高寒山区地质灾害季节分区InSAR早期识别研究——以东构造结地区为例

高寒山区显著存在的季节性地貌变化,使得常规InSAR难以维持长时间相干性,不利于上述区域地质灾害的精准早期识别。针对该问题,本文提出并发展了一种利用InSAR季节相干性的高寒山区地质灾害早期识别方法。其基本思路为:首先获取研究区域InSAR时序干涉图与相干系数图,依据InSAR相干性变化趋势,将每年划分为夏季时段、过渡时段和冬季时段,并依据过渡时段InSAR相干性将其进一步纳入到夏季时段或冬季时段;分别对夏季时段和冬季时段InSAR干涉对开展Stacking-InSAR处理,并引入部分干涉质量较好的长时间基线InSAR干涉对;最终综合利用获取的夏季和冬季时段Stacking-InSAR成果,开展区域地质灾害的精准早期识别工作。本文以高寒高植被覆盖的东构造结地区为实验对象,利用本文发展的新方法开展了区域地质灾害的早期识别工作。结果显示,利用季节分区Stacking-InSAR进行区域地质灾害识别,冬夏时段识别灾害的重复率低于16%,表明上述区域不同时节地质灾害类型存在明显差异;进一步与常规全干涉Stacking-InSAR灾害识别成果对比发现,新方法识别灾害数量增加了28%。研究表明,发展新方法可更精准识别高寒山区地质灾害,并有效提高灾害识别率,为此类地区的地质灾害早期识别和预警预防提供了一种新思路和新方法,也为高寒山区地质灾害的防灾减灾提供了重要的技术支撑。

THE STRENGTH OF THE DISSOLVED OXYGEN MAXIMUM IN THE VERTICAL DISTRIBUTION OF NANSHA ISLANDS WATERS

Observation data from a cruise in the Nansha Islands, in May to June 1990, December, 1993, September to October 1994, and July, 1999, respectively, were used to develop the method presented here to indicate the existing strength of the dissolved oxygen maximum in the vertical distribution of Nansha Islands waters. Its seasonal variation and regional distribution are discussed in this paper. Analysis results showed that the distribution of the strength of dissolved oxygen maximum (DO max -DO sur ) was closely related to the upper layer circulation and the bioactivity of Nansha Islands seawater.