December 2, 2024 This article has been reviewed according to Science X's editorial process and policies . Editors have highlightedthe following attributes while ensuring the content's credibility: fact-checked peer-reviewed publication trusted source proofread by Will Wright, RMIT University A major global study using teabags as a measuring device shows warming temperatures may reduce the amount of carbon stored in wetlands. The international team of scientists buried 19,000 bags of green tea and rooibos in 180 wetlands across 28 countries to measure the ability for wetlands to hold carbon in their soil, known as wetland carbon sequestration.
While tea bags may seem an unusual instrument to measure this phenomenon, it is a proven proxy method to measure carbon release from soil into the atmosphere. However, this is the first time teabags have been used for a large-scale, long-term study and the tea leaves have revealed which types of wetlands are leaking the most carbon. RMIT University's Dr.
Stacey Trevathan-Tackett led the study as part of an Australian Research Council DECRA Fellowship while at Deakin University. "Climate effects on belowground tea litter decomposition depend on ecosystem and organic matter types in global wetlands" is published in Environmental Science and Technology . The global study involved 110 co-authors on the paper, along with many others who helped, such as undergraduate students and citizen scientists.
Core team members included Dr. Martino Malerba and Professor Peter Macreadie from Deakin University and RMIT, Dr. Sebastian Kepfer-Rojas from the University of Copenhagen in Denmark and Dr.
Ika Djukic from The Swiss Federal Institute for Forest, Snow and Landscape Research WSL. "This is the first long-term study of its kind, using this teabags method, which will help guide how we can maximize carbon storage in wetlands and help lower emissions globally," said Trevathan-Tackett, who is now in RMIT's School of Science. "Changes in carbon sinks can significantly influence global warming—the less carbon decomposed means more carbon stored and less carbon in the atmosphere.
" Reading the tea leaves Tea bags provide a simple and standardized way to identify how climate, habitat type and soil type influence carbon breakdown rates in wetlands. At each site, scientists buried between 40 and 80 tea bags about 15 cm underground and collected these at various time intervals over three years, tagging their GPS location. They then measured their remaining organic mass to assess how much carbon had been preserved in the wetlands.
The project used the two types of tea bags (green and rooibos) as measures for different kinds of organic matter found in soils. Green tea consists of organic matter that decomposes easily, whereas rooibos decomposes more slowly. Using both types of tea bags in this project enabled the researchers to gain a more comprehensive picture of the wetlands' capacity for carbon storage.
"This data shows us how we can maximize carbon storage in wetlands globally," Trevathan-Tackett said. The findings The team studied the effect of temperature in two ways: using local weather station data for each site and comparing differences in climate regions. "Generally, warmer temperatures led to increased decay of organic matter, which translates to reduced carbon preservation in soil," Trevathan-Tackett said.
The two tea types acted differently with increasing temperature. "For the harder to degrade rooibos tea, it didn't matter where it was—higher temperature always led to more decay, which indicates that types of carbon we'd typically expect to see last longer in the soil were vulnerable to higher temperatures," Trevathan-Tackett said. Discover the latest in science, tech, and space with over 100,000 subscribers who rely on Phys.
org for daily insights. Sign up for our free newsletter and get updates on breakthroughs, innovations, and research that matter— daily or weekly . "With increasing temperatures, the green tea bags decayed at different rates depending on the type of wetland—it was faster in freshwater wetlands but slower in mangrove and seagrass wetlands.
"Increasing temperatures may also help boost carbon production and storage in plants, which could help offset carbon losses in wetlands due to warmer weather, but this warrants further investigation with future studies." Freshwater wetlands and tidal marshes had the highest tea mass remaining, indicating a greater potential for carbon storage in these ecosystems. The study's findings are helping piece together the puzzle of wetland carbon sequestration on a global scale.
Within the terrestrial TeaComposition initiative led by Djukic, information on litter decomposition has been collected at about 500 sites worldwide resulting in several peer-review publications. "Applying the common metric across aquatic, wetland, marine and terrestrial ecosystems allows for a conceptual comparison and understanding of key drivers involved in the control of global litter carbon turnover," Djukic said. "Now that we are starting to get a better understanding of which environments are storing more carbon than others, we can use this information to ensure we protect these areas from environmental or land-use change .
" The researchers will combine the data from this project with data from similar studies of land-based carbon sinks, including forests, to inform designs of predictive global models. More information: Stacey M. Trevathan-Tackett et al, Climate Effects on Belowground Tea Litter Decomposition Depend on Ecosystem and Organic Matter Types in Global Wetlands, Environmental Science & Technology (2024).
DOI: 10.1021/acs.est.
4c02116 Journal information: Environmental Science and Technology , Environmental Science & Technology Provided by RMIT University.
Environment
Global teabag study shows warming temperatures may shrink wetland carbon sinks
A major global study using teabags as a measuring device shows warming temperatures may reduce the amount of carbon stored in wetlands.