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Journal articles on the topic 'Structural geology'

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Published: 4 June 2021
Last updated: 29 July 2024

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1

Weber, John, and Kurt L. Frankel. "Structural Geology." Eos, Transactions American Geophysical Union 92, no. 20 (May 17, 2011): 174. http://dx.doi.org/10.1029/2011eo200009.

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2

Lelubre, Maurice. "Structural geology." Earth-Science Reviews 30, no. 3-4 (June 1991): 330. http://dx.doi.org/10.1016/0012-8252(91)90009-5.

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3

Lisle, Richard. "Structural geology." Journal of Structural Geology 15, no. 6 (June 1993): 809. http://dx.doi.org/10.1016/0191-8141(93)90065-i.

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4

Ghute, Bhagwan. "Structural Geology." Journal of Palaeosciences 72, no. 1 (July 14, 2023): 67–68. http://dx.doi.org/10.54991/jop.2023.1850.

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5

Searight, Thomas Kay, and David Henry Malone. "A Geologic Mapping Problem for Structural Geology Class." Journal of Geoscience Education 44, no. 3 (May 1996): 253–58. http://dx.doi.org/10.5408/1089-9995-44.3.253.

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6

Adhitya, Bagus, Hari Wiki Utama, Anggi Deliana Siregar, Magdalena Ritonga, and Yulia Morsa Said. "Pembuatan maket geologi struktur sebagai bahan ajar di Jurusan Teknik Kebumian Fakultas Sains dan Teknologi Universitas Jambi." Transformasi: Jurnal Pengabdian Masyarakat 17, no. 2 (December 31, 2021): 279–86. http://dx.doi.org/10.20414/transformasi.v17i2.4020.

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[Bahasa]: Geologi Struktur adalah salah satu mata kuliah yang ada pada kurikulum Program Studi Teknik Geologi, Teknik Pertambangan dan Teknik Geofisika yang dikelola oleh Jurusan Teknik Kebumian. Mata kuliah ini mempelajari bentukan atau struktur batuan penyusun kerak bumi, arsitektur batuan penyusun kerak bumi, dan bagaimana proses pembentukan struktur geologi. Identifikasi masalah yang ditemui adalah belum optimalnya hasil pembelajaran pada mata kuliah geologi struktur pada masa pandemi karena tidak adanya alat praktikum yang dapat digunakan untuk menggantikan kegiatan observasi lapangan. Di sisi lain observasi lapangan terhadap struktur geologi secara langsung sulit untuk dilaksanakan dan memiliki resiko yang cukup besar. Solusi dari permasalahan tersebut adalah dilakukan pembuatan maket geologi struktur taman bumi (Geopark) Merangin, Jambi. Kegiatan pengabdian kepada masyarakat ini bertujuan untuk membuat maket geologi struktur sebagai bahan ajar yang dapat menjadi alternatif pembelajaran dan praktikum pengukuran struktur dasar di masa pandemi Covid-19. Metode yang digunakan dalam menyelesaikan permasalahan mitra adalah metode problem solving. Dari hasil pengukuran strike & dip diperoleh kedudukan pada sayap kiri lipatan maket geologi struktur berarah N 218oE/38o (Barat Daya) sedangkan pada sayap kanan lipatan maket geologi struktur berarah N 25oE/24o (Timur Laut). Maket geologi yang dibuat memiliki struktur berupa antiklin dengan bagian tengah mengalami pergeseran karena struktur sesar. Hasil analisis data struktur sesar merupakan sesar mendatar naik kanan, dengan kedudukan bidang sesar N 42°E/66°, Plunge/Bearing 80°N 87°E, dan Rake 45°. Pembuatan maket geologi struktur sangat bemanfaat dalam menambah pemahaman mahasiswa pada mata kuliah geologi struktur. Mahasiswa dapat mengetahui pengukuran struktur dasar sebelum terjun ke lapangan secara langsung sehingga mereka akan lebih siap saat melakukan kuliah lapangan. Kata Kunci: maket geologi struktur, bahan ajar, geopark Merangin [English]: Structural Geology is one of the courses in the curriculum of Geological Engineering, Mining Engineering, and Geophysical Engineering managed by the Department of Earth Engineering. This course studies the formation or structure of the rocks that make up the earth's crust, the architecture of the rocks that make up the earth's crust, and how the geological structure is formed. The problems identified were the non-optimal learning outcomes in the structural geology course during the pandemic and the absence of practical tools that can be used for field observation activities. On the other hand, field observations of geological structures directly are very difficult to carry out and have great risks. The solution to this problem is to make a geological structure scale model of the Earth Park (Geopark) Merangin, Jambi. This community service program aims to create structural geology mockups as teaching materials that can be alternative learning and practicum for measuring basic structures during the Covid-19 pandemic. The method used in this program was problem-solving. From the result of the strike and dip measurement, the position was obtained on the left-wing of the geological model fold of the structure withN N 218oE/38o direction (Southwest). While on the right-wing of the geological model fold of the structure, the direction was N 218oE/38o (Northeast). The developed geological scale model has a structure in the form of an anticline with the center shifting due to the fault. Data analysis resulted in the position of the fault plane N 42°E/66°, Plunge/Bearing 80°N 87°E, and Rake 45°. Making a structural geology scale model is very useful in increasing students' understanding of the structural geology course. They can know the measurement of basic structures before going to the field directly so that the students will be better prepared when doing the field trip. Keywords: structural geology mockup, teaching materials, merangin geopark
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7

