupt the global climate and agricultural production so severely that the lives of more than two billion people would be in jeopardy''

simply doesn't satisfy me because of a very basic fact that they did not even define the explosions even. yeild ? etc
There are a lot of things taken under consideration;
The statement doesn't satisfy me
study this :
"NUCLEAR BOMB EFFECTS COMPUTER '' (CEX-62.2) E. Royce Fletcher, Ray W. Albright, Robert F.D. Perret, Mary E. Franklin, I. Gerald Bowen, and Clayton S. White,
come again


@Audio ,@Alpha1 for you specifically

Climate effects of nuclear war and implications for global food production
19-03-2013
  • Download
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Recent environmental research using previously unavailable climate modeling techniques indicates that even a limited regional nuclear war could cause global climate cooling that would cut food production for many years and put one billion people at risk of starvation worldwide.
Climate effects of nuclear war and implications for global food production - ICRC

You don't know who i am or not ; so can we cut with personal attacks
You don't have to be anyone of those to know about the basics of a nuclear explosion.
Period.
The statement that
''According to the study, a nuclear war using as few as 100 weapons anywhere in the world would disrupt the global climate and agricultural production so severely that the lives of more than two billion people would be in jeopardy''

simply doesn't satisfy me because of a very basic fact that they did not even define the explosions even. yeild ? etc
There are a lot of things taken under consideration;
The statement doesn't satisfy me
study this :
"NUCLEAR BOMB EFFECTS COMPUTER '' (CEX-62.2) E. Royce Fletcher, Ray W. Albright, Robert F.D. Perret, Mary E. Franklin, I. Gerald Bowen, and Clayton S. White,
come again



The effect of Nuclear War on Climate Change | Weather Underground


The Effect of Nuclear War on Climate
By Jeffrey Masters, Ph.D. — Director of Meteorology, Weather Underground, Inc.

Dr. Jeff Masters' Climate Change Blogs
In the 1980s and early 1990s, a series of scientific papers published by Soviet scientists and Western scientists (including prominent scientists Dr. Carl Sagan, host of the PBS "Cosmos" TV series, and Nobel Prize winner Paul Crutzen) laid out the dire consequences on global climate of a major nuclear exchange between the U.S. and Soviet Union. The nuclear explosions would send massive clouds of dust high into the stratosphere, blocking so much sunlight that a nuclear winter would result. Global temperatures would plunge 20°C to 40°C for several months, and remain 2 - 6°C lower for 1-3 years. Up to 70% of the Earth's protective stratospheric ozone layer would be destroyed, allowing huge doses of ultraviolet light to reach the surface. This UV light would kill much of the marine life that forms the basis of the food chain, resulting in the collapse many fisheries and the starvation of the people and animals that depend it. The UV light would also blind huge numbers of animals, who would then wander sightlessly and starve. The cold and dust would create widespread crop failures and global famine, killing billions of people who did not die in the nuclear explosions. The "nuclear winter" papers were widely credited with helping lead to the nuclear arms reduction treaties of the 1990s, as it was clear that we risked catastrophic global climate change in the event of a full-scale nuclear war.

Even a limited nuclear exchange can cause a climate disasterWell, it turns out that this portrayal of nuclear winter was overly optimistic, according to a series of papers published over the past few years by Brian Toon of the University of Colorado, Alan Robock of Rutgers University, and Rich Turco of UCLA. Their most recent paper, a December 2008 study titled, "Environmental Consequences of Nuclear War", concludes that "1980s predictions of nuclear winter effects were, if anything, underestimates". Furthermore, they assert that even a limited nuclear war poses a significant threat to Earth's climate. The scientists used a sophisticated atmospheric/oceanic climate model that had a good track record simulating the cooling effects of past major volcanic eruptions, such as the Philippines' Mt. Pinatubo in 1991. The scientists injected five terragrams (Tg) of soot particles into the model atmosphere over Pakistan in May of 2006. This amount of smoke, they argued, would be the likely result of the cities burned up by a limited nuclear war involving 100 Hiroshima-sized bombs in the region. India and Pakistan are thought to have 109 to 172 nuclear weapons of unknown yield.

nuketemps.png

Figure 1. Global average temperature departure from normal since 1880 (top) and A.D. 1000 (bottom) in black, and those projected after a limited nuclear exchange between Pakistan and India of 100 Hiroshima-sized weapons in 2006 (in red). Temperatures are forecast to plunge 1.2°C (2.2°F) after such a war, reaching levels colder than anything seen in the past 1000 years. The 1815 eruption of Tambora in Indonesia produced a similar cooling, and led to the notorious "Year Without a Summer". Image credit: "Climatic consequences of a regional nuclear conflict" by Robock et al., Atmospheric chemistry and Physics, 7, 2003-2012, 2007.

