Abstract
Observations of eroded volcanic rift zones indicate that dikes in Iceland are typically several times thicker than those in Hawaii. Geodetic and seismic observations of active rifts, however, suggest that dike heights in the two regions are similar. Provided the elastic properties of the rift zones are the same, this implies that dikes are intruded with higher driving pressures (magma pressure minus compressive stress perpendicular to the dike plane) in Iceland than Hawaii. A second major difference between the two regions is the greater prevalence of large normal fault scarps in rift zones in Iceland. From this it can be infered that a lower percentage of dikes breach the surface in Iceland than in Hawaii. Thus, although dikes in Iceland are intruded with higher driving pressures, they possess lower absolute magma pressures than in Hawaii. These differences can be interpreted in terms of the tectonic settings in the two regions. In Iceland, a steady remote extension reduces the horizontal stress perpendicular to the rift zone, allowing dikes to be intruded with low absolute pressures but high driving pressures when magma becomes available. In Hawaii, a more continuous magma supply on the timescale over which the dike-induced stresses are relaxed, and perhaps a greater role for intrusions in driving long-term rift extension, ensure that the rift-compressive stress is not relaxed significantly before the next dike is intruded. Thus the magma pressure must be nearly sufficient for eruption in order for intrusion to occur. If the mechanism for relaxing the rift-compressive stress were less efficient still, then an even higher percentage of dikes would erupt, and at times the rift zone trend could become an unfavorable orientation for dike intrusion. Such might be the case at Mauna Loa, which lacks large rift-zone faults and fissures and possesses numerous radial vents outside its two main rift zones.
This is a preview of subscription content, log in via an institution to check access.
References
Ando M (1979) The Hawaii earthquake of November 29, 1975: low-dip-angle faulting due to forceful injection of magma. J Geophys Res 84:7616–7626
Atkinson BK, Meredith PG (1987) Experimental fracture mechanics data for rocks and minerals. In: Atkinson BK (ed) Fracture mechanics of rock. Academic Press, London, pp 1–534
Beblo M, Bjornsson A, Arnason K, Stein B, Wolfgram P (1983) Electrical conductivity beneath Iceland — Constraints imposed by magnetotelluric results on temperature, partial melt, crust and mantle structure. J Geophys 53:16–23
Becker K, Von Herzen RP, Francis TJG, Anderson RN, Honnorez J, Adamson AC, Alt JC, Emmermenn R, Kempton PD, Kinoshita H, Laverne C, Mottl MJ, Newmark RL (1982) In situ electrical resistivity and bulk porosity of the oceanic crust Costa Rica Rift. Nature 300:594–598
Bieniawski ZT (1978) Determining rock mass deformability: Experience from case histories. Int J Rock Mech Min Sci Geomech Abstr 15:237–247
Birch F (1966) Compressibility; elastic constants. Handbook of physical constants. GSA Memoir 97:97–173
Bjornsson A (1985) Dynamics of crustal rifting in Iceland. J Geophys Res 90:10 151–10 162
Bjornsson A, Johnsen G, Sigurdsson S, Thorbergsson G, Tryggvason E (1979) Rifting of the plate boundary in north Iceland 1975–1978. J Geophys Res 84:3029–3038
Brandsdotir B, Einarsson P (1979) Seismic activity associated with the September 1977 deflation of Krafla volcano in north-eastern Iceland. J Volcanol Geotherm Res 6:197–212
Byerlee JD (1978) Friction of rocks. Pageoph 116:615–626
Caristan Y (1982) The transition from high temperature creep to fracture in Maryland Diabase. J Geophys Res 87:6781–6790
Crosson RS, Endo ET (1982) Focal mechanisms and locations of earthquakes in the vicinity of the 1975 Kalapana earthquake aftershock zone 1970–1979: Implications for tectonics of the south flank of Kilauea Volcano, island of Hawaii. Tectonics 1:495–542
Davis PM (1976) The computed piezomagnetic anomaly field for Kilauea Volcano, Hawaii. Geomag Geoelec 28:113–122
DeGraff JM (1987) Mechanics of columnar joint formation in igneous rocks PhD thesis, Purdue University, West Lafayette, Indiana, pp 1–221
Delaney PT (1988) Steady widespread deformation of Kilauea Volcano. EOS Am Geophys Union Trans 69:1433
Dieterich JH (1988) Growth and persistence of Hawaiian volcanic rift zones. J Geophys Res 93:4258–4270
Dvorak J, Okamura A (1987) Geometry of intrusions and eruptive fissures at Kilauea Volcano determined from trilateration measurements. Abstr vol, Hawaii Symposium on How Volcanoes Work, Hilo, Hawaii, p 58
