Abstract
Syenites are important or predominant components of several plutonic complexes, emplaced between 456 and 415 Ma along the NW margin of the Caledonian orogenic belt, adjacent to the Lewisian foreland, in W and NW Scotland. Although there are, in detail, chemical differences between the syenites from each centre, they form a well-defined compositional group overall. Ratios amongst their trace elements (especially very high values of La/Nb) are quite different from those trachytes and syenites formed by fractional crystallisation of ocean-island basalts and their continental equivalents, emplaced in regions of anorogenic crustal tension. Instead, the Scottish Caledonian syenites closely resemble chemically the fractional-crystallisation residua of potassic subduction-related magmas, such as the shoshonitic series. A comendite minor intrusion from a swarm associated with the Loch Borralan and Loch Ailsh syenitic complexes is remarkably similar in composition to Recent obsidian from the shoshonitic volcano of Lipari, in the Aeolian Arc. Published Sr- and Pb-isotopic ratios preclude a significant component of either upper (Proterozoic Moine schists) or lower crust (granulite-facies Archaean Lewisian or Proterozoic Grenvillian gneisses) in all these syenites, except in local syenitic facies of the Glenelg-Ratagain complex. Fractional crystallisation appears to be the mechanism by which the liquids which formed these syenites evolved from basic parental magmas. The phases involved in this process may have included plagioclase, alkali feldspar, pyroxene, amphibole, biotite, garnet, Fe-Ti oxide, sphene, allanite, apatite, zircon and zirconolite, and therefore all the ratios amongst even the so-called incompatible elements may have changed during the evolution of the leucocratic magmas. Nevertheless, a detailed study of the Glen Dessarry complex shows that the changes are insufficient to disguise the geochemical nature of the parental magmas. These appear to be picritic shoshonite (MgO> 15%, Ni>400ppm, La/Yb∼20, La/Nb>5) for the Glen Dessarry, Loch Borralan and Loch Ailsh syenites, and picritic ultrapotassic magmas (MgO>15%, Ni>400 ppm, La/ Yb∼60, La/Nb>7) — such as would crystallise to minettes — for the Loch Loyal and Glenelg-Ratagain syenites. Mafic shoshonites were erupted amongst the 410 Ma Lome lavas of this region and also occur as widespread approximately-contemporaneous volcanic feeder plugs. Minettes of similar age are also common as dykes in NW Scotland. Numerous large tonalite-granite complexes, with minor diorites and gabbros, were emplaced in W and NW Scotland between 435 and 400 Ma. These are generally acknowledged to be mixtures of magmas from crustal and mantle sources. Their more mafic members show compositional features, such as very high Ba and Sr, which group them with the rare syenites and the Lorne lavas of the same region into a distinctive geochemical province, within which shoshonitic and allied magmas were the mantle-derived component. Two models are presented to account for the generation of strongly-potassic, subduction-related magmas several hundred km behind a NW-directed subduction zone, or during the period immediately following continental collision.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Allan JF, Carmichael ISE (1984) Lamprophyric lavas in the Colima graben, SW Mexico, Contrib Mineral Petrol 88:203–216
Allègre CJ, Turcotte DL (1985) Geodynamic mixing in the mesosphere boundary layer and the origin of ocean islands. Geophys Res Lett 12:207–210
Anderson DL, Bass JD (1986) Transition region of the Earth's upper mantle. Nature 320:321–328
Anderson DL, Dziewonski AM (1984) Seismic tomography. Sci Am 251:58–66
Barberi F, Innocenti F, Ferrara G, Keller J, Villari L (1974) Evolution of Eolian Arc volcanism (Southern Tyrrhenian Sea). Earth Planet Sci Lett 21:269–276
Barberi F, Santacroce R, Ferrara G, Treuil M, Varet J (1975) A transitional basalt-pantellerite sequence of fractional crystallisation, the Boina centre (Afar Rift, Ethiopia). J Petrol 16:22–56
Beccaluva L, Rossi PL, Serri G (1982) Neogene to recent volcanism of the Southern Tyrrhenian — Sicilian area: implications for the geodynamic evolution of the Calabrian arc. Earth Evoln Sci 3:222–238
