Key concepts

Learn more about key concepts used in the Climate risk dashboard, including different emissions scenarios and indicator definitions.

Key Terms

Overshoot scenarios

Scenarios that temporarily exceed a specific warming limit expressed in global mean temperature increase above pre-industrial levels before bringing the temperature back down again, e.g., by deploying CDR.

Temperature overshoot

The temporary exceedance of a specified level of global warming, such as 1.5°C. Overshoot implies a peak followed by a decline in global warming, achieved through anthropogenic removal of carbon dioxide (CO2) exceeding remaining CO2 emissions globally.

Indicators

Annual maximum temperature

Daily maximum temperature of the air near the Earth's surface (approximately 2 metres above the ground).

Extremely cold year

Annual Mean Temperature during a year where it reaches an extremely low value.

The rarity of such an event (or return period) can be specified: 1-in-10-year, 1-in-20-year, or 1-in-50-year over the reference period of interest (pre-industrial or present-day). The climate risk dashboard provides information on both changes in the intensity of an event of such frequency in the selected reference period over time (quantified in °C in the Timing and Location sections), as well as on changes in the frequency of occurrence of an event at least as extreme over time (quantified in % in the Avoidable vs. Unavoidable section). We refer here to temperature of the air near the Earth’s surface (approximately 2 metres above the ground).

Mean temperature

Annual temperature during a year where it equals a median value. We refer here to temperature of the air near the Earth’s surface (approximately 2 metres above the ground). Changes in this indicator are expressed in degrees Celsius (°C).

Extremely hot year

Annual Mean Temperature during a year where it reaches an extremely high value.

The rarity of such an event (or return period) can be specified: 1-in-10-season, 1-in-20-season, or 1-in-50-season over the reference period of interest (pre-industrial or present-day). The climate risk dashboard provides information on both changes in the intensity of an event of such frequency in the selected reference period over time (quantified in °C in the Timing and Location sections), as well as on changes in the frequency of occurrence of an event at least as extreme over time (quantified in % in the Avoidable vs. Unavoidable section). We refer here to temperature of the air near the Earth’s surface (approximately 2 metres above the ground).

Days, hours and nights a year with heat stress

Number of days, hours and nights per year where wet bulb globe temperature goes over certain temperatures.

Wet bulb globe temperature (WBGT) is a measure of heat stress in direct sunlight, which takes into account temperature, humidity, wind speed, sun angle and cloud cover (solar radiation). The boundaries that we use below are standards of ISO 7243:2017 'Ergonomics of the thermal environment'. More information on these boundaries can be found in Souverijns et al. 2023.

WBGT > 25°C: Moderate heat stress
WBGT > 28°C: High heat stress
WBGT > 29.5°C: Very high heat stress
WBGT > 31°C: Extreme heat stress

Heatwave days per year

Periods of at least 3 days in which the maximum and minimum temperature exceeds the 90th percentile value of a reference present period (2011-2020).

Mean daily temperature

Daily mean temperature refers to the average temperature of air masses near the Earth’s surface (2 metres above the ground in this case).

Sea surface pH

The pH scale runs from 0 to 14, with 7 being a neutral pH. Anything higher than 7 is basic (or alkaline) and anything lower than 7 is acidic. The ocean’s average pH is now around 8.1, which is basic (or alkaline), but as the ocean continues to absorb more CO2, the pH decreases and the ocean becomes more acidic.

Sea surface temperature

The subsurface bulk temperature in the top 10m of the ocean in °C. Due to climate change and changes in ocean circulation, warming projected in the global ocean can strongly vary from region to region.

Marine heatwave days per year

Number of days the selected marine region experiences a heatwave. A marine heatwave is considered to occur if daily mean sea surface temperatures averaged over the top 10m of the ocean exceed values that would be reached only 10% of the time on average in the absence of global warming.

Oxygen content

Oxygen concentration dissolved in sea water in the upper 10m (surface) of the ocean in [mg / L].

Low oxygen levels can lead to a decrease in viability and higher mortality in marine ecosystems. Increasing sea water temperatures due to climate change decrease the amount of oxygen that can dissolve in the ocean, thus ocean oxygen levels are currently declining.

Mean daily maximum temperature

Annual average of the maximum temperature reached in a day, measured 2 metres above the ground.

Mean daily minimum temperature

Annual average of the lowest air temperature reached in a day, measured 2 metres above the ground.

Scenarios

The PROVIDE Climate risk dashboard offers information on potential future climate impacts to understand and plan for a range of different future scenarios.

We show scenarios covering two timeframes:

  • up to 2100 - which is the timeframe referenced in the Paris Agreement, and focuses on impacts in the next few decades, and
  • up to 2300, which is important to show impacts on slower to respond systems such as glaciers, or oceans.

The scenarios presented on the climate risk dashboard are mostly characterised by the changes in two key quantities over time: global greenhouse gas emissions, and Global Mean Temperature (GMT). Global greenhouse gas emissions are responsible for most of the changes in the climate system observed since the pre-industrial period and those projected for the coming centuries. Global Mean Temperature (GMT) is used to quantify global warming compared to a pre-industrial climate (the Intergovernmental Expert Panel on Climate Change, or IPCC, uses the 1850-1900 period for that purpose).

However, more and more research suggests that GMT won’t solely define the level of climate impacts at the local level. This is the case for overshoot scenarios, where GMT exceeds the 1.5°C warming limit of the Paris Agreement, then peaks and declines potentially going back to 1.5°C or lower. This occurs once emissions have been sufficiently reduced and most often compensated by at least some removal of carbon dioxide from the atmosphere. In these scenarios, temperatures rise and descend, but not all impacts follow this trajectory - as peak temperatures led to some changes in our Earth’s system that are irreversible.

Below we offer a choice of research questions that will preselect scenarios included in the dashboard that can answer them. That table shows key characteristics of those scenarios (emissions or GMT levels at specific points in time etc.).

Timeframes

2100 for the majority of climate impacts, 2300 for longer term impacts (glaciers and oceans).

Scenario presets

Click on a research question and see the preselected scenarios that can answer it.

Scenario list

Compare and select up to three scenarios to display them in the scenario explorer.

Scenario timelines

Select a scenario to see progress over time.

Global mean temperature in °C

The lines in the graph represent best estimates. Learn more about uncertainties here.

Model
FaIR v1.6.4

Global greenhouse gas emissions in GtCO₂eq/yr

The lines in the graph represent best estimates. Learn more about uncertainties here.

Model
FaIR v1.6.4

PROVIDE

Climate Risk Dashboard
The development of the dashboard was led by Climate Analytics, with contributions from the PROVIDE consortium.
Logo of the European Union reading 'Funded by the European Union'

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 101003687.

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