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Sunday, February 13, 2022

Biological warfare

From Wikipedia, the free encyclopedia

Biological warfare, also known as germ warfare, is the use of biological toxins or infectious agents such as bacteria, viruses, insects, and fungi with the intent to kill, harm or incapacitate humans, animals or plants as an act of war. Biological weapons (often termed "bio-weapons", "biological threat agents", or "bio-agents") are living organisms or replicating entities ( ⁠i.e.viruses, which are not universally considered "alive"). Entomological (insect) warfare is a subtype of biological warfare.

Offensive biological warfare is prohibited under customary international humanitarian law and several international treaties. In particular, the 1972 Biological Weapons Convention (BWC) bans the development, production, acquisition, transfer, stockpiling and use of biological weapons. Therefore, the use of biological agents in armed conflict is a war crime. In contrast, defensive biological research for prophylactic, protective or other peaceful purposes is not prohibited by the BWC.

Biological warfare is distinct from warfare involving other types of weapons of mass destruction (WMD), including nuclear warfare, chemical warfare, and radiological warfare. None of these are considered conventional weapons, which are deployed primarily for their explosive, kinetic, or incendiary potential.

Biological weapons may be employed in various ways to gain a strategic or tactical advantage over the enemy, either by threats or by actual deployments. Like some chemical weapons, biological weapons may also be useful as area denial weapons. These agents may be lethal or non-lethal, and may be targeted against a single individual, a group of people, or even an entire population. They may be developed, acquired, stockpiled or deployed by nation states or by non-national groups. In the latter case, or if a nation-state uses it clandestinely, it may also be considered bioterrorism.

Biological warfare and chemical warfare overlap to an extent, as the use of toxins produced by some living organisms is considered under the provisions of both the BWC and the Chemical Weapons Convention. Toxins and psychochemical weapons are often referred to as midspectrum agents. Unlike bioweapons, these midspectrum agents do not reproduce in their host and are typically characterized by shorter incubation periods.

Overview

A biological attack could conceivably result in large numbers of civilian casualties and cause severe disruption to economic and societal infrastructure.

A nation or group that can pose a credible threat of mass casualty has the ability to alter the terms under which other nations or groups interact with it. When indexed to weapon mass and cost of development and storage, biological weapons possess destructive potential and loss of life far in excess of nuclear, chemical or conventional weapons. Accordingly, biological agents are potentially useful as strategic deterrents, in addition to their utility as offensive weapons on the battlefield.

As a tactical weapon for military use, a significant problem with biological warfare is that it would take days to be effective, and therefore might not immediately stop an opposing force. Some biological agents (smallpox, pneumonic plague) have the capability of person-to-person transmission via aerosolized respiratory droplets. This feature can be undesirable, as the agent(s) may be transmitted by this mechanism to unintended populations, including neutral or even friendly forces. Worse still, such a weapon could "escape" the laboratory where it was developed, even if there was no intent to use it – for example by infecting a researcher who then transmits it to the outside world before realizing that they were infected. Several cases are known of researchers becoming infected and dying of Ebola, which they had been working with in the lab (though nobody else was infected in those cases) – while there is no evidence that their work was directed towards biological warfare, it demonstrates the potential for accidental infection even of careful researchers fully aware of the dangers. While containment of biological warfare is less of a concern for certain criminal or terrorist organizations, it remains a significant concern for the military and civilian populations of virtually all nations.

History

Antiquity and Middle Ages

Rudimentary forms of biological warfare have been practiced since antiquity. The earliest documented incident of the intention to use biological weapons is recorded in Hittite texts of 1500–1200 BCE, in which victims of tularemia were driven into enemy lands, causing an epidemic. The Assyrians poisoned enemy wells with the fungus ergot, though with unknown results. Scythian archers dipped their arrows and Roman soldiers their swords into excrements and cadavers – victims were commonly infected by tetanus as result. In 1346, the bodies of Mongol warriors of the Golden Horde who had died of plague were thrown over the walls of the besieged Crimean city of Kaffa. Specialists disagree about whether this operation was responsible for the spread of the Black Death into Europe, Near East and North Africa, resulting in the deaths of approximately 25 million Europeans.

Biological agents were extensively used in many parts of Africa from the sixteenth century AD, most of the time in the form of poisoned arrows, or powder spread on the war front as well as poisoning of horses and water supply of the enemy forces. In Borgu, there were specific mixtures to kill, hypnotize, make the enemy bold, and to act as an antidote against the poison of the enemy as well. The creation of biologicals was reserved for a specific and professional class of medicine-men.

1763 to present

The British Army attempted use of smallpox against Native Americans during the Siege of Fort Pitt in June 1763. A reported outbreak that began the spring before left as many as one hundred Native Americans dead in Ohio Country from 1763 to 1764. It is not clear whether the smallpox was a result of the Fort Pitt incident or the virus was already present among the Delaware people as outbreaks happened on their own every dozen or so years and the delegates were met again later and seemingly had not contracted smallpox. During the American Revolutionary War General George Washington heard a report that British General William Howe was going to send people inoculated with smallpox out from Boston, in order to infect other Americans. Washington reported this to Congress but said he could hardly give credit to it. Washington inoculated his soldiers, diminishing the effect of the on-going smallpox epidemic. Some historians believe that the British Marines deliberately used smallpox in New South Wales, Australia, in 1789. Dr Seth Carus states: "Ultimately, we have a strong circumstantial case supporting the theory that someone deliberately introduced smallpox in the Aboriginal population."

By 1900 the germ theory and advances in bacteriology brought a new level of sophistication to the techniques for possible use of bio-agents in war. Biological sabotage in the form of anthrax and glanders was undertaken on behalf of the Imperial German government during World War I (1914–1918), with indifferent results. The Geneva Protocol of 1925 prohibited the use of chemical and biological weapons.

With the onset of World War II, the Ministry of Supply in the United Kingdom established a biological warfare program at Porton Down, headed by the microbiologist Paul Fildes. The research was championed by Winston Churchill and soon tularemia, anthrax, brucellosis, and botulism toxins had been effectively weaponized. In particular, Gruinard Island in Scotland, was contaminated with anthrax during a series of extensive tests for the next 56 years. Although the UK never offensively used the biological weapons it developed, its program was the first to successfully weaponize a variety of deadly pathogens and bring them into industrial production. Other nations, notably France and Japan, had begun their own biological weapons programs.

When the United States entered the war, Allied resources were pooled at the request of the British. The U.S. then established a large research program and industrial complex at Fort Detrick, Maryland in 1942 under the direction of George W. Merck. The biological and chemical weapons developed during that period were tested at the Dugway Proving Grounds in Utah. Soon there were facilities for the mass production of anthrax spores, brucellosis, and botulism toxins, although the war was over before these weapons could be of much operational use.

Shiro Ishii, commander of Unit 731, which performed live human vivisections and other biological experimentation

The most notorious program of the period was run by the secret Imperial Japanese Army Unit 731 during the war, based at Pingfan in Manchuria and commanded by Lieutenant General Shirō Ishii. This unit biological warfare, conducted often fatal human experiments on prisoners, and produced biological weapons for combat use. Although the Japanese effort lacked the technological sophistication of the American or British programs, it far outstripped them in its widespread application and indiscriminate brutality. Biological weapons were used against Chinese soldiers and civilians in several military campaigns. In 1940, the Japanese Army Air Force bombed Ningbo with ceramic bombs full of fleas carrying the bubonic plague. Many of these operations were ineffective due to inefficient delivery systems, although up to 400,000 people may have died. During the Zhejiang-Jiangxi Campaign in 1942, around 1,700 Japanese troops died out of a total 10,000 Japanese soldiers who fell ill with disease when their own biological weapons attack rebounded on their own forces.

During the final months of World War II, Japan planned to use plague as a biological weapon against U.S. civilians in San Diego, California, during Operation Cherry Blossoms at Night. The plan was set to launch on 22 September 1945, but it was not executed because of Japan's surrender on 15 August 1945.

