Reports of abnormal animal behavior in relation to earth-quakes in Colombia
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https://doi.org/10.32685/0120-1425/bol.geol.51.1.2024.716Keywords:
Historical earthquakes, anomalous reactions, coseismic, postseismic, preseismic, oral tradition.
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Abstract
Interactions among components of the Earth System are well exemplified by the behavior of animals around the time of earthquakes, and the abundant published data and long-standing oral tradition on animal reactions to seismicity have become hard to ignore, these are important facts that provide opportunities for cross-disciplinary research. A compilation of reports on abnormal animal behavior in relation to earthquakes in Colombia covering the period 1610-2019 was produced by a rigorous two-stage search of cases using online resources. The reports localities follow the spatial distribution of epicenters and the main tectonic features of the Colombian territory. Both, the first and second-stage searches revealed that, for 41 destructive earthquakes, there are 138 reports of animals reacting to seismicity, most of which fall into phylum Chordata, class Mammalia, order Carnivora, family Canidae, genus Canis, species C. familiaris. The first-stage search indicates that coseismic reactions of the species C. familairis, B. taurus, and E. caballus dominate over preseismic and postseismic manifestations, in contrast to results from the news media-based second-stage search, which indicates dominance of preseismic behavior. It is concluded that in this region animals have reacted persistently to earthquakes and that folklore and oral tradition deserve some degree of credibility in this phenomenon.
Author Biography
John Jairo Sánchez, Departamento de Geociencias y Medio Ambiente, Facultad de Minas, Universidad Nacional de Colombia-Sede Medellín
John J. Sánchez works as a Full Professor at Departamento de Geociencias y Medio Ambiente, Universidad Nacional de Colombia- Sede Medellín, where he teaches Physical Geology, Field Geology, Igneous Petrology, Volcanology, and Presentation Techniques in Engineering and Science.
References
Anderson, C. J. (1973). Animals, earthquakes, and eruptions, Field Mus. Nat. His. Bull. 44, 9-11.
Raleigh, C. B., G. Bennett, H. Craig, T. Hanks, P. Molnar, A. Nur, J. Savage, C. Scholz, R. Turner, and F. Wu (1977). Prediction of the Haicheng earthquake, Eos Trans. AGU. 58, 236–272.
Buskirk, R. E., C. Frohlich, and G. V. Latham (1981). Unusual animal behavior before earthquakes: Review of possible sensory mecha-nisms, Rev. Geophys. Space. Phys. 19, 247–270.
Chen, Q., and K. Wang (2010). The 2008 Wenchuan earthquake and earthquake prediction in China, Bull. Seism. Soc. Am. 100, 2840–2857.
Deng, Q., P. Jiang, L. M. Jones, and P. Molnar (1981). A preliminary analysis of reported changes in ground water and anomalous animal behavior before the 4 February 1975 Haicheng earthquake, In Earth-quake prediction: An international review David W. Simpson and Paul G. Richards (Editors), American Geophysical Union, Washing-ton DC, 543–565.
De Liso, G., and C. Fidani (2014). Seismic precursory phenomenology in unusual animal behaviour in Val Pellice, Western Piedmont, in comparison with anomalies of some physical parameters, Open J. Earthquake Res. 3, 30–42.
De Liso, G., C. Fidani, and A. Viotto (2014). Multi-parametric monitor-ing system of associated seismic phenomenology and unusual animal behaviour in Western Piedmont, Adv. Res. 2, 303–319.
Dust, E. (2017). Possibilities and Limits of Earthquake Prediction Using of Animals, Epubli, Berlin.
Evernden, J. F. (1982). Earthquake prediction: What we have learned and what we should do now, Bull. Seism. Soc. Am. 72, S343–S349.
Fan, F. (2018). ¿Can animals predict earthquakes? Bio-sentinels as seismic sensors in communist China and beyond, Stud. Hist. Philos. Sci. 70, 58–69.
Fay, R. R. (1980). Sensory mechanisms for low-frequency vibration detection in fishes, In Conference XI Abnormal Animal Behavior Prior to Earthquakes II Ruth E. Buskirk and Jack F. Evernden (Edi-tors), United States Geological Survey, Menlo Park, California, 63–91.
Feng, C., and J. Jiang (1992). Quantitative observation and study on rhythmic abnormalities of activities in animals prior to earthquakes, Acta Seismol. Sin. 5, 857–865.
Fidani, C. (2013). Biological anomalies around the 2009 L’Aquila earth-quake, Animals, 3, 693–721.
Gans, C. (1976). Can animals predict earthquakes? Overview and pro-posal, In Conference I: Abnormal Animal Behavior prior to Earth-quakes I Jack F. Evernden (Editor), United States Geological Sur-vey, Menlo Park, California, 272–282.