Dvorak J, Okamura AT, English TT, Koyanagi RY, Nakata JS, Sako MK, Tanigawa WT, Yamashita KM (1985) Mechanical response of the south flank of Kilauea Volcano, Hawaii, to intrusive events along the rift zones. Tectonophysics 124:241–269
Dzurisin D (1980) Influence of fortnightly earth tides at Kilauea Volcano, Hawaii. Geophys Res Lett 7:925–928
Dzurisin D, Koyanagi RY, English TT (1984) Magma supply and storage at Kilauea Volcano, Hawaii, 1956–1983. J Volcanol Geotherm Res 21:177–206
Einarsson P, Bjornsson S (1979) Earthquakes in Iceland. Jokull 29:37–43
Einarsson P, Brandsdottir B (1980) Seismological evidence for lateral magma intrusion during the July 1978 deflation of the Krafla volcano in NE-Iceland. J Geophys 47:160–165
Fiske RS, Jackson DE (1972) Orientation and growth of Hawaiian volcanic rifts: the effect of regional structure and gravitational stresses. Proc R Soc London A 329:299–326
Foulger GR (1988) Hengill triple junction, SW Iceland: 1. Tectonic structure and the spatial and temporal distribution of local earthquakes. J Geophys Res 93:13 493–13 506
Fridleifsson IB (1979) Geothermal activity in Iceland. Jokull 29:47–56
Gilbert GK (1880) Report on the geology of the Henry Mountains, 2nd edn. Government Printing Office, Washington DC, pp 1–170
Goetz C, Evans B (1979) Stress and temperature in the bending lithosphere as constrained by experimental rock mechanics. Geophys J R Soc London 59:463–478
Gudmundsson A (1980) The Vogar fissure swarm, Reykjanes Peninsula, SW-Iceland. Jokull 30:43–63
Gudmundsson A (1983) Form and dimensions of dykes in eastern Iceland. Tectonophysics 95:295–307
Gudmundsson A (1984) Tectonic aspects of dykes in north-western Iceland. Jokull 34:81–96
Hill DP, Zucca JJ (1987) Geophysical constraints on the structure of Kilauea and Mauna Loa volcanic rift systems. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:903–918
Holcomb RT (1987) Eruptive history and long-term behavior of Kilauea Volcano. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:261–350
Jackson ED, Shaw HR, Bargar KE (1975) Calculated geochronology and stress field orientations along the Hawaiian Chain. Earth Planet Sci Lett 26:145–155
Jaeger JC, Cook NGW (1979) Fundamentals of Rock Mechanics, 3rd ed. New York, Chapman and Hall, pp 1–593
Karson JA, Thompson G, Humphris SE, Edmond JM, Bryan WB, Brown JR, Winters AT, Pockalny RA, Casey JF, Campbell AC, Klinkhammer G, Palmer MR, Kinzler RJ, Sulanowska MM (1987) Along-axis variations in seafloor spreading in the MARK area. Nature 328:681–685
Karpin TL, Thurber CH (1987) The relationship between earthquake swarms and magma transport: Kilauea Volcano, Hawaii. Pageoph 125:971–991
Kirby SH (1983) Rheology of the lithosphere. Rev Geophys Space Phys 21:1458–1487
Klein FW (1981) A linear crustal gradient model for south Hawaii. Bull Seism Soc Am 71:1503–1510
Klein FW (1987) Earthquakes near Kilauea's vertical magma conduit between 7 and 36 km depth. Abstract volume, Hawaii Symposium on How Volcanoes Work. Hilo, Hawaii, p 58
Klein FW, Koyanagi RY, Nakata JS, Tanigawa WR (1987) The seismicity of Kilauea's magma system. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:1019–1186
Knight MD, Walker GPL (1988) Magma flow directions in dikes of the Koolau Complex, Oahu, determined from magnetic fabric studies. J Geophys Res 93:4301–4320
Langenheim VAM, Clague DA (1987) The Hawaiian-Emperor Volcanic Chain Part II: Stratigraphic framework of volcanic rocks of the Hawaiian Islands. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:55–84
Lawn BR, Wilshaw TR (1975) Fracture of brittle solids. Cambridge, Cambridge University Press, pp 1–204
Lipman PW (1980) The southwest rift zone of Mauna Loa: Implications for structural evolution of Hawaiian volcanoes. Am J Sci 280-A:752–776
Lockwood JP, Lipman PW (1987) Holocene eruptive history of Mauna Loa Volcano. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:509–535
Macdonald KC (1982) Mid-ocean ridges: Fine-scale tectonic, volcanic, and hydrothermal processes within the plate boundary zone. Ann Rev Earth Planet Sci 10:155–190
Marquart G, Jacoby W (1985) On the mechanism of magma injection and plate divergence during the Krafla rifting episode in northeast Iceland. J Geophys Res 90:10 178–10 192
Marsh BD (1982) On the mechanics of igneous diapirism, stoping, and zone melting. Am J Sci 282:808–855
McTigue DF, Mei CC (1981) Gravity-induced stresses near topography of small slope. J Geophys Res 86:9268–9278