In Britain, the 1950s saw the weaponization of plague, brucellosis, tularemia and later equine encephalomyelitis and vaccinia viruses, but the programme was unilaterally cancelled in 1956. The United States Army Biological Warfare Laboratories weaponized anthrax, tularemia, brucellosis, Q-fever and others.

In 1969, US President Richard Nixon decided to unilaterally terminate the offensive biological weapons program of the US, allowing only scientific research for defensive measures. This decision increased the momentum of the negotiations for a ban on biological warfare, which took place from 1969 to 1972 in the United Nation's Conference of the Committee on Disarmament in Geneva. These negotiations resulted in the Biological Weapons Convention, which was opened for signature on 10 April 1972 and entered into force on 26 March 1975 after the ratification by 22 states.

Despite being a party and depositary to the BWC, the Soviet Union continued and expanded its massive offensive biological weapons program, under the leadership of the allegedly civilian institution Biopreparat. The Soviet Union attracted international suspicion after the 1979 Sverdlovsk anthrax leak killed approximately 65 to 100 people.

International law

The Biological Weapons Convention

International restrictions on biological warfare began with the 1925 Geneva Protocol, which prohibits the use but not the possession or development of biological and chemical weapons. Upon ratification of the Geneva Protocol, several countries made reservations regarding its applicability and use in retaliation. Due to these reservations, it was in practice a "no-first-use" agreement only.

The 1972 Biological Weapons Convention (BWC) supplements the Geneva Protocol by prohibiting the development, production, acquisition, transfer, stockpiling and use of biological weapons. Having entered into force on 26 March 1975, the BWC was the first multilateral disarmament treaty to ban the production of an entire category of weapons of mass destruction. As of March 2021, 183 states have become party to the treaty. The BWC is considered to have established a strong global norm against biological weapons, which is reflected in the treaty's preamble, stating that the use of biological weapons would be "repugnant to the conscience of mankind". The BWC's effectiveness has been limited due to insufficient institutional support and the absence of any formal verification regime to monitor compliance.

In 1985, the Australia Group was established, a multilateral export control regime of 43 countries aiming to prevent the proliferation of chemical and biological weapons.

In 2004, the United Nations Security Council passed Resolution 1540, which obligates all UN Member States to develop and enforce appropriate legal and regulatory measures against the proliferation of chemical, biological, radiological, and nuclear weapons and their means of delivery, in particular, to prevent the spread of weapons of mass destruction to non-state actors.

Bioterrorism

Biological weapons are difficult to detect, economical and easy to use, making them appealing to terrorists. The cost of a biological weapon is estimated to be about 0.05 percent the cost of a conventional weapon in order to produce similar numbers of mass casualties per kilometer square. Moreover, their production is very easy as common technology can be used to produce biological warfare, like that used in production of vaccines, foods, spray devices, beverages and antibiotics. A major factor in biological warfare that attracts terrorists is that they can easily escape before the government agencies or secret agencies have even started their investigation. This is because the potential organism has an incubation period of 3 to 7 days, after which the results begin to appear, thereby giving terrorists a lead.

A technique called Clustered, Regularly Interspaced, Short Palindromic Repeat (CRISPR-Cas9) is now so cheap and widely available that scientists fear that the amateurs will start experimenting with them. In this technique, a DNA sequence is cut off and replaced with a new sequence or code that codes for a particular protein or characteristic, which could potentially show up in the required organism. Though this technique is a breakthrough and is commendable, it can cause serious issues and potential danger if used by people with wrong intentions. Concerns have emerged regarding do-it-yourself biology research organizations due to their associated risk that a rogue amateur DIY researcher could attempt to develop dangerous bioweapons using genome editing technology.

In 2002, when CNN went through Al-Qaeda's (AQ's) experiments with crude poisons, they found out that AQ had begun planning ricin and cyanide attacks with the help of a loose association of terrorist cells. The associates had infiltrated many countries like Turkey, Italy, Spain, France and others. In 2015, to combat the threat of bioterrorism, a National Blueprint for Biodefense was issued by the Blue-Ribbon Study Panel on Biodefense. Also, 233 potential exposures of select biological agents outside of the primary barriers of the biocontainment in the US were described by the annual report of the Federal Select Agent Program.

Though a verification system can reduce bioterrorism, an employee, or a lone terrorist having adequate knowledge of the company facilities, can cause potential danger by injecting a deadly or harmful substance into the facility. Moreover, it has been found that about 95% of accidents that have occurred due to low security have been done by employees or those who had a security clearance.

Entomology

Entomological warfare (EW) is a type of biological warfare that uses insects to attack the enemy. The concept has existed for centuries and research and development have continued into the modern era. EW has been used in battle by Japan and several other nations have developed and been accused of using an entomological warfare program. EW may employ insects in a direct attack or as vectors to deliver a biological agent, such as plague. Essentially, EW exists in three varieties. One type of EW involves infecting insects with a pathogen and then dispersing the insects over target areas. The insects then act as a vector, infecting any person or animal they might bite. Another type of EW is a direct insect attack against crops; the insect may not be infected with any pathogen but instead represents a threat to agriculture. The final method uses uninfected insects, such as bees or wasps, to directly attack the enemy.

Genetics

Theoretically, novel approaches in biotechnology, such as synthetic biology could be used in the future to design novel types of biological warfare agents.

  1. Would demonstrate how to render a vaccine ineffective;
  2. Would confer resistance to therapeutically useful antibiotics or antiviral agents;
  3. Would enhance the virulence of a pathogen or render a nonpathogen virulent;
  4. Would increase the transmissibility of a pathogen;
  5. Would alter the host range of a pathogen;
  6. Would enable the evasion of diagnostic/detection tools;
  7. Would enable the weaponization of a biological agent or toxin.

Most of the biosecurity concerns in synthetic biology are focused on the role of DNA synthesis and the risk of producing genetic material of lethal viruses (e.g. 1918 Spanish flu, polio) in the lab. Recently, the CRISPR/Cas system has emerged as a promising technique for gene editing. It was hailed by The Washington Post as "the most important innovation in the synthetic biology space in nearly 30 years." While other methods take months or years to edit gene sequences, CRISPR speeds that time up to weeks. Due to its ease of use and accessibility, it has raised a number of ethical concerns, especially surrounding its use in the biohacking space.

By target

Anti-personnel

The international biological hazard symbol

Ideal characteristics of a biological agent to be used as a weapon against humans are high infectivity, high virulence, non-availability of vaccines and availability of an effective and efficient delivery system. Stability of the weaponized agent (the ability of the agent to retain its infectivity and virulence after a prolonged period of storage) may also be desirable, particularly for military applications, and the ease of creating one is often considered. Control of the spread of the agent may be another desired characteristic.

The primary difficulty is not the production of the biological agent, as many biological agents used in weapons can be manufactured relatively quickly, cheaply and easily. Rather, it is the weaponization, storage, and delivery in an effective vehicle to a vulnerable target that pose significant problems.

For example, Bacillus anthracis is considered an effective agent for several reasons. First, it forms hardy spores, perfect for dispersal aerosols. Second, this organism is not considered transmissible from person to person, and thus rarely if ever causes secondary infections. A pulmonary anthrax infection starts with ordinary influenza-like symptoms and progresses to a lethal hemorrhagic mediastinitis within 3–7 days, with a fatality rate that is 90% or higher in untreated patients. Finally, friendly personnel and civilians can be protected with suitable antibiotics.

Agents considered for weaponization, or known to be weaponized, include bacteria such as Bacillus anthracis, Brucella spp., Burkholderia mallei, Burkholderia pseudomallei, Chlamydophila psittaci, Coxiella burnetii, Francisella tularensis, some of the Rickettsiaceae (especially Rickettsia prowazekii and Rickettsia rickettsii), Shigella spp., Vibrio cholerae, and Yersinia pestis. Many viral agents have been studied and/or weaponized, including some of the Bunyaviridae (especially Rift Valley fever virus), Ebolavirus, many of the Flaviviridae (especially Japanese encephalitis virus), Machupo virus, Coronaviruses (especially SARS-Cov-2 that causes COVID-19), Marburg virus, Variola virus, and yellow fever virus. Fungal agents that have been studied include Coccidioides spp.

