四川地区地质构造复杂,地壳活动剧烈,为了深入揭示该区“Y”型构造区地壳1999年以来近20年的动态演化规律,基于1999—2017年7期GPS数据,解算各周期网格速度场、应变率场,研究地壳应变场演化过程。结果表明:①2008年以前的3期GPS速度场相对稳定,汶川地震后,速度场变化最大的龙门山断裂带由4.0—5.0 mm/a增至8.0—10.0 mm/a;②汶川震后,“Y”型构造区最大剪应变高值区出现在汶川以东,由2.0×10-8/a增到22.0×10-8/a;龙门山断裂带以SE或SEE向主压应变为主,变化速率约5.0×10-8/a—12.0×10-8/a,鲜水河断裂由震前NS向主拉应变转为震后EW向主压应变,安宁河断裂东侧由震前SE向主压应变6.0×10-8/a减至震后的2.0×10-8/a;面膨胀结果显示,由震前低密度梯度带瞬间变为平行于龙门山断裂带走向的高密度变化区,且存在以金川至都江堰、北川至青川为条带的2个正负交替过渡区;③汶川地震发生压应力释放后,该区SEE向压性特征又逐渐增强,且持续至2017年,释放了龙门山断裂带地壳内部SEE向压应力多年累积能量,但汶川地震对鲜水河断裂与安宁河断裂的整体运动状态则无明显触发作用。
Sichuan Province is an area with frequent crustal activities in China. In order to reveal the dynamic evolution of the crust in the “Y” type tectonic region of Sichuan Province in the past 20 years, based on seven periods of GPS velocity field data from 1999 to 2017, the grid velocity field and strain rate field of each period in the study area are solved and the evolution process of crustal strain field in the area in recent 20 years is studied. The results show that: ①The GPS velocity field in the three periods before 2008 is relatively stable and after the Wenchuan earthquake, the Longmenshan fault zone with the largest change in velocity field increases from 4.0—5.0 mm/a to 8.0—10.0 mm/a;②After the Wenchuan earthquake, the highest shear strain in the “Y” type tectonic zone appears in the east of Wenchuan, changing from 2.0×10-8/a to 22.0×10-8/a; The Longmenshan fault zone is dominated by the ES or EES oriented main compressive strain, the variation rate is about 5.0×10-8/a to 12.0×10-8/a, the main tensile strain of the Xianshuihe fault changed from NS before the earthquake to EW after the earthquake. At the east side of the Anninghe fault, the main compressive strain decreased from 6.0×10-8/a in the ES direction before the earthquake to 2.0×10-8/a after the earthquake. The results of surface expansion show that the low-density gradient zone immediately changed into a high-density change zone parallel to the strike of Longmenshan fault zone, with two alternating positive and negative transition areas in Jinchuan to Dujiangyan and Beichuan to Qingchuan;③After the Wenchuan earthquake, the pressure in this area are significantly enhanced, and this enhancement is maintained until 2017 (nearly 10 years). It releases the energy accumulation of the pressure stress in the crust of the Longmenshan fault zone for many years, but the Wenchuan earthquake has no obvious change to the overall movement state of the Xianshuihe fault and Anninghe fault.
2021,42(4): 57-66 收稿日期:2021-01-28
DOI:10.3969/j.issn.1003-3246.2021.04.008
基金项目:陕西省自然科学基础研究计划重点项目(项目编号:2020JZ-52)
作者简介:姚文举,高级工程师,主要从事地理信息系统、摄影测量与遥感、工程测量、地质等方向的研究。E-mail:3112251297@qq.com
*通讯作者:唐红涛,硕士,高级工程师,主要从事大地测量,航空摄影测量等研究工作。E-mail:649585393@qq.com
参考文献:
曹里,杨凯钧. 多应变参数维度的川滇应变率场构造及分析[J]. 测绘科学,2016,41(10):53-58.
曾波,张彦芬,姜卫平,等. 山西CORS网基准站速度场分析[J]. 武汉大学学报(信息科学版),2012,37(12):1 401-1 404.
丁开华,许才军,温扬茂. 汶川地震震后形变的GPS反演[J]. 武汉大学学报(信息科学版),2013,38(2):131-135.
董运洪,罗三明,韩月萍,等. 汶川MS 8.0地震北川附近同震垂直位移特征[J]. 地震学报,2012,34(5):611-320.
张荣斗,黄丁发,廖华,等. 基于GPS的四川地区现时地壳形变分析[J]. 测绘科学,2008,33(6):30-33.
Huang M H, Burgman R. Probing the Lithospheric Rheology across the Eastern Margin of the Tibetan Plateau[J]. Earth and Planetary Science Letters, 2014, 396: 88-96.
Shen Z K, Sun J, Zhang P, et al. Slip Maxima at Fault Junctions and Rupturing of Barriers during the 2008 Wenchuan Earthquake[J]. Nature Geoscience, 2009, 2(10): 718-724.
Wang Q, Qiao X J, Lan Q G, et al. Rupture of Deep Faults in the 2008 Wenchuan Earthquake and Uplift of the Longmenshan[J]. Nature Geoscience, 2011, 4(9): 634-640.
Wessel P. A General-Purpose Green’s Function-Based Interpolator[J]. Computers & Geosciences, 2009, 35(6): 1 247-1 254.
Zhao B, Huang Y, Zhang C, et al. Crustal deformation on the Chinese Mainland during 1998-2014 Based on GPS Data[J]. Geodesy and Geodynamics, 2015, 6(1): 7-15.