GSA Connects 2021 in Portland, Oregon

Paper No. 186-2
Presentation Time: 2:30 PM-6:30 PM

FREQUENCY OF BOULDERS TRANSPORT DURING LARGE FLOODS IN HYPERARID AREAS USING PALEOFLOOD ANALYSIS – AN EXAMPLE FROM THE NEGEV DESERT, ISRAEL


GREENBAUM, Noam1, SCHWARTZ, Uri1, CARLING, Paul2, BERGMAN, Nathaniel3, MUSHKIN, Amit4, ZITUNI, Rami3, BENITO, Gerardo5 and PORAT, Naomi6, (1)Department of Geography and Environmental Studies, University of Haifa, Rabin Building, 199 Aba Kaoushy Av., Mt. Carmel, Haifa, 3498838, Israel, (2)Department of Geography, University of Southampton, Southampton, SO17 1BJ, United Kingdom, (3)Department of Geography and Environmental Studies, University of Haifa, 8007 Rabin Building, 199 Aba Kaoushy Av., Mt. Carmel, Haifa, 3498838, Israel, (4)Geological Survey of Israel, 32 Yesha'yahu Leibowitz St., Jerusalem, 9371234, Israel, (5)Department of Geology, National Museum of Natural Sciences (MNCN), CSIC,, Serrano 115 bis, Madrid, 28006, Spain, (6)Geological Survey of Israel, 32 Laibovitz, Jerusalem, 9692100, Israel

Direct measurements of boulder entrainment in desert wadis are not available. The 2004 flood (peak discharge - 470 m3 s-1; recurrence interval - 120 years) in the hyperarid, ungauged Nahal Hatzera, ephemeral stream (45 km2), in the Negev Desert, transported and deposited 0.85-1.5 m concrete boulders and slabs detached from infrastructure upstream and natural boulders. EDM and drone air-photographic surveys documented the geometry of the study reach and the location of boulders. Analyses of flood slackwater deposits established a paleoflood record of 23 floods with peak discharges of 200-760 m3 s-1, during the last 600 years. 1-D HEC-RAS hydraulic analysis provided water surface profiles, discharges and hydraulics, long the study reach and velocity, shear stress and stream power for each boulder. MAX program and Pearson 3 distribution were used for flood frequency analysis.

Most of the concrete boulders were deposited in the sub-critical backwater of channel constrictions where velocities were 1.5-2.1 m s-1. The largest boulders were deposited in super-critical flow where velocity was 8-9.2 m s-1. The alluvial channel enables to transport these concrete boulders, reflecting the unstable, active sandy layer of the channel bed over which the boulders moved. The maximum flood shear stress and stream power characterize medium-large floods with return period of 20-120 years and not for the largest floods, as expected. Boulders <2.1 m and weighing <15 tonnes can be transported at least once in 120 years.

The shear stress and stream power indicate that the moderate-large floods are the most geomorphically effective floods rather than the largest floods in Nahal Hatzera basin. Nevertheless, the 'geomorphic effectiveness' of the 2004 flood – a typical desert flash flood, was small based on the minor changes along the channel and banks indicating that their resistance thresholds were not exceeded and energy expenditure was mainly on boulders entrainment and transport.