Toxins that can be used as weapons include ricin, staphylococcal enterotoxin B, botulinum toxin, saxitoxin, and many mycotoxins. These toxins and the organisms that produce them are sometimes referred to as select agents. In the United States, their possession, use, and transfer are regulated by the Centers for Disease Control and Prevention's Select Agent Program.

The former US biological warfare program categorized its weaponized anti-personnel bio-agents as either Lethal Agents (Bacillus anthracis, Francisella tularensis, Botulinum toxin) or Incapacitating Agents (Brucella suis, Coxiella burnetii, Venezuelan equine encephalitis virus, Staphylococcal enterotoxin B).

Anti-agriculture

Anti-crop/anti-vegetation/anti-fisheries

The United States developed an anti-crop capability during the Cold War that used plant diseases (bioherbicides, or mycoherbicides) for destroying enemy agriculture. Biological weapons also target fisheries as well as water-based vegetation. It was believed that the destruction of enemy agriculture on a strategic scale could thwart Sino-Soviet aggression in a general war. Diseases such as wheat blast and rice blast were weaponized in aerial spray tanks and cluster bombs for delivery to enemy watersheds in agricultural regions to initiate epiphytotic (epidemics among plants). On the other hand, some sources report that these agents were stockpiled but never weaponized. When the United States renounced its offensive biological warfare program in 1969 and 1970, the vast majority of its biological arsenal was composed of these plant diseases. Enterotoxins and Mycotoxins were not affected by Nixon's order.

Though herbicides are chemicals, they are often grouped with biological warfare and chemical warfare because they may work in a similar manner as biotoxins or bioregulators. The Army Biological Laboratory tested each agent and the Army's Technical Escort Unit was responsible for the transport of all chemical, biological, radiological (nuclear) materials.

Biological warfare can also specifically target plants to destroy crops or defoliate vegetation. The United States and Britain discovered plant growth regulators (i.e., herbicides) during the Second World War, which were then used by the UK in the counterinsurgency operations of the Malayan Emergency. Inspired by the use in Malaysia, the US military effort in the Vietnam War included a mass dispersal of a variety of herbicides, famously Agent Orange, with the aim of destroying farmland and defoliating forests used as cover by the Viet Cong. Sri Lanka deployed military defoliants in its prosecution of the Eelam War against Tamil insurgents.

Anti-livestock

During World War I, German saboteurs used anthrax and glanders to sicken cavalry horses in U.S. and France, sheep in Romania, and livestock in Argentina intended for the Entente forces. One of these German saboteurs was Anton Dilger. Also, Germany itself became a victim of similar attacks – horses bound for Germany were infected with Burkholderia by French operatives in Switzerland.

During World War II, the U.S. and Canada secretly investigated the use of rinderpest, a highly lethal disease of cattle, as a bioweapon.

In the 1980s Soviet Ministry of Agriculture had successfully developed variants of foot-and-mouth disease, and rinderpest against cows, African swine fever for pigs, and psittacosis to kill the chicken. These agents were prepared to spray them down from tanks attached to airplanes over hundreds of miles. The secret program was code-named "Ecology".

During the Mau Mau Uprising in 1952, the poisonous latex of the African milk bush was used to kill cattle.

Defensive operations

Medical countermeasures

In 2010 at The Meeting of the States Parties to the Convention on the Prohibition of the Development, Production and Stockpiling of Bacteriological (Biological) and Toxin Weapons and Their Destruction in Geneva the sanitary epidemiological reconnaissance was suggested as well-tested means for enhancing the monitoring of infections and parasitic agents, for the practical implementation of the International Health Regulations (2005). The aim was to prevent and minimize the consequences of natural outbreaks of dangerous infectious diseases as well as the threat of alleged use of biological weapons against BTWC States Parties.

Public health and disease surveillance

It is important to note that most classical and modern biological weapons' pathogens can be obtained from a plant or an animal which is naturally infected.

In the largest biological weapons accident known—the anthrax outbreak in Sverdlovsk (now Yekaterinburg) in the Soviet Union in 1979—sheep became ill with anthrax as far as 200 kilometers from the release point of the organism from a military facility in the southeastern portion of the city and still off-limits to visitors today, (see Sverdlovsk Anthrax leak).

Thus, a robust surveillance system involving human clinicians and veterinarians may identify a bioweapons attack early in the course of an epidemic, permitting the prophylaxis of disease in the vast majority of people (and/or animals) exposed but not yet ill.

For example, in the case of anthrax, it is likely that by 24–36 hours after an attack, some small percentage of individuals (those with the compromised immune system or who had received a large dose of the organism due to proximity to the release point) will become ill with classical symptoms and signs (including a virtually unique chest X-ray finding, often recognized by public health officials if they receive timely reports). The incubation period for humans is estimated to be about 11.8 days to 12.1 days. This suggested period is the first model that is independently consistent with data from the largest known human outbreak. These projections refine previous estimates of the distribution of early-onset cases after a release and support a recommended 60-day course of prophylactic antibiotic treatment for individuals exposed to low doses of anthrax. By making these data available to local public health officials in real time, most models of anthrax epidemics indicate that more than 80% of an exposed population can receive antibiotic treatment before becoming symptomatic, and thus avoid the moderately high mortality of the disease.

Common epidemiological warnings

From most specific to least specific:

  1. Single cause of a certain disease caused by an uncommon agent, with lack of an epidemiological explanation.
  2. Unusual, rare, genetically engineered strain of an agent.
  3. High morbidity and mortality rates in regards to patients with the same or similar symptoms.
  4. Unusual presentation of the disease.
  5. Unusual geographic or seasonal distribution.
  6. Stable endemic disease, but with an unexplained increase in relevance.
  7. Rare transmission (aerosols, food, water).
  8. No illness presented in people who were/are not exposed to "common ventilation systems (have separate closed ventilation systems) when illness is seen in persons in close proximity who have a common ventilation system."
  9. Different and unexplained diseases coexisting in the same patient without any other explanation.
  10. Rare illness that affects a large, disparate population (respiratory disease might suggest the pathogen or agent was inhaled).
  11. Illness is unusual for a certain population or age-group in which it takes presence.
  12. Unusual trends of death and/or illness in animal populations, previous to or accompanying illness in humans.
  13. Many affected reaching out for treatment at the same time.
  14. Similar genetic makeup of agents in affected individuals.
  15. Simultaneous collections of similar illness in non-contiguous areas, domestic, or foreign.
  16. An abundance of cases of unexplained diseases and deaths.

Bioweapon identification

The goal of biodefense is to integrate the sustained efforts of the national and homeland security, medical, public health, intelligence, diplomatic, and law enforcement communities. Health care providers and public health officers are among the first lines of defense. In some countries private, local, and provincial (state) capabilities are being augmented by and coordinated with federal assets, to provide layered defenses against biological weapon attacks. During the first Gulf War the United Nations activated a biological and chemical response team, Task Force Scorpio, to respond to any potential use of weapons of mass destruction on civilians.

The traditional approach toward protecting agriculture, food, and water: focusing on the natural or unintentional introduction of a disease is being strengthened by focused efforts to address current and anticipated future biological weapons threats that may be deliberate, multiple, and repetitive.

The growing threat of biowarfare agents and bioterrorism has led to the development of specific field tools that perform on-the-spot analysis and identification of encountered suspect materials. One such technology, being developed by researchers from the Lawrence Livermore National Laboratory (LLNL), employs a "sandwich immunoassay", in which fluorescent dye-labeled antibodies aimed at specific pathogens are attached to silver and gold nanowires.

In the Netherlands, the company TNO has designed Bioaerosol Single Particle Recognition eQuipment (BiosparQ). This system would be implemented into the national response plan for bioweapon attacks in the Netherlands.

Researchers at Ben Gurion University in Israel are developing a different device called the BioPen, essentially a "Lab-in-a-Pen", which can detect known biological agents in under 20 minutes using an adaptation of the ELISA, a similar widely employed immunological technique, that in this case incorporates fiber optics.