Gómez, J., A. Núñez–Tello, D. Mateus–Zabala, F. A. Alcárcel–Gutiérrez, R. M. Lasso–Muñoz, E. Marín–Rincón, and M. P. Mar-roquín–Gómez, (2020). Physiographic and geological setting of the Colombian territory, In The Geology of Colombia, Volume 1 Prote-rozoic – Paleozoic Jorge Gómez and Daniela Mateus–Zabala (Edi-tors), Servicio Geológico Colombiano, Bogotá DC, 1–16.
Gordon, D. M. (1977). Can catfish anticipate earthquakes: A study of the typical diurnal behavior of Ictalurus melas and Ictalurus puncta-tus, Master´s Thesis, Stanford University, 46 p.
Gori, P. L. (1993). The social dynamics of a false earthquake prediction and the response by the public sector, Bull. Seism. Soc. Am. 83, 963–980.
Grant, R. A., and T. Halliday (2010). Predicting the unpredictable; evi-dence of pre-seismic anticipatory behaviour in the common toad, J. Zool. 281, 263–271.
Grant, R. A., and H. Conlan (2013). Frog swarms:¿Earthquake precur-sors or false alarms?, Animals, 3, 962–977.
Grant, R. A., and H. Conlan (2015). Behavioral response of inverte-brates to experimental simulation of pre-seismic chemical changes, Animals, 5, 206–213.
Grant, R. A., J. P. Raulin, and F. T. Freund (2015). Changes in animal activity prior to a major (M=7) earthquake in the Peruvian Andes, Phys. Chem. Earth. 85-86, 69–77.
Hayakawa, M. (2013). Possible electromagnetic effects on abnormal animal behavior before an earthquake, Animals, 3, 19–32.
Hédervári, P. (1983). Project on collection and evaluation of data on earthquake light phenomena, Bull. Seism. Soc. Am. 73, 889–890.
Hentig, H. V. (1923). Reactions of animals to changes in physical envi-ronment, J. Comp. Psychol. 3, 61–71.
Hough, S. (2006). Unsung heroine, Seismol. Res. Lett. 77, 742–743.
Howell, Jr., B. F., and C. F. Richter (1977). Second award of the medal of the Seismological Society of America, Bull. Seism. Soc. Am. 67, 1243–1247.
Ikeya, M., T. Komatsu, Y. Kinoshita, K. Teramoto, K. Inoue, M. Gondou, and T. Yamamoto (1997). Pulsed electric field before Kobe and Izu earthquakes from seismically-induced anomalous animal be-havior (SAAB), Episodes, 20, 253–260.
Ikeya, M. (2004). Earthquakes and Animals: From Folk Legends to Science, World Scientific, Singapore.
Kalmijn, A. J. (1980). Research on electric and magnetic field detection, In Conference XI Abnormal Animal Behavior Prior to Earthquakes II Ruth E. Buskirk and Jack F. Evernden (Editors), United States Geological Survey, Menlo Park, California, 110–113.
Kanamori, H. (1977). The energy release in great earthquakes, J. Ge-ophys. Res. 82, 2981–2987.
Kenagy, G. J., and J. T. Enright (1980). Animal behavior as a predictor of earthquakes? An analysis of rodent activity, In Conference XI Abnormal Animal Behavior Prior to Earthquakes II Ruth E. Buskirk and Jack F. Evernden (Editors), United States Geological Survey, Menlo Park, California, 178–197.
Kirschvink, J. L. (2000). Earthquake prediction by animals: Evolution and sensory perception, Bull. Seism. Soc. Am. 90, 312–323.
Klein, B. (2001). “Folklore”, In International Encyclopedia of the Social and Behavioral Sciences, volume 8, Neil J. Smelser and Paul B. Bal-tes (Editors), Elsevier, New York 5711-5715.
Kreithen, M. L. (1980). Detection of sound and vibration by birds, In Conference XI Abnormal Animal Behavior Prior to Earthquakes II Ruth E. Buskirk and Jack F. Evernden (Editors), United States Geo-logical Survey, Menlo Park, California, 13–28.
Miles, C. (1942). Descripción sistemática del “pez graso” del Lago de Tota (Boyacá), Caldasia, 5, 53–58.
Mojica, J. I., G. Galvis, I. Harrison, and J. Lynch (2012). Rhizosomich-thys totae, Miles 1942, In Libro Rojo de Peces Dulceacuícolas de Colombia 2012 José I. Mojica, José S. Usma, Ricardo Álvarez, and Carlos A. Lasso (Editors), Instituto de Investigación de Recursos Biológicos Alexander von Humboldt, 53–55.
