Facing the Coastal Challenge: Modeling Coastal Erosion in Southern California

Scripps Institution of Oceanography Pub Date : 2005-03-16 DOI:10.1061/40761(175)4

D. Inman, P. Masters, S. Jenkins

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引用次数: 11

Abstract

Erosion due to natural and human activities poses a challenge to the future of California’s coast. A process-based coastal evolution model is being developed to evaluate the past, present, and future rates of erosion of the southern California coast and present this dynamic environment in a visual format. The model consists of a mobile sediment transport component and a bedrock cutting component, both coupled and operating in varying time and space domains determined by sea level and boundaries of the littoral cell. We will utilize retrospective data from geomorphology, tectonics, sea level, climate, and paleoecology to investigate erosional and depositional processes and rates of change. Correlating the earlier shorelines with past climate conditions and time-stepping the ancient coastlines forward to the modern coastline will serve to validate the model. The model then will project the future evolution of the coastline using three scenarios: a most likely change, a minimum change, and a maximum change based on climate projections and possible human interventions. Our goals are to make this modeling technology and 3D visualization accessible to coastal planners and to advance public understanding of coastal evolution.

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面对海岸挑战:模拟南加州海岸侵蚀

自然和人类活动造成的侵蚀对加州海岸的未来构成了挑战。目前正在开发一种基于过程的海岸演变模型，以评估南加州海岸过去、现在和未来的侵蚀速率，并以视觉形式呈现这种动态环境。该模式由一个移动输沙分量和一个基岩切割分量组成，两者耦合并在由海平面和滨海单元边界决定的不同时空域中工作。我们将利用地貌学、构造学、海平面、气候和古生态学的回顾性数据来研究侵蚀和沉积过程及其变化速度。将早期的海岸线与过去的气候条件相关联，并将古代海岸线与现代海岸线进行时间步进，将有助于验证该模型。然后，该模型将根据气候预测和可能的人类干预，使用三种情景预测海岸线的未来演变:最可能的变化、最小变化和最大变化。我们的目标是让沿海规划者可以使用这种建模技术和3D可视化，并促进公众对沿海演变的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Scripps Institution of Oceanography

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