排序方式: 共有43条查询结果,搜索用时 15 毫秒
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南极布兰斯菲尔德海峡及周边区域是南极大陆火山、地震等新构造活动最活跃的地区,与南设得兰海沟、南设得兰群岛一同构成南极大陆边缘现存唯一的"沟-弧-盆"构造体系。本文基于"雪龙"船第28、第30航次实测数据及两个航次的国际共享资料,利用均衡改正数据处理方法获得布兰斯菲尔德海峡的莫霍面深度及其分布规律,分析深部构造-断裂的区域分布及其重力异常特征等。布兰斯菲尔德海峡内的空间重力异常呈条带状分布,走向总体与地形相近,布格重力异常则由两侧向中间升高,大致在坡折处形成异常场值为100×10-5 m/s2的分界线,在中央次海盆和东部次海盆海山处形成两个异常高值圈闭,异常值最高为150×10-5 m/s2。莫霍面深度以弧后扩张中心为最低值,向南设得兰群岛和南极半岛两个方向递增,深度从12 km递增至陆坡位置的24 km。 相似文献
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地磁日变改正数据的合理选取直接关系到海洋磁测的成果精度。深海海山区磁力测量常因缺少测区附近的日变观测数据而使磁测结果得不到准确校正,从而导致磁力数据处理产生较大误差,影响磁法勘探的效果。为提高深海海山区磁力测量日变改正的精度,介绍了一种深海海山区地磁日变观测系统,分别从海洋磁力日变站布设位置的选取、锚系的设计、锚系的布放与回收等方面对已有海底日变站观测系统进行改进,提高了深海海山区海洋磁力日变观测数据的质量,弥补了以往深海海山区地磁日变站的不足,避免以往出现的不能安全回收和故障率高等问题。通过后期实测数据的质量统计与分析,确定本文所采用的方法的准确性与合理性,为深海海山区布设地磁日变站观测系统提供参考。 相似文献
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发生于1969年的渤海Ms7.4地震是渤海海域惟一一个主震被现代仪器记录的大地震,对其发震断层的讨论争议颇多.2005~2008年,我们在主震震区进行了3个航次的高分辨率声学探测,获得了包括浅层单道地震、侧扫声纳以及CHIRP剖面等在内的数百公里综合地球物理观测资料.本文报道了对上述声学资料的研究结果.研究表明,在震区海底之下2~3 m发现了一条走向NE30°、长20 km、宽约3 km的微型凹陷带,地质时代为5000 a B.P.,沉积面的最大下凹幅度为1.5 m;在空间位置上微型凹陷带与BZ28断裂、余震活动分布基本一致,因此,微型凹陷带是BZ28断裂活动的结果,而A层底界的下凹变形则是1969年渤海7.4级地震活动的结果, BZ28断裂是该地震的发震断层.BZ28断裂呈NE30°走向,是郯庐断裂带的次级断裂,浅层地震剖面揭示其最新活动时间为全新世中晚期,根据地质时代以及断层的垂向位移量,计算得到BZ28断裂晚更新世以来的垂向活动速率约为0.05 mm/a,全新世为0.3 mm/a,具有活动强度增加的趋势. 相似文献
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Sea-surface acoustic backscattering measurements at moderate to high frequencies were performed in the shallow water of the south Yellow Sea, using omnidirectional spherical sources and omnidirectional hydrophones. Sea-surface backscattering data for frequencies in the 6–25 k Hz range and wind speeds of(3.0±0.5)and(4.5±1.0) m/s were obtained from two adjacent experimental sites, respectively. Computation of sea-surface backscattering strength using bistatic transducer is described. Finally, we calculated sea-surface backscattering strengths at grazing angles in the range of 16°–85°. We find that the measured backscattering strengths agree reasonably well with those predicted by using second order small-roughness perturbation approximation method with "PM" roughness spectrum for all frequencies at grazing angles ranged from 40° to 80°. The backscattering strengths varied slightly at grazing angles of 16°–40°, and were much stronger than roughness scattering. It is speculated that scattering from bubbles dominates the backscattering strengths at high wind speeds and small grazing angles. At the same frequencies and moderate to high grazing angles, the results show that the backscattering strengths at a wind speed of(4.5±1.0) m/s were approximately 5 d B higher than those at a wind speed of(3.0±0.5) m/s. However, the discrepancies of backscattering strength at low grazing angles were more than 10 d B. Furthermore the backscattering strengths exhibited no significant frequency dependence at 3 m/s wind speed. At a wind speed of 4.5 m/s, the scattering strengths increased at low grazing angles but decreased at high grazing angles with increasing grazing angle. 相似文献
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