Palmason G (1971) Crustal Structure of Iceland from explosion seismology. Reykjavik, Soc Sci Islandica, pp 1–187
Palmason G, Saemundsson K (1974) Iceland in relation to the Mid-Atlantic Ridge. Ann Rev Earth Planet Sci 2:25–50
Paris PC, Sih GC (1965) Stress analysis of cracks. In: ASTM Spec Tech Pub 381. Philadelphia, ASTM, pp 30–81
Pollard DD, Delaney PT, Duffield WA, Endo ET, Okamura AT (1983) Surface deformation in volcanic rift zones. Tectonophysics 94:541–584
Rubin AM, Pollard DD (1987) Origins of blade-like dikes in volcanic rifts zones. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:1449–1470
Rubin AM, Pollard DD (1988) Dike-induced faulting in rift zones of Iceland and Afar. Geology 16:143–147
Ryan MP (1987a) Elasticity and contractancy of Hawaiian olivine tholeite and its role in the stability and structural evolution of subcaldera magma reservoirs and rift systems. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:1395–1447
Ryan MP (1987b) Neutral buoyancy and the mechanical evolution of magmatic systems, In: Mysen BO (ed) Magmatic processes: physicochemical principles. The Geochemical Society, University Park, Pa, pp 259–288
Ryan MP (1988) The mechanics and three-dimensional internal structure of active magmatic systems: Kilauea Volcano, Hawaii. J Geophys Res 93:4213–4248
Ryan MP, Blevins JYK, Okamura AT, Koyanagi RY (1983) Magma reservoir subsidence mechanics: Theoretical summary and application to Kilauea volvano, Hawaii. J Geophys Res 88:4147–4181
Saemundsson K (1979) Outline of the geology of Iceland. Jokull 29:7–28
Sigurdsson H, Sparks SRJ (1978) Lateral magma flow within rifted Icelandic crust. Nature 274:126–130
Speight JM, Skelhorn RR, Sloan T, Knapp RJ (1982) The dyke swarms of Scotland. In: Sutherland DS (ed) Igneous rocks of the British Isles. Wiley, New York, pp 449–459
Spudich P, Orcutt J (1980) Petrology and porosity of an oceanic crustal site: Results from wave form modeling of seismic refraction data. J Geophys Res 85:1409–1433
Stearns HT (1947) Geology and ground-water resources of the island of Niihau, Hawaii. Territory of Hawaii Division of Hydrography Bull 12:1–53
Stearns HT (1985) Geology of the State of Hawaii, 2nd ed. Palo Alto, Pacific Books, pp 1–335
Stearns HT, Macdonald GA (1946) Geology and ground-water resources of the island of Hawaii. Territory of Hawaii Division of Hydrography Bull 9:1–363
Swanson DA, Duffield WA, Fiske RS (1976) Displacement of the south flank of Kilauea Volcano: The result of forceful intrusion of magma into rift zones. US Geol Surv Prof Pap 963:1–39
Thurber CH, Gripp AE (1988) Flexure and seismicity beneath the south flank of Kilauea Volcano and tectonic implications. J Geophys Res 93:4271–4278
Tryggvason E (1974) Vertical crustal movement in Iceland. In: Kristjansson L (ed) Geodynamics of Iceland and the North Atlantic Area. Reidel, Dordrecht, pp 241–262
Tryggvason E (1981) Vertical component of ground deformation in southwest- and north-Iceland: Results of levelings in 1976 and 1980. Nordic Volcanological Institute Report 8102. Reykjavik, University of Iceland, pp 1–26
Tryggvason E (1984) The widening of the Krafla fissure swarm during the 1975–1981 volcanotectonic episode. Bull Volcanol 47:47–69
Walker GPL (1959) Geology of the Reydarfjordur area, eastern Iceland. Quarter J Geol Soc London 114:367–393
Walker GPL (1960) Zeolite zones and dike distribution in relation to the structure of the basalts of eastern Iceland. J Geol 68:515–527
Walker GPL (1987) The dike complex of Koolau Volcano, Oahu: Internal structure of a Hawaiian rift zone. In: Decker RW, Wright TL, Stauffer PH (eds) Volcanism in Hawaii. US Geol Surv Prof Pap 1350:961–993
Walsh JB (1965) The effect of cracks in rocks on Poisson's ratio. J Geophys Res 70:5249–5257
Weertman J (1971) Theory of water-filled crevasses in glaciers applied to vertical magma transport beneath ocean ridges. J Geophys Res 76:1171–1183
Wendt K, Moller D, Ritter B (1985) Geodetic measurements of surface deformations during the present rifting episode in NE Iceland. J Geophys Res 90:10 163–10 172
Whitmarsh RB (1978) Seismic refraction studies of the upper igneous crust in the North Atlantic and porosity estimates for layer 2. Earth Planet Sci Lett 37:451–464
Zoback MD, Healy JH (1984) Friction, faulting, and in situ stress. Ann Geophys 2:689–698
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Rubin, A.M. A comparison of rift-zone tectonics in Iceland and Hawaii. Bull Volcanol 52, 302–319 (1990). https://doi.org/10.1007/BF00304101
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00304101