Global net-zero emissions describe the state where emissions of greenhouse gases due to human activities and removals of these gases are in balance over a given period. It is often called simply net zero . In some cases, emissions refers to emissions of all greenhouse gases, and in others it refers only to emissions of carbon dioxide (CO 2 ). To reach net zero targets requires actions to reduce emissions. One example would be by shifting from fossil fuel energy to sustainable energy sources. Organizations often offset their residual emissions by buying carbon credits .
152-607: Present-day climate change includes both global warming —the ongoing increase in global average temperature —and its wider effects on Earth's climate . Climate change in a broader sense also includes previous long-term changes to Earth's climate. The current rise in global temperatures is driven by human activities , especially fossil fuel burning since the Industrial Revolution . Fossil fuel use, deforestation , and some agricultural and industrial practices release greenhouse gases . These gases absorb some of
304-591: A "decent pledge". The UN Race to Zero campaign calls them "starting line criteria". This states that they must have a "plan and published evidence of action taken towards reaching the target" besides a stated pledge. One of the main reasons for the low credibility of many net zero claims is their heavy reliance on carbon credits. Carbon credits are often used for offsetting. They reduce or remove emissions of carbon dioxide or other greenhouse gases in order to compensate for emissions made elsewhere. Many fossil fuel companies have made commitments to be net zero by 2050. At
456-631: A 2007 report from the Transnational Institute , Kevin Smith likened carbon offsets to medieval indulgences. He said they allowed people to pay "offset companies to absolve them of their carbon sins." He said this permits a "business as usual" attitude that stifles required major changes. Many people have criticized offsets for playing a part in greenwashing . This argument appeared in a 2021 watchdog ruling against Shell . Loose regulation of claims by carbon offsetting schemes combined with
608-546: A 50% chance if emissions after 2023 do not exceed 200 gigatonnes of CO 2 . This corresponds to around 4 years of current emissions. To stay under 2.0 °C, the carbon budget is 900 gigatonnes of CO 2 , or 16 years of current emissions. The climate system experiences various cycles on its own which can last for years, decades or even centuries. For example, El Niño events cause short-term spikes in surface temperature while La Niña events cause short term cooling. Their relative frequency can affect global temperature trends on
760-646: A base year to measure emissions reductions against. This should be representative of their typical greenhouse gas profile. They should explain the choice of baseline and how they will account for changes in conditions since the baseline. Financial organizations should also include emissions within their portfolio . This should include all organizations they have financed, invested in, or insured. Countries and regions should include both territorial emissions released within their boundaries and consumption emissions related to products and services imported and consumed within their boundaries. Cities and countries pose
912-412: A baseline or status quo. But they do not remove emissions from the atmosphere. Weak standards such as ISO and BSI "carbon neutrality" standards allow organizations to use avoided-emissions carbon credits. They do not specify how permanent or durable a credit must be. Carbon offsetting has been criticized on several fronts. One important concern is that offsets may delay active emissions reductions. In
1064-458: A challenge when it comes to calculating emissions. This is because the production of products and services within their boundaries might be linked to either internal consumption or exports. At the same time the population also consumes imported products and services. So it is important to state explicitly whether emissions are counted at the location of production or consumption. This helps to prevent double counting. The lengthy manufacturing chains of
1216-655: A commitment to reach net-zero emissions by the year 2050. These promises are often made at the corporate level. Both governments and international agencies encourage businesses to contribute to a national, or international, net zero pledge. The International Energy Agency says that global investment in low carbon substitutes for fossil fuels needs to reach US$ 4 trillion annually by 2030 for the world to get to net zero by 2050. Some analyses have raised concerns that net zero cannot be achieved worldwide by 2050. On average, approximately 29% of companies in EU member states have formulated
1368-638: A decadal timescale. Other changes are caused by an imbalance of energy from external forcings . Examples of these include changes in the concentrations of greenhouse gases , solar luminosity , volcanic eruptions, and variations in the Earth's orbit around the Sun. To determine the human contribution to climate change, unique "fingerprints" for all potential causes are developed and compared with both observed patterns and known internal climate variability . For example, solar forcing—whose fingerprint involves warming
1520-529: A globalised market might make this challenging. There are additional challenges with looking at renewable energy systems and electric vehicle batteries. This is because the necessary embodied energy and other effects of raw material extraction are often significant when measuring life-cycle emissions. However the local emissions at the place they are used may be small. Leading standards and guidance allow official accreditation bodies to certify products as carbon neutral but not as net zero. The rationale behind this
1672-543: A lack of binding regulation. It is also due to the need for continued innovation and investment to make decarbonization possible. To date, 27 countries have enacted domestic net zero legislation. These are laws that legislatures have passed that contain net zero targets or equivalent. There is currently no national regulation in place that legally requires companies based in that country to achieve net zero. Several countries, for example Switzerland, are developing such legislation. The idea of net zero came out of research in
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#17327838133121824-405: A marked increase in temperature. Ongoing changes in climate have had no precedent for several thousand years. Multiple independent datasets all show worldwide increases in surface temperature, at a rate of around 0.2 °C per decade. The 2014–2023 decade warmed to an average 1.19 °C [1.06–1.30 °C] compared to the pre-industrial baseline (1850–1900). Not every single year was warmer than
1976-642: A need to protect business as usual, not the climate. If we want to keep people safe then large and sustained cuts to carbon emissions need to happen now. [...] The time for wishful thinking is over." In his 2021 report, Dangerous Distractions, economist Marc Lee said that net zero had the potential to be a dangerous distraction that reduced political pressure to reduce emissions. "A net zero target means less incentive to get to 'real zero' emissions from fossil fuels, an escape hatch that perpetuates business as usual and delays more meaningful climate action," he said. "Rather than gambling on carbon removal technologies of
2128-406: A physical climate model. These models simulate how population, economic growth , and energy use affect—and interact with—the physical climate. With this information, these models can produce scenarios of future greenhouse gas emissions. This is then used as input for physical climate models and carbon cycle models to predict how atmospheric concentrations of greenhouse gases might change. Depending on
2280-462: A precise absolute value for a specific year. The U.S. National Weather Service Cooperative Observer Program has established minimum standards regarding the instrumentation, siting, and reporting of surface temperature stations. The observing systems available are able to detect year-to-year temperature variations such as those caused by El Niño or volcanic eruptions. Another study concluded in 2006, that existing empirical techniques for validating
2432-484: A range of results for changes in global-average temperature. Some models show more warming in the troposphere than at the surface, while a slightly smaller number of simulations show the opposite behaviour. There is no fundamental inconsistency among these model results and observations at the global scale. The satellite records used to show much smaller warming trends for the troposphere which were considered to disagree with model prediction; however, following revisions to
2584-401: A rate just fast enough to compensate for this deep ocean adjustment. The result would be approximately constant global average surface temperatures over decades or centuries. It will be quicker to reach net-zero emissions for CO 2 alone rather than CO 2 plus other greenhouse gases like methane , nitrous oxide and fluorinated gases . The net-zero target date for non-CO 2 emissions
