Carbon monitoring
Carbon monitoring as part of
Monitoring carbon emissions is key to the
Data sources
Sources of such emissions data include:
FMS – A system used in Germany to record and calculate annual emission reports for plant operators subject to the
Remaining global carbon budget
Carbon emissions are also monitored on a global scale (with data for countries, sectors, companies, activities, etc).
Several organisations provide annual updates to the remaining carbon budget, including the Global Carbon Project, the Mercator Research Institute on Global Commons and Climate Change (MCC)[8] and the CONSTRAIN project.[9] In March 2022, before formal publication of the "Global Carbon Budget 2021" preprint,[7] scientists reported, based on Carbon Monitor[10] (CM) data, that after COVID-19-pandemic-caused record-level declines in 2020, global CO2 emissions rebounded sharply by 4.8% in 2021, indicating that at the current trajectory, the carbon budget for a ⅔ likelihood for limiting warming to 1.5 °C would be used up within 9.5 years.[11]
In April 2022, the now
It identifies three major issues for improving reliable accuracy of monitoring, shows that China and India surpassed 2019 levels (by 5.7% and 3.2%) while the EU and the US stayed beneath 2019 levels (by 5.3% and 4.5%), quantifies various changes and trends, for the first time provides models' estimates that are linked to the official country GHG inventories reporting, and suggests that the remaining carbon budget at 1. Jan 2022 for a 50% likelihood to limit global warming to 1.5 °C (albeit a temporary exceedence is to be expected) is 120 GtC (420 GtCO2) – or 11 years of 2021 emissions levels.[7]
This does not mean that likely 11 years remain to cut emissions but that if emissions stayed the same, instead of increasing like in 2021, 11 years of constant GHG emissions would be left in the hypothetical scenario that all emissions suddenly ceased in the 12th year. (The 50% likelihood may be describable as a kind of minimum plausible deniability requirement as lower likelihoods would make the 1.5 °C goal "unlikely".) Moreover, other trackers show (or highlight) different amounts of carbon budget left, such as the MCC, which as of May 2022 shows "7 years 1 month left"[8] and different likelihoods have different carbon budgets: a 83% likelihood would mean 6.6 ±0.1 years left (ending in 2028) according to CM data.[11]
In October 2023 a group of researchers updated the carbon budget including the CO2 emitted at 2020-2022 and new findings about the role of reduced presence of polluting particles in the atmosphere.[13] They found we can emit 250 GtCO2 or 6 years of emissions at current level starting from January 2023, for having a 50% chance to stay below 1.5 degrees. For reaching this target humanity will need to zero CO2 emissions by the year 2034. To have a 50% chance of staying below 2 degrees humanity can emit 1220 GtCO2 or 30 years of emissions at current level.[14][15]In the United States
Almost all climate change regulations in the US have stipulations to reduce carbon dioxide and methane emissions by economic sector, so being able to accurately monitor and assess these emissions is crucial to being able to assess compliance with these regulations.[16] Emissions estimates at the national level have been shown to be fairly accurate, but at the state level there is still much uncertainty.[16] As part of the Paris Agreement, the US pledged to "decrease its GHG emissions by 26–28 % relative to 2005 levels by 2025 as part of the Paris Agreement negotiated at COP21.[17] To comply with these regulations, it is necessary to quantify emissions from specific source sectors.[16] A source sector is a sector of the economy that emits a particular greenhouse gas, i.e. methane emissions from the oil and gas industry, which the US has pledged to decrease by 40–45 % relative to 2012 levels by 2025[18] as a more specific action towards achieving its Paris Agreement contribution.
Currently, most governments, including the US government, estimate carbon emissions with a "bottom-up" approach, using emission factors which give the rate of carbon emissions per unit of a certain activity, and data on how much of that activity has taken place.
Accounting by sector can be complicated when there is a chance of double counting. For example, when coal is gasified to produce
NASA Carbon Monitoring System (CMS)
NASA Carbon Monitoring System (CMS) is a climate research program[20] created by a congressional order in 2010 that provides grants of about $500,000 a year for climate research that measure carbon dioxide and methane emissions.[20] Using instruments in satellites and airplanes CMS funded research projects provide data to the United States and other countries that help track progress of individual nations regarding their Paris climate emission cuts agreements. For example, CMS projects measured carbon emissions from deforestation and forest degradation. CMS "stitch[ed] together observations of sources and sinks into high-resolution models of the planet's flows of carbon."[21] The 2019 federal budget specifically assured funding for CMS,[20] after the Trump administration proposed to end funding.[21][22]
In the European Union
As part of the
The top-down, atmospheric measurement approach involves satellite data and in-situ measurements of carbon dioxide concentrations, as well as atmospheric models that model atmospheric transport of carbon dioxide. These have limited ability to determine carbon dioxide emissions at highly resolved spatial scales and can typically not represent finer scales than a 1 km grid. The models also must resolve the fluxes of carbon dioxide from anthropogenic sources like fossil fuel burning, and from natural interactions like terrestrial ecosystems and the ocean.[24] Due to the complexities and limitations of the top-down approach, the EU combines this method with a bottom-up approach.
