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Lista incompleta de publicaciones relativas a Ciencias de la Tierra aplicadas en Nicaragua (revistas científicas) |
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Nicaraguan researchers appear as authors or co-authors only in 15% of these publications ! |
(2001), The 1994 Java tsunami earthquake: Slip over a subducting seamount, J. Geophys. Res., 106(B4), 6595–6608. (2003), The wet Nicaraguan slab, Geophys. Res. Lett., 30(2), 1098, doi:10.1029/2002GL015649. (2002), Primary sulfate aerosol and associated emissions from Masaya Volcano, Nicaragua, J. Geophys. Res., 107(D23), 4682, doi:10.1029/2002JD002120. Andresen, N., Reijmer, J.J.G. and Droxler, A.W., 2003. Timing and distribution of calciturbidites around a deeply submerged carbonate platform in a seismically active setting (Pedro Bank, Northern Nicaragua Rise, Caribbean Sea). International Journal of Earth Sciences, 92(4): 573-592. http://dx.doi.org/10.1007/s00531-003-0340-0 Barbier E (2002) Geothermal energy technology and current status: an overview RENEWABLE & SUSTAINABLE ENERGY REVIEWS 6 (1-2): 3-65 (1988), Oxygen fugacity of gases and rocks from Momotombo volcano, Nicaragua: Application to volcanological monitoring, J. Geophys. Res., 93(B12), 14,872–14,880. Bethune DN, Farvolden RN, Ryan MC, (1996) Industrial contamination of a municipal water-supply lake by induced reversal of ground-water flow, Managua, Nicaragua GROUND WATER 34 (4): 699-708
Bice, DC.(1985) Quaternary volcanic stratigraphy
of Managua, Nicaragua: Correlation and source assignment for multiple
overlapping plinian deposits Bommer, J.J., Rodríguez, C.E., 2002. Earthquake-induced landslides in Central America. Engineering Geology 63, 189– 220. Borgia A and van Wyk de Vries B (2003) The volcano-tectonic evolution of Concepción,Nicaragua Bull Volcanol (2003)65:248 –266 DOI 10.1007/s00445-002-0256-8Bray CJ, Spooner ETC (1992) Fluid Inclusion Volatile Analysis By Gas-Chromatography With Photoionization Micro-Thermal Conductivity Detectors - Applications To Magmatic Mos2 And Other H2O-CO2 And H2O-Ch4 Fluids Geochimica Et Cosmochimica Acta 56 (1): 261-272 Bray CJ, Spooner ETC, Thomas AV (1991) Fluid Inclusion Volatile Analysis By Heated Crushing, Online Gas-Chromatography - Applications To Archean Fluids Journal Of Geochemical Exploration 42 (1): 167-193 Burkart, Burke, Self, Stephen (1985) Extension and rotation of crustal blocks in northern Central America and effect on the volcanic arc Geology 13: 22-26 (2001), Diurnal changes in volcanic plume chemistry observed by lunar and solar occultation spectroscopy, Geophys. Res. Lett., 28(5), 843–846. Burton, Michael R., Oppenheimer, Clive, Horrocks, Lisa A., Francis, Peter W. (2000) Remote sensing of CO2 and H2O emission rates from Masaya volcano, Nicaragua Geology 28: 915-918 Cailleau B, LaFemina PC, Dixon TH (2007) Stress accumulation between volcanoes: an explanation for intra-arc earthquakes in Nicaragua?. Geophysical Journal International 169(3) 1132-1138 Carr MJ, Stoiber RE (1977) Geological setting of some destructive earth-quakes in Central America: Geological Society of America Bulletin, v. 88, p. 151–156. Carr MJ, Saginor I, Alvarado GE, Bolge LL, Lindsay FN, Milidakis K, Turrin BD, Feigenson MD, Swisher CC (2007) Element fluxes from the volcanic front of Nicaragua and Costa Rica, Geochem. Geophys. Geosyst., 8, Q06001, doi:10.1029/2006GC001396. (1999), Caribbean Sea eddies inferred from TOPEX/POSEIDON altimetry and a 1/6° Atlantic Ocean model simulation, J. Geophys. Res., 104(C4), 7743–7752. Cecchi E, van Wyk de Vries B, Lavest JM (2004) Flank spreading and collapse of weak-cored volcanoes BULLETIN OF VOLCANOLOGY 67 (1): 72-91 Chan LH, Leeman WP, You CF (2002) Lithium isotopic composition of Central American volcanic arc lavas: implications for modification of subarc mantle by slab-derived fluids: correction CHEMICAL GEOLOGY 182 (2-4): 293-300 CROSS, TIMOTHY A., PILGER, REX H.