2736-459: A record but record highs are occurring regularly. While record-breaking years can attract considerable public interest, individual years are less significant than the overall trend. Some climatologists have criticized the attention that the popular press gives to warmest year statistics. Based on the NOAA dataset (note that other datasets produce different rankings ), the following table lists
2888-596: A report that stated that the carbon neutrality pledges of many corporations , local governments , regional governments , and financial institutions around the world often amount to nothing more than greenwashing and provided 10 recommendations to ensure greater credibility and accountability for carbon neutrality pledges such as requiring non-state actors to publicly disclose and report verifiable information (e.g. greenhouse gas inventories and carbon footprint accounting in prospectus for financial securities ) that substantiates compliance with such pledges. After
3040-457: A respective target to achieve net zero or have already reached this goal. However, these numbers can vary significantly across different industries, countries, and firm sizes. External pressures, such as companies' exposure to risks associated with climate change and its perception as a problem, can influence a company's ambition to adopt specific targets and strategies. The guidance from standards institutions says that organizations should choose
3192-459: A result of climate change. Global sea level is rising as a consequence of thermal expansion and the melting of glaciers and ice sheets . Sea level rise has increased over time, reaching 4.8 cm per decade between 2014 and 2023. Over the 21st century, the IPCC projects 32–62 cm of sea level rise under a low emission scenario, 44–76 cm under an intermediate one and 65–101 cm under
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#17327838133123344-470: A result. The World Health Organization calls climate change one of the biggest threats to global health in the 21st century. Societies and ecosystems will experience more severe risks without action to limit warming . Adapting to climate change through efforts like flood control measures or drought-resistant crops partially reduces climate change risks, although some limits to adaptation have already been reached. Poorer communities are responsible for
3496-413: A small share of global emissions , yet have the least ability to adapt and are most vulnerable to climate change . Many climate change impacts have been observed in the first decades of the 21st century, with 2023 the warmest on record at +1.48 °C (2.66 °F) since regular tracking began in 1850. Additional warming will increase these impacts and can trigger tipping points , such as melting all of
3648-544: A very high emission scenario. Marine ice sheet instability processes in Antarctica may add substantially to these values, including the possibility of a 2-meter sea level rise by 2100 under high emissions. Climate change has led to decades of shrinking and thinning of the Arctic sea ice . While ice-free summers are expected to be rare at 1.5 °C degrees of warming, they are set to occur once every three to ten years at
3800-469: A very high emissions scenario . The warming will continue past 2100 in the intermediate and high emission scenarios, with future projections of global surface temperatures by year 2300 being similar to millions of years ago. The remaining carbon budget for staying beneath certain temperature increases is determined by modelling the carbon cycle and climate sensitivity to greenhouse gases. According to UNEP , global warming can be kept below 1.5 °C with
3952-412: A voluntary basis. The lack of an enforcement mechanism surrounding these claims means that many are dubious. In many sectors such as steel, cement, and chemicals, the pathway to reaching net zero in terms of technology remains unclear. Further investment in research and innovation and further regulation will probably be necessary if net zero claims are to become more credible. Tzeporah Berman , chair of
4104-513: A warming level of 2 °C. Higher atmospheric CO 2 concentrations cause more CO 2 to dissolve in the oceans, which is making them more acidic . Because oxygen is less soluble in warmer water, its concentrations in the ocean are decreasing , and dead zones are expanding. Greater degrees of global warming increase the risk of passing through ' tipping points '—thresholds beyond which certain major impacts can no longer be avoided even if temperatures return to their previous state. For instance,
4256-450: A warming of 1.09 °C (range: 0.95 to 1.20 °C) from 1850–1900 to 2011–2020, based on multiple independently produced datasets. The trend is faster since the 1970s than in any other 50-year period over at least the last 2000 years. Most of the observed warming occurred in two periods: around 1900 to around 1940 and around 1970 onwards; the cooling/plateau from 1940 to 1970 has been mostly attributed to sulfate aerosol . Some of
4408-628: Is a set of policy initiatives by the European Commission with the overarching aim of making the European Union (EU) climate neutral in 2050. The plan is to review each existing law on its climate merits, and also introduce new legislation on the circular economy (CE), building renovation , biodiversity , farming and innovation . The president of the European Commission, Ursula von der Leyen , stated that
4560-517: Is a short-term target, and net zero is a longer-term target. To balance residual emissions, actors may take direct action to remove carbon dioxide from the atmosphere and sequester it. Alternatively or in addition they can buy carbon credits that "offset" emissions . Carbon credits can be used to fund carbon removal projects such as reforestation . Strong standards such as the ISO and BSI "net zero" standards only allow removal-based offsets that have
4712-572: Is a small difference between air and surface temperatures. Changes in global temperatures over the past century provide evidence for the effects of increasing greenhouse gases . When the climate system reacts to such changes, climate change follows. Measurement of the GST is one of the many lines of evidence supporting the scientific consensus on climate change , which is that humans are causing warming of Earth's climate system . The global average and combined land and ocean surface temperature , show
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4864-528: Is about 15 °C (59 °F), though monthly temperatures can vary almost 2 °C (4 °F) above or below this figure. The data clearly shows a rising trend in global average surface temperatures (i.e. global warming ) and this is due to emissions of greenhouse gases from human activities. The global average and combined land and ocean surface temperature show a warming of 1.09 °C (range: 0.95 to 1.20 °C) from 1850–1900 to 2011–2020, based on multiple independently produced datasets. The trend
5016-561: Is an estimated total sea level rise of 2.3 metres per degree Celsius (4.2 ft/°F) after 2000 years. Oceanic CO 2 uptake is slow enough that ocean acidification will also continue for hundreds to thousands of years. Deep oceans (below 2,000 metres (6,600 ft)) are also already committed to losing over 10% of their dissolved oxygen by the warming which occurred to date. Further, the West Antarctic ice sheet appears committed to practically irreversible melting, which would increase
5168-454: Is because it allows actors to defer present-day emissions reductions by relying on future, unproved technological fixes. Examples are carbon offsetting, carbon dioxide removal and geoengineering . "The problems come when it is assumed that these [technological fixes] can be deployed at vast scale. This effectively serves as a blank cheque for the continued burning of fossil fuels and the acceleration of habitat destruction ", they said. By tracing
5320-559: Is because of the possibility that offset projects themselves could have harmful effects. The ISO Net Zero Guidelines say that net zero strategies should align with the United Nations Sustainable Development Goals .This is in order to "support equity and global transition to a net-zero economy, and any subsequent UN global goals which supersede the 2030 SDGs." The UNFCCC's Race to Zero campaign says emissions reductions and removals should "safeguard
5472-480: Is calculated by averaging the temperatures over sea ( sea surface temperature ) and land ( surface air temperature ). In comparison, the global mean surface air temperature (GSAT) is the "global average of near-surface air temperatures over land, oceans and sea ice . Changes in GSAT are often used as a measure of global temperature change in climate models." Global temperature can have different definitions. There
5624-508: Is called the instrumental temperature record ). The longest-running temperature record is the Central England temperature data series, which starts in 1659. The longest-running quasi-global records start in 1850. For temperature measurements in the upper atmosphere a variety of methods can be used. This includes radiosondes launched using weather balloons, a variety of satellites, and aircraft. Satellites can monitor temperatures in