Bailey, Christopher McNeill. "An Integrative Geologic Mapping Project for Structural-Geology Courses." Journal of Geoscience Education 46, no. 3 (May 1998): 245–51. http://dx.doi.org/10.5408/1089-9995-46.3.245.

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8

Peacock, David. "3-D Structural Geology." Earth-Science Reviews 51, no. 1-4 (August 2000): 213–14. http://dx.doi.org/10.1016/s0012-8252(00)00013-1.

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9

Hancock, P. L. "Principles of structural geology." Journal of Structural Geology 8, no. 6 (January 1986): 721. http://dx.doi.org/10.1016/0191-8141(86)90079-9.

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10

Treagus, J. E. "Foundations of Structural Geology." Journal of Structural Geology 11, no. 8 (January 1989): 1057. http://dx.doi.org/10.1016/0191-8141(89)90061-8.

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11

Stawikowski, Wojciech. "Structural Geology (2nd edition)." Geologos 23, no. 2 (June 27, 2017): 139–40. http://dx.doi.org/10.1515/logos-2017-0016.

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12

Chapman, T. J. "Mechanics in structural geology." Earth-Science Reviews 34, no. 3 (June 1993): 236–37. http://dx.doi.org/10.1016/0012-8252(93)90037-8.

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13

David, Peacock. "3-D Structural Geology." Tectonophysics 320, no. 2 (May 2000): 167–68. http://dx.doi.org/10.1016/s0040-1951(00)00052-4.

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14

Treagus, Susan H. "Mechanics in structural geology." Journal of Structural Geology 15, no. 1 (January 1993): 117–18. http://dx.doi.org/10.1016/0191-8141(93)90083-m.

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15

Frassi, Chiara, Alessia Amorfini, Antonio Bartelletti, and Giuseppe Ottria. "Popularizing Structural Geology: Exemplary Structural Geosites from the Apuan Alps UNESCO Global Geopark (Northern Apennines, Italy)." Land 11, no. 8 (August 10, 2022): 1282. http://dx.doi.org/10.3390/land11081282.

