Your search keyword '"Shirzaei, Manoochehr"' showing total 3 results

1. Global climate change and local land subsidence exacerbate inundation risk to the San Francisco Bay Area.

Author

Shirzaei, Manoochehr and Bürgmann, Roland

Abstract

The current global projections of future sea level rise are the basis for developing inundation hazard maps. However, contributions from spatially variable coastal subsidence have generally not been considered in these projections. We use synthetic aperture radar interferometric measurements and global navigation satellite system data to show subsidence rates of less than 2 mm/year along most of the coastal areas along San Francisco Bay. However, rates exceed 10 mm/year in some areas underlain by compacting artificial landfill and Holocene mud deposits. The maps estimating 100-year inundation hazards solely based on the projection of sea level rise from various emission scenarios underestimate the area at risk of flooding by 3.7 to 90.9%, compared with revised maps that account for the contribution of local land subsidence. Given ongoing land subsidence, we project that an area of 125 to 429 km2 will be vulnerable to inundation, as opposed to 51 to 413 km2 considering sea level rise alone.

Published

2018

2. Tracking California’s sinking coast from space: Implications for relative sea-level rise

Author

Blackwell, Em, Shirzaei, Manoochehr, Ojha, Chandrakanta, and Werth, Susanna

Subjects

Multidisciplinary, 010504 meteorology & atmospheric sciences, fungi, Flooding (psychology), food and beverages, SciAdv r-articles, Geology, Resolution improvement, Subsidence, 010502 geochemistry & geophysics, 01 natural sciences, Natural (archaeology), Sea level rise, parasitic diseases, Interferometric synthetic aperture radar, Physical geography, Research Articles, Research Article, 0105 earth and related environmental sciences

Abstract

InSAR analysis improves California coastal subsidence rate measurement; this can refine relative sea-level rise rate estimates., Coastal vertical land motion affects projections of sea-level rise, and subsidence exacerbates flooding hazards. Along the ~1350-km California coastline, records of high-resolution vertical land motion rates are scarce due to sparse instrumentation, and hazards to coastal communities are underestimated. Here, we considered a ~100-km-wide swath of land along California’s coast and performed a multitemporal interferometric synthetic aperture radar (InSAR) analysis of large datasets, obtaining estimates of vertical land motion rates for California’s entire coast at ~100-m dimensions—a ~1000-fold resolution improvement to the previous record. We estimate between 4.3 million and 8.7 million people in California’s coastal communities, including 460,000 to 805,000 in San Francisco, 8000 to 2,300,00 in Los Angeles, and 2,000,000 to 2,300,000 in San Diego, are exposed to subsidence. The unprecedented detail and submillimeter accuracy resolved in our vertical land motion dataset can transform the analysis of natural and anthropogenic changes in relative sea-level and associated hazards.

Published

2020

3. Comment on “Short-lived pause in Central California subsidence after heavy winter precipitation of 2017” by K. D. Murray and R. B. Lohman

Author

Shirzaei, Manoochehr, primary, Ojha, Chandrakanta, additional, Werth, Susanna, additional, Carlson, Grace, additional, and Vivoni, Enrique R., additional

Published

2019