The intense heat generated by the burning cities in the models' simulations lofted black smoke high into the stratosphere, where there is no rain to rain out the particles. The black smoke absorbed far more solar radiation than the brighter sulfuric acid aerosol particles emitted by volcanic eruptions. This caused the smoke to heat the surrounding stratospheric air by 30°C, resulting in stronger upward motion of the smoke particles higher into the stratosphere. As a result, the smoke stayed at significant levels for over a decade (by contrast, highly reflective volcanic aerosol particles do not absorb solar radiation and create such circulations, and only stay in the stratosphere 1-2 years). The black soot blocked sunlight, resulting in global cooling of over 1.2°C (2.2°F) at the surface for two years, and 0.5°C (0.9°F) for more than a decade (Figures 1 and 2). Precipitation fell up to 9% globally, and was reduced by 40% in the Asian monsoon regions.

This magnitude of this cooling would bring about the coldest temperatures observed on the globe in over 1000 years (Figure 1). The growing season would shorten by 10-30 days over much of the globe, resulting in widespread crop failures. The effects would be similar to what happened after the greatest volcanic eruption in historic times, the 1815 Tambora eruption in Indonesia. This cooling from this eruption triggered the infamous Year Without a Summer in 1816 in the Northern Hemisphere, when killing frosts disrupted agriculture every month of the summer in New England, creating terrible hardship. Exceptionally cold and wet weather in Europe triggered widespread harvest failures, resulting in famine and economic collapse. However, the cooling effect of this eruption only lasted about a year. Cooling from a limited nuclear exchange would create two to three consecutive "Years Without a Summer", and over a decade of significantly reduced crop yields. The authors found that the smoke in the stratosphere cause a 20% reduction in Earth's protective ozone layer, with losses of 25-45% over the mid-latitudes where the majority of Earth's population lives, and 50-70% ozone loss at northern high latitude regions such as Scandinavia, Alaska, and northern Canada. A massive increase in ultraviolet radiation at the surface would result, capable of causing widespread and severe damage to plants and animals. Thus, even a limited nuclear exchange could trigger severe global climate change capable of causing economic chaos and widespread starvation.

nuclearbadness.png

Figure 2. Top: Time variation of global average surface air temperature and precipitation for a limited nuclear exchange between Pakistan and India of 100 Hiroshima-sized weapons, assuming they inject 5 Tg of Black Carbon (BC) into the stratosphere. The global average precipitation is 3 mm/yr, so the changes in years 2-4 represent a 9% global average reduction in precipitation. Bottom: Time variation of sunlight (shortwave radiation) at the surface, in watts per meter squared, due to the 1991 eruption of Mt. Pinatubo in the Philippines (blue line) and the limited nuclear war between India and Pakistan (black line). The effects of a limited nuclear war are far more severe and long lasting than the eruption of Pinatubo, the greatest eruption of the 20th century. Image credit: "Climatic consequences of a regional nuclear conflict" by Robock et al., Atmospheric chemistry and Physics, 7, 2003-2012, 2007.

Climate change and the Doomsday ClockIt is sobering to realize that the nuclear weapons used in the study represented only 0.3% of the world's total nuclear arsenal of 26,000 warheads. Fortunately, significant progress was made in the 1990s and 2000s to reduce the threat of nuclear war. If the 2002 Strategic Offensive Reductions Treaty (SORT) is fully implemented by the U.S. and Russia as planned, by 2012 the world's stockpile of nuclear weapons will be just 6% of the 70,000 warheads that existed at the peak of the cold war in 1986. However, the threat of a more limited regional nuclear war has increased in recent decades, since more countries have been joining the nuclear club--an average of one country every five years. The 2007 move by the Bulletin of the Atomic Scientists to move the hands of their Doomsday Clock two minutes closer to midnight--the figurative end of civilization--helped call attention to this increased threat. In addition, they also mentioned climate change for the first time as part of the rationale for moving the clock closer to midnight. The twin disasters of a limited nuclear war, coupled with the devastating global climate change it could wreak, should remind us that there is no such thing as a small scale nuclear war. Even a limited nuclear war is a huge threat to Earth's climate. Thus, there is no cause more important to work for than peace.
Jeff Masters
 
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Such threads have no credibility it's all speculations and brainfarts commence from there. These threads are just a time pass for people who are obsessed with fantasy of being nuked or nuking others. I hope there is a meteor strike in our skies for once so there keyboard warriors would really have a first hand experience of such events right above them, A$$holes.
 