Moulton, D. G. (1980). Odorant emissions preceding earthquakes and odor detection and recognition in animals, In Conference XI Abnor-mal Animal Behavior Prior to Earthquakes II Ruth E. Buskirk and Jack F. Evernden (Editors), United States Geological Survey, Menlo Park, California, 156–177.
Mueller, R. (1909).¿Can animals predict earthquakes?Sci.Am.1754, 100.
Narayan, J. P., M. L. Sharma, and A. Kumar (2002). A seismological report on the 26 January 2001 Bhuj, India earthquake, Seismol. Res. Lett. 73, 343–355.
Nikonov, L. L. (1992). Abnormal animal behaviour as a precursor of the 7 December 1988 Spitak, Armenia, earthquake, Nat. Hazards, 6, 1–10.
Papastamatiou, D. (1983). Field report of an earthquake in Renaissance Europe, Bull. Seism. Soc. Am. 73, 1243–1251.
Raleigh, B. (1982). A strategy for short-term prediction of earthquakes, Bull. Seism. Soc. Am. 72, S337-S342.
Ramírez, J. E. (1975). Historia de los Terremotos en Colombia, Instituto Geográfico Agustín Codazzi, Bogotá (in Spanish).
Scholfield, A. F. (1959). Aelian. On the Characteristics of Animals, II, Books VI-XI. Harvard University Press, Cambridge, 385–387.
Simon, R. B. (1976). Preliminary report on experiments to record anom-alous animal behavior as possible earthquake precursors, Earthq. Notes, 47, 10–11.
Sims, M. C. and S. Martine (2005). Living Folklore: An Introduction to the Study of People and their Traditions, Utah State University Press, Logan, 1-2.
Skiles, D. D., R. G. Lindberg, and P. Hayden (1980). An experimental search for correlations between anomalous activity of captive Fosso-rial Rodents and subsequent seismic events, In Conference XI Ab-normal Animal Behavior Prior to Earthquakes II Ruth E. Buskirk and Jack F. Evernden (Editors), United States Geological Survey, Menlo Park, California, 198–224.
Tributsch, H. (1982). When the Snakes Awake. Animals and Earthquake Prediction. The Massachusetts Institute of Technology Press, Cam-bridge.
Tributsch, H. (2005). The bionic anticipation of natural disasters, J. Bionic Eng. 2, 123–144.
Tributsch, H. (2013). Bio-mimetics of disaster anticipation—learning experience and key-challenges, Animals, 3, 274–299.
Turner, R. H. (1982). Media in crisis: Blowing hot and cold, Bull. Seism. Soc. Am. 72, S19–S28.
Verrillo, R. T. (1980). Some aspects of vibrotactile responses in animals and man, In Conference XI Abnormal Animal Behavior Prior to Earthquakes II Ruth E. Buskirk and Jack F. Evernden (Editors), United States Geological Survey, Menlo Park, California, 30–62.
Wallace, R. E., and T. Teng (1980). Prediction of the Sungpan-Pingwu earthquakes, August 1976, Bull. Seism. Soc. Am. 70, 1199–1223.
Wang, K., Q. Chen, S. Sun, and A. Wang (2006). Predicting the 1975 Haicheng earthquake, Bull. Seism. Soc. Am. 96, 757–795.
Wikelski, M., U. Mueller, P. Scocco, A. Catorci, L. V. Desinov, M. Y. Belyaev, D. Keim, W. Pohlmeier, G. Fechteler, and P. Martin Mai (2020). Potential short-term earthquake forecasting by farm animal monitoring, Ethology, 126, 931–941.
Woith, H., G. M. Petersen, S. Hainzl, and T. Dahm (2018). ¿Can ani-mals predict earthquakes? Bull. Seism. Soc. Am. 108, 1031–1045.
Wood, H. O. (1911). The observation of earthquakes: A guide for the general observer, Bull. Seism. Soc. Am. 1, 48–82.
Yamanaka, Y., Y. Tanioka, and T. Shiina (2017). A long source area of the 1906 Colombia–Ecuador earthquake estimated from observed tsunami waveforms, Earth Planets Space, 69, 163.
Yoshimoto, M., H. Kumagai, W. Acero, G. Ponce, F. Vásconez, S. Arrais, M. Ruiz, A. Alvarado, P. P. García, V. Dionicio, O. Cha-morro, Y. Maeda, O. Chamorro, and M. Nakano (2017). Depth-dependent rupture mode along the Ecuador–Colombia subduction zone, Geophys. Res. Lett. 44, 2203–2210.