排序方式: 共有27条查询结果,搜索用时 319 毫秒
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用数值方法对岩质高边坡进行稳定性分析时,描述岩体结构对的精细程度会影响分析结果,但常见的有限单元法程序仍难以对复杂节理岩体进行精细建模。为解决这一问题,将结构面网络模拟与离散单元法相结合,在UDEC软件中,利用FISH语言编写网络模拟程序,依据结构面统计资料和结构面分级,实现对复杂岩体结构的精细描述。以某大型水电工程边坡为例,在对岩体结构进行精细描述的基础上,采用离散元强度折减法对边坡进行稳定性分析。通过与极限平衡法和一般离散元结果的对比,表明基于复杂岩体结构精细描述确定的边坡潜在滑动面和安全系数是合理的,为复杂岩质边坡破坏模式和稳定性的分析提供了新的途径。 相似文献
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The taxonomy of Coilia has been extensively studied in China, and yet phylogenetic relationships among component taxa remain controversial. We used
a PCR-based fingerprinting technique, amplified fragment length polymorphism (AFLP) to characterize and identify all four
species of Coilia in China. We examined the genetic relationships of the four species of Coilia and a subspecies of Coilia nasus with AFLP. A total of 180 AFLP loci were generated from six primer combinations, of which 76.11% were polymorphic. The mean
genetic distance between pairs of taxa ranged from 0.047 to 0.596. The neighbor-joining tree and UPGMA dendrogram resolved
the investigated species into three separate lineages: (1) C. mystus, (2) C. grayii and (3) C. brachygnathus, C. nasus, and C. nasus taihuensis. Phylogenetic analysis of the AFLP data is inconsistent with current morphological taxonomic systems. The AFLP data indicated
a close relationship among C. brachygnathus, C. nasus taihuensis, and C. nasus. Therefore, the two species described under Coilia (C. brachygnathus and C. nasus taihuensis) are treated as synonyms of C. nasus. 相似文献
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采用线粒体(mtDNA)控制区序列分析方法,进行了条石鲷养殖群体(F1代和F2代)与野生群体的遗传变异比较研究.结果表明:在长度为484bp的mtDNA控制区片段中,条石鲷养殖群体F1代单倍型多样度水平(h=0.955±0.047)略低于野生群体(h=1.000±0.034),却显著高于养殖F2代群体(h=0.797±0.070);条石鲷野生群体(π=0.021±0.012)、养殖群体F1代(π=0.018士0.010)和养殖群体F2代(π=0.014±0.008)的核苷酸多样度水平呈现明显的递减趋势;核苷酸不配对分布和两两序列相比较碱基差异结果显示条石鲷野生群体、养殖群体F1代和养殖群体F2代也呈现明显的递减趋势.分子方差分析(AMOVA)、两两群体相比较的ΦsT和确切P检验结果皆显示条石鲷养殖群体F1代和F2代与野生群体存在显著的遗传分化.单倍型最小跨度分析和NJ系统分析结果均未检测到显著的谱系结构. 相似文献
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The main challenge in predicting global responses of floating vessels in deep and ultra-deepwater areas comes from the system’s coupled effect. In this paper, the coupled approach is used to analyze effects of riser on floating system in deepwater. The analysis results show that the coupling effects of risers will mainly affect the low frenquency (LF) motions of the system. That is because risers will provide the system with a significant low frenquency (LF) damping, which will vary with the sea- states. Under storm sea- state, the excitation term from drag force will govern the response. While under the moderate conditions, the damping effect from risers is more significant. In the practical engineering, the combination effect should be considered by other ways when the risers are omitted from the model. 相似文献
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