Abstract
One-atmosphere melting experiments are used to assess the role of clinopyroxene in producing the compositional variations observed in mid-ocean-ridge basalts (MORBs) from the North Atlantic. Analog models of natural glasses and associated phenocrysts show that several possible parental magmas may undergo low pressure fractional crystallization involving olivine and spinel, followed by plagioclase, and then by augite. The phenocryst phase assemblages in natural deep-sea basalts are closely correlated with the major element compositions of their associated quenched glasses, and the projections of these glasses on the Oliv-Cpx-Qtz pseudoternary correspond to the 1-atmosphere phase boundaries and reaction points defined by laboratory experiments. Comparison of natural phenocryst's with experimental phases indicates that the augites preserved in moderately fractionated MORB from the FAMOUS area may have formed at or near the ocean floor and need not be relics of high pressure processes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Albee AL, Ray L (1970) Correction factors for electron microprobe microanalysis of silicates, oxides, carbonates, phosphates and sulfates. Anal Chem 42:1408–1414
Bence AE, Albee AL (1968) Empirical correction factors for the electron microanalysis of silicates and oxides. J Geol 76:382–403
Bender JF, Hodges FN, Bence AE (1978) Petrogenesis of basalts from the project FAMOUS area: Experimental study from 0 to 15 kbars. Earth Planet Sci Lett 41:277–302
Biggar GM (1972) Diopside, lithium metasilicate and the 1968 temperature scale. Mineral Mag 38:768–770
Bougault H, Hekinian R (1974) Rift valley in the Atlantic ocean near 36° 50′ N: petrology and geochemistry and basaltic rocks. Earth Planet Sci Lett 24:249–261
Bryan WB (1979) Regional variations and petrogenesis of basalt glasses from the FAMOUS area, Mid-Atlantic Ridge. J Petrol 20:293–325
Bryan WB (1983) Systematics of modal phenocryst assemblages in submarine basalts: Petrologic implications. Contrib Mineral Petrol 83:62–74
Bryan WB, Moore JG (1977) Compositional variations of young basalts in the mid-Atlantic Ridge rift valley near lat 36° 49′ N. Geol Soc Am Bull 88:556–570
Bryan WB, Finger LW, Chayes F (1969) Estimating proportions in petrographic mixing equations by least squares approximation. Science 163:926–927
Bryan WB, Thompson G, Frey FA, Dickey JS (1976) Inferred geologic settings and differentiation in basalts from the Deep Sea Drilling Project. J Geophys Res 81:4285–4304
Bryan WB, Thompson G, Ludden JN (1981) Compositional variation in normal MORB from 22°–25° N: Mid-Atlantic Ridge and Kane Fracture Zone. J Geophys Res 86:11815–11836
Bryan WB, Thompson G, Michael PJ (1979) Compositional variation in a steady-state zoned magma chamber: Mid-Atlantic ridge at 36° 50′ N. Tectonophys 55:63–85
Clague DA, Bunch TE (1976) Formation of ferrobasalt at East Pacific mid-ocean spreading centers. J Geophys Res 81:4247–4256
Dick HJB, Fisher RL (1983) Mineralogy and Petrology of Abyssal Peridotites. Geol Soc Am Bull (submitted)
Dungan MA, Rhodes JM (1978) Residual glasses and melt inclusions in basalts from DSDP legs 45 and 46: Evidence for magma mixing. Contrib Mineral Petrol 67:417–431
Fisk MR, Schilling J-G, Sigurdsson H (1980) An experimental investigation of Iceland and Reykjanes ridge tholeiites: I. Phase relations. Contrib Mineral Petrol 74:361–374
Frey FA, Bryan WB, Thompson G (1974) Atlantic Ocean floor: geochemistry and petrology of basalts from legs 2 and 3 of the Deep Sea Drilling Project. J Geophys Res 79:5507–5527
Grove TL (1981) Use of FePt alloys to eliminate the iron loss problem in 1-atmosphere gas mixing experiments: Theoretical and practical considerations. Contrib Mineral Petrol 78:298–304
Grove TL, Bence AE (1979) Crystallization kinetics in a multiply saturated basalt magma: An experimental study of Luna 24 ferrobasalt. Proc Lunar Planet Sci Conf 10th pp 439–478
Grove TL, Lindsley DH (1979) The partitioning of Fe, Mg and Ca between pigeonite and liquid in lunar basalts (abstract). Lunar and Planetary Science X p 473–475, The Lunar and Planetary Institute, Houston
