Investigating the environmental and socioeconomic impacts of sea level rise in the Galveston Bay, Texas region

Mukesh Subedee1, Marissa Dotson1 and James C Gibeaut2, (1)Harte Research Institute for Gulf of Mexico Studies at TAMU-CC, Corpus Christi, TX, United States, (2)Texas A & M University- Corpus Christi, Harte Research Institute for Gulf of Mexico Studies, Corpus Christi, TX, United States
Abstract:
Anthropogenic effects throughout the twenty-first century, particularly greenhouse gas emissions, have contributed to global climatic and environmental changes. Sea level rise (SLR) is one of these changes which is occurring along the Texas Coast and is amplified by land subsidence. SLR along the northern Texas coast is impacting sensitive coastal environments as well as human populations, and industries and infrastructure supporting those populations. Sea level data from the NOAA gauge at Galveston Pier 21 has shown an increase of 2.08 feet in relative sea level in 100 years. Given an expected increase in the rate of sea level rise in the next decades, the purpose of this study is to provide an in-depth assessment on the effects of relative sea level rise on the habitat distribution of highly valuable coastal wetlands in the Galveston Bay region. This study also focuses on projecting the potential socioeconomic losses due to coastal flooding that is amplified by SLR in the region. In this study, three SLR scenarios are modeled: a scenario based on a linear extrapolation of satellite altimetry data (0.21 m by 2100); the IPCC’s RCP8.5 mean scenario (0.74 m by 2100); and a high-end scenario (1.8 m by 2100) as proposed by Jevrejeva et al. (2014). A land subsidence rate calculated by developing a subsidence grid using GPS-measured subsidence monitoring and releveling data is added to all these scenarios. The Sea Level Affecting Marshes Model (SLAMM) is used to predict wetland conversion due to long-term SLR incorporating the processes of inundation, erosion, accretion, overwash, and saturation. Similarly, HAZUS-MH is used to evaluate the property damage to building stocks and the direct business interruption losses due to flooding caused by 100-year flood event scenario with three SLR scenarios. This coordinated research effort to assess the physical, environmental and policy impacts due to SLR is intended to enable policy-makers, managers, and the general public to evaluate the impacts or risks of private and public land use decisions in the Galveston Bay region.

Reference:

Jevrejeva, S., Grinsted, A., Moore, J.C., 2014. Upper limit for sea level projections by 2100. Environ. Res. Lett. 9, 104008. doi:10.1088/1748-9326/9/10/104008