5776-448: Is consistent with greenhouse gases preventing heat from leaving the Earth's atmosphere. Explosive volcanic eruptions can release gases, dust and ash that partially block sunlight and reduce temperatures, or they can send water vapour into the atmosphere, which adds to greenhouse gases and increases temperatures. These impacts on temperature only last for several years, because both water vapour and volcanic material have low persistence in
5928-448: Is faster since the 1970s than in any other 50-year period over at least the last 2000 years. Within that upward trend, some variability in temperatures happens because of natural internal variability (for example due to El Niño–Southern Oscillation ). The global temperature record shows the fluctuations of the temperature of the atmosphere and the oceans through various spans of time. There are numerous estimates of temperatures since
6080-592: Is generally considered to begin around 1850. Earlier records exist, but with sparser coverage, largely confined to the Northern Hemisphere , and less standardized instrumentation. (The longest-running temperature record is the Central England temperature data series, which starts in 1659). The temperature data for the record come from measurements from land stations and ships. On land, temperatures are measured either using electronic sensors, or mercury or alcohol thermometers which are read manually, with
6232-531: Is independent of where greenhouse gases are emitted, because the gases persist long enough to diffuse across the planet. Since the pre-industrial period, the average surface temperature over land regions has increased almost twice as fast as the global average surface temperature. This is because oceans lose more heat by evaporation and oceans can store a lot of heat . The thermal energy in the global climate system has grown with only brief pauses since at least 1970, and over 90% of this extra energy has been stored in
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6384-415: Is later partly because modellers assume that some of these emissions such as methane from farming are harder to phase out. Emissions of short-lived gases such as methane do not accumulate in the climate system in the same way that CO 2 does. Therefore there is no need to reduce them to zero to halt global warming. This is because reductions in emissions of short-lived gases cause an immediate decline in
6536-508: Is measured against a reference value (also called baseline period or long-term average ). Usually it is a period of 30 years. For example, a commonly used baseline period is 1951-1980. Therefore, if the average temperature for that time period was 15 °C, and the currently measured temperature is 17 °C, then the temperature anomaly is +2 °C. Temperature anomalies are useful for deriving average surface temperatures because they tend to be highly correlated over large distances (of
6688-436: Is often confused with "stabilization of greenhouse gas concentrations in the atmosphere". This is a term that dates from the 1992 Rio Convention . The two concepts are not the same. This is because the carbon cycle continuously sequesters or absorbs a small percentage of cumulative historical human-caused CO 2 emissions into vegetation and the ocean. This happens even after current CO 2 emissions are reduced to zero. If
6840-444: Is primarily attributed to sulfate aerosols produced by the combustion of fossil fuels with heavy sulfur concentrations like coal and bunker fuel . Smaller contributions come from black carbon (from combustion of fossil fuels and biomass), and from dust. Globally, aerosols have been declining since 1990 due to pollution controls, meaning that they no longer mask greenhouse gas warming as much. Aerosols also have indirect effects on
6992-440: Is radiating into space. Warming reduces average snow cover and forces the retreat of glaciers . At the same time, warming also causes greater evaporation from the oceans , leading to more atmospheric humidity , more and heavier precipitation . Plants are flowering earlier in spring, and thousands of animal species have been permanently moving to cooler areas. Different regions of the world warm at different rates . The pattern
7144-542: Is reflected, for example, by the Intergovernmental Panel on Climate Change (IPCC), an international body which summarizes existing science, and the U.S. Global Change Research Program . The U.S. National Academy of Sciences , both in its 2002 report to President George W. Bush, and in later publications, has strongly endorsed evidence of an average global temperature increase in the 20th century. The preliminary results of an assessment carried out by
7296-512: Is shaped by feedbacks, which either amplify or dampen the change. Self-reinforcing or positive feedbacks increase the response, while balancing or negative feedbacks reduce it. The main reinforcing feedbacks are the water-vapour feedback , the ice–albedo feedback , and the net effect of clouds. The primary balancing mechanism is radiative cooling , as Earth's surface gives off more heat to space in response to rising temperature. In addition to temperature feedbacks, there are feedbacks in
7448-429: Is that until organizations and their supply chains are on track for net zero, allowing a product to claim to be net zero at this point would be disingenuous and lead to greenwashing. The International Monetary Fund estimates that compared to current government policies, shifting policies to bring emissions to net zero by 2050 would result in global gross domestic product (GDP) being 7 percent higher. In its estimates,
7600-448: Is the average temperature of Earth 's surface. More precisely, it is the weighted average of the temperatures over the ocean and land. The former is also called sea surface temperature and the latter is called surface air temperature . Temperature data comes mainly from weather stations and satellites . To estimate data in the distant past, proxy data can be used for example from tree rings , corals , and ice cores . Observing
7752-404: Is the major reason why different climate models project different magnitudes of warming for a given amount of emissions. A climate model is a representation of the physical, chemical and biological processes that affect the climate system. Models include natural processes like changes in the Earth's orbit, historical changes in the Sun's activity, and volcanic forcing. Models are used to estimate
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#17327838133127904-413: Is unclear. A related phenomenon driven by climate change is woody plant encroachment , affecting up to 500 million hectares globally. Climate change has contributed to the expansion of drier climate zones, such as the expansion of deserts in the subtropics . The size and speed of global warming is making abrupt changes in ecosystems more likely. Overall, it is expected that climate change will result in
8056-734: Is usually presented as anomalies rather than as absolute values. Land and sea measurement and instrument calibration is the responsibility of national meteorological services . Standardization of methods is organized through the World Meteorological Organization (and formerly through its predecessor, the International Meteorological Organization ). Most meteorological observations are taken for use in weather forecasts. Centers such as European Centre for Medium-Range Weather Forecasts show instantaneous map of their coverage; or
8208-559: The 25 countries with the greatest emissions (whose pledges cover more than 90% of the gross world product ) by the recommendations of the UN report and found that many these pledges were largely unsubstantiated and more than half of cities had no plan for tracking and reporting compliance with pledges. The concept of net zero has attracted criticism for the impact it could have on equity and distribution. The use of removals or carbon credits for offsetting has been particularly controversial. This
8360-563: The Atlantic meridional overturning circulation (AMOC), and irreversible damage to key ecosystems like the Amazon rainforest and coral reefs can unfold in a matter of decades. The long-term effects of climate change on oceans include further ice melt, ocean warming , sea level rise, ocean acidification and ocean deoxygenation. The timescale of long-term impacts are centuries to millennia due to CO 2 's long atmospheric lifetime. The result
8512-674: The Berkeley Earth Surface Temperature group and made public in October 2011, found that over the past 50 years the land surface warmed by 0.911 °C, and their results mirrors those obtained from earlier studies carried out by the NOAA, the Hadley Centre and NASA 's GISS. The study addressed concerns raised by skeptics (more often: climate change deniers ). Those concerns included urban heat island effects and apparently poor station quality, and
8664-658: The Earth's energy budget . Sulfate aerosols act as cloud condensation nuclei and lead to clouds that have more and smaller cloud droplets. These clouds reflect solar radiation more efficiently than clouds with fewer and larger droplets. They also reduce the growth of raindrops , which makes clouds more reflective to incoming sunlight. Indirect effects of aerosols are the largest uncertainty in radiative forcing . While aerosols typically limit global warming by reflecting sunlight, black carbon in soot that falls on snow or ice can contribute to global warming. Not only does this increase
