Serving the UMN community since 1900

The Minnesota Daily

Serving the UMN community since 1900

The Minnesota Daily

Serving the UMN community since 1900

The Minnesota Daily

Daily Email Edition

Get MN Daily NEWS delivered to your inbox Monday through Friday!

SUBSCRIBE NOW

By demonizing pleasure, we set ourselves up for unfulfilling sex lives.
Opinion: Let’s talk about sex
Published March 27, 2024

Global vegetation map will aid climate change research

The map is based on data from 45,000 plants belonging to more than 3,600 species.
The College of Biological Sciences Conservatory as seen on Monday, Sept. 10 in St. Paul. Construction for a new conservatory begins in October.
Image by Courtney Deutz

The College of Biological Sciences Conservatory as seen on Monday, Sept. 10 in St. Paul. Construction for a new conservatory begins in October.

University of Minnesota researchers created the world’s first global vegetation map based on data from 45,000 plants belonging to more than 3,600 species.

More than 50 researchers worked on the project —  a multi-year endeavor — published in late November. Experts said mapping plant traits will offer a better understanding of the carbon cycle, which impacts climate change. 

“For the first time we have wall-to-wall coverage of important plant attributes,” said project leader Peter Reich, a Department of Forest Resources professor. “This allows us to do a much better job of making plant models.” 

University researchers from the College of Food, Agricultural and Natural Resource Sciences and the College of Science and Engineering came together to combine the science of plants with technology to make the map possible, said University researcher and co-lead author Ethan Butler.

The researchers collected data from every continent except Antarctica and Africa. The information is a major contribution to the largest global plant trait database, TRY, Butler said. 

The global map includes plant traits like nitrogen concentration and leaf phosphorus concentration, which give the researchers important information about how plants perform photosynthesis, said John Hopkins University professor and co-lead author Abhi Datta.

Each point on the map shows a full distribution of trait values, summarized by a mean and a standard deviation, while traditional models contain one value, Butler said. The map also allows researchers to see the distribution of plant traits at both local and global levels, he said. 

The map will provide researchers with insights about the carbon cycle and climate change, Butler said.

“Maps are an input to make estimates for how carbon change will occur with climate change, as these plant traits drive the carbon cycle. With this map, we will know that there is real variation,” Butler said. 

Some experts say local variability of plant traits will lead to more accurate modeling of the carbon cycle in Earth System Models. 

Researchers learned that locally, plant traits vary more extensively than previously thought, Butler said. Local variation is approximately equal to variation on the global level, he said. 

These variations in plant traits will affect the carbon cycle and contribute to climate change, a major environmental problem, Reich said.

“We are currently working on including the global map findings into climate models. This will give us an idea of how carbon is being absorbed,” Datta said. 

Leave a Comment
More to Discover

Accessibility Toolbar

Comments (0)

All The Minnesota Daily Picks Reader Picks Sort: Newest

Your email address will not be published. Required fields are marked *