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23 - Geomorphology and the international agenda: concluding remarks

Published online by Cambridge University Press:  10 January 2011

By
Irasema Alcántara-Ayala
Edited by
Irasema Alcántara-Ayala  and
Andrew S. Goudie
Irasema Alcántara-Ayala
Affiliation:
Universidad Nacional Autonoma de Mexico, Mexico City
Andrew S. Goudie
Affiliation:
St Cross College, Oxford
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Summary

Natural hazards are a part of life. But hazards only become disasters when people's lives and livelihoods are swept away. The vulnerability of communities is growing due to human activities that lead to increased poverty, greater urban density, environmental degradation and climate change.

UN Secretary General, Kofi Annan, 8 October 2003, International Day for Disaster Reduction

Empirical investigations of geomorphological hazards have existed since humankind wondered about the nature of the Universe. The ancient Greeks, for example, paid attention to phenomena such as earthquakes and volcanoes. During the Renaissance, scientists such as Leonardo da Vinci contributed to the early scientific development of topics related to geomorphology. Later on, at the beginning of the nineteenth century as specialization took place, instrumentation and measurement technology improved and diverse schools of thought appeared on the scene (Bauer, 2004). Contributions became concentrated on the complexity of nature.

Accordingly, the duality between nature (hazards) and society (vulnerability) can not be regarded as new. In the nineteenth century, Humboldt and Ritter were already aware of the necessity of addressing the planet from both natural and human global perspectives. As Ritter remarked, ‘The earth and its inhabitants stand in the closest mutual relations, and one element cannot be seen in all its phases without the others.’ It seems inexorable therefore that understanding risk involves a full comprehension of the interactions among natural and cultural landscapes.

Type
Chapter
Information
Geomorphological Hazards and Disaster Prevention , pp. 279 - 281
Publisher: Cambridge University Press
Print publication year: 2010

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References

Alcántara-Ayala, I. (2002). Geomorphology, natural hazards, vulnerability and prevention of natural disasters in developing countries. Geomorphology, 47, 107–124.CrossRefGoogle Scholar
Alcántara-Ayala, I. (2004). Flowing mountains in Mexico: incorporating local knowledge and initiatives to confront disaster and promote prevention. Mountain Research and Development, 24(1), 10–13.CrossRefGoogle Scholar
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Alcántara-Ayala, I., López-Mendoza, M., Melgarejo-Palafox, G., Borja-Baeza, R. C., Acevo-Zarate, R. (2004). Natural hazards and risk communication strategies among indigenous communities: shedding light on accessibility in Mexico's mountains. Mountain Research and Development, 24(4), 298–302.CrossRefGoogle Scholar
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Gares, P. A., Sherman, D. J. and Nordstrom, K. F. (1994). Geomorphology and natural hazards. Geomorphology, 10, 1–18.CrossRefGoogle Scholar
Goudie, A. S. (2006). The Human Impact on the Natural Environment, 6th edition. Oxford: Blackwell Publishing.Google Scholar
,IPCC (2008a). Fourth Assessment Report, Working Group I, Summary for Policymakers. http://195.70.10.65/pdf/assessment-report/ar4/wg1/ar4-wg1-spm.pdf.
,IPCC (2008b). Fourth Assessment Report, Working Group II Report. http://195.70.10.65/ipccreports/ar4-wg2.htm.
Rosenfeld, C. L. (1994). The geomorphological dimensions of natural disasters. Geomorphology, 10, 27–36.CrossRefGoogle Scholar

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