(1982 ) Controls of subduction geometry, location of magmatic arcs, and tectonics of arc and back-arc regions Geological Society of America Bulletin 93: 545-562 Cruz Ac, Fomsgaard Is, Lacayo J (1994) Lead, Arsenic, Cadmium And Copper In Lake Asososca, Nicaragua. Science Of The Total Environment 155 (3): 229-236 Darce, M., Levi, B., Nystro¨m, J.O., Troe¨ng, B., (1989) Alteration patterns in volcanic rocks within an east – west traverse through central Nicaragua. Journal of South American Earth Sciences 2, 155– 161. Darce M (1990) Mineralogic alteration patterns in volcanic rocks of the La Libertad gold mining district and its surroundings, Nicaragua. Economic Geology 85:1059-1071 Dengo G (1969) Problems of tectonic relations between Central America and the Caribbean, Trans. Gulf Coast Assoc. geol. Soc., 29, 311-320 Devoli G, Morales A, Høeg K, (2007) Historical landslides in Nicaragua--collection and analysis of data. Landslides, 4(1), 5-18. Devoli G, Strauch W, Chávez G, Høeg K (2007) A landslide database for Nicaragua: a tool for landslide-hazard management. Landslides 4(2) 163-176 (2005), Evidence for static stress changes triggering the 1999 eruption of Cerro Negro Volcano, Nicaragua and regional aftershock sequences, Geophys. Res. Lett., 32, L04309, doi:10.1029/2004GL021788. (2001), A new estimate for present-day Cocos-Caribbean plate motion: Implications for slip along the Central American volcanic arc, Geophys. Res. Lett., 28(21), 4043–4046 (2001), Volcanic gas emission rates measured by solar occultation spectroscopy, Geophys. Res. Lett., 28(16), 3131–3134. Duncan DS, Hine AC, Droxler AW (1999) Tectonic controls on carbonate sequence formation in an active strike-slip setting: Serranilla Basin, Northern Nicaragua Rise, Western Caribbean Sea MARINE GEOLOGY 160 (3-4): 355-382 Ehrenborg (1996) A new stratigraphy for the Tertiary volcanic rocks of Nicaraguan Highlands. Geological Society of America Bulletin 108:830-842 (2005), Oxygen isotope constraints on the sources of Central American arc lavas, Geochem. Geophys. Geosyst., 6, Q07007, doi:10.1029/2004GC000804. Elming SA, Layer P, Ubieta K (2001) A palaeomagnetic study and age determinations of Tertiary rocks in Nicaragua, Central America GEOPHYSICAL JOURNAL INTERNATIONAL 147 (2): 294-309 Elming SA, Rasmussen T (1997) Results of magnetotelluric and gravimetric measurements in western Nicaragua, Central America GEOPHYSICAL JOURNAL INTERNATIONAL 128 (3): 647-658 Espinosa, S., 1996. Probabilistic macroseismic hazard assessment for Nicaragua (preliminary results). Natural Hazards, 13(2): 179-202. http://dx.doi.org/10.1007/BF00138482 Feigenson, Mark D., Carr, Michael J. (1986) Positively correlated Nd and Sr isotope ratios of lavas from the Central American volcanic front Geology 14: 79-82 Feust A (1912) Gold mines of Chontales, Nicaragua. Mining and Scientific Press, Dewey and Co., San Francisco, USA., 12p Ferraro, R. et al. (1999). "Satellite techniques yield insight into devastating rainfall from Hurricane Mitch." EOS Trans. Am. Geophys. Union, 80(43), 505–514. (2005), Nitrogen isotopes of the mantle: Insights from mineral separates, Geophys. Res. Lett., 