Beccaluva L, Gabbianelli G, Lucchini F, Rossi PL, Savelli C (1985) Petrology and K/Ar ages of volcanics dredged from the Eolian seamounts: implications for the geodynamic evolution of the southern Tyrrhenian basin. Earth Planet Sci Lett 74:187–208
Civetta L, Cornette Y, Crisci G, Gillet PY, Orsi G, Requejo CS (1984) Geology, geochronology and chemical evolution of the island of Pantelleria. Geol Mag 121:541–562
Clayburn JAP, Harmon RS, Pankhurst RJ, Brown JF (1983) Sr, O and Pb isotope evidence for origin and evolution of Etive Igneous Complex, Scotland. Nature 303:492–497
Cox KG (1983) The Karoo Province of Southern Africa: origin of trace element enrichment patterns. In: Hawkesworth CJ, Norry MJ (eds) Continental Basalts and Mantle Xenoliths. Shiva Publishing, Nantwich, pp 139–157
Creager KC, Jordan TH (1984) Slab penetration into the lower mantle. J Geophys Res 89:3031–3049
Dewey JF, Shackleton RM (1984) A model for the evolution of the Grampian tract in the early Caledonides and Appalachians. Nature 312:115–121
Dupuy C, Dostal J, Marcelot G, Bougault H, Joron JL, Treuil M (1982) Geochemistry of basalts from central and southern New Hebrides arc: implications for their source rock composition. Earth Planet Sci Lett 60:207–225
Ewart A (1982) The mineralogy and petrology of Tertiary-Recent orogenic volcanic rocks: with special reference to the andesiticbasaltic compositional range. In: Thorpe RS (ed) Andesites. Wiley, New York, 25–95
Foden JD, Varne R (1980) The petrology and tectonic setting of Quaternary-Recent volcanic centres of Lombok and Sumbawa, Sunda Arc. Chem Geol 30:201–226
Fowler MB (1985) A geological and mineralogical investigation of the mobility of uranium and other lithophile elements during high-grade metamorphism. University of London, PhD thesis, pp 1–327
Fowler MB, Williams CT (1986) Zirconolite from the Glen Dessarry Syenite; a comparison with other Scottish zirconolites. Mineral Mag 50:326–328
Giardini D, Woodhouse JH (1984) Deep seismicity and modes of deformation in Tonga subduction zone. Nature 307:505–509
Gromet LP, Silver LT (1983) Rare earth element distributions among minerals in a granodiorite and their petrogenetic implications. Geochim Cosmochim Acta 47:425–439
Halliday AN (1984) Coupled Sm-Nd and U-Pb systematics in late Caledonian granites and the basement under northern Britain. Nature 307:229–233
Halliday AN, Stephens WE (1984) Crustal controls on the genesis of the 400 Ma old Caledonian granites. Phys Earth Planet Inter 35:89–104
Halliday AN, Dickin AP, Fallick AE, Stephens WE, Hutton DHW, Yardley BWD, Harmon RS (1984) Open mantle and crust systems during ascent and emplacement of Late Caledonian alkali-rich magmas: a detailed multidisciplinary study of the Ratagain Complex, NW Scotland. Proc Symp Open Magmatic Systems, Taos, NM, pp 175–176
Harmon RS, Halliday AN, Clayburn JAP, Stephens WE (1984) Chemical and isotopic systematics of the Caledonian intrusions of Scotland and Northern England: a guide to magma source region and magma-crust interaction. Philos Trans R Soc London A 310:709–742
Henderson P (1982) Inorganic geochemistry. Pergamon, Oxford
Hildreth W (1979) The Bishop Tuff: evidence for the origin of compositional zonation in silicic magma chambers. Geol Soc Am Spec Pap 180:43–75
Izett GA (1981) Volcanic ash beds: recorders of Upper Cenozoic silicic pyroclastic volcanism in the Western United States. J Geophys Res 86:10200–10222
Leat PT, Thompson RN, Morrison MA, Hendry GL, Trayhorn SC (1986) Geodynamic significance of post-Variscan intrusive and extrusive potassic magmatism in SW England. Trans R Soc Edinburgh Earth Sci (in press)
Leggett JK, McKerrow WS, Soper NJ (1983) A model for the crustal evolution of Southern Scotland. Tectonics 2:187–210
Lipman PW (1980) Cenozoic volcanism in the western United States: implications for continental tectonics. In: Nat Res Council (US) Geophys Study Comm: Continental Tectonics. National Academy Press, Washington, DC, pp 161–174
Lipman PW, Prostka HJ, Christiansen RL (1972) Cenozoic volcanism and plate-tectonic evolution of the Western United States. I. Early and Middle Cenozoic. Phil Trans R Soc London A271:217–248