List of programs, projects and sites by country

United States

United Kingdom

Soviet Union and Russia

Japan

U.S. authorities granted Unit 731 officials immunity from prosecution in return for access to their research.

Iraq

South Africa

Rhodesia

Canada

List of associated people

Bioweaponeers:

Includes scientists and administrators

Writers and activists:

Climate change in the United States

Average temperatures in almost all regions in the U.S. have increased in the last 120 years.
 
In recent decades in the U.S., the percentage of record high daily temperatures has predominated over record daily low temperatures, with record daily highs now more than twice that of record daily lows.

The climate of the United States is changing in ways that are widespread and varied. From 2011 to 2020, the United States experienced its hottest decade on record. Different regions experience widely different climatic changes. Changes in climate in the regions of the United States appear significant. For example, drought conditions appear to be worsening in the southwest while improving in the northeast. Generally, states that emit more carbon dioxide per person and prevent climate action are suffering more.

Cumulatively, the U.S. has emitted a larger share than any country of the greenhouse gases causing current climate change, with some 20% of the global total of carbon dioxide alone. Current US emissions per person are among the largest in the world. In 2021, the country set a target of halving its annual greenhouse gas emissions by 2030.

Oil companies have known since the 1970s that burning oil and gas could cause global warming but nevertheless funded deniers for years. As of 2021 a third of Americans deny that human caused climate change exists. 2020 was a historic year for billion-dollar weather and climate disasters in U.S. Research has forecast increasing spread of invasive species and floods, and of droughts. Climate change has been seen as a national security threat to the United States.

Greenhouse gas emissions

Greenhouse gas emissions per capita for the eight highest emitting countries

US greenhouse gas emissions by economic sector

  Transportation (28.6%)
  Electricity generation (25.1%)
  Industry (22.9%)
  Agriculture (10.2%)
  Commercial (6.9%)
  Residential (5.8%)
  U.S. territories (0.4%)
 
The United States produced 6.6 billion metric tons of carbon dioxide equivalent greenhouse gas (GHG) emissions in 2019, the second largest in the world after greenhouse gas emissions by China and among the countries with the highest greenhouse gas emissions per person. In 2019 China is estimated to have emitted 27% of world GHG, followed by the United States with 11%, then India with 6.6%. In total the United States has emitted a quarter of world GHG, more than any other country. Annual emissions are over 15 tonnes per person and, amongst the top eight emitters, is the highest country by greenhouse gas emissions per person. Because coal-fired power stations are gradually shutting down, in the 2010s emissions from electricity generation fell to second place behind transportation which is now the largest single source. In 2019, 29% of the GHG emissions of the United States were from transportation, 25% from electricity, 23% from industry, 13% from commercial and residential buildings and 10% from agriculture. These greenhouse gas emissions are contributing to climate change in the United States as well as worldwide.

Impact on the natural environment

Temperature and weather changes

Human-induced climate change has the potential to alter the prevalence and severity of extreme weather events such as heat waves, cold waves, storms, floods and droughts. A 2012 Intergovernmental Panel on Climate Change (IPCC) report confirmed that a strong body of evidence links global warming to an increase in heat waves, a rise in episodes of heavy rainfall and other precipitation, and more frequent coastal flooding. March 2020 placed second to 2016 for being the second-hottest March on record with an average of 2.09 Fahrenheit (1.16 Celsius) above that of the 20th-century.

According to the American government's Climate Change Science Program, "With continued global warming, heat waves and heavy downpours are very likely to further increase in frequency and intensity. Substantial areas of North America are likely to have more frequent droughts of greater severity. Hurricane wind speeds, rainfall intensity, and storm surge levels are likely to increase. The strongest cold season storms are likely to become more frequent, with stronger winds and more extreme wave heights."

In July 2012, the National Oceanic and Atmospheric Administration (NOAA) reported that the 12-month period July 2011 to June 2012 was the warmest 12-month period on record in the continental United States, with average temperature 3.23 °F above the average for the 20th century. Earlier it was reported that exceptionally warm months between January and May 2012 had made the 12 month previous to June 2012 the warmest 12-month block since record keeping began, but this record was exceeded by the July 2011 to June 2012 period. NOAA stated that the odds of the July 2011 to June 2012 high temperatures occurring randomly was 1 in 1,594,323.

Current/past Köppen climate classification map for the United States for 1980–2016
 
Predicted Köppen climate classification map for the United States for 2071–2100

Extreme weather events

Extreme precipitation events have become more common over recent decades.

The number and severity of high-cost extreme weather events has increased in the 21st century in the United States, and some of these are because of global warming. By August 2011 alone, the NOAA had registered nine distinct extreme weather disasters for that year, each totalling $1 billion or more in economic losses. Total losses for 2011 were evaluated as more than $35 billion before Hurricane Irene.

Though the costs and frequency of cyclones have increased on the east coast, it remains unclear whether these effects have been driven primarily by climate change. When correcting for this, a comprehensive 2006 article in Geophysical Research Letters found "no significant change in global net tropical cyclone activity" during past decades, a period when considerable warming of ocean water temperatures occurred. However, the study found major regional shifts, including a general rise of activity in the North Atlantic area, including on the U.S. eastern coast.

From 1898 through 1913, there have been 27 cold waves which totalled 58 days. Between 1970 and 1989, there were about 12 such events. From 1989 until January 6, 2014, there were none. The one on the latter date caused consternation because of decreased frequency of such experiences.

Looking at the lack of certainty as to the causes of the 1995 to present increase in Atlantic extreme storm activity, a 2007 article in Nature used proxy records of vertical wind shear and sea surface temperature to create a long-term model. The authors found that "the average frequency of major hurricanes decreased gradually from the 1760s until the early 1990s, reaching anomalously low values during the 1970s and 1980s." As well, they also found that "hurricane activity since 1995 is not unusual compared to other periods of high hurricane activity in the record and thus appears to represent a recovery to normal hurricane activity, rather than a direct response to increasing sea surface temperature." The researches stated that future evaluations of climate change effects should focus on the magnitude of vertical wind shear for answers.

The frequency of tornadoes in the U.S. has increased, and some of this trend takes place due to climatological changes though other factors such as better detection technologies also play large roles. According to a 2003 study in Climate Research, the total tornado hazards resulting in injury, death, or economic loss "shows a steady decline since the 1980s." The authors reported that tornado "deaths and injuries decreased over the past fifty years." They state that additional research must look into regional and temporal variability in the future.

Heat waves

Wildfire near Mount Shasta, California

From the 1960s the amount and longevity of heat waves have increased in the contiguous United States. The general effect of climate changes has been found in the journal Nature Climate Change to have caused increased likelihood of heat waves and extensive downpours. Concerns exist that, as stated by a National Institutes of Health (NIH) study in 2003, increasing "heat and humidity, at least partially related to anthropogenic climate change, suggest that a long-term increase in heat-related mortality could occur." However, the report found that, in general, "over the past 35 years, the U.S. populace has become systematically less affected by hot and humid weather conditions" while "mortality during heat stress events has declined despite increasingly stressful weather conditions in many urban and suburban areas." Thus, as stated in the study, "there is no simple association between increased heat wave duration or intensity and higher mortality rates" with current death rates being largely preventable, the NIH deeply urging American public health officials and physicians to inform patients about mitigating heat-related weather and climate effects on their bodies.

In 2021 an unprecedented heat wave occurred in the northwest linked to climate change. The heatwave brought temperatures close to 50 °C to many areas that generally do not experience such heat like Portland, Seattle, killed 500 people and caused 180 wildfires in British Columbia in Canada. The heat wave was made 150 times more likely by climate change. According to World Weather Attribution such events occur every 1,000 years in today climate but if the temperature will rise by 2 degrees above preindustrial levels, such events will occur each 5 – 10 years. However, it was more severe than predicted climate models. Significant impacts in that area were expected in the Pacific Northwest only by the middle of the 21st century. Currently, scientists search ways to make the predictions more accurate because: "researchers need to assess whether places such as North America or Germany will face extremes like the heat dome and the floods every 20 years, 10 years, five years – or maybe even every year. This level of accuracy currently isn’t possible".