32, L11305, doi:10.1029/2005GL022792 Freundt A, Kutterolf S, Schmincke HU, Hansteen T, Wehrmann H, Pérez W, Strauch W, Navarro M (2006) Volcanic hazards in Nicaragua: Past, present, and future. Special Paper 412: Volcanic Hazards in Central America 412, 141–165. DOI: 10.1130/2006.2412(08). Freundt A, Kutterolf S, Wehrmann H, Schmincke HU, Strauch W (2006) Eruption of the dacite to andesite zoned Mateare Tephra, and associated tsunamis in Lake Managua, Nicaragua. Journal of Volcanology and Geothermal Research, Volume 149, Issues 1-2, 1 January 2006, 103-123 Freundt A, Strauch W, Kutterolf S, Schmincke HU (2007) Volcanogenic Tsunamis in Lakes: Examples from Nicaragua and General Implications. Pure and applied geophysics 164( 2) 527-545. Fridleifsson IB, Freeston DH (1994) Geothermal-Energy Research-And Development. Geothermics 23 (2): 175-214 Frischbutter, A., 2002. Structure of the Managua graben, Nicaragua, from remote sensing images. Geofísica Internacional, 41(2): 87-102. http://www.igeofcu.unam.mx/divulgacion/geofinter/ Frische M, Garofalo K, Hansteen TH, Borchers R (2006) Fluxes and origin of halogenated organic trace gases from Momotombo volcano (Nicaragua), Geochem. Geophys. Geosyst., 7, Q05020, doi:10.1029/2005GC001162. Garofalo K, Tassi F, Vaselli O, Delgado-Huertas A, Tedesco D, Frische M, Hansteen TH, Poreda RJ, Strauch W (2007) Fumarolic gases at Mombacho volcano (Nicaragua): presence of magmatic gas species and implications for volcanic surveillance. Bulletin of Volcanology, 69 (7 ) 785-795 Guinau, M., Pallàs, R. and Vilaplana, J.M., 2005. A feasible methodology for landslide susceptibility assessment in developing countries: A case-study of NW Nicaragua after Hurricane Mitch. Engineering Geology, 80(3-4): 316-327.doi:10.1016/j.enggeo.2005.07.001(http://dx.doi.org/10.1016/j.enggeo.2005.07.001) Grevemeyer I, Kaul N, Diaz-Naveas JL, Villinger HW, Ranero CR, Reichert C (2005) Heat flow and bending-related faulting at subduction trenches: Case studies offshore of Nicaragua and Central Chile EARTH AND PLANETARY SCIENCE LETTERS 236 (1-2): 238-248 Groppelli G, Tibaldi A (1999) Control of rock rheology on deformation style and slip-rate along the active Pernicana Fault, Mt. Etna, Italy TECTONOPHYSICS 305 (4): 521-537 MAY 15 1999 (1996), Metastable CaCO3 dissolution at intermediate water depths of the Caribbean and western North Atlantic: Implications for intermediate water circulation during the past 200,000 years, Paleoceanography, 11(6), 701–716. Herrstrom, E. A., Reagan, M. K., Morris, J. D. (1995) Variations in lava composition associated with flow of asthenosphere beneath southern Central America Geology 23: 617-620 Hensen, C., Wallmann, K., Schmidt, M., Ranero, C.R., Suess, E.(2004) Fluid expulsion related to mud extrusion off Costa Rica—A window to the subducting slab Geology 2004 32: 201-204 Hill, Brittain E., Connor, Charles B., Jarzemba, Mark S., La Femina, Peter C., Navarro, M., Strauch, W. (1995) eruptions of Cerro Negro volcano, Nicaragua, and risk assessment for future eruptions. Geological Society of America Bulletin 1998 110: 1231-1241 (1999), Stable gas plume composition measured by OP-FTIR spectroscopy at Masaya volcano, Nicaragua, 1998–1999., Geophys. Res. Lett., 26(23), 3497–3500. (1993), Source characteristics of the Nicaraguan tsunami earthquake of September 2, 1992, Geophys. Res. Lett., 20(9), 863–866. (1996), Monte Carlo slip inversion in the frequency domain: Application to the 1992 Nicaragua slow earthquake, Geophys. Res. Lett., 23(9), 913–916. Jarrard, Richard D.