Keeping up with sea-level rise

July 18, 2018, King Abdullah University of Science and Technology
A researcher collects a core sample from a seagrass meadow in the Arabian Gulf. Credit: Vincent Saderne

Maintaining a balance between rising sea levels and soil accumulation will rely on careful management of coastal regions.

Soil accumulation in could mitigate rising sea levels around the Arabian Peninsula, according to new research from KAUST. However, this mitigation will require efforts to preserve and restore these .

Human-driven climate change is raising sea levels around the world at increasing rates, threatening hundreds of millions of people living in coastal areas. Researchers at KAUST's Red Sea Research Center worked with colleagues at the King Fahd University of Petroleum and Minerals to determine whether this increase could be mitigated by soil accretion in coastal ecosystems.

In a project supported by Saudi Aramco, they collected 52 core samples from mangroves, seagrass meadows and tidal marshes along the Red Sea and the Arabian Gulf coasts of Saudi Arabia. Using lead and carbon isotope analyses of the cores, the researchers established chronologies to estimate rates of short-term and long-term soil accumulation in these ecosystems.

At the Red Sea sites, short-term soil accumulation rates outstripped . However, on the Arabian Gulf coast, only mangroves accumulated soil quickly enough to counter sea-level rise, which outpaced soil accumulation at the seagrass and tidal marsh sites. In general, the long-term accumulation rates were lower but similar to the rise in sea level.

Overall, the analysis indicates that soil accumulation and sea-level rise along the Saudi coast have kept pace over the long term, but recent anthropogenic shifts have made sea-level rise faster in some ecosystems.

The team also measured the concentration along the cores and found that accumulation at the sites consisted largely of carbonate accretion. These ecosystems have been calledblue carbonecosystems because they can trap atmospheric CO2in the sediment. However, calcium carbonate production through calcification generates CO2, leading to a debate about whether the ecosystems act as net carbon sinks or sources.

The authors believe that most of the carbonate comes from nearby coral reefs rather than local calcification. "It's improbable that the few calcifiers in the seagrass of the Arabian Peninsula could produce so much sediment," says Vincent Saderne, the study's lead author. "The sediment comes from outside and accumulates in these ecosystems," and so serves as a carbon sink.

Overall, the findings highlight the importance of considering these ecosystems in planning urban and industrial development. "If we don't stop destroying mangroves, seafront properties will become underwater properties," says Saderne. "Mangroves aren't just mosquito houses; they protect the cities and the shore from rise."

Explore further: Giving seagrass its due

More information: Vincent Saderne et al. Accumulation of Carbonates Contributes to Coastal Vegetated Ecosystems Keeping Pace With Sea Level Rise in an Arid Region (Arabian Peninsula), Journal of Geophysical Research: Biogeosciences (2018). DOI: 10.1029/2017JG004288

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