Droughts

This graph shows average drought conditions in the contiguous 48 states, according to the EPA, with yearly data going from 1895 to 2011. The curve is a nine-year weighted average. Wet and rainy conditions versus moments of drought in the U.S. have varied significantly over the past several decades.

In terms of U.S. droughts, a study published in Geophysical Research Letters in 2006 about the U.S. reported, "Droughts have, for the most part, become shorter, less frequent, and cover a smaller portion of the country over the last century." It also stated that the "main exception is the Southwest and parts of the interior of the West" where "drought duration and severity... have increased."

Average conditions for the 48 contiguous states flashed into extreme drought in the mid-1930s 'dust bowl' era as well as during the turn of the 20th century. In comparison, the mid-2000s decade and mid-1890s experienced only slight drought and had mitigating rainy periods. The National Drought Mitigation Center has reported that financial assistance from the government alone in the 1930s dry period may have been as high as $1 billion (in 1930s dollars) by the end of the drought.

In the years 2000 - 2021 a megadrought has persisted in the Western parts of the United States. Climate change increased temperature, reduced the amount of precipitation, decreased snowpack and increased the ability of air to soak humidity, helping to create arid conditions. As of 2021 the drought was the most severe in the last 500 years. As of 30 June 2021 61% of continental USA were in drought conditions. Demand for water and cooling rose. In June 2021 water restrictions entered into force in California. Climate change is responsible for 50% of the severity of the drought in California. Water restrictions are expected to expand on many states in the US west, farmers are already affected. In San Francisco a hydropower plant can stop work due to lack of water.

Weakened polar vortex jet stream

Climate scientists have hypothesised that the stratospheric polar vortex jet stream will gradually weaken as a result of global warming and thus influence U.S. conditions. This trend could possibly cause changes in the future such as increasing frost in certain areas. The magazine Scientific American noted in December 2014 that ice cover on the Great Lakes had recently "reached its second-greatest extent on record", showing climate variability. In February 2021 when the United States, officially rejoined the Paris Agreement, John Kerry spoke about it, mentioning the latest extreme cold events in the USA that in his opinion: "related to climate because the polar vortex penetrates further south because of the weakening of the jet stream related to warming." This opinion is shared by many climate scientists.

Sea level rise

Sea level rise has taken place in the U.S. for decades, going back to the 19th century. As stated in research published by the Proceedings of the National Academy of Sciences, west coast sea levels have increased by an average of 2.1 millimeters annually (0.083 inches per year, or 0.83 inches per decade). In USA, 40% of the population live near the coast, and are therefore vulnerable to sea level rise. For almost all coastal areas of the US, except for Alaska, the future rise in sea level is expected to be higher than the global average.

The U.S. Geological Survey has conducted research on sea level rise, addressing coastal vulnerability, and incorporating six physical variables to analyze the changes in sea level: geomorphology, coastal slope (percent), rate of relative sea level rise (mm/yr), shoreline erosion and acceleration rates (m/yr), mean tidal range (m), and mean wave height (m). The research was conducted on the various coastline areas of the United States. Along the Pacific coast, the most vulnerable areas are low-lying beaches, and "their susceptibility is primarily a function of geomorphology and coastal slope." From research along the Atlantic coast, the most vulnerable areas to sea level rise were found to be along the Mid-Atlantic coast (Maryland to North Carolina) and Northern Florida, since these are "typically high-energy coastlines where the regional coastal slope is low and where the major landform type is a barrier island." For the Gulf coast, the most vulnerable areas are along the Louisiana-Texas coast. According to the results, "the highest-vulnerability areas are typically lower-lying beach and marsh areas; their susceptibility is primarily a function of geomorphology, coastal slope and rate of relative sea-level rise."

Coastal regions would be most affected by rising sea levels. The increase in sea level along the coasts of continents, especially North America are much more significant than the global average. According to 2007 estimates by the International Panel on Climate Change (IPCC), "global average sea level will rise between 0.6 and 2 feet (0.18 to 0.59 meters) in the next century. Along the U.S. Mid-Atlantic and Gulf Coasts, however, sea level rose in the last century 5 to 6 inches more than the global average. This is due to the subsiding of coastal lands. The sea level along the U.S. Pacific coast has also increased more than the global average, but less than along the Atlantic coast. This can be explained by the varying continental margins along both coasts; the Atlantic type continental margin is characterized by a wide, gently sloping continental shelf, while the Pacific type continental margin incorporates a narrow shelf and slope descending into a deep trench. Since low-sloping coastal regions should retreat faster than higher-sloping regions, the Atlantic coast is more vulnerable to sea level rise than the Pacific coast.

A rise in sea level will have a negative impact not only on coastal property and economy, but on our supply of fresh water. According to the EPA, "Rising sea level increases the salinity of both surface water and ground water through salt water intrusion." Coastal estuaries and aquifers are therefore at a high risk of becoming too saline from rising sea levels. With respect to estuaries, an increase in salinity would threaten aquatic animals and plants that cannot tolerate high levels of salinity. Aquifers often serve as a primary water supply to surrounding areas, such as Florida's Biscayne aquifer, which receives freshwater from the Everglades and then supplies water to the Florida Keys. Rising sea levels would submerge low-lying areas of the Everglades, and salinity would greatly increase in portions of the aquifer. The considerable rise in sea level and the decreasing amounts of freshwater along the Atlantic and Gulf coasts would make those areas rather uninhabitable. Many economists predict that global warming will be one of the main economic threats to the West Coast, specifically in California. "Low-lying coastal areas, such as along the Gulf Coast, are particularly vulnerable to sea-level rise and stronger storms—and those risks are reflected in rising insurance rates and premiums. In Florida, for example, the average price of a homeowners' policy increased by 77 percent between 2001 and 2006."

Another important coastal habitat that is threatened by sea level rise is wetlands, which "occur along the margins of estuaries and other shore areas that are protected from the open ocean and include swamps, tidal flats, coastal marshes and bayous." Wetlands are extremely vulnerable to rising sea levels, since they are within several feet of sea level. The threat posed to wetlands is serious, due to the fact that they are highly productive ecosystems, and they have an enormous impact on the economy of surrounding areas. Wetlands in the U.S. are rapidly disappearing due to an increase in housing, industry, and agriculture, and rising sea levels contribute to this dangerous trend. As a result of rising sea levels, the outer boundaries of wetlands tend to erode, forming new wetlands more inland. According to the EPA, "the amount of newly created wetlands, however, could be much smaller than the lost area of wetlands— especially in developed areas protected with bulkheads, dikes, and other structures that keep new wetlands from forming inland." When estimating a sea level rise within the next century of 50 cm (20 inches), the U.S. would lose 38% to 61% of its existing coastal wetlands.

Beachfront property is at risk from eroding land and rising sea levels. Since the threat posed by rising sea levels has become more prominent, property owners and local government have taken measures to prepare for the worst. For example, "Maine has enacted a policy declaring that shorefront buildings will have to be moved to enable beaches and wetlands to migrate inland to higher ground." Additionally, many coastal states add sand to their beaches to offset shore erosion, and many property owners have elevated their structures in low-lying areas. As a result of the erosion and ruin of properties by large storms on coastal lands, governments have looked into buying land and having residents relocate further inland.

Locations in the US with low elevation above sea level

Impact on people

At least 72% of Chinese, American and European respondents to a 2020−2021 European Investment Bank climate survey stated that climate change had an impact on everyday life.

Economic impacts

An article in Science predicts that the Southern states, such as Texas, Florida, and the Deep South will be economically affected by climate change more severely than northern states, some of which would even gain “moderate benefits.”

Agriculture and food security

The 2018 the Fourth National Climate Assessment notes that regional economies dominated by agriculture may have additional vulnerabilities from climate change. Joseph Stiglitz, Nobel prize-winning economist, notes that climate-related disasters in 2017 cost the equivalent of 1.5% of GDP. Crop and livestock production will be increasingly challenged.