8816-534: The Fossil Fuel Non-Proliferation Treaty Initiative , has criticized net zero claims by fossil fuel companies, describing them "delusional and based on bad science". A consortium of climate scientists has tracked net zero commitments. Their research found that net pledges drafted in law or policy documentation have grown from 7% of countries in 2020 to 75% in 2023. However, very few have met the minimum requirements for
8968-572: The Greenland ice sheet is already melting, but if global warming reaches levels between 1.7 °C and 2.3 °C, its melting will continue until it fully disappears. If the warming is later reduced to 1.5 °C or less, it will still lose a lot more ice than if the warming was never allowed to reach the threshold in the first place. While the ice sheets would melt over millennia, other tipping points would occur faster and give societies less time to respond. The collapse of major ocean currents like
9120-834: The Greenland ice sheet . Under the 2015 Paris Agreement , nations collectively agreed to keep warming "well under 2 °C". However, with pledges made under the Agreement, global warming would still reach about 2.8 °C (5.0 °F) by the end of the century. Limiting warming to 1.5 °C would require halving emissions by 2030 and achieving net-zero emissions by 2050. Fossil fuel use can be phased out by conserving energy and switching to energy sources that do not produce significant carbon pollution. These energy sources include wind , solar , hydro , and nuclear power . Cleanly generated electricity can replace fossil fuels for powering transportation , heating buildings , and running industrial processes. Carbon can also be removed from
9272-493: The Hadley Centre show the coverage for the average of the year 2000. Coverage for earlier in the 20th and 19th centuries would be significantly less. While temperature changes vary both in size and direction from one location to another, the numbers from different locations are combined to produce an estimate of a global average change. Weather balloon radiosonde measurements of atmospheric temperature at various altitudes begin to show an approximation of global coverage in
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#17327838133129424-631: The Industrial Revolution , naturally-occurring amounts of greenhouse gases caused the air near the surface to be about 33 °C warmer than it would have been in their absence. Human activity since the Industrial Revolution, mainly extracting and burning fossil fuels ( coal , oil , and natural gas ), has increased the amount of greenhouse gases in the atmosphere. In 2022, the concentrations of CO 2 and methane had increased by about 50% and 164%, respectively, since 1750. These CO 2 levels are higher than they have been at any time during
9576-513: The World Economic Forum , 14.5 million more deaths are expected due to climate change by 2050. 30% of the global population currently live in areas where extreme heat and humidity are already associated with excess deaths. By 2100, 50% to 75% of the global population would live in such areas. While total crop yields have been increasing in the past 50 years due to agricultural improvements, climate change has already decreased
9728-412: The carbon cycle . While plants on land and in the ocean absorb most excess emissions of CO 2 every year, that CO 2 is returned to the atmosphere when biological matter is digested, burns, or decays. Land-surface carbon sink processes, such as carbon fixation in the soil and photosynthesis, remove about 29% of annual global CO 2 emissions. The ocean has absorbed 20 to 30% of emitted CO 2 over
9880-471: The climate system . Solar irradiance has been measured directly by satellites , and indirect measurements are available from the early 1600s onwards. Since 1880, there has been no upward trend in the amount of the Sun's energy reaching the Earth, in contrast to the warming of the lower atmosphere (the troposphere ). The upper atmosphere (the stratosphere ) would also be warming if the Sun was sending more energy to Earth, but instead, it has been cooling. This
10032-530: The coupling between the atmosphere and ocean . An example of internal climate variability is the El Niño–Southern Oscillation (ENSO). The El Niño in 1998 was particularly strong, possibly one of the strongest of the 20th century, and 1998 was at the time the world's warmest year on record by a substantial margin. Carbon neutrality People often use the terms net-zero emissions , carbon neutrality , and climate neutrality with
10184-964: The extinction of many species. The oceans have heated more slowly than the land, but plants and animals in the ocean have migrated towards the colder poles faster than species on land. Just as on land, heat waves in the ocean occur more frequently due to climate change, harming a wide range of organisms such as corals, kelp , and seabirds . Ocean acidification makes it harder for marine calcifying organisms such as mussels , barnacles and corals to produce shells and skeletons ; and heatwaves have bleached coral reefs . Harmful algal blooms enhanced by climate change and eutrophication lower oxygen levels, disrupt food webs and cause great loss of marine life. Coastal ecosystems are under particular stress. Almost half of global wetlands have disappeared due to climate change and other human impacts. Plants have come under increased stress from damage by insects. The effects of climate change are impacting humans everywhere in
10336-430: The socioeconomic scenario and the mitigation scenario, models produce atmospheric CO 2 concentrations that range widely between 380 and 1400 ppm. The environmental effects of climate change are broad and far-reaching, affecting oceans , ice, and weather. Changes may occur gradually or rapidly. Evidence for these effects comes from studying climate change in the past, from modelling, and from modern observations. Since
10488-417: The "issue of data selection bias" and found that these effects did not bias the results obtained from these earlier studies. One of the issues that has been raised in the media is the view that global warming "stopped in 1998". This view ignores the presence of internal climate variability. Internal climate variability is a result of complex interactions between components of the climate system, such as
10640-405: The 18th century and 1970 there was little net warming, as the warming impact of greenhouse gas emissions was offset by cooling from sulfur dioxide emissions. Sulfur dioxide causes acid rain , but it also produces sulfate aerosols in the atmosphere, which reflect sunlight and cause global dimming . After 1970, the increasing accumulation of greenhouse gases and controls on sulfur pollution led to
10792-607: The 1950s, droughts and heat waves have appeared simultaneously with increasing frequency. Extremely wet or dry events within the monsoon period have increased in India and East Asia. Monsoonal precipitation over the Northern Hemisphere has increased since 1980. The rainfall rate and intensity of hurricanes and typhoons is likely increasing , and the geographic range likely expanding poleward in response to climate warming. Frequency of tropical cyclones has not increased as
10944-526: The 1950s. Since December 1978, microwave sounding units on satellites have produced data which can be used to infer temperatures in the troposphere . Several groups have analyzed the satellite data to calculate temperature trends in the troposphere. Both the University of Alabama in Huntsville (UAH) and the private, NASA funded, corporation Remote Sensing Systems (RSS) find an upward trend. For
11096-431: The 1961–1990 period has been derived by spatial interpolation of average observed near-surface air temperatures from over the land, oceans and sea ice regions, with a best estimate of 14 °C (57.2 °F). The estimate is uncertain, but probably lies within 0.5 °C of the true value. Given the difference in uncertainties between this absolute value and any annual anomaly, it's not valid to add them together to imply
11248-494: The 1980s, the terms global warming and climate change became more common, often being used interchangeably. Scientifically, global warming refers only to increased surface warming, while climate change describes both global warming and its effects on Earth's climate system , such as precipitation changes. Climate change can also be used more broadly to include changes to the climate that have happened throughout Earth's history. Global warming —used as early as 1975—became
11400-439: The 5-year average being above 1.5 °C is almost half. The IPCC expects the 20-year average global temperature to exceed +1.5 °C in the early 2030s. The IPCC Sixth Assessment Report (2021) included projections that by 2100 global warming is very likely to reach 1.0–1.8 °C under a scenario with very low emissions of greenhouse gases , 2.1–3.5 °C under an intermediate emissions scenario , or 3.3–5.7 °C under
11552-699: The Arctic has contributed to thawing permafrost , retreat of glaciers and sea ice decline . Higher temperatures are also causing more intense storms , droughts, and other weather extremes . Rapid environmental change in mountains , coral reefs , and the Arctic is forcing many species to relocate or become extinct . Even if efforts to minimize future warming are successful, some effects will continue for centuries. These include ocean heating , ocean acidification and sea level rise . Climate change threatens people with increased flooding , extreme heat, increased food and water scarcity, more disease, and economic loss . Human migration and conflict can also be