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@Audio, @Alpha1

http://www.atmos-chem-phys.org/7/2003/2007/acp-7-2003-2007.pdf





http://www.astro.cornell.edu/academics/courses/astro202/TTAPS2_SciAm84.pdf






http://climate.envsci.rutgers.edu/pdf/RobockToonSAD.pdf

Such threads have no credibility it's all speculations and brainfarts commence from there. These threads are just a time pass for people who are obsessed with fantasy of being nuked or nuking others. I hope there is a meteor strike in our skies for once so there keyboard warriors would really have a first hand experience of such events right above them, A$$holes.


Deadly global climate change from nuclear war
Nuclear war would devastate the environment, climate, ecosystems and inhabitants of Earth.
A "regional" nuclear war, fought between emerging nuclear weapon states with relatively primitive nuclear weapons, would create a Nuclear Haze which would quickly lead to deadly global climate change. A large nuclear war, fought with thousands of modern thermonuclear weapons, would create either Nuclear Twilight or Nuclear Darkness. Extreme Ice Age weather conditions would result, and would trigger a mass extinction event that would extinguish most complex forms of life on Earth, including human life.
The darkness and global cooling predicted to result from nuclear war (along with massive radioactive fallout, pyrotoxins, and ozone depletion) was first described in 1983 as "nuclear winter". These initial studies estimated the smoke from nuclear firestorms would stay in the stratosphere for about a year. However in 2006, researchers using modern computer models found the smoke would form a global stratospheric smoke layer that would last for ten years.
The longevity of such a smoke layer would allow much smaller quantities of smoke than first predicted in the 1980’s to have a great impact upon both global climate and atmospheric ozone which blocks ultraviolet (UV) light. Thus scientists predict that even a "regional" nuclear conflict could produce enough smoke to significantly cool average global surface temperatures, reduce precipitation, and vastly increase the amount of dangerous UV light reaching the surface of Earth.
A nuclear war fought between India and Pakistan would produce enough smoke to make the blue skies of Earth appear grey. Although the amount of sunlight blocked by this Nuclear Haze would not produce the profound darkening of the Earth predicted in a nuclear winter (after a nuclear war fought with thousands of strategic nuclear weapons), the deadly climate change created by a regional conflict would likely have devastating global effects upon all human populations, through its shortening of growing seasons and corresponding negative effects upon global agriculture.
In 2006, U.S. researchers used a NASA computer model (Model 1E, also used for the Intergovernmental Panel on Climate Change) to evaluate the effects of a regional nuclear war fought in the sub-tropics. 50 Hiroshima-size nuclear weapons (15 kilotons per weapon) were detonated in the largest cities of each combatant nation (100 total detonations).
The studies predicted the nuclear explosions would kill 20 million people in the war zone, the equivalent to half of all the people who died during World War II. The conflict would also significantly disrupt global climate. Up to 5 million tons of smoke from burning cities would quickly rise above cloud level into the stratosphere, and within 2 weeks would form a global stratospheric smoke layer which would remain in place for about 10 years.
The computer models estimated this smoke layer would block 7–10% of warming sunlight from reaching the surface of the Earth. Average surface temperatures beneath the smoke would become colder than any experienced during the last 1000 years. There would be a corresponding shortening of growing seasons by up to 30 days and significant reductions in average rainfall in many areas, with a 40% decrease of precipitation in the Asian monsoon region.
Such rapid and drastic climate change would have major impacts on global grain reserves, which already are at 50 year lows. Grain exports would likely cease for several years from large exporting nations like Canada. The 700 million people now living on the edge of starvation, along with those populations heavily dependent upon grain imports, would face mass starvation as grain reserves disappeared, prices skyrocketed and hoarding occurred. Global nuclear famine is the predicted result of this scenario. As many as one billion people could die during the years subsequent to the deadly climate change created by this level of nuclear conflict.