A 2012 report in Nature Climate Change stated that there is reason to be concerned that American climate changes could increase food insecurity by reducing grain yields, with the authors noting as well that substantial other facts exist influencing food prices such as government mandates turning food into fuel and fluctuating transport costs. The researchers concluded that U.S. corn price volatility would moderately increase with American warming with relatively modest rises in food prices assuming that market competition and integration partly mitigated climate affects. They warned that biofuels mandates would, if present, widely increase corn price sensitivity to U.S. warming.

Climate change and agriculture are complexly related processes. In the United States, agriculture is the second largest emitter of greenhouse gases (GHG), behind the energy sector. Direct GHG emissions from the agricultural sector account for 8.4% of total U.S. emissions, but the loss of soil organic carbon through soil erosion indirectly contributes to emissions as well. While agriculture plays a role in propelling climate change, it is also affected by the direct (increase in temperature, change in rainfall, flooding, drought) and secondary (weed, pest, disease pressure, infrastructure damage) consequences of climate change. USDA research indicates that these climatic changes will lead to a decline in yield and nutrient density in key crops, as well as decreased livestock productivity. Climate change poses unprecedented challenges to U.S. agriculture due to the sensitivity of agricultural productivity and costs to changing climate conditions. Rural communities dependent on agriculture are particularly vulnerable to climate change threats.

The US Global Change Research Program (2017) identified four key areas of concern in the agriculture sector: reduced productivity, degradation of resources, health challenges for people and livestock, and the adaptive capacity of agriculture communities.

Large-scale adaptation and mitigation of these threats relies on changes in farming policy.

Cost of disaster relief

NOAA's National Centers for Environmental Information (NCEI) has reported growing numbers of weather and climate-related events costing at least a billion dollars, exceeding the 1980–2019 inflation-adjusted average of 6.6 such events.

Since 1980, the United States has experienced 308 climate and weather related disasters, costing more than $2.085 trillion in total.

In 2013, there were 11 weather and climate disaster events with losses over $1 billion each in the United States. In total these 11 events losses were over $110 billion. 2013 was the warmest year ever in the contiguous United States and about one-third of all Americans experienced 10 days or more of 100-degree heat. According to NOAA's National Centers for Environmental Information (NCEI), 2020 set the new annual record of 22 climate-related disasters, each exceeding losses of $1 billion.

These increasingly common and severe weather events have put pressure on existing disaster-relief efforts. For instance, the increasing rate of wildfires, the increasing length of the fire season, and increasing severity have put pressure on national and international resources. In the US, federal firefighting efforts surpassed $2 billion a year for the first time in 2017, and this expense was repeated in 2018. At the same time, internationally shared capital, such as firefighting planes, has experienced increasing demand, requiring new investment.

Health impacts

Climate change is expected to pose increased threats to human health.

Impacts on migration

Climate change increases migration to the United States from Central America.

Impacts on indigenous peoples

According to Indigenous scholars such as Daniel Wildcat, Zoe Todd, and Kyle Whyte, the experience of modern climate change echoes previous experiences of environmental damage and territorial displacement brought about by European settlement. Colonial practices such as damming and deforestation forced Indigenous peoples to adapt to unfamiliar climates and environments. Thus, the impacts of global climate change are viewed as being not separate from but rather an intensification of the impacts of settler colonialism.

Indigenous scholars and activists argue that colonialist policies—prioritizing exploitation and commoditization of resources over Indigenous teachings favoring environmental stability and seeking a symbiotic relation with nature—have fueled climate change. The United Nations Department of Economic and Social Affairs has stated that "Indigenous peoples are among the first to face the direct consequences of climate change, due to their dependence upon, and close relationship, with the environment and its resources."

Coastal

Native peoples residing on the Gulf and West Coasts are affected by the rising sea temperatures because that makes the fish and shellfish, that they rely on for food and cultural activities, more susceptible to contamination.

California

Climate change has wiped out much of the salmonids and acorns that were a significant portion of the Karuk people's traditional diet.

Hawai’i Tribes

In the last century, climate change has played a part in causing "between 90 and 95 percent of Hawai'i's dryland forests" to disappear, which is especially important because many of the native species that exist in Hawai’i cannot be found anywhere else on earth.

Indigenous communities developed agroecosystems that could have had production levels comparable to consumption today. As such, Indigenous agroecosystems may help climate change mitigation.

Great Lakes Tribes

Exploitation practices produce pollution and introduce non-native species, promoting the intensity of climate change. Conservation efforts of the Great Lakes ecosystems are necessary in order to prevent climate change from doing further damage to the environment and the Indigenous communities living there.

Increasing temperatures have stunted the growth of wild rice, negatively impacting the Anishinaabe and Ojibwe people's health and culture.

Indigenous Alaskans

Kivalina, Alaska is threatened by rising sea levels and coastal erosion.

Thinning sea ice on which some Alaskan tribes traditionally rely for hunting contributes to climigration—migration caused by climate change, a term originally was coined for Arctic Alaska towns and villages. The policy advisor for the National Congress of American Indians has stated that "among indigenous peoples in North America, the Native Americans who continue to practice traditional and subsistence lifestyles to perhaps the highest degree are those in Alaska, where 80% of the diet comes from the immediate surroundings”.

Coastal erosion and rising sea levels caused by climate change have threatened coastal communities. For example, reports suggest that melting permafrost, repeated storms, and decrease of land could make Kivalina unlivable by 2025, though some residents do not have the enough money to relocate. Sea ice that historically sheltered the town has retreated, and storms that would have previously hit the ice now reach the town. The decline in ice sheets has been directly linked to a decline in the population of polar bears on which many Indigenous people rely.

Because of melting ice, global climate change makes Arctic Indigenous lands more accessible for resource extraction. Whyte cites a source saying that this increased accessibility brings oil production projects having laborers' camps that "attract violent sex trafficking of Indigenous persons".

Wildfires impact both urban and rural communities, and Indigenous and non-Indigenous communities. However, Indigenous communities do not have the same economic resources to deal with these fires, and their lifestyles and cultures are more dependent on the land. Rural communities rely more on surrounding land for wild food harvest and nutritional intake, and thus are at risk for food insecurity.

Warming temperatures in the Arctic allow beavers to extend their habitat further north, where their dams impair boat travel, impact access to food, affect water quality, and endanger downstream fish populations. Pools formed by the dams store heat, thus changing local hydrology and causing localized thawing of permafrost that in turn contributes to global warming.

Southwest

The Navajo Nation will experience increasing droughts and air pollution from dust.

Water resources are also affected. In particular, about a third of the Navajo Nation people need to physically attain their own water. Damage to their water resources poses as dangers to overall health and crop failures. In Arizona, rising temperatures and more severe rain events will likely exacerbate existing water purity problems, resulting in increased diarrhea and stomach problems, especially among children.

Northeast

In Maine, habitat loss and increasing temperatures, especially in the colder seasons, encourage the survival of ticks. This harms moose populations that Indigenous people have historically relied on.

Impact on security

Climate change is a threat to the national security of the United States, according to the Defense secretary. President Joe Biden claims that top military officials described climate change as the biggest threat to the security of the country. Army Gen. Mark Milley, the chairman of the Joint Chiefs of Staff said in reaction that from a strictly military point of view Russia and China are the biggest threats but national security is a much broader issue.

Mitigation and adaptation

Mitigation

Adaptation

The state of California enacted the first comprehensive state-level climate action plan with its 2009 "California Climate Adaptation Strategy." California's electrical grid has been impacted by the increased fire risks associated with climate change. In the 2019 "red flag" warning about the possibility of wildfires declared in some areas of California, the electricity company Pacific Gas and Electric (PG&E) was required to shut down power to prevent inflammation of trees that touch the electricity lines. Millions were impacted.

Within the state of Florida four counties (Broward, Miami-Dade, Monroe, Palm Beach) have created the Southeast Florida Regional Climate Change Compact in order to coordinate adaptation and mitigation strategies to cope with the impact of climate change on the region. The Commonwealth of Massachusetts has issued grants to coastal cities and towns for adaptation activities such as fortification against flooding and preventing coastal erosion.

