Biblioteca de Geologia do Brasil


1 Tavani, S., Granado, P., Corradetti, A., Girund, M., Iannace, A., Arbués, P., Muñoz, J.A., Mazzoli, S., 2014. Building a Virtual Outcrop, extracting geological information from it, and sharing the results in Google Earth via OpenPlot and Photoscan: An example from the Khaviz Anticline (Iran). Computer & Geosciences 63, 44-53.

2 Casini, G., Hunt, D.W., Monsen, E., Bounaim, A., 2016. Fracture characterization and modeling from virtual outcrops. American Association of Petroleum Geologists Bulletin 100 (1), 41-61.

3 Vollger, S.A., Cruden, A.R., 2016. Mapping folds and fractures in basement and cover rocks using UAV photogrammetry, Cape Liptrap and Cape Paterson, Victoria, Australia. Journal of Structural Geology 85, 168-187.

4 Burnham, B.S., Hodgetts, D., 2018. Quantifying spatial and architectural relationships from fluvial outcrops. Geosphere 15 (1), 1-18.

5 Wilson, P., Hodgetts, D., Rarity, F., 2011. Half-graben-scale geocellular outcrop modelling of rift initiation strata from Lidar-based digital outcrop data: The Nukhul syncline, Suez Rift, Egypt. Outcrops Revitalized: Tools, Techniques and Applications, SEPM Concepts in Sedimentology and Paleontology 10, 51-68.

6 Crosby, C.J., 2012, Lidar and Google Earth: Simplifying access to high-resolution topography data, in Whitmeyer, S.J., Bailey, J.E., De Paor, D.G., Ornduff, T., eds., Google Earth and Virtual Visualizations in Geoscience Education and Research: Geological Society of America Special Paper 492, p. 37–47, doi:10.1130/2012.2492(03).

7 Nesbit, P.R., Durkin, P.R., Hugenholts, C.H., Hubbard, S.M., Kucharczyk, M., 2018. 3-D stratigraphic mapping using a digital outcrop model derived from UAV images and structure-from-motion photogrammetry. Geosphere 14 (6), 2469-2486.

8 Xu, X., Aiken, C.L.V., Bhattacharya, J.P., Corbeanu, R.M., Nielsen, K.C., McMechan G.A., Abdelsalam, M.G., 2000. Creating virtual 3-D outcrop. The leading Edge 19, 197-202.

9 Pringle, J.K., Clark, J.D., Westerman, A.R., Stanbrook, D.A., Gardiner, A.R., Morgan, B.E.F. 2001. Virtual Outcrops: 3-D reservoir analogues. Journal of the Virtual Explorer 4, 1-6.

9 Pringle, J.K., Howell, J.A., Hodgetts, D., Westerman, A.R., Hodgson, D.M. 2006. Virtual outcrop models of petroleum reservoir analogues: a review of the current state-of-the-art. First Break 24 (3), 33-42.

10 Cawood, A., Bond, C.E., Howell, J.A., Butler, R.W.H., Totake, Y. 2017. LiDAR UAV or compass-clinometer? Accuracy, coverage and the effects on structural models. Journal of Structural Geology 98, 67-82.

11 Corradetti, A., Tavani, S., Parente, M., Iannace, A., Vinci, F., Pirmez, C., Torrieri, S., Giorgioni, M., Pignalosa, A., Mazzoli, S., 2017. Distribution and arrest of vertical through-going joints in a seismic-scale carbonate platform exposure (Sorrent peninsula, Italy): insights from integrating field survey and digital outcrop model. Journal of Structural Geology 108, 121-136.

12 Roach, M.J., Cox, S.F., King, P., George, A.D., Verdel, C., Welsh, K.J., McLaren, S., 2016. – A Virtual Library of Australia’s Geology. 35th International Geological Congress Abstracts, Cape Town.

13 Dolphin, G., Dutchak, A., Karchewski, B., Cooper, J., 2019. Virtual field experiences in introductory geology: Addressing a capacity problem, but finding a pedagogical one. Journal of Geoscience Education 67,114-130.

14 Viana, C. D. Grohmann, C. H. Busarello, M. S. T. Garcia, G. P. B. 2018. Structural analysis of clastic dikes using Structure from Motion-Multi-View Stereo: a case-study in the Paraná Basin, southeastern Brazil. Brazilian Journal of Geology, 48: 839-852.

15 Carrivick, J.L., Smith, M.W., Quincey, D.J., 2016. Structure from motion in geoscience. Willey.

16 Vollgger, S.A.; Cruden, A.R., Ailleres, L. & Cowan, E.J. 2015. Regional Dome Evolution and its Control on Ore-Grade Distribution: Insights From 3D Implicit Modelling of the Navachab Gold Deposit, Namibia. Ore Geology Reviews, 69: 268–284.