A stratospheric smoke layer would also cause massive destruction of the protective ozone layer. Studies in 2008 predicted smoke from a regional nuclear conflict (as described above) would create ozone losses of 25-45% above mid latitudes, and 50-70% above northern high latitudes persisting for 5 years, with substantial losses continuing for 5 additional years. Severe ozone depletion would allow intense levels of harmful ultraviolet light (UV-B) to reach the surface of the Earth – even with the stratospheric smoke layer in place.
Global stratospheric ozone levels would fall to near those now seen only over Antarctica during the formation of the "ozone hole". The UV index in the mid-latitudes would increase by 42–108%, which would cause fair skinned people to suffer sunburn in as little as 7 minutes. In the high northerly latitudes, the UV index would increase by 130–290%, shortening the time required for fair skinned people to sunburn from 32–43 minutes to 8–19 minutes.
Massive increases of UV-B light would clearly have negative impacts upon marine and terrestrial ecosystems, yet no research has been done to investigate the consequences of such a scenario. Likewise, no studies using modern climate models have yet been done to assess ozone depletion following larger nuclear conflicts fought with high-yield strategic nuclear weapons.
The United States and Russia have more than 7000 operational high-yield nuclear weapons which are ready for immediate use. These weapons have a combined explosive power 500 to 1000 times greater than the explosive power contained within 100 Hiroshima-size weapons. Virtually all their land-based intercontinental ballistic missiles are operating under the policy of Launch-On-Warning.
In 2008, scientists predicted the detonation of 4400 strategic nuclear weapons in large cities could cause 770 million prompt fatalities and produce up to 180 million tons of thick, black smoke. Ten days after detonation, the smoke would form a dense global stratospheric smoke layer which would block about 70% of warming sunlight from reaching the surface of the Northern Hemisphere and 35% of sunlight from reaching the Southern Hemisphere.
The resulting nuclear darkness would cause rapid cooling of more than 20º C (36º F) over large areas of North America and of more than 30º C (54º F) over much of Eurasia. Daily minimum temperatures would fall below freezing in the largest agricultural areas of the Northern Hemisphere for a period of between one to three years. Average global surface temperatures would become colder than those experienced 18,000 years ago at the height of the last Ice Age.
The cooling of the Earth’s surface would weaken the global hydrological cycle and the Northern Hemisphere summer monsoon circulations would collapse because the temperature differences that drive them would not develop. As a result, average global precipitation is predicted to decrease by 45%.
The cumulative effects of deadly climate change and ozone destruction would eliminate growing seasons for more than a decade. Catastrophic climatic effects lasting for many years would occur in regions far removed from the target areas or the countries involved in the conflict. Under such conditions, it is likely that most humans and large animal populations would die of starvation.
Nuclear arsenals must be eliminated, because if they are left intact, they will eventually be used. Nuclear weapons must be outlawed, dismantled and abolished. A draft treaty, or Model Nuclear Weapons Convention, has been prepared by civil society organizations and submitted to the United Nations. Nuclear weapon states are obligated (under the terms of the Nuclear Non-Proliferation Treaty) to negotiate in good faith to achieve such a treaty to eliminate their nuclear arsenals.
For other online versions of this article,
see http://www.wagingpeace.org/articles/pdfs/2010_02_18_starr_climate_change.pdf (the website of the Nuclear Peace Age Foundation)
the Strategic Arms Reduction website of the Moscow Institute of Physics and Technology Center for Arms Control, Energy and Environmental Studies at http://www.armscontrol.ru/pubs/en/deadly-climate-change-from-nuclear-war.pdf
 
