New climate maps predict major changes in vegetation by end of century

A multinational study seen in Scientific Data and led by KAUST reports that the global climate has experienced notable changes in climate classification over the past century, and these shifts are projected to intensify in the coming decades. With an updated version of the 1-km Kӧppen-Geiger climate classification maps released in 2018, the study provides a comprehensive view of historical and future climate conditions across the globe.

“These new maps offer a more refined and broader perspective,” explained KAUST Assistant Professor Hylke Beck, lead author of the study, about the information gained from the new version.

The Köppen-Geiger classification is an essential tool for understanding global climate. Originating in the late 19th century, it divides the world’s land climate into five major classes based on air temperature and precipitation patterns. This classification aligns with the global vegetation distribution, making it a vital tool for ecological and ecohydrological applications as well as climate change impact assessments.

The updated maps incorporate historical data from four periods, ranging from 1901 to 2020, and projections for two future periods extending up to 2099 for various socioeconomic scenarios. The researchers used a refined selection from 67 climate models, but excluded models with unrealistic CO2-induced warming rates, to ensure the highest accuracy.

One of the most notable findings is the projected shift in land surface climate. Specifically, researchers anticipate an area roughly the size of Argentina, the world’s eighth largest country, or 2.6 million km2, to transition from polar to cold climates by 2071–2099 under the shared socioeconomic pathways (SSP)2-4.5 scenario, which assumes greenhouse gas emissions will approach zero by the end of the century.

Additionally, 2.4 million km2 is projected to shift from cold to temperate, 1.1 million km2 from cold to arid, and 2.8 million km2 from temperate to tropical regions.

However, the study also emphasized that actual vegetation changes may not necessarily occur in concert with these classifications. Beck notes, “Changes are likely to occur gradually through the process of succession, in which plants and animals steadily colonize and modify an ecosystem over time.”

With the previous version of the maps cited over 3,000 times, this updated version promises to be an invaluable resource for researchers, policymakers, and the broader community.

More information:
Hylke E. Beck et al, High-resolution (1 km) Köppen-Geiger maps for 1901–2099 based on constrained CMIP6 projections, Scientific Data (2023). DOI: 10.1038/s41597-023-02549-6

Provided by
King Abdullah University of Science and Technology

Citation:
New climate maps predict major changes in vegetation by end of century (2023, October 23)

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