Grove TL, Gerlach DC, Sando TW (1982) Origin of calc-alkaline series lavas at Medicine Lake volcano by fractionation, assimilation and mixing. Contrib Mineral Petrol 80:160–182
Grove TL, Gerlach DC, Sando TW, Baker MB (1983) Origin of calc-alkaline series lavas at Medicine Lake volcano by fractionation, assimilation and mixing: corrections and clarifications. Contrib Mineral Petrol 82:407–408
Hekinian R, Moore JG, Bryan WB (1976) Volcanic rocks and processes of the Mid-Atlantic ridge rift valley near 36° 49′ N. Contrib Mineral Petrol 58:83–110
Hodges FN, Papike JJ (1976) DSDP Site 334: Magmatic cumulates from Oceanic Layer 3. J Geophys Res 81:4135–4151
Langmuir CH, Bender JF, Bence AE, Hanson GN, Taylor SR (1977) Petrogenesis of basalts from the FAMOUS area: Mid-Atlantic ridge. Earth Planet Sci Lett 36:133–156
LeRoex AP, Erlank AJ, Needham HD (1981) Geochemical and mineralogical evidence for the occurrence of at least three distinct magma types in the FAMOUS region. Contrib Mineral Petrol 77:24–37
Melson WG, Thompson G, van Andel TjH (1968) Volcanism and metamorphism in the Mid-Atlantic Ridge, 22° N latitude. J Geophys Res 73:5925–5941
Miyashiro A, Shido F, Ewing M (1969) Diversity and origin of abyssal tholeiite from the Mid-Atlantic Ridge near 24° and 30° North latitude. Contrib Mineral Petrol 23:38–52
Muir ID, Tilley CE (1964) Basalts from the northern part of the rift zone of the Mid-Atlantic Ridge. J Petrol 5:409–434
O'Donnell TH, Presnall DC (1980) Chemical variations of the glass and mineral phases in basalts dredged from 25°–30° N along the Mid-Atlantic Ridge. Am J Sci 280A: 845–868
O'Hara MJ (1976) Prcentage of crystallinity and calculated liquid composition in experimental samples. In MacKenzie WS ed Progress in Experimental Petrology, 1972–1975. Nat Env Res Council Pub 6:194–195
O'Hara MJ (1977) Geochemical evolution during fractional crystallization of a periodically refilled magma chamber. Nature 226:503–507
Presnall DC, Hoover JD (1981) Analytical uncertainties and the problem of picritic versus tholeiitic primary magmas at midocean ridges (abstract). Geol Soc Am Abstr with Prog 13:533
Schilling JG, Zajac M, Evans R, Johnston T, White W, Devine JD, Kingsley R (1983) Petrologic and geochemical variations along the Mid-Atlantic Ridge from 29° N to 73° N. Am J Sci 283:510–586
Schweitzer EL, Papike JJ, Bence AE (1979) Statistical analysis of clinopyroxenes from deep-sea basalts. Am Mineral 64:501–513
Shibata T, Thompson G, Frey FA (1979) Tholeiitic and alkali basalts from the Mid-Atlantic Ridge at 43° N. Contrib Mineral Petrol 70:127–141
Shido F, Miyashiro A, Ewing M (1971) Crystallization of abyssal tholeiites. Contrib Mineral Petrol 31:251–266
Sigurdsson H (1981) First-order major element variation in basalt glasses from the Mid-Atlantic Ridge: 29° N to 73° N. J Geophys Res 86:9483–9502
Staudigel H, Bryan WB (1981) Contrasted glass-whole rock compositions and phenocryst re-distribution, IPOD sites 417 and 418. Contrib Mineral Petrol 78:255–262
Stolper E (1980) A phase diagram for mid-ocean ridge basalts: preliminary results and implications for petrogenesis. Contrib Mineral Petrol 74:13–27
Stolper E, Walker D (1980) Melt density and the average composition of basalt. Contrib Mineral Petrol 74:7–12
Thompson G, Bryan WB, Melson WG (1980) Geological and geophysical investigations of the Mid-Cayman rise spreading center: geochemical variation and petrogenesis of basalt glasses. J Geol 88:41–55
Walker D, Shibata T, DeLong SE (1979) Abyssal tholeiites from the Oceanographer Fracture Zone II, Phase equilibria and mixing. Contrib Mineral Petrol 70:111–125
Author information
Authors and Affiliations
Additional information
Woods Hole Oceanographic Institution contribution no. 5491
Rights and permissions
About this article
Cite this article
Grove, T.L., Bryan, W.B. Fractionation of pyroxene-phyric MORB at low pressure: An experimental study. Contr. Mineral. and Petrol. 84, 293–309 (1983). https://doi.org/10.1007/BF01160283
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01160283