Reconnaissance geology of the Wadi Shuqub Quadrangle, sheet 20/41 A, Kingdom of Saudi Arabia

Greene, Robert C.; Gonzalez, Louis

doi:10.3133/ofr791353

Cited by 6 publications

(9 citation statements)

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“…Several of the syenitic plutons vary from mafic to silicic in composition: Al Ajarda (Stoeser, 1985), Hawil (Green and Gonzalez, 1980), Jizarah (Greenwood, 1979), and Jabal Qunnah (samples 642 through 644, table 1). Samples collected during the current study show that only Jabal An is peralkaline as well as silica undersaturated, but Stoeser (1985) reports that the rim phase of Al Ajarda is aegirine-bearing which would indicate a peralkaline composition.…”

Section: And Discussionmentioning

confidence: 99%

Geochemistry and preliminary assessment of resource potential for postorogenic granites of the southwestern Arabian Shield, Kingdom of Saudi Arabia

Stuckless¹,

VanTrump²,

Bush³

et al. 1987

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Geochemical data for samples from 55 postorogenic plutons of the southwestern Arabian Shield show that these granitoids are generally less evolved than similar granitoids of the eastern Arabian Shield. Radioelement contents are low to normal relative to typical granitic rocks and uranium contents are distinctly low relative to rocks of the eastern Arabian Shield. The data indicate low favorability for ore deposits of elements that are typically enriched in granites at the end stages of magmatism such as tin, tungsten, niobium, tantalum, molybdenum, rare-earth elements, and radioactive elements. Regional geochemical patterns are not consistent with the north-south trending microplate boundary that has been proposed by other workers. Correlation coefficients for trace-element data obtained during the current study also argue against sharp compositional breaks in the protolith for the postorogenic granites. Consideration of the data presented here and similar data for granitoids of the eastern Arabian Shield, suggest the existence of a compositionally gradational protolith of continental affinity to the east and oceanic affinity to the west. \J All tables arc at the end of the report. See page 24. Jabal Kor, Jabal Taweel, and Jabal Amoudah) contain peralkaline rocks. In addition, Schmidt (1980a) notes that the central part of Jabal Khashmadheeb and small plug about 20 km southeast of Al Mu'taridah (fig. 1) are also peralkaline, but these areas were not sampled as part of the current study. Only seven samples are truly peralkaline, and thus they were not treated statistically as a separate subset of the data. All of the known peralkaline rocks within the study area, except Jabal An, lie along a north-south trend of peralkaline plutonism which was originally described by Stoeser and Elliott (1980). Samples from all of the postorogenic plutons along this trend are hypersolvus alkaji feldspar granites. Within the eastern part of the study area, Schmidt (1980a and'Vfsuggcsts that all of the alkali feldspar granites are the youngest plutonic rocks. The pluton at Jabal An is spatially separated from the main trend of peralkaline rocks within the Arabian Shield, and its trachytic texture is also unique. Gonzalez (1973) reports a whole-rock K-Ar age for Jabal An of 21.6+3.5 Ma, but the sample locality is not documented, and the technique and sample medium provide data of questionable validity given the proximity to the Tertiary basalt field. Experimental and theoretical studies (Watson and Harrison, 1983) have shown that the saturation limit of zirconium is much higher in peralkaline rocks than in rocks that are saturated or over-saturated with respect to alumina. Peralkaline rocks from the study area show contents of zirconium that are high relative to most of the non-peralkaline samples (table 2), but in contrast to peralkaline rocks outside of the study area (Stuckless and others, 198$ 1985) the peralkaline samples from the study area (except for Jabal An) are not noticeably enriched in uranium, thorium, niobium, or rare-...

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Section: And Discussionmentioning

confidence: 99%

Geochemistry and preliminary assessment of resource potential for postorogenic granites of the southwestern Arabian Shield, Kingdom of Saudi Arabia

Stuckless¹,

VanTrump²,

Bush³

et al. 1987

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“…The dominantly metasedimentary unit continues to the north through the massive sulfide lens-bearing zones at Rabathan into the Wadi Shuqub quadrangle (Green and Gonzalez, 1980). Ferruginous chert diminishes to the north, and the calcareous rocks and carbonaceous material are not exposed near the northern boundaries of the two quadrangles.…”

Section: Geologic Settingmentioning

confidence: 99%

Reconnaissance investigations of ancient gold mines in the southern part of the Wadi Bidah District, Jabal Ibrahim and Al Aqiq quadrangles, Kingdom of Saudi Arabia

Worl¹,

Smith²

1982

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“…Quartz-feldspar porphyritic rocks and granodioritic intrusive rocks are probably related to a center of activity, but little is known of this relationship except that horn-blende granodiorite tends to be associated with the axis of the main western anticlinorium (Greenwood, 1975;Greene and Gonzalez, 1980). The intrusive rocks are probably somehow related to the major granitic center to the north.…”

Section: Geologic Interpretationmentioning

confidence: 99%

“…The Wadi Shuqub quadrangle, which includes the northern part of the Wadi Bidah district, was mapped by Greene and Gonzalez (1980), who did not assign the layered rocks to any group and stratigraphic order of the units, however, stated "the true is uncertain." Table 1 (following) is taken in entirety from the report of the Riofinex Geological Mission (1979) and succinctly presents the stratigraphic succession according to five independent studies.…”

Section: Stratigraphy Previous Studiesmentioning

confidence: 99%

“…H. Allcott (1970), USGS, drilled three holes at the Ma'dan (Mahawiyah) ancient mine. L. Gonzalez, USGS, mapped part of the Wadi Shuqub quadrangle (sheet 20/41 A) at 1:100,000 scale; this quadrangle includes the northern two-thirds of the Wadi Bidah district (Greene and Gonzalez, 1980). A. R. Abo-Rashid (1971), DGMR, mapped the geology of an area east of the village of Al Mahawiyah that includes the Mahawiyah ancient mine.…”

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confidence: 99%

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Geological and geochemical studies in the Wadi Bidah District, Kingdom of Saudi Arabia

Smith¹,

Waters²,

Naqvi³

et al. 1983

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Reconnaissance geology of the Wadi Shuqub Quadrangle, sheet 20/41 A, Kingdom of Saudi Arabia

Cited by 6 publications

References 0 publications

Geochemistry and preliminary assessment of resource potential for postorogenic granites of the southwestern Arabian Shield, Kingdom of Saudi Arabia

Geochemistry and preliminary assessment of resource potential for postorogenic granites of the southwestern Arabian Shield, Kingdom of Saudi Arabia

Reconnaissance investigations of ancient gold mines in the southern part of the Wadi Bidah District, Jabal Ibrahim and Al Aqiq quadrangles, Kingdom of Saudi Arabia

Geological and geochemical studies in the Wadi Bidah District, Kingdom of Saudi Arabia

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