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but wont an explosion due to lets say hundred nukes hamper the environment, climate and agriculture of the subcontinent ???
It depends on the yeild; nature location and heck even height of the nuclear explosions
There are a lot of science behind this and those who know the basics of this will disagree with the statement that
''hundred nukes will end the earth''
when it comes to the subcontinent yes ; especially if the agricultural areas and population centers are targeted
 
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it will be total annihilation of asia and europe. Because Nuclear war spreads from one country and ends in another.
 
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Regional Nuclear War Can Spur Climate Change, Famines Around the World: Scientist




Regional Nuclear War Can Spur Climate Change, Famines Around the World: Scientist
by Robert Kazel
May 14, 2013
NAPF RSS Feeds
Before 2015, many scientists knew that a “nuclear winter” theoretically could bring major climate change to the world and create famines in many countries. But it wasn’t until the aftermath of the use of a hundred atomic bombs by Pakistan and India – in what was later named the South Asian Nuclear War – that people everywhere began to comprehend the longer-term, global effects of nuclear exchanges. They then understood, to their horror, that there was no such thing as a strictly “regional” nuclear conflict.
International panels and historians would try with scant success to construct a narrative to explain the unprecedented mass destruction of that summer weekend. The early events of the conflict appear plain enough: Pakistan’s government spent July complaining that India was increasingly engaging in cyber attacks aimed at testing the vulnerability of its neighbor’s nuclear command-and-control computer systems. As tensions mounted, Pakistani troops were dispatched into the Kargil district of the Ladakh region in Jammu and Kashmir -- an area officially on India’s side of the “line of control” that divided the restive, mountainous Himalayan state. As with a similar incursion in 1999, India responded with intense air and artillery assaults using conventional weapons.
While other governments urged calm, several major Pakistani government buildings in Karachi, Lahore and Islamabad were destroyed by explosive devices. Indian leaders vehemently denied all culpability. They asserted Pakistani militants or religious extremists likely were trying to take advantage of the latest tumultuous period to provoke a nuclear Armageddon between the rival nations.
Indian Army and paramilitary forces confronted large crowds in the streets of Srinager, the overwhelmingly Islamic summer capital of Kashmir, as well as other large cities in the region. Two Pakistani military officers then sparked an uproar in India’s media: One said publicly his nation was ready and willing to give field commanders the authority to use arsenals of small, tactical nuclear weapons to repel any invasion of his country by Indian soldiers. Another leaked word to reporters that Pakistan was mulling the option of detonating a “demonstration” nuclear warhead, far above a large Indian city, to prove it had no squeamishness about using the bombs it possessed.

July turned to August, and Indian and Pakistani military forces went on full nuclear alert. In preparation for total war, both sides increased the pace of marrying nuclear warheads with missiles and aircraft so they could be used quickly, if needed. Startling the world, India aired TV and radio messages telling citizens to move to their basements – makeshift shelters where many families had already stored emergency food and water after New Delhi recommended it in 2013.
A high-level team of peace envoys from the U.S., whose jet was heading to the region, was urgently mediating with the two sides by telephone over the Atlantic. Diplomats told a relieved world that tensions between India and her neighbor actually were easing and that more a serious conflict probably could be headed off.
But subsequent events are much less clear. Dozens of missiles in both nations remained on hair-trigger alert, with a strategic “window” of about three minutes for politicians and officers to decide if an early warning sign was a real attack. Then, a monumental wild card: A meteor the size of a refrigerator, it was later determined, shattered Earth’s atmosphere 80,000 feet over Jaipur, a city of 3 million in northwest India. Breaking thousands of windows, it exploded in the sky with a sonic boom and an approximate blast power of 250 kilotons (compared to the 12.5-kiloton bomb that destroyed Hiroshima).
The nuclear phase of the war began just eight minutes after the meteor struck. The connection between the meteor and use of missiles by both countries, if any, remains a topic of endless debate. The exchange of missiles persisted for two full days. Approximately 100 nuclear explosions, centering mainly on urban centers, took millions of lives in each country on account of the blasts themselves but also the radiation, hunger and disease that followed. No clear winner emerged.
The significance of the war for the rest of the world soon dawned. After massive pillars of black smoke and dust rose above the remains of dozens of burned cities, unprecedented pollution traveled around the world and ascended 25 miles to the stratosphere. There the soot was trapped, immune to disruption by rain below. Skies turn from blue to gray.
Major declines in temperature in all parts of the world followed. Average rainfall declined. Growing seasons in both hemispheres immediately got shorter, as farmers from New England to China saw some crops yield much less than expected and other crops fail altogether.
Meanwhile, ozone in the atmosphere became massively depleted, and harmful ultraviolet rays at the planet’s surface increased, further injuring plants, causing greater incidence of human illness such as skin cancer, and playing havoc with the biosphere in countless ways.
The effects would last years. The World Famine of 2015-2025 ultimately was considered the worst catastrophe in mankind’s history – a tragedy affecting billions who had no connection whatsoever to the war that had been its cause. The grime high in the atmosphere lingered for years, absorbing sunlight necessary for plants, animals and people to survive and thrive -- and serving to remind an appalled world, every day, of the dark potential of its nuclear technology.
*
The above scenario is hypothetical. What’s real, already, is the work of scientists over the past few years who have reinvestigated and revised the theories of nuclear winter that captured world attention in the 1980s. Most Americans probably haven’t thought about nuclear winter since that era, when an all-out war between the U.S. and Soviet Union looked plausible. Back then, everyone from ordinary citizens to journalists to world leaders joined the discussion about how the use of nuclear arms could imperil world ecology and, in the worst case, cause the extinction of all species.
Alan Robock, now a senior professor in environmental science at Rutgers University, was a young scientist studying nuclear winter at that time. Today, the 63-year-old researcher is warning anyone who will listen that although the Cold War ended in the early 1990s, and the risk of a Third World War now appears to be reduced, the danger of nuclear winter persists.
Robock and a few colleagues have been using cutting-edge computer models to try to foretell the climatic consequences of nuclear explosions in an era when a “local” exchange of nuclear weapons – say, between India and Pakistan – appears more probable than a general world war.
Scientists such as Robock are asking if we can safely stop viewing nuclear weapons as an ominous threat to the world environment, merely because the arsenals of emerging nuclear powers are relatively small. Robock says absolutely not. To him, the latest ecological predictions are just as chilling as they were three decades ago. They point to prolonged, major climate damage affecting many regions on Earth, with widespread deaths from hunger in many countries. This appears true even if the usage of a “small” number of nuclear weapons was the triggering event.
NAPF spoke with Robock about his new research, and why he thinks his findings are just as urgent as the well-known nuclear winter studies of the 1980s. He also discusses his frustration that his efforts to stir the interest of government officials, and even fellow scientists, often have been met with what appears to be apathy. The following is an edited version of the conversation.