11704-431: The Arctic is another major feedback, this reduces the reflectivity of the Earth's surface in the region and accelerates Arctic warming . This additional warming also contributes to permafrost thawing, which releases methane and CO 2 into the atmosphere. Around half of human-caused CO 2 emissions have been absorbed by land plants and by the oceans. This fraction is not static and if future CO 2 emissions decrease,
11856-536: The CO 2 released by the chemical reactions for making cement , steel , aluminum , and fertilizer . Methane emissions come from livestock , manure, rice cultivation , landfills, wastewater, and coal mining , as well as oil and gas extraction . Nitrous oxide emissions largely come from the microbial decomposition of fertilizer . While methane only lasts in the atmosphere for an average of 12 years, CO 2 lasts much longer. The Earth's surface absorbs CO 2 as part of
12008-598: The Earth will be able to absorb up to around 70%. If they increase substantially, it'll still absorb more carbon than now, but the overall fraction will decrease to below 40%. This is because climate change increases droughts and heat waves that eventually inhibit plant growth on land, and soils will release more carbon from dead plants when they are warmer . The rate at which oceans absorb atmospheric carbon will be lowered as they become more acidic and experience changes in thermohaline circulation and phytoplankton distribution. Uncertainty over feedbacks, particularly cloud cover,
12160-747: The European Green Deal would be Europe's "man on the moon moment". On 13 December 2019, the European Council decided to press ahead with the plan, with an opt-out for Poland . On 15 January 2020, the European Parliament voted to support the deal as well, with requests for higher ambition. A year later, the European Climate Law was passed, which legislated that greenhouse gas emissions should be 55% lower in 2030 compared to 1990. The Fit for 55 package
12312-437: The absorption of sunlight, it also increases melting and sea-level rise. Limiting new black carbon deposits in the Arctic could reduce global warming by 0.2 °C by 2050. The effect of decreasing sulfur content of fuel oil for ships since 2020 is estimated to cause an additional 0.05 °C increase in global mean temperature by 2050. As the Sun is the Earth's primary energy source, changes in incoming sunlight directly affect
12464-409: The atmosphere , for instance by increasing forest cover and farming with methods that capture carbon in soil . Before the 1980s it was unclear whether the warming effect of increased greenhouse gases was stronger than the cooling effect of airborne particulates in air pollution . Scientists used the term inadvertent climate modification to refer to human impacts on the climate at this time. In
12616-449: The atmosphere. volcanic CO 2 emissions are more persistent, but they are equivalent to less than 1% of current human-caused CO 2 emissions. Volcanic activity still represents the single largest natural impact (forcing) on temperature in the industrial era. Yet, like the other natural forcings, it has had negligible impacts on global temperature trends since the Industrial Revolution. The climate system's response to an initial forcing
12768-443: The biggest threats to global health in the 21st century. Scientists have warned about the irreversible harms it poses. Extreme weather events affect public health, and food and water security . Temperature extremes lead to increased illness and death. Climate change increases the intensity and frequency of extreme weather events. It can affect transmission of infectious diseases , such as dengue fever and malaria . According to
12920-536: The carbon cycle, such as the fertilizing effect of CO 2 on plant growth. Feedbacks are expected to trend in a positive direction as greenhouse gas emissions continue, raising climate sensitivity. These feedback processes alter the pace of global warming. For instance, warmer air can hold more moisture in the form of water vapour , which is itself a potent greenhouse gas. Warmer air can also make clouds higher and thinner, and therefore more insulating, increasing climate warming. The reduction of snow cover and sea ice in
13072-549: The climate cycled through ice ages . One of the hotter periods was the Last Interglacial , around 125,000 years ago, where temperatures were between 0.5 °C and 1.5 °C warmer than before the start of global warming. This period saw sea levels 5 to 10 metres higher than today. The most recent glacial maximum 20,000 years ago was some 5–7 °C colder. This period has sea levels that were over 125 metres (410 ft) lower than today. Temperatures stabilized in
13224-1065: The company's activities. This can greatly affect the volume of emissions that are counted. Some oil companies, for instance, claim that their operations (Scopes 1 and 2) produce net-zero emissions. These claims do not cover the emissions produced when the oil is burned by its customers, which are 70 - 90% of oil-related emissions. This is because they count as Scope 3 emissions. Robust net zero standards require Scope 3 emissions to be counted, but "carbon neutrality" standards do not. To achieve net zero, actors are encouraged to set net zero targets for 2050 or earlier. Long-term net zero targets should be supplemented by interim targets for every one to five years. The UN, UNFCCC, ISO, and SBTi all say that organizations should prioritize early, front-loaded emissions reduction. They say they should aim to halve emissions by 2030. Specific emissions reduction targets and pathways may look different for different sectors. Some may be able to decarbonize more quickly and easily than others. Many companies often claim
13376-421: The concentration of CO 2 in the atmosphere were kept constant, some CO 2 emissions could continue. However global average surface temperatures would continue to increase for many centuries due to the gradual adjustment of deep ocean temperatures. If CO 2 emissions that result directly from human activities are reduced to net zero, the concentration of CO 2 in the atmosphere would decline. This would be at
13528-457: The cost of emissions reductions in 2050 is less than 2% of world GDP, and the cost savings from reducing the effects of climate change are approximately 9% of world GDP. More and more nations and private and public-sector organizations are committing to net zero. But the credibility of these claims remains low. There is no binding regulation requiring a transition to net zero. So the overwhelming majority of net zero commitments have been made on
13680-677: The current interglacial period beginning 11,700 years ago . This period also saw the start of agriculture. Historical patterns of warming and cooling, like the Medieval Warm Period and the Little Ice Age , did not occur at the same time across different regions. Temperatures may have reached as high as those of the late 20th century in a limited set of regions. Climate information for that period comes from climate proxies , such as trees and ice cores . Around 1850 thermometer records began to provide global coverage. Between
13832-399: The degree of warming future emissions will cause when accounting for the strength of climate feedbacks . Models also predict the circulation of the oceans, the annual cycle of the seasons, and the flows of carbon between the land surface and the atmosphere. The physical realism of models is tested by examining their ability to simulate current or past climates. Past models have underestimated
13984-426: The destroyed trees release CO 2 , and are not replaced by new trees, removing that carbon sink . Between 2001 and 2018, 27% of deforestation was from permanent clearing to enable agricultural expansion for crops and livestock. Another 24% has been lost to temporary clearing under the shifting cultivation agricultural systems. 26% was due to logging for wood and derived products, and wildfires have accounted for
14136-815: The difficulties in calculating greenhouse gas sequestration and emissions reductions has also given rise to criticism. This argument is that this can result in schemes that do not adequately offset emissions in reality. There have been moves to create better regulation. The United Nations has operated a certification process for carbon offsets since 2001. This is called the Clean Development Mechanism. It aims to stimulate "sustainable development and emission reductions, while giving industrialized countries some flexibility in how they meet their emission reduction limitation targets." The UK Government's Climate Change Committee says reported emissions reductions or removals may have happened anyway or. not last into
14288-441: The dominant direct influence on temperature from land use change. Thus, land use change to date is estimated to have a slight cooling effect. Air pollution, in the form of aerosols, affects the climate on a large scale. Aerosols scatter and absorb solar radiation. From 1961 to 1990, a gradual reduction in the amount of sunlight reaching the Earth's surface was observed. This phenomenon is popularly known as global dimming , and
