Abstract

The Al Haruj Intra-continental Volcanic Province is the largest part of the extensive volcanic activity in Libya which is considered to be a typical within plate basalts. The volcano-tectonics evolution of this province, as well as its origin, are still widely disputed. According to K-Ar dating previously studied, the volcanic activity started in the Late Miocene and lasted until at least the Late Pleistocene. The field may still be volcanically active. The mafic rocks of Jabal Al Haruj have been classified into six major phases or groups. These phases have been differentiated using Landsat images together with aerial photographs of different scales as well as field observations. The topographic forms of the earliest phase are highly eroded while the forms of the latest phase are usually fresh and very well preserved as regards primary features. Mafic lavas of this field consist of alkali basalts to olivine tholeiites (transitional basalt) which contain olivine as essential constituent together with clinopyroxene, plagioclase and glass. The basalt exhibits intergranular, intersertal, ophitic and subophitic relations. Amygdaloidal and glomerporphyritic textures are also observed. The basaltic rocks of different ages and from different localities are petrographically rather similar. Phenocrysts of olivine probably the result from slow cooling in crustal magma chambers prior to eruptions, suggesting that magmas ascended slowly through the crust. 109 samples have been carefully collected from various phases, some of these samples have been chosen for major and trace elements analyses, using XRF in order to determine the characteristics of the mantle source and investigate crustal interaction. The major and trace elements revealed a slightly significant chemical diversity among the phases and within each phase. The normative classification of most of these rocks shows close agreement with their modal classification. A vague correlation between MgO and most major oxides in the studied samples suggests different degrees of partial melting rather than fractional crystallization. A characteristic feature of the studied volcanic rocks is the relatively constant ratios of certain incompatible trace elements (Nb/Zr, Rb/Zr), which provides strong evidence of a common source. In addition, the rocks display similar patterns of the peaks and troughs; this strongly suggests that they have a common parent and common subsequent processes. The compatible transitional metals Ni (81 - 193 ppm) and Cr contents (238 - 361 ppm) and relatively low Mg# (Mg/(Mg + Fet)) (52 - 62) give an indication that the studied basaltic rocks have slightly to moderately fractionated olivine and/or spinel. The magmatism of this volcanic field seems to be related to reactivation of pre-existing structures during the passive rifting of the Sirt Basin that most likely produced in response to convergence between European and African plates since Jurassic until Holocene times.

Highlights

  • The Al Haruj (Jabal Al Haruj al Aswad and al Abiyad) area is located in central part of Libya, and is considered one of the main occurrences of young extrusive rocks

  • The tertiary volcanic rocks of Jabal Al Haruj represent the largest volcanic province in Libya covering an area of ≈ 45,000 km2, which originated during several phases of eruptions that were closely associated in space and time

  • The study area is located in north-eastern Jabal Al Haruj al Aswad, an area which has not been studied in a thorough manner so far

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Summary

Introduction

The Al Haruj (Jabal Al Haruj al Aswad and al Abiyad) area is located in central part of Libya, and is considered one of the main occurrences of young extrusive rocks It is the largest of four volcanic provinces in Libya; the other three occurrences are in Gharyan province in north-western Tripoli, Jabal as Sawda between Gharyan and Jabal Al Haruj, and Jabal Nuqy farther south, close to the Tibesti massif at the Chadian-Libyan border (Figure 1). The measurements give an interval from 6 to 0.4 Ma for the formation of the volcanic rocks, Less et al [12], with the majority of the flows being younger than 2.2 Ma. The modern study of age dating by Peregi et al [5] was based on K/Ar analyses of 20 basalt samples carried out at Atomki in Hungary. Five major volcanic phases of different field appearances (including weathering surface, morphology, and primary structures) have been documented in the investigated area in the north-eastern part of Al Haruj Al Aswad province (Figure 5)

Petrography
Geochemistry
The Results of Correspondence Analysis
Tectonic Environments
Summary and Discussions

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