KAZEL: Dr. Robock, if you were speaking to a group of Americans who remember scientists’ warnings about nuclear winter back in the 1980s, what would you tell them about your more recent theories and how they’re relevant to today’s world?
alan_robock.jpg
ROBOCK: Thirty years ago, we discovered that a nuclear war between the United States and the Soviet Union could produce a nuclear winter with temperatures plummeting below freezing during the summertime, destroying agriculture around the world and producing a global famine. The indirect effects of nuclear war would be much greater than the direct effects, as horrible as they would be.
This helped to end the nuclear arms race. Mikhail Gorbachev has been quoted in multiple interviews saying he knew about the work on nuclear winter, which was being done jointly by American and Russian scientists. That was a strong message to him to end the arms race.
But that was 30 years ago. Now we’re asking two questions. One, even though the arms race is over and the number of weapons is coming down, could we still produce a nuclear winter with the current arsenals? And the answer to that is yes. Even after the New START agreement is implemented in 2017, there will still be enough nuclear weapons in the American and Russian arsenals to produce a full nuclear winter with temperatures below freezing in the summer and global famine. Most people think that the problem has been solved, but it has not.
The second question is, what would be the consequences of nuclear war between some new nuclear powers, such as India and Pakistan? Imagine…a nuclear war ensues between India and Pakistan, each of them using only 50 Hiroshima-size nuclear weapons. Their weapons might be bigger than that, but we know that’s the simplest to build. So we did a scenario by which each side used 50 Hiroshima-sized weapons. This will be much less than 1 percent of the global nuclear arsenal, and less than half of each of their arsenals.
It would be horrible. Twenty million people would die. As horrible as that would be, it would produce about 5 million tons of smoke, which would go up in the atmosphere, last for more than a decade, and cause cooling at the Earth’s surface… It would be the coldest temperatures ever experienced in recorded history – temperatures colder than the “Little Ice Age” a couple of hundred years ago, in which there was famine around the world.
This would cause devastation in the world food market. People would stop trading. There would be a famine and we estimate up to a billion people might die.
So, we’re in a terrible situation. People don’t realize that the use of nuclear weapons is still the greatest danger that the planet faces. And we have to solve this problem so that we can have the luxury of worrying about global warming – which is also a problem.
KAZEL: Why have you tended the emphasize the example of India and Pakistan as a possible place where a nuclear war might break out, rather than other areas of the world?
ROBOCK
: There are nine nuclear nations now – the current members of the [U.N.] Security Council – the first five to get nuclear weapons, the U.S., Russian, China, France and England. Then there’s four more. There’s Israel, who doesn’t admit [possessing nuclear weapons], India, Pakistan and North Korea. People think, “Oh, that’s on the other side of the world. We don’t have to worry about it. They only have a few weapons. We can forget about it.” But it’s not true.
We wanted to emphasize the danger of even a small number of weapons because nuclear proliferation is still a big problem. There are other countries that want to have them.
There are 40 countries it the world that have highly enriched uranium or plutonium and could make nuclear weapons, if they wanted to. Everybody knows how to make them. Why have they chosen not to? How can we keep them [from choosing otherwise]? Why doesn’t Japan or Germany or Belgium or Brazil or Argentina have nuclear weapons? They could if they wanted to.
We wanted to emphasize that it’s much more dangerous to have them than it is to not have them.
People still thinks it’s “mutually assured destruction” – if Country A attacks Country B, Country B will retaliate, and that’s why we don’t attack them. But it turns out it would be suicide to use nuclear weapons. If you attacked a country, and produced all these fires and smoke, it would come back to haunt you. It would affect your agricultural production.
KAZEL: Do you see much interest today among researchers around the world in nuclear winter – for example, in Russia and China, or, in particular, India and Pakistan, since this is data that’s especially relevant to them?
ROBOCK
: Unfortunately no, we don’t. We write journal articles, we give talks at conferences. I just gave two talks at a conference in Europe a couple of weeks ago. Colleagues in Switzerland have recently completed a similar climate-model study…The Swiss government has given us a small amount of funding to do this work. But we would like to identify colleagues in Russia to this, and we don’t see any interest.