14440-843: The emissions continue to increase for the rest of century, then over 9 million climate-related deaths would occur annually by 2100. Economic damages due to climate change may be severe and there is a chance of disastrous consequences. Severe impacts are expected in South-East Asia and sub-Saharan Africa , where most of the local inhabitants are dependent upon natural and agricultural resources. Heat stress can prevent outdoor labourers from working. If warming reaches 4 °C then labour capacity in those regions could be reduced by 30 to 50%. The World Bank estimates that between 2016 and 2030, climate change could drive over 120 million people into extreme poverty without adaptation. Global surface temperature Global surface temperature (GST)
14592-560: The emissions of others (third parties), and (3) actions to directly remove carbon dioxide from the atmosphere (carbon sinks). Robust net zero standards require actors to reduce their own emissions as much as possible following science-based pathways. They must then balance their residual emissions using removals and offsets. This typically involves shifting from fossil fuels to sustainable energy sources. Residual emissions are emissions that are not practical to reduce for technological reasons. Experts and net zero frameworks disagree over
14744-468: The end of the Pleistocene glaciation , particularly during the current Holocene epoch. Some temperature information is available through geologic evidence, going back millions of years. More recently, information from ice cores covers the period from 800,000 years ago until now. Tree rings and measurements from ice cores can give evidence about the global temperature from 1,000-2,000 years before
14896-428: The entire atmosphere—is ruled out because only the lower atmosphere has warmed. Atmospheric aerosols produce a smaller, cooling effect. Other drivers, such as changes in albedo , are less impactful. Greenhouse gases are transparent to sunlight , and thus allow it to pass through the atmosphere to heat the Earth's surface. The Earth radiates it as heat , and greenhouse gases absorb a portion of it. This absorption slows
15048-451: The exact percentage of residual emissions that may be allowed. Most guidance suggests this should be limited to a small fraction of total emissions. Sector-specific and geographical factors would determine how much. The Science Based Targets initiative says that residual emissions across most sectors should fall between 5-10% of an organization's baseline emissions. It should be even lower for some sectors with competitive alternatives like
15200-699: The future, Canada should plan for a managed wind down of fossil fuel production and invest public resources in bona fide solutions like renewables and a just transition from fossil fuels," he said. At the 2022 United Nations Climate Change Conference (COP27), the High-Level Expert Group on the net-zero emissions commitments of non-state entities of the United Nations formed the previous March by U.N. Secretary-General António Guterres and chaired by former Canadian Minister of Environment and Climate Change Catherine McKenna released
15352-793: The future. The changes in climate are not uniform across the Earth. In particular, most land areas have warmed faster than most ocean areas. The Arctic is warming faster than most other regions. Night-time temperatures have increased faster than daytime temperatures. The impact on nature and people depends on how much more the Earth warms. The instrumental temperature record is a record of temperatures within Earth's climate based on direct measurement of air temperature and ocean temperature . Instrumental temperature records do not use indirect reconstructions using climate proxy data such as from tree rings and marine sediments . The period for which reasonably reliable instrumental records of near-surface temperature exist with quasi-global coverage
15504-699: The future. This is despite an improvement in standards globally and in the UK. There has also been criticisms of non-native and monocultural forest plantations as carbon offsets. This is because of their "limited—and at times negative—effects on native biodiversity" and other ecosystem services . Most of the carbon credits on the voluntary market today do not meet UN, UNFCCC, ISO or SBTi standards for permanent carbon dioxide removals. So significant investment in carbon capture and permanent geological storage will probably be necessary to achieve net-zero targets by mid-century. Since 2015, there has been significant growth in
15656-408: The global combined land and ocean annually averaged temperature rank and anomaly for each of the 10 warmest years on record. For comparison: IPCC uses the mean of four different datasets and expresses the data relative to 1850–1900. Although global instrumental temperature records begin only in 1850, reconstructions of earlier temperatures based on climate proxies , suggest these recent years may be
15808-472: The globe. Areas that are densely populated tend to have a high density of measurement points. In contrast, temperature observations are more spread out in sparsely populated areas such as polar regions and deserts, as well as in many regions of Africa and South America. In the past, thermometers were read manually to record temperatures. Nowadays, measurements are usually connected with electronic sensors which transmit data automatically. Surface temperature data
15960-420: The heat that the Earth radiates after it warms from sunlight , warming the lower atmosphere. Carbon dioxide , the primary greenhouse gas driving global warming, has grown by about 50% and is at levels not seen for millions of years. Climate change has an increasingly large impact on the environment . Deserts are expanding , while heat waves and wildfires are becoming more common. Amplified warming in
16112-446: The history of previous failures in climate policy at reducing emissions from 1988 to 2021, they said they "[arrive] at the painful realisation that the idea of net zero has licensed a recklessly cavalier 'burn now, pay later' approach which has seen carbon emissions continue to soar". They concluded: "Current net zero policies will not keep warming to within 1.5 °C because they were never intended to. They were and still are driven by
16264-435: The instrumental temperature record have occurred in the last decade (i.e. 2012-2021). The World Meteorological Organization reported in 2021 that 2016 and 2020 were the two warmest years in the period since 1850. Each individual year from 2015 onwards has been warmer than any prior year going back to at least 1850. In other words: each of the seven years in 2015-2021 was clearly warmer than any pre-2014 year. The year 2023
16416-435: The instruments being sheltered from direct sunlight using a shelter such as a Stevenson screen . The sea record consists of ships taking sea temperature measurements, mostly from hull-mounted sensors, engine inlets or buckets, and more recently includes measurements from moored and drifting buoys . The land and marine records can be compared. Data is collected from thousands of meteorological stations, buoys and ships around
16568-641: The largest 2,000 publicly traded companies by annual revenue have net zero targets. Among Fortune 500 companies the percentage is 63%. Company targets can result from both voluntary action and government regulation . The Greenhouse Gas Protocol is a group of standards that are the most common in GHG accounting. These standards reflect a number of accounting principles. They include relevance, completeness, consistency, transparency, and accuracy. The standards divide emissions into three scopes: Corporate net zero targets vary in how widely they cover emissions related to
16720-568: The last 14 million years. Concentrations of methane are far higher than they were over the last 800,000 years. Global human-caused greenhouse gas emissions in 2019 were equivalent to 59 billion tonnes of CO 2 . Of these emissions, 75% was CO 2 , 18% was methane , 4% was nitrous oxide, and 2% was fluorinated gases . CO 2 emissions primarily come from burning fossil fuels to provide energy for transport , manufacturing, heating , and electricity. Additional CO 2 emissions come from deforestation and industrial processes , which include
16872-432: The last two decades. CO 2 is only removed from the atmosphere for the long term when it is stored in the Earth's crust, which is a process that can take millions of years to complete. Around 30% of Earth's land area is largely unusable for humans ( glaciers , deserts , etc.), 26% is forests , 10% is shrubland and 34% is agricultural land . Deforestation is the main land use change contributor to global warming, as
17024-437: The last: internal climate variability processes can make any year 0.2 °C warmer or colder than the average. From 1998 to 2013, negative phases of two such processes, Pacific Decadal Oscillation (PDO) and Atlantic Multidecadal Oscillation (AMO) caused a short slower period of warming called the " global warming hiatus ". After the "hiatus", the opposite occurred, with years like 2023 exhibiting temperatures well above even