New York State is requiring climate change be taken into account in certain infrastructure permitting, zoning, and open space programs; and is mapping sea level rise along its coast. After Hurricane Sandy, New York and New Jersey accelerated voluntary government buy-back of homes in flood-prone areas. New York City announced in 2013 it planned to spend between $10 and $20 billion on local flood protection, reduction of the heat island effect with reflective and green roofs, flood-hardening of hospitals and public housing, resiliency in food supply, and beach enhancement; rezoned to allow private property owners to move critical features to upper stories; and required electrical utilities to harden infrastructure against flooding.

In 2019, a $19.1 billion "disaster relief bill" was approved by the Senate. The bill should help the victims of extreme weather that was partly fueled by climate change.

Traditional Ecological Knowledge (TEK)

A 2013 USDA Technical Report stated that Indigenous peoples' traditional ecological knowledge (TEK) has the potential to play a vital role in indigenous climate change assessment and adaptation efforts, and that contributions from both Western science and TEK knowledge systems are imperative. Bridging these two knowledge systems is said to “produce() a better understanding of the issue than either would alone.”

Western climate science and TEK represent complementary and overlapping views of the causes and consequences of change. TEK provides information about changes in the natural world useful for adaptation at the community level, information that is not readily available to western science observations. Specifically, TEK—described as the "accumulation of highly localized, experiential, place-based wisdom over a long period, most often passed down orally from generation to generation"—provides wisdom for community-level adaptation. TEK often focuses on phenology (the study of the dates of recurrent natural events such as the flowering of certain plants or the first or last appearance of migrant birds) in relation to seasonal climatic changes. TEK-based adaptations include traditional food substitutions, and adjusting timing sequences of hunting, gathering, and fishing.

Policies and legislation

Federal, state, and local governments have all debated climate change policies, but the resulting laws vary considerably. The U.S. Congress has not adopted a comprehensive greenhouse gas emissions reduction scheme, but long-standing environmental laws such as the Clean Air Act have been used by the executive branch and litigants in lawsuits to implement regulations and voluntary agreements.

The federal government has the exclusive power to regulate emissions from motor vehicles, but has granted the state of California a waiver to adopt more stringent regulations. Other states may choose to adopt either the federal or California rules. Individual states retain the power to regulate emissions from electrical generation and industrial sources, and some have done so. Building codes are controlled by state and local governments, and in some cases have been altered to require increased energy efficiency. Governments at all levels have the option of reducing emissions from their own operations such as through improvements to buildings, purchasing alternative fuel vehicles, and reducing waste; and some have done so.

Political opponents to emissions regulations argue that such measures reduce economic activity in the fossil fuel industry (which is a substantial extractive industry in the United States), and impose unwanted costs on drivers, electricity users, and building owners. Some also argue that stringent environmental regulations infringe on individual liberty, and that the environmental impact of economic activity should be driven by the informed choices of consumers. Regulatory proponents argue that the economy is not a zero-sum game, and that individual choices have proven insufficient to prevent damaging and costly levels of global warming. Some states have financed programs to boost employment in green energy industries, such as production of wind turbines. Areas heavily dependent on coal production have not taken such steps and are suffering economic recession due to both competition from now lower-priced natural gas and environmental rules that make generation of electricity from coal disadvantageous due to high emissions of CO2 and other pollutants compared to other fuels.

In June 2021 the project Keystone XL, considered a symbol of the battle over climate change and fossil fuels, was cancelled, following strong objections from environmentalists, indigenous peoples and the Joe Biden administration.

State and regional policy

Across the country, regional organizations, states, and cities are achieving real emissions reductions and gaining valuable policy experience as they take action on climate change. According to the report of America's Pledge, 65% of the American population, 51% of the GHG emissions and 68% of the GDP, are now part of different coalitions that support climate action and want to fulfill the commitments of USA in the Paris Agreement. The coalitions include We Are Still In, US Climate Alliance, Climate Mayors and more.

These actions include increasing renewable energy generation, selling agricultural carbon sequestration credits, and encouraging efficient energy use. The U.S. Climate Change Science Program is a joint program of over twenty U.S. cabinet departments and federal agencies, all working together to investigate climate change. In June 2008, a report issued by the program stated that weather would become more extreme, due to climate change. States and municipalities often function as "policy laboratories", developing initiatives that serve as models for federal action. This has been especially true with environmental regulation—most federal environmental laws have been based on state models. In addition, state actions can significantly affect emissions, because many individual states emit high levels of greenhouse gases. Texas, for example, emits more than France, while California's emissions exceed those of Brazil. State actions are also important because states have primary jurisdiction over many areas—such as electric generation, agriculture, and land use—that are critical to addressing climate change.

Many states are participating in Regional climate change initiatives, such as the Regional Greenhouse Gas Initiative in the northeastern United States, the Western Governors' Association (WGA) Clean and Diversified Energy Initiative, and the Southwest Climate Change Initiative.

Inside the ten northeastern states implementing the Regional Greenhouse Gas Initiative, carbon dioxide emissions per capita decreased by about 25% from 2000 and 2010, as the state economies continued to grow while enacting various energy efficiency programs.

International cooperation

The United States, although a signatory to the 1997 Kyoto Protocol, under President Clinton, neither ratified nor withdrew from the protocol. In 1997, the U.S. Senate voted unanimously under the Byrd–Hagel Resolution that it was not the sense of the senate that the United States should be a signatory to the Kyoto Protocol, and in March 2001, the Bush Administration announced that it would not implement the treaty, saying it would create economic setbacks in the U.S. and does not put enough pressure to limit emissions from developing nations. In February 2002, Bush announced his alternative to the Kyoto Protocol, by bringing forth a plan to reduce the intensity of greenhouse gasses by 18 percent over 10 years. The intensity of greenhouse gasses specifically is the ratio of greenhouse gas emissions and economic output, meaning that under this plan, emissions would still continue to grow, but at a slower pace. Bush stated that this plan would prevent the release of 500 million metric tons of greenhouse gases, which is about the equivalent of 70 million cars from the road. This target would achieve this goal by providing tax credits to businesses that use renewable energy sources.

In 2007, the U.S. Supreme Court ruled in the case Massachusetts v. Environmental Protection Agency that EPA regulation of carbon dioxide is required under the Clean Air Act.

President Barack Obama proposed a cap-and-trade program as part of the 2010 United States federal budget, but this was never adopted by Congress.

President Obama committed in the December 2009 Copenhagen Climate Change Summit to reduce carbon dioxide emissions in the range of 17% below 2005 levels by 2020, 42% below 2005 levels by 2030, and 83% below 2005 levels by 2050. Data from an April 2013 report by the Energy Information Administration (EIA), showed a 12% reduction in the 2005 to 2012 period. Just over half of this decrease has been attributed to the recession, and the rest to a variety of factors such as replacing coal-based power generation with natural gas and increasing energy efficiency of American vehicles (according to a Council of Economic Advisors analysis).

In an address to the U.S. Congress in June 2013, the President Obama detailed a specific action plan to achieve the 17% carbon emissions cut from 2005 by 2020, including measures such as shifting from coal-based power generation to solar and natural gas production. Some Republican and Democratic lawmakers expressed concern at the idea of imposing new fines and regulations on the coal industry while the U.S. still tries to recover from the world economic recession, with Speaker of the House John Boehner saying that the proposed rules "will put thousands and thousands of Americans out of work". Christiana Figueres, executive director of the UN's climate secretariat, praised the plan as providing a vital benchmark that people concerned with climate change can use as a paragon both at home and abroad.

After not participating in previous climate international treaties, the United States signed the Paris Agreement on April 22, 2016, during the Obama administration. Though this agreement does not mandate a specific reduction for any given country, it sets global goals, asks countries to set their own goals, and mandates reporting.