Luhr JF, Nelson SA, Allan JF, Carmichael ISE (1985) Active rifting in southwestern Mexico: manifestations of an incipient eastward spreading-ridge jump. Geology 13:54–57
Mahood G, Hildreth W (1983) Large partition coefficients for trace elements in high-silica rhyolites. Geochim Cosmochim Acta 47:11–30
Mann AC (1983) Trace element geochemistry of high alumina basalt-andesite-dacite-rhyodacite lavas of the main volcanic series of Santorini Volcano, Greece. Contrib Mineral Petrol 84:43–57
McBirney AR, Baker BH, Nilson RH (1985) Liquid fractionation. Part I: basic principles and experimental simulations. J Volcanol Geotherm Res 24:1–24
McCarthy TS, Groves DI (1979) The Blue Tier batholith, northeastern Tasmania, a cumulate-like product of fractional crystallisation. Contrib Mineral Petrol 71:193–209
McCarthy TS, Hasty RA (1976) Trace element distribution patterns and their relationship to the crystallisation of granitic melts. Geochim Cosmochim Acta 40:1351–1358
Macdonald R, Thorpe RS, Gaskarth JW, Grindrod AR (1985) Multicomponent origin of lamprophyres of northern England. Mineral Mag 49:485–494
McKerrow WS (1983) The northwest margin of the Iapetus Ocean during the Early Palaeozoic. Am Soc Petrol Geol Mem 34:521–533
Mitchell AHG (1984) The British Caledonides: interpretations from Cenozoic analogues. Geol Mag 121:35–46
Morrison GW (1980) Characteristics and tectonic setting of the shoshonitic rock association. Lithos 13:97–108
Nelson DR, McCulloch MT, Sun S-S (1986) The origins of ultrapotassic rocks as inferred from Sr, Nd and Pb isotopes. Geochim Cosmochim Acta 50:231–245
Nicholls GD (1951) The Glenelg-Ratagain igneous complex. Q J Geol Soc London 106:309–344
Nixon GT (1982) The relationship between Quaternary volcanism in Mexico and the seismicity and structure of subducted ocean lithosphere. Bull Geol Soc Am 93:514–523
Noyes HJ, Frey FA, Wones DR (1983) A tale of two plutons: geochemical evidence bearing on the origin and differentiation of the Red Lake and Eagle Peak plutons, Central Sierra Nevada, California. J Geol 91:487–509
Parsons I (1972) Comparative petrology of the leucocratic syenites of the Northwest Highlands of Scotland. Geol J 8:71–82
Parsons I, McKirdy AP (1983) Inter-relationship of igneous activity and thrusting in Assynt: excavations at Loch Borralan. Scott J Geol 19:59–66
Peccerillo A (1985) Roman comagmatic province (central Italy): evidence for subduction-related magma genesis. Geology 13:103–106
Perroud H, Van de Voo R, Bonhommet N (1984) Palaeozoic evolution of the Armorica plate on the basis of palaeomagnetic data. Geology 12:579–582
Plant JA, Simpson PR, Green PM, Watson JV, Fowler MB (1983) Metalliferous and mineralised Caledonian granites in relation to regional metamorphism and fracture systems in Northern Scotland. Trans Inst Min Metall B 92:33–42
Richardson SW (1968) The petrology of the metamorphosed syenite in Glen Dessarry, Inverness-shire. Q J Geol Soc Lond 124:9–51
Ringwood AE (1982) Phase transformations and differentiation in subducted lithosphere: implications for mantle dynamics, basalt petrogenesis, and crustal evolution. J Geol 90:611–643
Robertson RCR, Parsons I (1974) The Loch Loyal syenites. Scott J Geol 10:129–146
Rock NMS (1984) Nature and origin of calc-alkaline lamprophyres: minettes, vogesites, kersantites and spessartites. Trans R Soc Edinburgh Earth Sci 74:193–227
Rowell WF, Edgar AD (1983) Cenozoic potassium-rich mafic volcanism in the western USA: its relationship to deep subduction. J Geol 91:338–341
Sacks IS (1984) Subduction geometry and magma genesis. In: Nat Res Council (US), Geophys Study Comm. Explosive Volcanism: Inception, Evolution and Hazards. Natl Acad Press, Washington, DC, pp 34–46
Saunders JS, van Calsteren PWC, Hawkesworth CJ (1984) A Grenville Sm-Nd age for the Glenelg eclogite in north-west Scotland. Nature 312:439–440
Smith DI (1979) Caledonian minor intrusions of the N Highlands of Scotland. Geol Soc London Spec Publ 8:683–697
Sutherland DS (1982) Alkaline intrusions of north-western Scotland. In: Sutherland DS (ed) Igneous Rocks of the British Isles. J Wiley, New York, pp 203–214