(1986 ) Terrane motion by strike-slip faulting of forearc slivers Geology 14: 780-783 Johansson PO, Scharp C, Alveteg T, (1999) Framework for ground water protection - The Managua ground water system as an example GROUND WATER 37 (2): 204-213 Johnson NL, Baltodano ME (2004) The economics of community watershed management: some evidence from Nicaragua ECOLOGICAL ECONOMICS 49 (1): 57-71 (1997), Estimation of seismic moment and slip distribution of the April 1, 1946, Aleutian tsunami earthquake, J. Geophys. Res., 102(B6), 11,765–11,774. Jordan BR, Sigurdsson H, Carey SN, Rogers R, Ehrenborg J (2007) Geochemical variation along and across the Central American Miocene paleoarc in Honduras and Nicaragua. Geochimica et Cosmochimica Acta 71(14) 3581-3591 (1993), W phase, Geophys. Res. Lett., 20(16), 1691–1694. KERLE N, . FROGER J.-L, OPPENHEIMER C.and VAN WYK DE VRIES B. (2003) Remote sensing of the 1998 mudflow at Casita volcano, Nicaragua. INT. J. REMOTE SENSING, VOL. 24, NO. 23, 4791–4816 Kerle N, de Vries BVW (2001) The 1998 debris avalanche at Casita volcano, Nicaragua - investigation of structural deformation as the cause of slope instability using remote sensing JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 105 (1-2): 49-63 JAN 2001 Kutterolf S, Freundt A, Perez W, Wehrmann H, Schmincke HU (2007) Late Pleistocene to Holocene temporal succession and magnitudes of highly-explosive volcanic eruptions in west-central Nicaragua. Journal of Volcanology and Geothermal Research 163(1-4) 55-82. Lacerda, L.D. (2003) Updating global Hg emisions from small-scale gold mining and assessing its environmental impacts. Environmental Geology 43:308-314 Lachniet MS, Patterson WP (2002) Stable isotope values of Costa Rican surface waters JOURNAL OF HYDROLOGY 260 (1-4): 135-150 La Femina PC, Dixon TH and Strauch W (2002) Bookshelf faulting inNicaragua Geology; August v. 30; no. 8; p. 751–754 La Femina PC, Connor CB, Hill BE, Strauch, W.; Saballos, J.A.(2004) Magma-tectonic interactions in Nicaragua: the 1999 seismic swarm and eruption of Cerro Negro volcano JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 137 (1-3): 187-199 Lavell, A. (1994). "Prevention and mitigation of disasters in Central America: Vulnerability to disasters at the local level." Disasters, development, and environment, A. Varley, ed., Wiley, New York, 49–63. (2003), Self-potential, soil CO2 flux, and temperature on Masaya volcano, Nicaragua, Geophys. Res. Lett., 30(15), 1817, doi:10.1029/2003GL017731. Locke C., Rymer H., Cassidy J., (2003) Magma transfer processes at persistently active volcanoes; insights from gravity observations. Journal of Volcanology and Geothermal Research. 127; 1-2, Pages 73-86. MacNeil RE, Sanford WE, Connor CB, Sandberg SK, Diez M (2007) Investigation of the groundwater system at Masaya Caldera, Nicaragua, using transient electromagnetics and numerical simulation. Journal of Volcanology and Geothermal Research 166(3-4) 217-232. Martinez, W (1993) The interrelationships between volcanic and seismic activity to subduction-related tectonics in western Nicaragua. Chishitsugaku Zasshi = Journal of the Geological Society of Japan. 99; 3, Pages 185-194 Martinez, W and Noguera E (1992) Geological framework of earthquakes occurrence in Nicaragua, Central America. Chishitsugaku Zasshi = Journal of the Geological Society of Japan. 98; 2, Pages 165-176 Mather, Tamsin A., Pyle, David M., Allen, Andrew G.