沿海生态系统遥感

V. Klemas
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引用次数: 3

摘要

传感器设计和数据分析技术的进步使遥感系统对沿海生态系统的研究和管理具有实用性和吸引力。多光谱和高光谱成像仪可用于绘制沿海土地覆盖和沿海水域有机/无机悬浮颗粒和溶解物质的浓度。热红外扫描仪可以准确地绘制海面温度和沿海海流图,而微波辐射计可以测量海洋盐度、土壤湿度和其他水文参数。雷达成像仪、散射计和高度计提供海浪、海风、海面高度和沿岸洋流的信息。使用机载激光雷达,即使在中度浑浊的沿海水域,也可以绘制水深图。由于沿海生态系统具有高度的空间复杂性和时间变异性,为了获得所需的空间、光谱和时间分辨率,往往必须同时从卫星和飞机进行观测。需要一种可靠的现场数据收集方法,使用船舶、浮标和具有有效采样方案的现场仪器来校准和验证遥感信息。本文简要介绍了沿海遥感的最新进展。
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Remote sensing of coastal ecosystems
Advances in sensor design and data analysis techniques are now making remote sensing systems practical and attractive for coastal ecosystem research and management. Multispectral and hyperspectral imagers are available for mapping coastal land cover and concentrations of organic/inorganic suspended particles and dissolved substances in coastal waters. Thermal infrared scanners can map sea surface temperatures accurately and chart coastal currents, while microwave radiometers can measure ocean salinity, soil moisture and other hydrologic parameters. Radar imagers, scatterometers and altimeters provide information on ocean waves, ocean winds, sea surface height and coastal currents. Using airborne LIDARs one can produce bathymetric maps, even in moderately turbid coastal waters. Since coastal ecosystems have high spatial complexity and temporal variability, they frequently have to be observed from both, satellite and aircraft , in order to obtain the required spatial, spectral and temporal resolutions. A reliable field data collection approach using ships, buoys, and field instruments with a valid sampling scheme is required to calibrate and validate the remotely sensed information. This paper presents a brief overview of recent advances in coastal remote sensing.
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