Stable Isotope Composition of Cyclone Mekunu Rainfall, Southern Oman
Friesen, Jan
Weise, Stephan M.
Al Abri, Omar
Bait Said, Ali Bakhit Ali
Michelsen, Nils
DOI: https://doi.org/10.23689/fidgeo-4025
Weise, Stephan M.; 3 Department of Catchment Hydrology, UFZ‐Helmholtz Centre for Environmental Research Halle Germany
Al Abri, Omar; 4 The Research Council Seeb Oman
Bait Said, Ali Bakhit Ali; 5 Ministry of Regional Municipalities and Water Resources Salalah Oman
Michelsen, Nils; 6 Institute of Applied Geosciences Technische Universität Darmstadt Darmstadt Germany
Abstract
Cyclone Mekunu hit the southern Arabian Peninsula in late May 2018 and brought rainfall amounts that accounted for up to 6 times the mean annual precipitation. Coming from the Arabian Sea, a quite underdocumented region with regard to cyclones, the storm eye crossed the Omani coast approximately 80 km east of the border to Yemen. Using automatic samplers, rainfall samples were collected during the event at three locations along a transect almost parallel to the storm track. The stable isotope analyses show a wide range of δ values, with minimum and maximum values of −17.01‰ δ18O and −1.77‰ δ18O and −122.2‰ δ2H and −1.6‰ δ2H. On average, rainfall becomes isotopically lighter with elevation, but rather irregularly. In view of high wind speeds probably precluding a gradual rainout of ascending air masses, a “pseudo elevation effect” seems likely. Our measurements expand the known δ value range of local cyclones by about 6‰ for δ18O and by nearly 50‰ for δ2H. The isotopic composition of the annual Indian Summer Monsoon shows values of −0.93‰ δ18O to 2.21‰ δ18O and −2.1‰ δ2H to 23.7‰ δ2H. Thus, there is a clear difference in the dual isotope signatures of the two precipitation systems in the area. Our findings enable an assessment of the impact of cyclones on the hydro(geo)logical system. For the arid Najd area, we demonstrate that the isotopic signatures of groundwater samples fall between those of cyclone and (paleo)monsoon precipitation, suggesting that several rainfall types may have contributed to replenishment.
Key Points:
We conducted high‐resolution sampling of a tropical cyclone from the Arabian Sea for stable isotope and hydrochemical analyses. The strong depletion in heavy isotopes and large intra‐event variations confirm observations from tropical storms elsewhere. There was no overlap with the isotopic fingerprint of local monsoon rains.