(2004) Volcanic source for fixed nitrogen in the early Earth's atmosphere. Geology 2004 32: 905-908 Matumoto T, Gary Latham G (1973) Aftershocks and Intensity of the Managua Earthquake of 23 December 1972 McBirney AR (1968). Second additional theory of origin of fiamme in ignimbrites. Nature (217; 5132, p938. (2002), Walking traverse and scanning DOAS measurements of volcanic gas emission rates, Geophys. Res. Lett., 29(20), 1985, doi:10.1029/2002GL015827. (2004), SO2 depletion in tropospheric volcanic plumes, Geophys. Res. Lett., 31, L13201, doi:10.1029/2004GL019990 (2005), Plume velocity determination for volcanic SO2 flux measurements, Geophys. Res. Lett., 32, L11302, doi:10.1029/2005GL022470. McKnight, Steven B., Williams, Stanley N. (1997) Old cinder cone or young composite volcano?: The nature of Cerro Negro, Nicaragua Geology 1997 25: 339-342 Mendoza JA, Dahlin T, Barmen G, (2005) Hydrogeological and hydrochemical features of an area polluted by heavy metals in central Nicaragua. Hydrogeology Journal, DOI: 10.1007/s10040-005-0462-5. Mendoza JA, Barmen G. (2006) Assessment of groundwater vulnerability in the Río Artiguas basin, Nicaragua. Environmental Geology, DOI 10.1007/s00254-006-0233-1 Menéndez Duarte, R., Marquínez, J. and Devoli, G., 2003. Slope instability in Nicaragua triggered by Hurricane Mitch: distribution of shallow mass movements. Environmental Geology, 44(3): 290-300. http://dx.doi.org/10.1007/s00254-003-0771-8 (1997), Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location, J. Geophys. Res., 102(B10), 22,529–22,546. Middleton, R. S. and Campbell, E. E. (1979) Geophysical and geochemical methods for mapping gold-bearing structures in Nicaragua; In: Geophysics and Geochemistry in the search for Metallic Ores; Hood, P. J. editor; Geological Survey of Canada, Economic Geology Report 31, p 779-798. Monterroso Juárez, D.A. and Kulhánek, O., 2003. Spatial variations of b-values in the subduction zone of Central America. Geofísica Internacional, 42(4): 575-587. http://www.igeofcu.unam.mx/divulgacion/geofinter/ Muñoz A, Baca D, Artiles V, Duarte M and Barboza G (1997) Nicaragua:Petroleum geology of theCaribbean margin. The Leading Edge Volume 16, Issue 12, pp. 1799-1806 Mutti M, Droxler AW, Cunningham AD (2005) Evolution of the Northern Nicaragua Rise during the Oligocene-Miocene: Drowning by environmental factors SEDIMENTARY GEOLOGY 175 (1-4): 237-258 Nezry E, Yakam-Simen F, Romeijn PP, Supit I, and Bally P (2001) Assessment of "Mitch" hurricane damages in Honduras, Nicaragua, and El Salvador using ERS and SPOT images Proc. SPIE Int. Soc. Opt. Eng. 4171, 185 Niccum-M-R; Bice-D-D; Cline-K-M; Cluff-L-S; Schwartz-D-P1974 Active faults in Managua, Nicaragua. Abstracts with Programs - Geological Society of America. 6; 7, Pages 889-890 Novikova T, Wen KL, Huang BS (2002) Analytical model for gravity and Rayleigh-wave investigation in the layered ocean-earth structure BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA 92 (2): 723-738 Opfergelt S, Delmelle P, Boivin P, Delvaux B (2006) The 1998 debris avalanche at Casita volcano, Nicaragua: Investigation of the role of hydrothermal smectite in promoting slope instability, Geophys. Res. Lett., 33, L15305, doi:10.1029/2006GL026661. Oppenheimer C (1997) Remote sensing of the colour and temperature of volcanic lakes INTERNATIONAL JOURNAL OF REMOTE SENSING 18 (1): 5-37 Pallàs, R., Vilaplana, J.M., Guinau, M., Falgàs, E., Alemany, X. and Muñoz, A., 2004. A pragmatic approach to debris flow hazard mapping in areas affected by Hurricane Mitch: example from NW Nicaragua. Engineering Geology, 72(1-2): 57-72. http://dx.doi.org/10.1016/j.enggeo.2003.06.002 Peary The Rio San Juan de Nicaragua.
