水色仪
布鲁姆
环境科学
水华
遥感
高光谱成像
卫星
大气校正
叶绿素a
波罗的海
原位
海洋学
蓝藻
海洋色
浮游植物
地质学
气象学
生态学
地理
生物
工程类
营养物
航空航天工程
古生物学
细菌
植物
作者
Anu Reinart,Tiit Kutser
标识
DOI:10.1016/j.rse.2006.02.013
摘要
Potentially toxic cyanobacterial blooms occur in the Baltic Sea in the middle of summer. Aggregations of cyanobacteria often form dense subsurface blooms or even surface scum, which are spatially extremely patchy. It has been shown by using bio-optical modelling together with the hyperspectral sensor Hyperion image from the western part of the Gulf of Finland that chlorophyll concentration may vary between one and hundreds of mg m− 3 within the 10-m scale during heavy bloom. The SeaWiFS, MODIS/Aqua and MERIS products over heavy bloom region are compared with each other, the modelling results, with the bio-optical modelling data and the available in situ data. In the early stage of bloom, these sensors give consistent results, which are in the same range as in situ data. During the heavy bloom of cyanobacteria, at the time of surface scum formation, results from different sensors are very variable, the values of chlorophyll concentration may exceed the standard processing limits and atmospheric correction often fails. The good capability of the MERIS and MODIS fine resolution bands to detect cyanobacterial bloom quantitatively is shown.
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