17176-468: The late 2000s into how the atmosphere, oceans and carbon cycle were reacting to CO 2 emissions. This research found that global warming will only stop if CO 2 emissions are reduced to net zero. Net zero was basic to the goals of the Paris Agreement . This stated that the world must "achieve a balance between anthropogenic emissions by sources and removals by sinks of greenhouse gases in
17328-611: The linear warming trend for combined land and sea temperatures has been 0.18 °C to 0.20 °C per decade, depending on the data set used. It is unlikely that any uncorrected effects from urbanisation, or changes in land use or land cover, have raised global land temperature changes by more than 10%. However, larger urbanisation signals have been found locally in some rapidly urbanising regions, such as eastern China. Global warming affects all parts of Earth's climate system . Global surface temperatures have risen by 1.1 °C (2.0 °F). Scientists say they will rise further in
17480-416: The local and regional consistency of temperature data are adequate to identify and remove biases from station records, and that such corrections allow information about long-term trends to be preserved. A study in 2013 also found that urban bias can be accounted for, and when all available station data is divided into rural and urban, that both temperature sets are broadly consistent. The warmest years in
17632-525: The lower troposphere, UAH found a global average trend between 1978 and 2019 of 0.130 degrees Celsius per decade. RSS found a trend of 0.148 degrees Celsius per decade, to January 2011. In 2004 scientists found trends of +0.19 degrees Celsius per decade when applied to the RSS dataset. Others found 0.20 degrees Celsius per decade up between 1978 and 2005, since which the dataset has not been updated. The most recent climate model simulations give
17784-422: The main framework for climate action . Many countries and organizations are setting net zero targets. As of November 2023, around 145 countries had announced or are considering net zero targets, covering close to 90% of global emissions. They include some countries that were resistant to climate action in previous decades. Country-level net zero targets now cover 92% of global GDP , 88% of emissions, and 89% of
17936-409: The more popular term after NASA climate scientist James Hansen used it in his 1988 testimony in the U.S. Senate . Since the 2000s, climate change has increased usage. Various scientists, politicians and media may use the terms climate crisis or climate emergency to talk about climate change, and may use the term global heating instead of global warming . Over the last few million years
18088-452: The national strategy of France, use the term "carbon neutral" to mean net reductions of all greenhouse gases. The United States has pledged to achieve "net zero" emissions by 2050. As of March 2021 it had not specified which greenhouse gases will be included in its target. Countries, local governments, corporations, and financial institutions may all announce pledges for achieving to reach net-zero emissions. In climate change discussions,
18240-428: The net-zero emissions commitments of non-state entities has made several recommendations for non-state actors . Non-state actors include cities, regional governments, financial institutions, and corporations. One of these is not financing new fossil fuel development. Another is supporting strong climate policy. And another is ensuring that business activities and investments do not contribute to deforestation . 65% of
18392-583: The number of actors pledging net-zero emissions. Many standards have emerged that interpret the net zero concept and aim to measure progress towards net zero targets. Some of these standards are more robust than others. Some people have criticized weak standards for facilitating greenwashing . The UN , UNFCCC , International Organization for Standardization (ISO), and the Science Based Targets initiative (SBTi) promote more robust standards. The "United Nations High-Level Expert Group" on
18544-726: The ocean . The rest has heated the atmosphere , melted ice, and warmed the continents. The Northern Hemisphere and the North Pole have warmed much faster than the South Pole and Southern Hemisphere . The Northern Hemisphere not only has much more land, but also more seasonal snow cover and sea ice . As these surfaces flip from reflecting a lot of light to being dark after the ice has melted, they start absorbing more heat . Local black carbon deposits on snow and ice also contribute to Arctic warming. Arctic surface temperatures are increasing between three and four times faster than in
18696-468: The order of 1000 km). In other words, anomalies are representative of temperature changes over large areas and distances. By comparison, absolute temperatures vary markedly over even short distances. A dataset based on anomalies will also be less sensitive to changes in the observing network (such as a new station opening in a particularly hot or cold location) than one based on absolute values will be. The Earth's average surface absolute temperature for
18848-467: The power sector. Sectors such as heavy manufacturing where it is harder to mitigate emissions will probably have a higher percentage of residual emissions by 2050. The ISO and British Standards Institution (BSI) publish "carbon neutrality" standards that have higher tolerance for residual emissions than "net zero" standards. For example, BSI PAS 2060 is a British standard for measuring carbon neutrality. According to these standards, carbon neutrality
19000-413: The present until now. The IPCC Sixth Assessment Report defines global mean surface temperature (GMST) as the "estimated global average of near-surface air temperatures over land and sea ice, and sea surface temperature (SST) over ice-free ocean regions, with changes normally expressed as departures from a value over a specified reference period". Put simply, the global surface temperature (GST)
19152-616: The rate at which heat escapes into space, trapping heat near the Earth's surface and warming it over time. While water vapour (≈50%) and clouds (≈25%) are the biggest contributors to the greenhouse effect, they primarily change as a function of temperature and are therefore mostly considered to be feedbacks that change climate sensitivity . On the other hand, concentrations of gases such as CO 2 (≈20%), tropospheric ozone , CFCs and nitrous oxide are added or removed independently from temperature, and are therefore considered to be external forcings that change global temperatures. Before
19304-517: The rate of Arctic shrinkage and underestimated the rate of precipitation increase. Sea level rise since 1990 was underestimated in older models, but more recent models agree well with observations. The 2017 United States-published National Climate Assessment notes that "climate models may still be underestimating or missing relevant feedback processes". Additionally, climate models may be unable to adequately predict short-term regional climatic shifts. A subset of climate models add societal factors to
19456-617: The rate of yield growth . Fisheries have been negatively affected in multiple regions. While agricultural productivity has been positively affected in some high latitude areas, mid- and low-latitude areas have been negatively affected. According to the World Economic Forum, an increase in drought in certain regions could cause 3.2 million deaths from malnutrition by 2050 and stunting in children. With 2 °C warming, global livestock headcounts could decline by 7–10% by 2050, as less animal feed will be available. If
19608-399: The recent average. This is why the temperature change is defined in terms of a 20-year average, which reduces the noise of hot and cold years and decadal climate patterns, and detects the long-term signal. A wide range of other observations reinforce the evidence of warming. The upper atmosphere is cooling, because greenhouse gases are trapping heat near the Earth's surface, and so less heat
19760-408: The release of chemical compounds that influence clouds, and by changing wind patterns. In tropic and temperate areas the net effect is to produce significant warming, and forest restoration can make local temperatures cooler. At latitudes closer to the poles, there is a cooling effect as forest is replaced by snow-covered (and more reflective) plains. Globally, these increases in surface albedo have been
19912-774: The release of the report, Net Zero Tracker, a research consortium that includes the NewClimate Institute, the Energy and Climate Intelligence Unit , the Data-Driven EnviroLab of the University of North Carolina at Chapel Hill , and the Net Zero Initiative at the University of Oxford issued a report evaluating the climate neutrality pledges of 116 of 713 regional governments, of 241 of 1,177 cities with populations greater than 500,000 , and of 1,156 of 2,000 publicly listed companies in
20064-474: The remaining 23%. Some forests have not been fully cleared, but were already degraded by these impacts. Restoring these forests also recovers their potential as a carbon sink. Local vegetation cover impacts how much of the sunlight gets reflected back into space ( albedo ), and how much heat is lost by evaporation . For instance, the change from a dark forest to grassland makes the surface lighter, causing it to reflect more sunlight. Deforestation can also modify