(1996), The slip distribution of the 1992 Nicaragua earthquake from tsunami run-up data, Geophys. Res. Lett., 23(1), 37–40. Pielke, RA, Rubiera J, Landsea C, Fernández ML, and Klein R (2003) Hurricane Vulnerability in Latin America and The Caribbean: Normalized Damage and Loss Potentials. Natural Hazards Rev., Volume 4, Issue 3, pp. 101-114Polet J, Kanamori H (2000) Shallow subduction zone earthquakes and their tsunamigenic potential GEOPHYSICAL JOURNAL INTERNATIONAL 142 (3): 684-702 Porras EA, Tanaka T, Fujii H, Itoi R (2007) Numerical modeling of the Momotombo geothermal system, Nicaragua. Geothermics 36(4) 304-329 Plank T, Balzer V, Carr M (2002) Nicaraguan volcanoes record paleoceanographic changes accompanying closure of the Panama gateway. Geology 30(12) 1087–1090 Ranero CR, Phipps Morgan J, McIntosh K, Reichert C (2003) Bending-related faulting and mantle serpentinization at the Middle America trench. Nature 425, 367-373 (25 September ) | doi: 10.1038/nature01961 Ranero CR, von Huene R (2000) Subduction erosion along the Middle America convergent margin NATURE 404 (6779): 748-752 (2000), A cross section of the convergent Pacific margin of Nicaragua, Tectonics, 19(2), 335–357. Reynolds, J. H., 1980, Late Tertiary volcanic stratigraphy of northern Central America: Bulletin Volcanologique, v. 43, p. 601–608. Roche O, de Vries BV, Druitt TH (2001) Sub-surface structures and collapse mechanisms of summit pit craters JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 105 (1-2): 1-18 Roggensack K; Hervig RL; McKnight SB; Williams SN (1997) Explosive Basaltic Volcanism from Cerro Negro Volcano: Influence of Volatiles on Eruptive Style. Science Vol 277, 5332, 1639-1642 (1996), Colored lava flows on the Earth: A warning to Io volcanologists, J. Geophys. Res., 101(E11), 26,131–26,136. Roy, RF (1850) Considerations on the Great Isthmus of Central America. Journal of the Royal Geographical Society of London v20 161-189 RussellReview: The Physiography and Geology of the Nicaragua Canal Route. Rüpke, Lars H., Morgan, Jason Phipps,
Hort, Matthias, Connolly, James A.D. (2001), Diffuse emission of carbon dioxide from Cerro Negro volcano, Nicaragua, Central America, Geophys. Res. Lett., 28(22), 4275–4278. (1994), Mechanism of the 1992 Nicaragua tsunami earthquake, Geophys. Res. Lett., 21(23), 2519–2522. (1993), Tsunami field survey of the 1992 Nicaragua earthquake, Eos Trans. AGU, 74(13), 145. Scott KM, Vallance JW, Kerle N, (2005) Catastrophic precipitation-triggered lahar at Casita volcano, Nicaragua: occurrence, bulking and transformation EARTH SURFACE PROCESSES AND LANDFORMS 30 (1): 59-79 Scott W, Gardner C, Devoli G, Alvarez A (2006) The A.D. 1835 eruption of Volcán Cosigüina, Nicaragua: A guide for assessing local volcanic hazards. Special Paper 412: Volcanic Hazards in Central America, 412, 167–187. DOI:10.1130/2006.2412(09) Shaw AM, Hilton DR,
Fischer TP, (2003) Contrasting He-C relationships in Nicaragua and Costa