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Popularizing endogenic geological processes that act deep on the Earth during geologic time producing orogenic belts requires a great effort. Consequently, geosites dealing with structural geology are surveyed with a lower frequency. Geological structures, however, may strongly control and model the territory and/or trigger the exogenous processes responsible for a specific landform/landscape. We describe here three geosites in the Apuan Alps UNESCO Global Geopark (Tuscany, Italy) to highlight their geoheritage values. We used the classical methods applied in structural geology to conceive and design three new interpretative panels of structural geosites using simple language and graphic schemes that facilitate the understanding of geological structures. The three selected structures were produced by different deformation regimes and at different structural depths. The first geosite is the boundary between the metamorphic and non-metamorphic rocks and represents the boundary of the Apuan Alps tectonic window. The second geosite is the spectacular Mt. Forato natural arch and the third represents a beautiful example of folds. Each panel is characterized by QR codes that allow the reader to access a short geological glossary, the Apuan Alps Geopark website, and a short evaluation survey on the quality of the interpretative panel.
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16

Helper, Mark A. "Structural Geology and Map Interpretation." Eos, Transactions American Geophysical Union 79, no. 22 (June 2, 1998): 261. http://dx.doi.org/10.1029/98eo00197.

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17

Passchier, Cees. "Structural geology and personal computers." Journal of Structural Geology 19, no. 9 (September 1997): 1255. http://dx.doi.org/10.1016/s0191-8141(97)89734-9.

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18

Bumby, A. J. "Book Review of “Structural Geology”." Marine and Petroleum Geology 27, no. 10 (December 2010): 2189. http://dx.doi.org/10.1016/j.marpetgeo.2010.09.006.

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19

Whalley, John S. "Laboratory manual for structural geology." Journal of Structural Geology 13, no. 8 (January 1991): 975–76. http://dx.doi.org/10.1016/0191-8141(91)90093-x.

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20

Kenkmann, Thomas, Michael H. Poelchau, and Gerwin Wulf. "Structural geology of impact craters." Journal of Structural Geology 62 (May 2014): 156–82. http://dx.doi.org/10.1016/j.jsg.2014.01.015.

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21

Mazzoli, Stefano. "Geothermal Energy and Structural Geology." Energies 15, no. 21 (October 31, 2022): 8074. http://dx.doi.org/10.3390/en15218074.

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22

Amenta, Roddy V. "Techniques of modern structural geology." Earth-Science Reviews 23, no. 3 (May 1986): 242–43. http://dx.doi.org/10.1016/0012-8252(86)90038-3.

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23

Groshong, Rick. "Structural geology and map interpretation." Tectonophysics 292, no. 1-2 (June 1998): 169. http://dx.doi.org/10.1016/s0040-1951(98)00048-1.

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24

Durney, David W. "The techniques of modern structural geology, volume 3: Applications of continuum mechanics in structural geology." Tectonophysics 344, no. 3-4 (February 2002): 307–10. http://dx.doi.org/10.1016/s0040-1951(01)00270-0.

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25

Wheeler, J. "STRUCTURAL GEOLOGY ALGORITHMS: VECTORS AND TENSORS." American Mineralogist 98, no. 10 (October 1, 2013): 1915. http://dx.doi.org/10.2138/am.2013.607.

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26

Liu, C. Y. "THE STRUCTURAL GEOLOGY OF SOUTHWESTERN HUPEH*." Bulletin of the Geological Society of China 31, no. 1 (June 1, 2009): 1–8. http://dx.doi.org/10.1111/j.1755-6724.1951.mp31001001.x.

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27

Vann, I. R. "Structural geology: To stretch a continent." Nature 316, no. 6026 (July 1985): 293–94. http://dx.doi.org/10.1038/316293a0.

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28

Lisle, Richard. "Structural geology of rocks and regions." Journal of Structural Geology 19, no. 5 (May 1997): 752–53. http://dx.doi.org/10.1016/s0191-8141(97)85684-2.

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29

Treagus, S. H. "Structural Geology of Rocks and Regions." Journal of Structural Geology 9, no. 4 (January 1987): 517. http://dx.doi.org/10.1016/0191-8141(87)90131-3.

