Environmental Engineering Reference
In-Depth Information
4. alvarado, G.e., argüeta, s. & cordero, c., (1988),
“inter prentación preliminar de las deformaciones
asociadas al volcán arenal (costa Rica)”,
Bol. Obs.
Vulc. Arenal
, 1(2): 26-43.
5. alvarado, G.e., carboni, s., cordero, M., avilés, e.,
Val verde, M. & leandro, c., (2003), “estabilidad del
cono y comportamiento de la fundación del edificio
volcánico del arenal (costa Rica)”,
Bol. OSIVAM
,
14 (26): 21-73.
6. alvarado, G.e., soto, G.J., schmincke, h.-U., Bolge,
l.l. & sumita, M., (2006), “The 1968 andesitic
lateral blast eruption at arenal volcano, costa Rica”,
J. Volcanol. Geotherm. Res
., 157 (1-3): 9-33.
7. Berry, P.l. & Reid, D., (1987), “an introduction to
soil Mechanics”. spanish translation: “Mecánica de
suelos”, McGraw-hill, xv + 415 pp., México, 1993.
8. Bishop, a.W., (1955) “The Use of slip circles in the
stability analysis of earth slopes”,
Geotechnique
,
5: 7-17.
9. Borgia, a., (1994), “Dynamic basis of volcanic
spreading”,
J. Geophys. Res
., 99 (B 9): 1779-1780.
10. Borgia, a. & Treves, B., (1991), “Volcanic plates over
rinding the oceanic crust: structure and dynamics
of hawaiian volcanoes”,
En: L.M. Parson (ed.):
Ophiolites and their Modern Analogues. Geol. Soc.
London, Spec. Publ.
, 60: 277-299.
11. Borgia, a., Burr, J., Montero, W., Morales, l.D. &
alva rado, G.e., (1990), “Fault Propagation folds
induced by Gravitational Failure and slumping of
the central costa Rica Volcanic Range: implications
for large Terrestrial and Martian Volcanic edificies”,
J. Geophys. Res
., 95 (B9): 14357-14382.
12. Borgia, a. & van Wyk de Vries, (2003), “The volcano-
tectonic evolution of concepción, nicaragua”,
Bull.
Volcanol
., 65: 248-266.
13. Borgia, a., Poore, c., carr, M.J., Melson, W.G. &
alvara do, G.e., (1988), “structural, stratigraphic
and petrologic aspects of the arenal-chato volcanic
system, costa Rica: evolution of a young stratovol-
canic complex”,
Bull. Volcanol
, 50: 86-105.
14. Briole, P., Massonnet, D. & Delacourt, c., (1997),
“Post eruptive deformation associated with the
1986-87 and 1989 lava flows of etna detected by
radar interferometry,
Geophys. Res. Lett.,
24 (1):
37-40.
15. cecchi, e., van Why de Vries, B., lavest, J.-M.,
(2005), “Flank spreading and collapse of weak-cored
volcanoes”,
Bull. Volcanol
., 67: 72-91.
15. choncha-Dimas, a., (2004), “numerical Modeling
in un derstanding catastrophic collapse at Pico de
orizaba, México”, 341 pp.,
Tesis de Ph.D
., Univ.
nevada, Reno.
16. concha-Dimas, a. & Watters, R.J., (2003),
“Preliminary evaluation of Volcanic Flank stability
Using Finite Difference Modeling: citlaltépetl Volcano,
Mexico”,
In: P.J. Cullingan, H.H. Einstein & A.J.
Whittle: Soil & Rock America 2003, 12th Panamerican
Conference on Soil Mechanics and Geotechnical
Engineering
, VGe, Proceeding 1.
17. Delorme, h., (1994), “apport des deformations à
la compréhension des mécanismes éruptifs: le Piton
de la Fournaise”,
PhD. Thesis
, Univ. Paris Vii,
449-467.
18. Druitt, T.h., Young, s.R., Baptie, B., Bonadonna, c.,
calder, e.s., clarke, a.B., cole, P.D., harford, c.l.,
herd, R.a., luckett, R., Ryan, G. & Voight, B.,
(2002), “episodes of cyclic Vulcanian explosive activ-
ity with fountain collapse at soufriére hills Volcano,
Motserrat”,
En: T.H. Druitt, & B.P. Kokelaar (eds.):
The Eruption of Soufriére Hills Volcano, Montserrat,
from 1995 to 1999
. Geol. soc., london, Memoirs, 21:
281-306.
19. Franklin, J.a. & Dusseault, M.B., (1989), “Rock
engin nering”. x + 600 pp., McGraw-hill Publis. co.,
new York.
20. hoek, e. & Bray, J.W., (1981), “Rock slope
engineering” [3era ed.]. 358 pp. inst. Mining and
Metallurgy, london.
21. hoek, e. & Brown, e.T., (1980), “Underground
excava tion in rock”, 641 pp. McGraw hill.
22. hürlimann, M. & ledesma, a., (1999), “The influ-
ence of Residual soil on the stability of Volcano
Flanks. application of the large landslides ocurred
on the northern slopes of Tenerife, canary islands”,
IX Panamerican Conference on Soil Mechanics &
Geothecnical Engineering
, 4: 1305-1311.
23. ishirara, k., Takayama, T., Tanaka, Y & hirabayashi,
J.,(1981), “lava flows at sajurajima Volcano (i)”—
volume of the historical lava flows-,
Ann Dis. Prev.
Res. Inst.
, kyoto Univ., 24 (B-1): 1-10 (in Japanese).
24. Japanese national committee of large Dams,
(1988), “earthquake Resistant Design Features of
Dams”,
En: Earthquake Resistant Design for Civil
Enginnering Structures in Japan
. Japanese society of
civil engineereers, Tokyo, pp. 1-30.
25. keefer, D.k., (1984), “landsides caused by earth-
quakes”,
Geol. Soc. Amer. Bull
., 95 (2): 406-421.
26. lagmay, a.M.F., van Wyk de Vries, B., kerle, n. &
Pyle, D.M., (2000), “Volcano instability induced by
strike-slip faulting”,
Bull Volcanol
., 62: 331-346.
27. leandro, c. & alvarado, G.e., (1999), “estudio
Geológi co-Geofísico de una sección oriental y
occidental en el volcán arenal”.
Bol. OSIVAM
, 11
(21-22): 50-60, 1998; san José.
28. lópez, a., (1999), “neo- and Paleostress parti-
tioning in the sW corner of the caribbean Plate
and its fault reactivation potential”. Tübinger
Geowissenchaftliche arbeiten, 53: xi + 294 pp.
29.lópez, D.l., Bundschuh, J., soto, G.J., Fernández, J.F. &
alvarado, G.e., (2006), “chemical evolution of thermal
springs at arenal Volcano, costa Rica: effect of vol-
canic activity, precipitation, seismic activity, and earth
tides”,
J. Volcanol. Geotherm. Res
., 157 (1-3). 166-181.
30. Merle, o. & Borgia, a., (1996), “scaled experiments
of volcanic spreading”.
J. Geophys. Res
., 101 (B6):
13805-13817.
31. Milne, J.F.G.s., (1878), “on the form of volcanoes”.
The Geological Magazine
, ii (Viii): 337-345.
32. Mora, M., (2003), “Étude de la structure superficielle
et de l'activite sismique du volcan arenal, costa
Rica”, 155 pp + 4 anexos, Universidad de saboya
[
PhD. Thesis
].
33. Morera, J.F., (1990), “informe de apoyo geológico-
geotécnico para la construcción de la presa del
proyecto Fortuna”,
Inf. Interno ICE
, Geology
Department, september, 20 pp + maps.
