Environmental Scientist Uses Sensors to Study Trees鈥 Cooling Power

Winbourne tree research Image by Brooke Coupal
Asst. Prof. Joy Winbourne waterproofs a sap flow sensor with silicone before placing it into a tree.

07/28/2023
By Brooke Coupal

A blistering hot day is even hotter in a city.

According to the 聽(EPA), daytime temperatures in urban areas are about 1 to 7 degrees Fahrenheit higher than those in outlying areas. Known as the urban heat island effect, the warmer temperatures are the result of dense concentrations of buildings, roads and other surfaces that absorb and retain heat.

Some cities, including Lowell, are attempting to mitigate heat islands by increasing tree cover. Last year, city officials partnered with UMass Lowell students to collect tree data to aid in the development of an urban forestry master plan.

But how do trees respond to urban environments? And how does the growing threat of climate change affect urban trees? Environmental, Earth and Atmospheric Sciences Asst. Prof. Joy Winbourne is looking for answers.

鈥淭here鈥檚 a history of assuming cities are concrete jungles, so we鈥檙e still learning a lot about how plants behave in cities,鈥 she says. 鈥淭he field of urban ecology is pretty young.鈥

Winbourne鈥檚 research could help officials select the best tree species for cooling cities.聽

鈥淧lanting the right tree in the right place is really important,鈥 she says.

Tracking Trees鈥 Water Movement

Along with providing shade, trees can help cool surrounding areas by moving water from the ground into the atmosphere through transpiration. The water is carried through the trees鈥 stems and released as water vapor, helping to reduce high temperatures by 2 to 9 degrees Fahrenheit, according to the

To better understand how trees transpire in cities, Winbourne deployed four sap flow sensors on sugar maple trees on UML鈥檚 South Campus and a tulip tree near Lowell High School.

Winbourne tree research LHS students Image by Brooke Coupal
From left, Lowell High School science teacher Tara Goodhue and students Jacie Mulbah and Joeury Garcia examine a sap flow sensor.

鈥淯Mass Lowell being an urban campus allows us to set up studies, both on and off campus, that help us to better understand impacts of urbanization on biogeochemical cycles,鈥 says Winbourne, who plans to deploy sensors on other tree species and in different areas of Lowell in the future.

Using what she calls 鈥渢he world鈥檚 tiniest chainsaw,鈥 Winbourne made slits in the trees to reach sapwood, where water is transported. After allowing time for the trees to undergo a wounding response, she returned to insert the sap flow sensors.

The sensors pump heat into the trees every 15 minutes and then track the movement of that heat. The heat is used as a tracer to measure how fast water is moving within the tree.

Winbourne will also be paying close attention to any extreme weather events that Lowell experiences.聽

鈥淐limate change is creating more frequent and intense heat waves and precipitation events,鈥 she says. 鈥淭here are very few field experiments on these extreme events, and how trees respond to heat waves and heavy precipitation could have a really significant impact on the cooling benefits they provide.鈥

Through the data collected, Winbourne will analyze how prolonged periods of heat and excess stormwater runoff impact water movement in urban trees.

Involving the Community

Helping Winbourne is environmental studies master鈥檚 student Evan Paige 鈥21.

Winbourne tree research grad student Image by Brooke Coupal
Environmental studies master鈥檚 student Evan Paige deploys a sap flow sensor on South Campus.
Paige, who received a bachelor鈥檚 degree in environmental science from UML, returned to the university specifically to work with Winbourne.

鈥淚 wanted to work on plant-related ecology research,鈥 he says. 鈥淚t鈥檚 a lot of fun getting this hands-on experience.鈥

Winbourne also teamed up with Tara Goodhue 鈥09, 鈥20 to bring the project to Lowell High School, where the latter teaches science. At the end of the school year, Goodhue held her environmental science class outside so students could assist Winbourne with deploying a sap flow sensor.

鈥淭his makes science come alive for students, because they鈥檙e participating in it instead of just reading about it in a textbook,鈥 says Goodhue, who is also an adjunct professor in UML鈥檚 School of Education.

鈥淢y big motivator for this partnership is to expose high school students, many of whom might be considering UMass Lowell for college, to the field of ecology,鈥 Winbourne says. 鈥淩egardless of the students' path, it shows them that they can be environmental stewards.鈥

Joeury Garcia, a rising senior at Lowell High School, is interested in environmental science and was excited to learn about Winbourne鈥檚 work.

鈥淗elping with this university research really empowers me to help make my community a better place,鈥 she says.

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