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30

De Paor, Declan G. "Structural Geology, principles, concepts, and problems." Journal of Structural Geology 12, no. 8 (January 1990): 1089. http://dx.doi.org/10.1016/0191-8141(90)90108-b.

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31

Mamtani, Manish A. "Structural Geology and India’s Societal Requirements." Journal of the Geological Society of India 93, no. 6 (June 2019): 627–28. http://dx.doi.org/10.1007/s12594-019-1240-7.

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32

Goodman, S. "Stereographic projection techniques in structural geology." Journal of African Earth Sciences 22, no. 4 (May 1996): 625. http://dx.doi.org/10.1016/0899-5362(96)83783-3.

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33

Walker, J. Douglas, Basil Tikoff, Julie Newman, Ryan Clark, Jason Ash, Jessica Good, Emily G. Bunse, et al. "StraboSpot data system for structural geology." Geosphere 15, no. 2 (March 5, 2019): 533–47. http://dx.doi.org/10.1130/ges02039.1.

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Abstract StraboSpot is a geologic data system that allows researchers to digitally collect, store, and share both field and laboratory data. StraboSpot is based on how geologists actually work to collect field data; although initially developed for the structural geology research community, the approach is easily extensible to other disciplines. The data system uses two main concepts to organize data: spots and tags. A spot is any observation that characterizes a specific area, a concept applicable at any spatial scale from regional to microscopic. Spots are related in a purely spatial manner, and consequently, one spot can enclose multiple other spots that themselves contain other spots. In contrast, tags provide conceptual grouping of spots, allowing linkages between spots that are independent of their spatial position. The StraboSpot data system uses a graph database, rather than a relational database approach, to increase flexibility and to track geologically complex relationships. StraboSpot operates on two different platform types: (1) a field-based application that runs on iOS and Android mobile devices, which can function in either Internet-connected or disconnected environments; and (2) a web application that runs only in Internet-connected settings. We are presently engaged in incorporating microstructural data into StraboSpot, as well as expanding to include additional field-based (sedimentology, petrology) and lab-based (experimental rock deformation) data. The StraboSpot database will be linked to other existing and future databases in order to provide integration with other digital efforts in the geological sciences and allow researchers to do types of science that were not possible without easy access to digital data.
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34

Tanner, David Colin, Bernd Leiss, and Axel Vollbrecht. "Structural Geology of the Leinetal Graben." Jahresberichte und Mitteilungen des Oberrheinischen Geologischen Vereins 95 (April 1, 2013): 131–68. http://dx.doi.org/10.1127/jmogv/95/2013/131.

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35

Engelder, Terry. "Structural geology: Fundamentals and modern developments." Tectonophysics 231, no. 4 (March 1994): 347–49. http://dx.doi.org/10.1016/0040-1951(94)90043-4.

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36

Oertel, G. "Structural geology: Fundamentals and modern developments." Earth-Science Reviews 36, no. 3-4 (August 1994): 246–48. http://dx.doi.org/10.1016/0012-8252(94)90062-0.

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37

Hauber, Ernst, Matthias Grott, and Peter Kronberg. "Martian rifts: Structural geology and geophysics." Earth and Planetary Science Letters 294, no. 3-4 (June 2010): 393–410. http://dx.doi.org/10.1016/j.epsl.2009.11.005.

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38

Bauer, Robert L. "Structural analysis and synthesis: A laboratory course in structural geology." Journal of Structural Geology 10, no. 5 (January 1988): 533–34. http://dx.doi.org/10.1016/0191-8141(88)90042-9.

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39

Amenta, Roddy V. "Structural analysis and synthesis, a laboratory course in structural geology." Tectonophysics 152, no. 1-2 (September 1988): 161. http://dx.doi.org/10.1016/0040-1951(88)90037-6.