Rica: insights into C cycling through subduction zones Siebert L, Alvarado GE, Vallance JW, van Wyk de Vries B (2006) Large-volume volcanic edifice failures in Central America and associated hazards. Special Paper 412: Volcanic Hazards in Central America 412, 1–26, DOI: 10.1130/2006.2412(01) (2003), Sources of nitrogen and methane in Central American geothermal settings: Noble gas and 129I evidence for crustal and magmatic volatile components, Geochem. Geophys. Geosyst., 4(1), 9001, doi:10.1029/2002GC000363. Stix J (2007) Stability and instability of quiescently active volcanoes: The case of Masaya, Nicaragua. Geology 35(6) 535–538 DOI: 10.1130/G23198A.1 Stoiber, R.E., and Carr, M.J., 1973, Quaternary volcanic and tectonic segmen-tation of Central America: Bulletin of Volcanology, v. 37, p. 304–325. (1993), Controls and developments of late quaternary periplatform carbonate stratigraphy in Walton Basin (Northeastern Nicaragua Rise, Caribbean Sea), Paleoceanography, 8(2), 243–274 Sundblad, K., Cumming, G.L., Krstic, K., (1991) Lead isotopic evidence for the formation of epithermal gold quartz veins in the Chortis Block, Nicaragua, Econ. Geol., 88, 944-959. Špičák A, Hanuš V, Vaněk J, Běhounková M (2007) Internal tectonic structure of the Central American Wadati-Benioff zone based on analysis of aftershock sequences, J. Geophys. Res., 112, B09304, doi:10.1029/2006JB004318. Thomas RB, Hirschmann MM, Cheng H, et al.
(2002) (Pa-231/U-235)-(Th-230/U-238) of young mafic volcanic rocks from
Nicaragua and Costa Rica and the influence of flux melting on U-series
systematics of arc lavas (2000), Application of Mwp to tsunami earthquake, Geophys. Res. Lett., 27(19), 3105–3108. T (2007) Kinematics of the Nicaraguan forearc from GPS geodesy, Geophys. Res. Lett., 34, L02302, doi:10.1029/2006GL027586. van Wyk de Vries, Benjamin, Kerle, Norman, Petley, Dave (2000) Sector collapse forming at Casita volcano, Nicaragua Geology 2000 28: 167-170 (1994), Imaging a slow bilateral rupture with broadband seismic waves: The September 2, 1992 Nicaraguan tsunami earthquake, Geophys. Res. Lett., 21(24), 2629–2632. (1995), Near-field deformation seen on distant broadband seismograms, Geophys. Res. Lett., 22(1), 1–4. Vilaplana, J.M., Pallàs, R., Guinau, M., Falgàs, E., Alemany, X. and Muñoz, A., 2002. Propuesta para una cartografía de peligrosidad geológica asociada a los movimientos de ladera en el Noroeste de Nicaragua. Serie Geográfica(10): 109-119. http://www.geogra.uah.es/inicio/revista/revistasg10.php (2000), Quaternary convergent margin tectonics of Costa Rica, segmentation of the Cocos Plate, and central American volcanism, Tectonics, 19(2), 314–334. von Huene R, G. Alvarado, K. Brown, R. Harris, M. Kinoshita, K. Suyehiro, K. McIntosh, J. Morgan, J. Morris, M. Protti, C. Ranero, D. Scholl, S. Schwartz (2003) Discussions of ODP Leg 205 and Drilling of Middle America Seismogenic Zone. EOS (??) (1989), Caribbean arc tholeiites, J. Geophys. Res., 94(B8), 10,539–10,548. Walker, JA, CARR, MJ.(1986) Compositional variations caused by phenocryst sorting at Cerro Negro volcano, Nicaragua Geological Society of America Bulletin 97: 1156-1162 Walker JA, Mickelson JE, Thomas RB, Patino LC, Cameron B, Carr MJ, Feigenson MD, Edwards RL (2007), U-series disequilibria in Guatemalan lavas, crustal contamination, and implications for magma genesis along the Central American subduction zone, J. Geophys. Res., 112, B06205, doi:10.1029/2006JB004589. Walther CHE,