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I talked to a Pakistani colleague at Princeton and he said, “You know, they’re really proud of this accomplishment, of being able to make nuclear weapons. If you started doing research into this [in Pakistan] to show that they can’t be used [because of environmental dangers], you would be a pariah. People would criticize you as being unpatriotic.”
Everyone who hears [my findings] gets kind of shocked by the results. Again, it’s kind of an emotional reaction and they don’t really want to hear it. But I’ve not gotten any pushback in terms of the science. Nobody’s been able to find a flaw in our science.
KAZEL: I noticed in one of your papers you expressed impatience with Global Zero because they haven’t put a spotlight on environmental dangers when they’ve campaigned against nuclear weapons. Do you think antinuclear groups have a responsibility to spread the word about nuclear winter now?
ROBOCK
: Absolutely. That was [an impetus] to the end of the arms race. The first results were quite controversial. Carl Sagan was going around talking about it a lot and there was a lot of debate about it. That made people look again at the direct effects of nuclear weapons and how horrible the direct effects would be.
People had been ignoring it, and Russia and the U.S. had just been building more and more weapons. This discussion really shocked people into realizing how crazy the arms race was.
You know, this is an easier problem to solve than global warming. The solution to global warming is to stop putting carbon dioxide into the atmosphere, and that threatens a tremendous economic base of the fossil fuel companies and the energy infrastructure of the planet. It’s a tough struggle, and it’s slow. But nuclear weapons, there’s only a few thousand of them around the world. It’s a small part of the world economy. So this can change much more easily than solving the global warming problem.
Obama has said he wants to get rid of all nuclear weapons. He is trying to reduce our arsenal, but he could reduce our arsenal unilaterally without waiting for the Russians – and make us safer. Of course, you’ve got to educate people about what nuclear weapons really are in order for them to understand this.
My senator, Robert Menendez [D-New Jersey], is now the chairman of the Senate Foreign Relations Committee. I’m going down to Washington next month to try to do some lobbying and try to talk him into having a hearing about this.
KAZEL: How active should the scientists of today be in prescribing policy changes? In 2007, you [and a co-author] called for de-alerting of nuclear missiles, elimination of tactical nuclear weapons, ratification of the Comprehensive Nuclear-Test-Ban Treaty, and phasing out the use of highly enriched uranium. You’ve also said that U.S. and Russian arms reductions have been insufficient and that we could go down to a basic deterrence force of a few hundred nuclear weapons. Are you more willing now to recommend specific policies rather than just supply data to the government and the military?
ROBOCK
: As far as specific policy recommendations, I’m not an expert. I’m an expert in climate. I remember in the 1980s, I was talking to another scientist about this, and he said, our job is just to provide the information and data and let the policymakers decide on the policy. I thought about that and I said, you know, the policymakers spend their careers deciding how to target nuclear weapons, how to use them, how to threaten with them. If they actually accepted our science, they would be out of a job.
The clear policy implication [of our research] is that you can’t use nuclear weapons, you have to get rid of them. If they accepted that, they’d have to find another line of work. So how can we expect them to change the policy when they have a self-interest in continuing the policy? That’s why I think it’s important for scientists to speak out.
It’s frustrating because we’re trying to get some more money to support the research. There are a lot of details that still need to be understood. We thought maybe the Department of Defense, which has the nuclear weapons and might use them, or the Department of Energy, which makes the nuclear weapons, or the Department of Homeland Security…might want to fund such studies. In every case, the program managers say, “It’s not my job. It’s somebody else’s job to look at that problem.”
Obama understands these issues and wants to do the right thing, but he needs somebody to push him. He needs a movement. He needs a lot of people to be concerned about it. People think that [the nuclear weapons] problem has faded away and there are more important concerns in their lives. They don’t feel threatened like they did in the past.
KAZEL: Apparently there is a common misconception that nuclear winter theories have been, at some point in the past, discredited or overstated. You’ve written about this.
