Seismic site effect estimation using microtremor studies in the archaeological city of Jerash in Jordan

Due to the lack of proper preparedness in the country against natural disasters, even an earthquake of moderate magnitude can cause extensive damage. This necessitates seismic zonation. Seismic zonation is a process in which a large region is demarcated into small zones based on the levels of earthquake hazards. Seismic zonation is generally carried out at micro-level, meso-level and macro-level. Presently, there are only a few guidelines available regarding the use of a particular level of zonation for a given study area. The present study checks the suitability of various levels of seismic zonation for different regions and reviews the feasibility of various methodologies for site characterization and site effect estimation. Further the seismic zonation was carried out both at the micro (for the Kalpakkam) and macro-level (for Karnataka state) using the appropriate methodologies. Based on this, recommendations have been made regarding the suitability of various methodologies as well as the grid size to be adopted for different level of zonation based on actual studies.

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Site Effect Estimation of Shanxi Areas with the Records of Strong Earthquake in Wenchuan

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.170-173.2147 ◽

2012 ◽

Vol 170-173 ◽

pp. 2147-2151

Author(s):

Qi Cheng Li

Keyword(s):

Strong Earthquake ◽

Natural Frequencies ◽

Site Effect ◽

Geological Structure ◽

Shanxi Province ◽

Predominant Frequency ◽

Reference Sites ◽

2008 Wenchuan Earthquake ◽

Close Relationship ◽

Effect Estimation

Abstract: By means of two reference sites, site effects in 29 stations of Shanxi Province are analyzed by using 2008 Wenchuan earthquake data according to adopting traditional ratios method. Because site predominant frequencies getting from all kinds of computations have higher reliability, suggestion is made that in order to reduce loss producing from construction resonance in earthquake, natural frequencies of future constructions in above sites should keep away from site predominant frequency as possible. Computational results show Shanxi areas arises strong site effect in earthquake, this has close relationship with geological structure, formation lithology and strong new structural movement, etc.

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Seismic site effect estimation in the city of Rabat (Morocco)

Journal of Geophysics and Engineering ◽

10.1088/1742-2132/3/3/001 ◽

2006 ◽

Vol 3 (3) ◽

pp. 207-211

Author(s):

Saïd Badrane ◽

Lahcen Bahi ◽

Nacer Jabour ◽

Aomar Iben Brahim

Keyword(s):

Site Effect ◽

Effect Estimation ◽

The City

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Constraints on eQTL fine mapping in the presence of multi-site local regulation of gene expression

10.1101/084293 ◽

2016 ◽

Cited By ~ 1

Author(s):

Biao Zeng ◽

Luke R. Lloyd-Jones ◽

Alexander Holloway ◽

Urko M. Marigorta ◽

Andres Metspalu ◽

...

Keyword(s):

Gene Expression ◽

Linear Regression ◽

Fine Mapping ◽

Regulation Of Gene Expression ◽

Site Effect ◽

Functional Variants ◽

Single Marker ◽

Credible Intervals ◽

Effect Estimation ◽

Conditional Estimates

AbstractExpression QTL (eQTL) detection has emerged as an important tool for unravelling of the relationship between genetic risk factors and disease or clinical phenotypes. Most studies use single marker linear regression to discover primary signals, followed by sequential conditional modeling to detect secondary genetic variants affecting gene expression. However, this approach assumes that functional variants are sparsely distributed and that close linkage between them has little impact on estimation of their precise location and magnitude of effects. In this study, we address the prevalence of secondary signals and bias in estimation of their effects by performing multi-site linear regression on two large human cohort peripheral blood gene expression datasets (each greater than 2,500 samples) with accompanying whole genome genotypes, namely the CAGE compendium of Illumina microarray studies, and the Framingham Heart Study Affymetrix data. Stepwise conditional modeling demonstrates that multiple eQTL signals are present for ~40% of over 3500 eGenes in both datasets, and the number of loci with additional signals reduces by approximately two-thirds with each conditioning step. However, the concordance of specific signals between the two studies is only ~30%, indicating that expression profiling platform is a large source of variance in effect estimation. Furthermore, a series of simulation studies imply that in the presence of multi-site regulation, up to 10% of the secondary signals could be artefacts of incomplete tagging, and at least 5% but up to one quarter of credible intervals may not even include the causal site, which is thus mis-localized. Joint multi-site effect estimation recalibrates effect size estimates by just a small amount on average. Presumably similar conclusions apply to most types of quantitative trait. Given the strong empirical evidence that gene expression is commonly regulated by more than one variant, we conclude that the fine-mapping of causal variants needs to be adjusted for multi-site influences, as conditional estimates can be highly biased by interference among linked sites.

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