Flueh ER, Ranero CR, (2000) Crustal structure across the Pacific margin of
Nicaragua: evidence for ophiolitic basement and a shallow mantle
sliver GEOPHYSICAL JOURNAL INTERNATIONAL 141 (3): 759-777
Ward, P. L., J. Gibbs, D. Harlow W and A. Aburto Q., (1974) Aftershocks
of the Managua, Nicaragua, Earth-quake and the tectonic significance of the
Tiscapa fault. Bull. Seis. Soc. Amer., 64, 1017-1029; Berkeley. (2003), Volcanic Gas Workshop Features State-of-the-Art Measurement Techniques, Eos Trans. AGU, 84(47), 519. Wehrmann H, Bonadonna C, Freundt A, Houghton BF, Kutterolf S (2006) Fontana Tephra: A basaltic Plinian eruption in Nicaragua. Special Paper 412: Volcanic Hazards in Central America 412, 209–223. DOI: 10.1130/2006.2412(11) Weinberg, R.F., 1992, Neotectonic development of western Nicaragua: Tectonics, v. 11, p. 1010–1017. Yamaguchi H, Futamura H, Nakayama M (2004) Issues concerning a diagnostic study of an action plan for the San Juan river basin HYDROLOGICAL PROCESSES 18 (16): 2977-2989 (2004), Nitrogen systematics and gas fluxes of subduction zones: Insights from Costa Rica arc volatiles, Geochem. Geophys. Geosyst., 5, Q05J11, doi:10.1029/2003GC000651. |
Investigadores nicaragüenses han participado como autores o co-autores sólo en 15% de estas publicaciones!! |
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Programas recomendados Los comentarios están dirigidos a estudiantes, docentes e instituciones educativas con recursos limitados, las categorías son precio medio (>$100), precio alto (>$400), precio muy alto (>$600) para licencia individual o educativa. Mas impuestos. ArcGIS-ArcView -para SIG vectorial y al agregar una o varias herramientas se puede trabajar con imágenes y matrices. Muy alto precio. Las instituciones e individuos de países pobres no deberían invertir en herramientas tan caras, con bajo índice costo-beneficio. GMT -para SIG vectorial y matricial. Gratuito. Las herramientas son compiladas en UNIX y pueden ser usadas en PC si Linux esta instalado. GPSU -GPS Utility es una amigable aplicación que provee las herramientas para manejar la información de un GPS. Con ella se pueden transferir datos desde/hacia un receptor GPS y almacenarlos en un PC en muchos formatos distintos.Gratuito Limitado Ilwis -para SIG raster y vectorial. Buena relación costo -beneficio. Muchas instituciones de países no-ricos están adoptándo este programa. Incluye tratamiento de imágenes. Precio medio. MapInfo - para SIG vectorial. Recomendado para instituciones. Precio alto. Matlab -Lenguaje. Series de datos, modelos matemáticos, funciones. Recomendado para instituciones. Precio alto. RockWorks -"La" herramineta para geocientistas. Tiene una amplia variedad de recursos, que incluye desde coversion de coordenadas y tabla geocronológica hasta modelamiento geoquímico. Por supuesto, los datos no vienen incluidos ;-) Precio alto. Surfer/ Grapher -procesar datos geofísicos, series de datos. Precio alto. Vertical Mapper -para SIG raster, trabajo con matrices. Precio medio. WinSlib - herramienta de geoestadística.Precio medio. |