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40

BARTHES, H., A. BORDAS, D. BOUILLOT, M. BUZON, P. DUMONT, J. FERMIN, J. C. LANDRY, et al. "TUNNELS - GEOLOGY." Proceedings of the Institution of Civil Engineers - Civil Engineering 102, no. 5 (May 1994): 6–10. http://dx.doi.org/10.1680/icien.1994.26801.

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41

De Paor, Declan G. "A Graphical Approach to Quantitative Structural Geology." Journal of Geological Education 34, no. 4 (September 1986): 231–36. http://dx.doi.org/10.5408/0022-1368-34.4.231.

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42

de Caprariis, Pascal P. "Developing Successful Learning Strategies in Structural Geology." Journal of Geoscience Education 50, no. 2 (March 2002): 145–49. http://dx.doi.org/10.5408/1089-9995-50.2.145.

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43

Greenberg, Jeffrey K. "Indoor Field Study for Structural Geology Course." Journal of Geoscience Education 50, no. 5 (November 2002): 575–82. http://dx.doi.org/10.5408/1089-9995-50.5.575.

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44

Luneburg, Catalina, and Hermann Lebit. "The Titan in Structural Geology has gone." Episodes 44, no. 3 (September 1, 2021): 357. http://dx.doi.org/10.18814/epiiugs/2021/021024.

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45

Ratschbacher, Lothar, Martin Meschede, Wolfgang Frisch, Roland Bürgmann, Rolf Ott, Carl Richter, Martin Streck, and Andrea Wech. "Personal-Computers in Structural Geology and Tectonics." Zeitschrift der Deutschen Geologischen Gesellschaft 140, no. 1 (January 1, 1989): 219–29. http://dx.doi.org/10.1127/zdgg/140/1989/219.

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46

Klimczak, Christian, Paul K. Byrne, A. M. Celâl Şengör, and Sean C. Solomon. "Principles of structural geology on rocky planets." Canadian Journal of Earth Sciences 56, no. 12 (December 2019): 1437–57. http://dx.doi.org/10.1139/cjes-2019-0065.

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Although Earth is the only known planet on which plate tectonics operates, many small- and large-scale tectonic landforms indicate that deformational processes also occur on the other rocky planets. Although the mechanisms of deformation differ on Mercury, Venus, and Mars, the surface manifestations of their tectonics are frequently very similar to those found on Earth. Furthermore, tectonic processes invoked to explain deformation on Earth before the recognition of horizontal mobility of tectonic plates remain relevant for the other rocky planets. These connections highlight the importance of drawing analogies between the rocky planets for characterizing deformation of their lithospheres and for describing, applying appropriate nomenclature, and understanding the formation of their resulting tectonic structures. Here we characterize and compare the lithospheres of the rocky planets, describe structures of interest and where we study them, provide examples of how historic views on geology are applicable to planetary tectonics, and then apply these concepts to Mercury, Venus, and Mars.
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47

Cooper, Mark A., and Maurice L. F. Bamford. "A note on photography in structural geology." Journal of Structural Geology 9, no. 1 (January 1987): 121–26. http://dx.doi.org/10.1016/0191-8141(87)90050-2.

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48

Blenkinsop, T. G., G. Tripp, and J. R. Vearncombe. "Preface and Introduction – Structural Geology and Resources." Journal of Structural Geology 67 (October 2014): 187–88. http://dx.doi.org/10.1016/j.jsg.2014.04.006.

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49

Alberti, Mauro, Martin Laloux, and Marco Zanieri. "Tools for structural geology analysis in QGIS." Rendiconti Online della Società Geologica Italiana 39 (March 2016): 55–59. http://dx.doi.org/10.3301/rol.2016.46.

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50

Kim, Jeong Hwan. "Footprints of structural geology in Korea: Review." Journal of the Geological Society of Korea 53, no. 1 (February 28, 2017): 5–33. http://dx.doi.org/10.14770/jgsk.2017.53.1.5.

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