Thirlwall MF (1981) Implications for Caledonian plate tectonic models of chemical data from volcanic rocks of the British Old Red Sandstone. J Geol Soc London 138:123–138
Thirlwall MF (1982) Systematic variation in chemistry and Nd-Sr isotopes across a Caledonian calc-alkaline volcanic arc: implications for source materials. Earth Planet Sci Lett 58:27–50
Thompson RN (1982) Magmatism of the British Tertiary Volcanic Province. Scott J Geol 18:50–107
Thompson RN (1985a) Asthenospheric source of Ugandan ultrapotassic magma? J Geol 93:603–608
Thompson RN (1985b) Model for Grampian tract evolution ... comments on a paper by JF Dewey and RM Shackleton. Nature 314:562
Thompson RN (1986) Sources of basic magmas. Nature 319:448–449
Thompson RN, Morrison MA, Dickin AP, Hendry GL (1983) Continental flood basalts ... arachnids rule OK? In: Hawkesworth CJ and Norry MJ (eds) Continental Basalts and Mantle Xenoliths, Shiva Publishing, Nantwich pp 158–185
Thompson RN, Morrison MA, Hendry GL, Parry SJ (1984) An assessment of the relative roles of crust and mantle in magma genesis: an elemental approach. Phil Trans R Soc London A310:549–590
Thompson RN, Morrison MA, Dickin AP, Gibson IL, Harmon RS (1986) Two contrasting styles of interaction between basic magmas and continental crust in the British Tertiary Igneous Province. J Geophys Res 91:5985–5997
Tindle AG, Pearce JA (1981) Petrogenetic modelling of in situ fractional crystallisation in the zoned Loch Doon pluton, Scotland. Contrib Mineral Petrol 78:196–207
Van Breemen O, Bluck BJ (1981) Episodic granite plutonism in the Scottish Caledonides. Nature 291:113–117
Van Breemen O, Aftalion M, Pankhurst RJ, Richardson SW (1979a) Age of the Glen Dessarry syenite, Inverness-shire: diachronous Palaeozoic metamorphism across the Great Glen. Scott J Geol 15:49–62
Van Breemen O, Aftalion M, Johnson MWR (1979b) Age of the Loch Borralan complex, Assynt, and late movements along the Moine Thrust Zone. J Geol Soc London 136:489–495
Van de Voo R, Scotese CR (1981) Palaeomagnetic evidence for a large (∼2000 km) sinistral offset along the Great Glen fault during the Carboniferous. Geology 9:583–589
Varne R (1985) Ancient subcontinental mantle: a source for K-rich orogenic volcanics. Geology 13:405–408
Villemant B, Jaffrezic H, Joron J-L, Treuil M (1981) Distribution coefficients of major and trace elements, fractional crystallisation in the alkali basalt series of Chaine des Puys (Massif Central, France). Geochim Cosmochim Acta 45:1997–2016
Wallace DA, Johnson RW, Chappell BW, Arculus RJ, Perfit MR, Crick IH (1983) Cainozoic volcanism of the Tabar, Lihir, Tanga and Feni Islands, Papua New Guinea: geology, whole-rock analyses, and rock-forming mineral compositions. Bur Mineral Res Australia, Rept 243: microform
Wörner G, Beusen JM, Duchateau N, Gijbels R, Schmincke H-U (1983) Trace element abundances and mineral/melt distribution coefficients in phonolites from the Laacher See volcano (Germany). Contrib Mineral Petrol 84:152–173
Wolff JA (1984) Variation in Nb/Ta during differentiation of phonolitic magma, Tenerife, Canary Islands. Geochim Cosmochim Acta 48:1345–1348
Woolley AR (1973) The pseudoleucite borolanites and associated rocks of the south-eastern tract of the Borralan Complex, Scotland. Bull Br Mus Natl Hist Mineral 2:285–333
Wright AE, Bowes DR (1979) Geochemistry of the appinite suite. Geol Soc London Spec Publ 8:699–704
Wyllie PJ (1984) Constraints imposed by experimental petrology on possible and impossible magma sources and products. Phil Trans R Soc London A310:439–456
Yardley BWD, Vine FJ, Baldwin CT (1982) The plate tectonic setting of NW Britain and Ireland in late Cambrian and early Ordovician times. J Geol Soc London 139:467–480
Zhou J (1985) The timing of calc-alkaline magmatism in parts of the Alpine-Himalayan collision zone and its relevance to the interpretation of Caledonian magmatism. J Geol Soc London 142:309–317
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Thompson, R.N., Fowler, M.B. Subduction-related shoshonitic and ultrapotassic magmatism: a study of Siluro-Ordovician syenites from the Scottish Caledonides. Contr. Mineral. and Petrol. 94, 507–522 (1986). https://doi.org/10.1007/BF00376342
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00376342