The U.S. submitted its action plan in March, 2015, ahead of the treaty signing. Reaffirming the November 2014 announcement it made with China, the United States declared it would reduce greenhouse gas emissions to 26-28% below 2005 levels by 2025. This is to be accomplished by several executive actions:

  • Clean Power Plan - regulating sources of electricity (put on hold by the Supreme Court in February, 2016, pending the outcome of a lawsuit)
  • New emission standards for heavy-duty vehicles, finalized by EPA in March, 2016
  • Department of Energy efficiency standards for commercial buildings, appliances, and equipment
  • Various actions to reduce emissions of greenhouse gases other than carbon dioxide, including regulation and voluntary efforts related to methane from landfills, agriculture, coal mines; and hydrofluorocarbons (HFCs) reduction through domestic regulation and amendment of the Montreal Protocol

In June 2017, President Donald Trump announced United States withdrawal from the Paris Agreement, although the exit process specified by the treaty (which Trump said the U.S. would follow) will last until at least November 4, 2020. Trump states that dropping out the agreement will create more job opportunities in the United States, but it may actually have the opposite effect by stifling the renewable energy industries. At the same time, Trump administration shut down the United States Environmental Protection Agency's climate change web pages and removed mentions of the topic elsewhere on the site. In April 2018, the Trump administration cancelled NASA's Carbon Monitoring System (CMS) program, which helped with the monitoring of CO2 emissions and deforestation in the United States and in other countries. The Trump administration also moved to increase fossil fuel consumption and roll back environmental policies that are considered to be burdensome to businesses.

For offsetting the dismantlement of the Clean Power Plan approximately 10 billion trees would need to be planted. Activists try to plant this number of trees.

In January 2020 Trump announced that the USA would join the Trillion Tree Campaign. Climate activists critiqued the plan for ignoring the root causes of climate change. House Natural Resources Committee Chairman Raul Grijalva critiqued the plan as “a feel-good participatory gesture” without a broader portfolio of environmental actions surrounding it.

In 2019, Democrats proposed a plan for climate action in USA aiming to not sell greenhouse gas emitting cars by 2035, reach zero emissions from the energy sector by 2040 and reduce to zero all the greenhouse gas emission of the country by 2050. The plan includes some actions to improve environmental justice. In 2016, 38% of adults in United States thought that stopping climate change are a top priority which rose to 52% in 2020. Many Republicans share this opinion.

In November 2020 the Federal Reserve asked to join the Network for Greening the Financial System and included Climate Change in the list of risks to the economy. On November 2, Wired published an article about Trump administration efforts to distort and suppress information about climate change by firing the acting chief scientist of the National Oceanic and Atmospheric Administration and distorting the use of climate models at the United States Geological Survey.

On his first day as president, January 20, 2021, Joe Biden signed an executive order pledging that the US would rejoin the Paris Agreement. The US rejoined the agreement on February 19, 2021. This means that countries responsible for two thirds of global greenhouse gas emissions have pledged to become carbon neutral; without the US, it had been half.

Society and culture

Public opinion about climate change

In April 2019, 69% of Americans thought that climate change is happening and 55% thought that it is mostly human caused. In September 2019, approximately 75% thought that climate change is real and man made.

The Yale Program on Climate Change Communication is working on understanding public opinion in the USA about climate change, and how it changes with time. They divided the population of the USA into six categories:

Alarmed: people who think that climate change happens, it is man made, and an urgent threat.

Concerned: people who think climate change exists, it is man made, and it is a serious problem.

Cautious: people that have heard about climate change but are not sure what causes it and are "not very worried about it".

Disengaged: people that do not know much about climate change.

Doubtful: people who think that climate change probably does not exist or it is not man made, but are not sure. They consider climate change as "a low risk".

Dismissive: people that think that man made climate change does not exist, and who mostly oppose climate measures.

Public opinion about climate change in the USA
Category Public opinion in the year 2017 Public opinion in September of the year 2021
Alarmed 18% 33.4%
Concerned 32% 25.3%
Cautious 22% 17%
Disengaged 5% 5%
Doubtful 12% 10%
Dismissive 11% 9%

About 6 of 10 Americans are alarmed or concerned about climate change. Overall, the support for climate policy is growing and across political parties. The "Alarmed" section has almost doubled. The Cautious, Doubtful, and Dismissive groups all shrank through the later years of the study.

Political ideologies

In the United States, Democrats (blue) and Republicans (red) have long differed in views of the importance of addressing climate change, with the gap widening in the late 2010s mainly through Democrats' share increasing by more than 30 points.
 
The sharp divide over the existence of and responsibility for global warming and climate change falls largely along political lines. Overall, 60% of Americans surveyed said oil and gas companies were "completely or mostly responsible" for climate change.

Historical support for environmental protection has been relatively non-partisan. Republican Theodore Roosevelt established national parks whereas Democrat Franklin D. Roosevelt established the Soil Conservation Service. This non-partisanship began to change during the 1980s when the Reagan administration stated that environmental protection was an economic burden. Views over global warming began to seriously diverge among Democrats and Republicans when ratifying the Kyoto Protocol was being debated in 1998. Gaps in opinions among the general public are often amplified among the political elites, such as members of Congress, who tend to be more polarized. A 2017 study by the Center for American Progress Action Fund of climate change denial in the United States Congress found 180 members who deny the science behind climate change; all were Republicans.

Beyond politicians, there is a variety of views by each political party. In March 2014, Gallup found that among Democrats, 45% say they worry a great deal about the quality of the environment while the number drops to 16% for Republicans.

Political disagreement is also strongly rooted in the potential solutions to addressing climate change. Strategies such as a Cap and Trade system are still a heated argument.

On January 20, 2017, within moments of Donald Trump's inauguration, all references to climate change were removed from the White House website. The U.S. has been considered the most authoritative researcher of this information, and there was concern amongst the scientific community as to how the Trump administration would prioritize the issue.

In early indications to news media of the first federal budget process under Donald Trump's administration, there were signs that most efforts under the Obama administration to curb U.S. greenhouse gas emissions would effectively be rolled back.

In July 2018 the Trump Administration released its Draft Environmental Impact Statement from the NHTSA. In it was the prediction that on our current course the planet will warm a disastrous seven degrees Fahrenheit (or about 3.9 degrees Celsius) by the end of this century.

Speaking to the California Secretary for Natural Resources during the 2020 California wildfires, Trump said of the changing climate, "It'll start getting cooler, you just watch". When the Secretary implied that the science disagreed, Trump responded, "I don't think science knows, actually".

Many pages were created to examine and compare the views of the candidates in the presidential election 2020 on climate change. The League of Conservation Voters create a special site, entirely dedicated to the issue called: "Change the Climate 2020". Similar pages were created in the site of NRDC, Ballotpedia, Boston CBS, the Skimm A study published in 2021, found that Republicans could be persuaded to change opinions about climate change with targeted advertising.

Activism

Calculations in 2021 showed that, for giving the world a 50% chance of avoiding a temperature rise of 2 degrees or more USA should increase its climate commitments by 38%. For a 95% chance it should increase the commitments by 125%. For giving a 50% chance of staying below 1.5 degrees USA should increase its commitments by 203%.

Business community

In 2015, according to The New York Times and others, oil companies knew that burning oil and gas could cause global warming since the 1970s but, nonetheless, funded deniers for years. Likewise, scientists at General Motors and the Ford Motor Company knew as early as the 1960s that their products caused climate change and the companies did the same.

A review, published in 2016, of academic literature that explores the potential for greenhouse emissions related liability, calculated that climate change related liability could reach trillions of dollars based on lost revenue from nations that would forced to evacuate because of sea level rise.

Role of the US military

The US military is an unequivocal validator of climate science, and its current efforts to value true costs and benefits of energy conservation and increased use of renewables can serve as drivers of change, according to a 2014 study from the University of Pennsylvania Legal Studies Department.

A 2014 report described the projected climate change as a “catalyst for conflict”. The DOD had issued a Fiscal Year 2012 Climate Change Adaptation Roadmap, in which it outlined its vulnerabilities, yet the Government Accountability Office (GAO) found, that installation officials rarely proposed projects with climate change adaptation, because the processes for approving and funding military construction do not include climate change adaptation in the ranking criteria for projects.

Hydrogen-like atom

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Hydrogen-like_atom ...