The current bottom-up data are based on information that is self-reported by emitters in the trading scheme. However, the EU is trying to improve this information source and has proposed plans for improved bottom-up emissions maps, which will have greatly improved spatial resolution and near real-time updates.[24]
An operational data system to combine the information gathered from the two aforementioned sources is also planned. The EU hopes that by the 2030s, this will be operational and enable a highly sophisticated carbon monitoring program across the European Union.[24]
Satellites
Satellites can be used to monitor carbon dioxide concentrations from orbit.
See also
- Top contributors to greenhouse gas emissions
- List of countries by carbon dioxide emissions
- Supply chain management
References
- Department of Climate Change and Energy Efficiency. Archived from the originalon November 20, 2008.
- ^ "Carbon Monitoring for Action". Center For Global Development.
- ^ IPCC (2014). "Summary for Policy Makers" (PDF). Intergovernmental Panel on Climate Change. Archived from the original (PDF) on 2017-04-30.
- ^ "Irish and British aviation emissions cutting work underway". Edie.net. Retrieved 2013-09-08.
- ^ "Standardised, Electronic Reporting on Emissions" (PDF). German Emissions Trading Authority at the Federal Environment Agency. March 30, 2012. Archived from the original (PDF) on 30 March 2012.
- ^ "Global Carbon Budget 2021" (PDF). Global Carbon Project. 4 November 2021. p. 57. Archived (PDF) from the original on 11 December 2021.
The cumulative contributions to the global carbon budget from 1850. The carbon imbalance represents the gap in our current understanding of sources & sinks. ... Source: Friedlingstein et al 2021; Global Carbon Project 2021
- ^ ISSN 1866-3508.
- News report: "Cut emissions "starting now" – Global Carbon Project experts". University of Exeter. Archived from the original on 12 May 2022. Retrieved 12 May 2022.
- ^ a b "Remaining carbon budget - Mercator Research Institute on Global Commons and Climate Change (MCC)". www.mcc-berlin.net. Retrieved 27 April 2022.
- ^ "Publications | Reports Archives". Constrain. Retrieved 2023-09-20.
- ^ "Carbon monitor". carbonmonitor.org. Retrieved 19 April 2022.
- ^ PMID 35340723.
- S2CID 241035429.
- .
- ^ McGrath, Matt (31 October 2023). "Carbon emissions threaten 1.5C climate threshold sooner than thought - report". Nature Climate Change. BBC. Retrieved 1 November 2023.
- ^ BORENSTEIN, SETH (30 October 2023). "Earth Will Lock in 1.5°C of Warming By 2029 At Current Rate of Burning Fossil Fuels". Times. Retrieved 1 November 2023.
- ^ .
- ^ "The Paris Agreement". United Nations Framework Convention on Climate Change.
- ^ "EPA Releases First-Ever Standards to Cut Methane Emissions from the Oil and Gas Sector". US Environmental Protection Agency.
- ^ "Greenhouse Gas Emissions from a Typical Passenger Vehicle" (PDF). US Environmental Protection Agency.
- ^ . Retrieved May 10, 2019.
- ^ a b Voosen, Paul (May 9, 2018). "Trump White House quietly cancels NASA research verifying greenhouse gas cuts". Science AAAS. Retrieved May 10, 2019.
- ^ "Trump White House axes Nasa research into greenhouse gas cuts". BBC News. 10 May 2018. Retrieved May 13, 2018.
- ^ European Commission Climate Action, Emissions Trading System https://ec.europa.eu/clima/policies/ets_en
- ^ a b c d "CO2 Report" (PDF). European Union.
- ^ S2CID 4453088.
- ^ "Earth Observatory". NASA. 17 November 2016.
- ^ a b "China launches carbon dioxide monitoring satellite". Physics.com. Archived from the original on 2016-12-23.