Study of Red Tide Spectral Characteristics and Its Mechanism
CUI Ting-wei1, 2, ZHANG Jie2, 3, MA Yi2, 3, SUN Ling2
1. Ocean University of China, Qingdao 266003, China 2. First Institute of Oceanography, State Oceanic Administration, Qingdao 266061, China 3. Key Lab of Marine Science and Numerical Modeling, State Oceanic Administration, Qingdao 266061, China
摘要: 采用海面以上光谱测量方法 (Above water method),利用美国FieldSpec® Dual VNIR光谱仪测量了丹麦细柱藻、中肋骨条藻、海洋褐胞藻等三种浮游植物赤潮以及红色中缢虫这一原生动物赤潮的离水辐射光谱数据。强调赤潮与正常海水的光谱差异在于687~728 nm波段的特征反射峰,指出了浮游植物赤潮与原生动物赤潮间的显著光谱差异,并认为可据此进行某些赤潮种类的遥感识别。给出了浮游植物赤潮光谱反射峰、吸收峰成因;红色中缢虫这一原生动物引起的水色异常,与其体内的共生藻类及浮游植物色素碎屑有关;其摄食偏好、与藻类的共生特性研究以及藻类常温下的荧光发射特性研究,将有助于加深对于红色中缢虫赤潮光谱成因的认识。
关键词:赤潮;藻类;红色中缢虫;光谱;特征;荧光
Abstract:In situ spectral data of different red tide, whose dominant species are leptocylindrus danicus, chattonella marina, skeletonema costatum, and mesodinium rubrum, were acquired by above water method utilizing spectrometer manufactured by FieldSpec® Dual VNIR(USA). It is emphasized that the characteristic reflectance peak lying between 687 and 728 nm can be used to distinguish between red tide and normal sea water. Also the spectral discrepancy between different dominant species of red tide is pointed out, which could be utilized to identify certain red tide species by remote sensing technique. Mechanisms of phytoplankton red tide spectra peaks and vales are given. Spectral characteristics of mesodinium rubrum, a kind of protozoan, may be related to its symbiotic alga in its body and phytoplankton pigment crumb. So, research on ingestion preference, symbiotic property with algae, and fluorescence emission character of such symbiotic algae under normal temperature may be helpful for the deep understanding of mechanism of mesodinium rubrum spectra.
崔廷伟1, 2,张 杰2, 3,马 毅2, 3,孙 凌2. 赤潮光谱特征及其形成机制[J]. 光谱学与光谱分析, 2006, 26(05): 884-886.
CUI Ting-wei1, 2, ZHANG Jie2, 3, MA Yi2, 3, SUN Ling2. Study of Red Tide Spectral Characteristics and Its Mechanism. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2006, 26(05): 884-886.