ROBOCK
: As Bob Dylan says, “How does it feel?” It feels better to believe it’s not going to be winter, even though it’s wrong. Because the arms race is over, because nobody talks about it anymore, people think the problem has disappeared.
We had this new modern-climate model, with which we did the India-Pakistan case with. We said, let’s go back and see, is it really nuclear winter? People said maybe it wouldn’t be nuclear winter, maybe it would be nuclear “fall.” We found the smoke would stay [in the upper atmosphere] for many years. Nobody knew that before. We found that indeed it would get below freezing in the summertime.
We [also] repeated the simulations we did 30 years ago. Those used a third of the nuclear arsenals on the U.S. and Russian side and produced 150 million tons of smoke. So we said, how much smoke would only 4,000 weapons produce – 2,000 on each side? And we could still get 150 million tons of smoke, the same as you’d get with the much larger arsenals of the past. You’d still produce nuclear winter. So it’s still way too many weapons.
KAZEL: In trying to demonstrate the gravity of nuclear winter, how do you convey to the public that this is potentially catastrophic? For instance, after a regional nuclear exchange, you predict average cooling would decrease two to three degrees Fahrenheit for several years. Some crops would have their growing season shortened by a couple of weeks. Those numbers may not seem dramatic to a non-scientist.
ROBOCK
: We found a 10 to 20 percent reduction in the corn and soybean crop in the United States for years [following an India-Pakistan nuclear war]. We found the same thing for rice production in China for years. That brings rice production in China down to what it was when there were 300 million fewer Chinese people.
Everyone wouldn’t instantly die of starvation, but the food supplies in grain-growing regions would shrink around the world by 20 percent for a decade. That would put a huge strain on the global food trade.
Ira Helfand [co-president of the International Physicians for the Prevention of Nuclear War] wrote an article saying there might be a billion people at risk of starvation because they’re now living marginal existences. They depend on imported food. There would be nobody to come in to help them. There would be no stores of food.
KAZEL: In looking back at the media attention paid to nuclear winter in the 1980s, a huge spotlight was placed on Carl Sagan. He first warned about it in an article in Parade magazine. He was on “The Tonight Show” dozens of times and testified before committees of Congress. He was called “the people’s scientist.” Do you think the strong interest in nuclear winter at that time was an anomaly because he was so charismatic and well known, whereas today there’s no scientist like that who can stir up interest?
ROBOCK
: Yes. We’ve thought about and we agree with that. We thought to get [astrophysicist] Neil deGrasse Tyson interested. He’s going to be doing a new version of the “Cosmos” show with Carl’s widow, [writer-producer] Ann Druyan. He’s the only scientist I know who even comes close to Carl.
We also tried to get Al Gore interested, because he’s got a global audience when he talks about climate. But he wasn’t interested.
So yes, we need somebody like that to give the message. We’re trying to get a Hollywood screenplay written, and do a movie about this. I think using popular culture would get a lot of people’s attention. We haven’t gotten there yet.
KAZEL: That’s interesting. Could it possibly take a blockbuster movie, like [the 1980s nuclear-war TV special] “The Day After,” to shock people into caring again?
ROBOCK
: Yes, absolutely. We met a guy who’s a scientist but also writes screenplays. He’s working on it for us. We’ll see how that goes.
KAZEL: In a previous interview, you criticized the mainstream media for how it covers science. You said the media spread errors, that general-assignment reporters are allowed to write about science even though they lack the knowledge for it, and that coverage of science is often sensational. You also said scientists should stop relying on the media and find their own ways to reach the public.
ROBOCK
: Sagan didn’t rely on reporters. He had his own TV show, “Cosmos.” As you say, he went on “The Tonight Show” and talked directly to the audience, without reporters involved. He wrote a book [in 1990, The Path Where No Man Thought: Nuclear Winter and the End of the Arms Race, with UCLA atmospheric scientist Richard Turco]. He wrote articles.
But the people don’t want to hear this. So you need somebody like Carl. It would be great if we had somebody like him around to give this message.
 
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@Indo-guy thanks for posting that. i will study the examples given; scenarios discussed and will reply you
 
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