Your search keyword '"Sanders B."' showing total 5 results

1. Development and Validation of a Coastal Flood Model in an Urbanized Embayment: Accounting for Tides, Waves and Higher Ocean Levels in the Eastern Pacific

Author

Gallien, T W, Schubert, J E, Poon, Y K, Sanders, B F, and Proceedings of the 34th World Congress of the International Association for Hydro-Environment Research and Engineering: 33rd Hydrology and Water Resources Symposium and 10th Conference on Hydraulics in Water Engineering

Published

2011

2. Multi‐Decadal Simulation of Marsh Topography Under Sea Level Rise and Episodic Sediment Loads.

Author

Brand, M. W., Buffington, K., Rogers, J. B., Thorne, K., Stein, E. D., and Sanders, B. F.

Subjects

MARSHES, SEA level, TOPOGRAPHY, COASTS, MEDITERRANEAN climate, STORMS

Abstract

Coastal marsh within Mediterranean climate zones is exposed to episodic watershed runoff and sediment loads that occur during storm events. Simulating future marsh accretion under sea level rise calls for attention to: (a) physical processes acting over the time scale of storm events and (b) biophysical processes acting over time scales longer than storm events. Using the upper Newport Bay in Southern California as a case study, we examine the influence of event‐scale processes on simulated change in marsh topography by comparing: (a) a biophysical model that integrates with an annual time step and neglects event‐scale processes (BP‐Annual), (b) a physical model that resolves event‐scale processes but neglects biophysical interactions (P‐Event), and (c) a biophysical model that resolves event‐scale physical processes and biophysical processes at annual and longer time scales (BP‐Event). A calibrated BP‐Event model shows that large (>20‐year return period) episodic storm events are major drivers of marsh accretion, depositing up to 30 cm of sediment in one event. Greater deposition is predicted near fluvial sources and tidal channels and less on marshes further from fluvial sources and tidal channels. In contrast, the BP‐Annual model poorly resolves spatial structure in marsh accretion as a consequence of neglecting event‐scale processes. Furthermore, the P‐Event model significantly overestimates marsh accretion as a consequence of neglecting marsh surface compaction driven by annual scale biophysical processes. Differences between BP‐Event and BP‐Annual models translate up to 20 cm per century in marsh surface elevation. Plain Language Summary: Mediterranean climate zones are characterized by a long dry season and wet season marked by episodic storm systems. Marsh habitat along Mediterranean coastal zones has been dramatically reduced as a result of human development, and future prediction of marsh evolution is needed to support conservation and restoration. Here we develop a new modeling approach to investigate the role of episodic storms versus non‐storm conditions on marsh evolution. Existing biophysical models of marsh evolution poorly represent physical processes which are thought to be the most important drivers of change during storm events, and the proposed modeling approach is used to isolate the role of physical processes during storm events versus coupled biophysical processes that act slowly over non‐storm conditions. With an application of the model in Newport Bay, California, we find that sediment deposition is dominated by storms with return periods of 20 years or longer, which shape the spatial pattern of deposition. We also show the importance of compaction alongside episodic deposition for shaping the future distribution of marsh topography under sea level rise. Key Points: Large storm events (>20 year return period) are primary driver of marsh accretion in Newport BaySpatial distribution of event‐scale deposition controlled by physical processesBiophysical accretion and compaction moderate long‐term change in marsh surface elevation [ABSTRACT FROM AUTHOR]

Published

2022

3. Australia's drought: lessons for California.

Author

Aghakouchak A, Feldman D, Stewardson MJ, Saphores JD, Grant S, and Sanders B

Subjects

Agricultural Irrigation, Animals, Australia, California, Commerce, Crops, Agricultural, Humans, Livestock, Water Supply economics, Disasters, Droughts

Published

2014

4. "Research chemicals": tryptamine and phenethylamine use among high-risk youth.

Author

Sanders B, Lankenau SE, Bloom JJ, and Hathazi D

Subjects

Adolescent, Adult, California epidemiology, Catchment Area, Health, Confusion epidemiology, Confusion etiology, Cross-Sectional Studies, Diarrhea epidemiology, Diarrhea etiology, Female, Hallucinations epidemiology, Hallucinations etiology, Health Status, Humans, Interview, Psychological, Ketamine, Male, Nausea epidemiology, Nausea etiology, Substance Abuse, Intravenous complications, Substance Abuse, Intravenous diagnosis, Substance Abuse, Intravenous epidemiology, Substance-Related Disorders complications, Substance-Related Disorders diagnosis, Vomiting epidemiology, Vomiting etiology, Phenethylamines, Psychotropic Drugs, Risk-Taking, Substance-Related Disorders epidemiology, Tryptamines

Abstract

Tryptamines and phenethylamines are two broad categories of psychoactive substances with a long history of licit and illicit use. Profiles of users of recently emerging tryptamines and phenethylamines are nonexistent, however, since surveillance studies do not query the use of these substances. This manuscript describes the types, modes of administration, onset of use, and context of use of a variety of lesser known tryptamines and phenethylamines among a sample of high-risk youth. Findings are based upon in-depth interviews with 42 youth recruited in public settings in Los Angles during 2005 and 2006 as part of larger study examining health risks associated with injecting ketamine. Youth reported that their use of tryptamines and phenethylamines was infrequent, spontaneous, and predominately occurred at music venues, such as festivals, concerts, or raves. Several purchased a variety of these "research chemicals" from the Internet and used them in private locations. While many described positive experiences, reports of short-term negative health outcomes included nausea, vomiting, diarrhea, disorientations, and frightening hallucinations. These findings, based upon pilot study data, move toward an epidemiology of tryptamine and phenethylamine use among high-risk youth.

Published

2008

5. Low-dose radiation.

Author

Sanders BS

Subjects

Adult, California, Humans, Longevity, Male, Middle Aged, Power Plants, Radiation Dosage, Neoplasms, Radiation-Induced mortality, Occupational Diseases mortality

Published

1978