Rapid plant evolution may make coastal regions more susceptible to flooding and sea level rise, study shows
Evolution has occurred more rapidly than previously thought in the Chesapeake Bay wetlands, which may decrease the chance that coastal marshes can withstand future sea level rise, researchers at the University of Notre Dame and collaborators demonstrated in a recent publication in Science.
Jason McLachlan, an associate professor in the Department of Biological Sciences, evaluated the role evolution plays in ecosystems in the Chesapeake Bay by studying a type of grass-like plant, Schoenoplectus americanus, also called chairmaker’s bulrush. The research team used a combination of historical seeds found in core sediment samples, modern plants, and computational models to demonstrate that “resurrected” plants were allocating more resources in their roots below ground, allowing them to store carbon more quickly than modern plants.
“We think this surprising reduction in below-ground growth might be a response to increased pollution in Chesapeake Bay,” McLachlan said. “Decades of pollution have resulted in higher levels of nitrogen and phosphorus in the waters, and since these are plant nutrients, evolution might now favor plants that ‘invest’ less in expensive roots.”
The seeds from the historical plants had remained underground on the property of the Smithsonian Environmental Research Center on the bay, dormant since the mid-1900s. McLachlan and other researchers collected them and allowed them to germinate and grow. Known as resurrection ecology, this type of research provides direct evidence that can support assumptions about evolutionary change.
Computational models had previously established the threat of sea level rise to coastal wetlands, and have incorporated scientists’ understanding of how flooding affects plant growth and how plant growth affects stability. While modern plants and samples from the mid-1900s grew similarly above ground, the modern plants invested less resources into rooting deeper below ground. This created less biomass below ground and could reduce the capacity of wetlands to withstand flooding.
McLachlan and collaborators showed, through computational models, that the modern plants store carbon in soils 15 percent slower than the plants did in the mid-1900s.
McLachlan was astounded by the speed with which evolutionary change occurred in Schoenoplectus americanus.
“The research shows the role evolution plays as ecosystems are increasingly stressed by the impacts of human society,” he said.
First author Megan Vahsen, a doctoral student at Notre Dame, had discovered the importance of below-ground plant traits as early as 2017 as a first-year graduate student at Notre Dame. Though the researchers cannot specifically say that plants are investing relatively more of their energy above ground and less below ground because of pollution, she believes the combination of techniques used in the current research provides novel predictions about the impact of evolution on ecosystems. She expects the study will motivate researchers to study the causes that drive evolutionary change.
“For reasons of inconvenience, science has often ignored what happens below ground,” she said, noting that she and undergraduates at Notre Dame spent about 500 hours washing and sorting plant roots. “But we have learned so much in this study; there are so many secrets happening below ground.”
McLachlan said the research further demonstrates the role evolution plays as ecosystems are increasingly stressed by the impacts of human society.
“Evolutionary change over almost a century played a destabilizing role for coastal ecosystems. Other species in other ecosystems might have responded differently to human environmental impact, perhaps providing more resilience to ecosystems, or perhaps having no impact at all,” he said. “Now that we've shown that evolutionary change can be fast enough and large enough to affect ecosystem resilience, we hope other researchers will consider this component of biological response to global environmental change.”
Other collaborators in this research include Michael Blum and Scott Emrich of the University of Tennessee, Jim Holmquist and Patrick Megonigal of the Smithsonian Environmental Research Center, Brady Stiller of the University of Notre Dame and Kathe Todd-Brown of the University of Florida, Gainesville. The study was funded by the National Science Foundation and the United States Coastal Research Program.
Contact: Jessica Sieff, assistant director of media relations, 574-631-3933, jsieff@nd.edu
Originally published by news.nd.edu on January 26, 2023.
atLatest Research
- Notre Dame School of Architecture hosts annual summit for 100-Mile CoalitionOn Saturday (Dec. 7), the University of Notre Dame’s School of Architecture will host its second annual summit for the 100-Mile Coalition. Created by the school’s Housing and Community Regeneration Initiative, the coalition comprises community leaders from cities within a 100-mile radius of the University. The coalition seeks to bring together city and nonprofit organization leaders who are working toward solutions related to housing shortages, disinvested communities, failed infrastructure and stagnant economic growth, as well as talent and workforce retention.
- Tracing Intellectual Legacy: from Henri de Lubac to Gustavo GutiérrezWhen Gustavo Gutiérrez, O.P. passed away last month (October 22, 2024), Pope Francis sent a video message to be played at his funeral Mass which was livestreamed from Gutiérrez’s home country of Peru. Gutiérrez, a mestizo priest who spent most of his life pastoring a poor parish in the slums of Lima,…
- Pulte Institute joins global consortium using research to end povertyThe United States Agency for International Development (USAID) has awarded $75 million to a consortium of leading global institutions, including the Pulte Institute for Global Development at the University of Notre Dame’s Keough School of Global Affairs, to enhance the effectiveness of poverty alleviation programs through research.
- Notre Dame surpasses 87 percent for undergraduate study abroad participationThe University of Notre Dame has once again received national recognition for its commitment to internationalization and global education in newly released rankings from the Institute of International Education. For the 2022-23 academic year, study abroad participation among Notre Dame undergraduates increased by more than 10 percentage points from the previous year — from 77 to 87.5 percent, according to new data published in the Open Doors report.
- Collaboration with Facilities Design and Operations helps Notre Dame grow its global presenceIf you work on Notre Dame’s campus, you can often hear the hum and rumble of a construction site nearby—maybe it’s a new dorm going up, an old building being renovated, or a parking lot getting a geothermal upgrade. This important and innovative work is hard to miss if you’re coming to campus every…
- From the Research Blog: "Ivo of Chartes, De adventu Domini (On the Advent of the Lord)"Cambridge, Corpus Christi, Parker Library 289. Ivo of Chartres, Sermo de sacramentis neophitorum, here ascribed to Hugh of…