20216-477: The rest of the world. Melting of ice sheets near the poles weakens both the Atlantic and the Antarctic limb of thermohaline circulation , which further changes the distribution of heat and precipitation around the globe. The World Meteorological Organization estimates there is an 80% chance that global temperatures will exceed 1.5 °C warming for at least one year between 2024 and 2028. The chance of
20368-404: The resulting radiative forcing . Radiative forcing is the change in the Earth's energy balance that they cause. However, these potent but short-lived gases will drive temperatures higher in the short term. This could possibly push the rise in temperature past the 1.5 °C threshold much earlier. A comprehensive net-zero emissions target would include all greenhouse gases. This would ensure that
20520-506: The rights of the most vulnerable people and communities". It says that organizations should disclose how they will support communities affected by climate impacts and climate transition. As of November 2023, around 145 countries had announced or are considering net zero targets, covering close to 90% of global emissions. They include some countries that were resistant to climate action in previous decades. Country-level net zero targets now cover 92% of global GDP , 88% of emissions and 89% of
20672-405: The rising GST over time is one of the many lines of evidence supporting the scientific consensus on climate change , which is that human activities are causing climate change . Alternative terms for the same thing are global mean surface temperature (GMST) or global average surface temperature . Series of reliable temperature measurements in some regions began in the 1850—1880 time frame (this
20824-407: The same meaning. However, in some cases, these terms have different meanings from each other. For example, some standards for carbon neutral certification allow a lot of carbon offsetting . But net zero standards require reducing emissions to more than 90% and then only offsetting the remaining 10% or less to fall in line with 1.5 °C targets. In the last few years, net zero has become
20976-726: The same permanence as the greenhouse gases that they balance. The term for this concept is "like for like" removals. Permanence means that removals must store greenhouse gases for the same period as the lifetime of the GHG emissions they balance. For example, methane has a lifetime of around 12 years in the atmosphere. Carbon dioxide lasts between 300 and 1,000 years. Accordingly, removals that balance carbon dioxide must last much longer than removals that balance methane. Carbon credits can also fund initiatives that aim to avoid emissions. One example would be energy efficiency retrofits or renewable energy projects. Avoided emissions offsets result from actions that reduce emissions relative to
21128-463: The same time they continue to increase greenhouse gas emissions by extracting and producing fossil fuels. They claim that they will use carbon credits and carbon capture technology in order to continue extracting and burning fossil fuels. The UN has condemned such pledges as dangerous examples of greenwashing. Climate scientists James Dyke, Bob Watson , and Wolfgang Knorr argue that the concept of net zero has been harmful for emissions reductions. This
21280-433: The satellite records, the trends are now similar. The methods used to derive the principal estimates of global surface temperature trends are largely independent from each other and include: These datasets are updated frequently, and are generally in close agreement with each other. Records of global average surface temperature are usually presented as anomalies rather than as absolute temperatures. A temperature anomaly
21432-578: The sea levels by at least 3.3 m (10 ft 10 in) over approximately 2000 years. Recent warming has driven many terrestrial and freshwater species poleward and towards higher altitudes . For instance, the range of hundreds of North American birds has shifted northward at an average rate of 1.5 km/year over the past 55 years. Higher atmospheric CO 2 levels and an extended growing season have resulted in global greening. However, heatwaves and drought have reduced ecosystem productivity in some regions. The future balance of these opposing effects
21584-491: The second half of this century". The term "net zero" gained popularity after the Intergovernmental Panel on Climate Change published its Special Report on Global Warming of 1.5 °C (SR15) in 2018, this report stated that "Reaching and sustaining net zero global anthropogenic [human-caused] CO 2 emissions and declining net non-CO 2 radiative forcing would halt anthropogenic global warming on multi-decadal timescales ( high confidence )." The idea of net-zero emissions
21736-407: The temperature variations over this time period may also be due to ocean circulation patterns. Land air temperatures are rising faster than sea surface temperatures. Land temperatures have warmed by 1.59 °C (range: 1.34 to 1.83 °C) from 1850–1900 to 2011–2020, while sea surface temperatures have warmed by 0.88 °C (range: 0.68 to 1.01 °C) over the same period. For 1980 to 2020,
21888-471: The terms net zero, carbon neutrality, and climate neutrality are often used as if they mean the same thing. In some contexts, however, they have different meanings from each other. The sections below explain this. People often use these terms without rigorous standard definitions. A given actor may plan to achieve net-zero emissions through a combination of approaches. These would include (1) actions to reduce their own emissions, (2) actions to reduce
22040-523: The upper atmosphere but are not commonly used to measure temperature change at the surface. Ocean temperatures at different depths are measured to add to global surface temperature datasets. This data is also used to calculate the ocean heat content . Through 1940, the average annual temperature increased, but was relatively stable between 1940 and 1975. Since 1975, it has increased by roughly 0.15 °C to 0.20 °C per decade, to at least 1.1 °C (1.9 °F) above 1880 levels. The current annual GMST
22192-399: The warmest for several centuries to millennia, or longer. Numerous drivers have been found to influence annual global mean temperatures. An examination of the average global temperature changes by decades reveals continuing climate change: each of the last four decades has been successively warmer at the Earth's surface than any preceding decade since 1850. The most recent decade (2011-2020)
22344-523: The world population. According to World Population Review, a number of countries have net zero, or net negative carbon emissions: Bhutan , Comoros , Gabon , Guyana , Madagascar , Panama , and Suriname . However, according to the World Resources Institute, all of these countries have net positive greenhouse gas emissions. These countries generally have a high level of forestation. The European Green Deal , approved in 2020,
22496-571: The world population. 65% of the largest 2,000 publicly traded companies by annual revenue have net zero targets. Among Fortune 500 companies, the percentage is 63%. Company targets can result from both voluntary action and government regulation . Net zero claims vary enormously in how credible they are, but most have low credibility despite the increasing number of commitments and targets. While 61% of global carbon dioxide emissions are covered by some sort of net zero target, credible targets cover only 7% of emissions. This low credibility reflects
22648-465: The world would also urgently reduce non-CO 2 gases. Some targets aim to reach net-zero emissions only for carbon dioxide. Others aim to reach net-zero emissions of all greenhouse gases. Robust net zero standards state that all greenhouse gases should be covered by a given actor's targets. Some authors say that carbon neutrality strategies focus only on carbon dioxide, but net zero includes all greenhouse gases. However some publications, such as
22800-433: The world. Impacts can be observed on all continents and ocean regions, with low-latitude, less developed areas facing the greatest risk. Continued warming has potentially "severe, pervasive and irreversible impacts" for people and ecosystems. The risks are unevenly distributed, but are generally greater for disadvantaged people in developing and developed countries. The World Health Organization calls climate change one of
22952-531: Was 1.48 °C hotter than the average in the years 1850-1900 according to the Copernicus Climate Change Service . It was declared as the warmest on record almost immediately after it ended and broke many climate records. There is a long-term warming trend, and there is variability about this trend because of natural sources of variability (e.g. ENSO such as 2014–2016 El Niño event , volcanic eruption ). Not every year will set
23104-406: Was warmer than any multi-centennial period in the past 11,700 years. The following chart is from NASA data of combined land-surface air and sea-surface water temperature anomalies. Factors that influence global temperature include: There is a scientific consensus that climate is changing and that greenhouse gases emitted by human activities are the primary driver. The scientific consensus
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