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Smithsonian Environmental Research Center, 草榴社区 Biologist Publish Long-term Study on Sea Level鈥檚 Impact on Wetland Plants

Adam Langley

Rising sea levels are endangering the future of wetlands around the world. Scientists have long believed rising CO2 levels could stimulate extra plant growth at a rate that could outpace rising seas. A decades-long study published in ScienceAdvances May 18 by the Smithsonian Environmental Research Center (SERC) and Adam Langley, PhD, associate professor of Biology in 草榴社区鈥檚 College of Liberal Arts and Sciences (CLAS), shows that this benefit is diminishing.

鈥淭he CO2 fertilization effect has always been one of the silver linings of climate change,鈥 Langley said. 鈥淲e thought, well, at least plants are going to grow more. But they didn鈥檛. So, the silver lining just got a little cloudier.鈥

Langley joined the Smithsonian鈥檚 research on wetlands in 2005. These saturated lands are critical to fighting and adapting to climate change by soaking up and storing large amounts of carbon dioxide. The study took place at SERC鈥檚 Global Change Research Wetland, a research site on the western shore of Maryland. The study began in 1987 and is the world鈥檚 longest-running field experiment on how rising carbon dioxide levels impact plants.

鈥淎 long-term study like this is a gold mine because we started to learn a lot of things that you can鈥檛 otherwise,鈥 Langley said. 鈥淲e get to see how actual climate change occurring in the background is affecting our ecosystem over decades. You can鈥檛 do this over the cycle of a conventional three-year grant.鈥

The team studied experimental plots enclosed in chambers, boosted concentrations of CO2 in some and compared results to a control group with no added CO2 over three decades. For over half of the 33-year study, the team noted substantial growth; plants exposed to high CO2 on average grew 25 percent more than plants in untreated chambers, and root growth in high concentration groups grow roughly 35 percent. After 2005, positive impacts declined and then vanished.

鈥淭he CO2 effect exists potentially all the time but when the marshes are most stressed and really could use a boost, it vanishes,鈥 he said.

More testing proved seal level rise was the dominant factor controlling plant growth. As waters rise, wetlands flood and plant roots suffocate. If roots don鈥檛 grow, the marsh can no longer grow upward. Langley and the team are looking at the possibility of wetlands migrating landward.

鈥淭hese wetlands are going to need more help from us to survive sea level rise than we thought,鈥 he said. 鈥淭his natural mechanism that we were hoping would buoy them a little bit isn鈥檛 there. We need corridors that allow for that lateral transgression to occur.鈥

Creating corridors will require more space in surrounding communities. These accommodations are yet to be figured out, but the viability of wetlands and curtailing rising carbon dioxide levels depends on it.

鈥淭hese coastal wetlands can be resilient where they鈥檙e allowed to be,鈥 Langley said. 鈥淏ut some of these marshes are on life support and we have to do anything we can.鈥

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