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conferenceseries

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Volume 2

Environment Pollution and Climate Change

ISSN: 2573-458X

Climate Change 2018 &

Global ENVITOX 2018

October 04-06, 2018

October 04-06, 2018

London, UK

16

th

Annual Meeting on

Environmental Toxicology and Biological Systems

&

5

th

World Conference on

Climate Change

JOINT EVENT

Coastal erosion and storm: the new natural hazards in Chile

Carolina Martinez

1

, Mauricio Villagrán

1

, Patricio Winckler

2

, Manuel Contreras-López

3

, Pablo López

4

, Matías Gómez

1

and

Cesar Esparza

2

1

Pontifical Catholic University of Chile, Chile

2

University of Valparaíso, Chile

3

University of Playa Ancha, Chile

4

Bristol University, United Kingdom

T

heChilean coast is characterized by the development of recurring natural hazards on the coast, includingmajor earthquakes,

tsunamis and alluviums. To these, coastal erosion is now added, aggravated by intense storms, which since 2015 have

generated great impact in the coastal zone. Among these effects is the violent loss of mass in the sandy littoral, changes in

the morphodynamics of the beaches, loss of human lives and considerable damage to the coastal infrastructure. The purpose

of this research is to explore the stability condition of the sandy littoral in central-southern Chile and to guide conservation,

adaptation or mitigation measures. Satellite images and topographic surveys were used in order to determine spatio-temporal

changes in the shoreline. These changes were linked to the long-term behavior of oceanographic variables such as wave climate

and mean sea level. To determine changes in the relative shoreline position, DSAS 4.3 (USGS) extension for GIS was used.

Erosion/accretion processes for each beach were classified according to Rangel-Buitrago et al., (2015). Changes in profile

were determined by topographic survey of beach profiles, with which volumetric and granulometric changes were obtained.

The behavior of the historical swell and its relationship with the morphological changes of the beaches was analyzed, as well

as the relationship between ENSO phases and the recurrence of storms. The results to date, establish an erosive tendency

and accelerated by the storms in the majority of the sandy systems, which present different magnitude. A direct relationship

between warm phases ENSO and recurrence of tidal waves was determined. In all cases, erosion rates increased due to the level

rise of up to 30 cm observed during ENSO warm phases and an increase in the frequency of extreme storms, which shifted

from nearly 5 events per year in the 1960s to more than 20 in recent years.

Recent Publications

1. Jiménez J, Sancho-García A, BosomE, Valdemoro E, Guillén J. (2012). Storm-induced damages along the Catalan coast

(NWMediterranean) during the period 1958–2008. Geomorphology 143-144: 24–33.

2. Luo S, Cai F, Liu H, Lei G, Qi H, Su X. (2015). Adaptive measures adopted for risk reduction

of coastal erosion in the People's Republic of China. Ocean & Coastal Management 103:

134-145.

3. Martínez C, Rojas D, Quezada M, Oliva R, Quezada J. (2015). Post-Earthquake coastal

evolution and recovery of an embayed beach in central-southern Chile. Geomorphology

250: 321-333.

4. Rangel-Buitrago N, Anfuso G, Williams A. (2015). Coastal erosion problems along the

Caribbean Coast of Colombia. Ocean & Coastal Management 114: 120-144.

5. Rangel-Buitrago N, Anfuso G, Williams A, Bonetti J, Gracia A, Ortiz J. (2017).Risk assessment to extreme wave events:

Barranquilla -Cienaga, CaribbeanofColombiaCase Study. In: Botero, C.;Cervantez,O. &Fink, C(Eds.). BeachManagement

Tools: Concepts, Methodologies and Case Studies. Chapter 23. Springer International Publishing, Amsterdam.

Biography

Carolina Martínez is a Professor at the Geography Institute at the Pontificia Universidad Católica de Chile (PUC).Associate Researcher at the Research Center

for Integrated Disaster Risk Management (CIGIDEN) and member of the Ibero-American University Association for Post Graduate Studies in Integrated Coastal-

marine Management (IBERMAR-AUIP Network). Her area of research is geomorphology and costal environment dynamics, coastal and natural risk management.

Her recent works are focused on analysing factors of change on tectonic coasts that are recently affected by natural disturbances such as earthquakes, tsunamis

and swells. She also studies the socio-territorial effects on costal locations.

camartinezr@uc.cl

Carolina Martinez et al., Environ Pollut Climate Change 2018, Volume 2

DOI: 10.4172/2573-458X-C1-003