CARACAS, Group
MIDDLE and/or UPPER MESOZOIC
Distrito Federal, Venezuela
Authors of name: S. E. Aguerrevere and G. Zuloaga, 1937.
Original reference: S. E. Aguerrevere and G. Zuloaga, 1937, p. 12.
Original description: ibid.
S. E. Aguerrevere and G. Zuloaga (1937, p. 12) first proposed the name Caracas "series" to designate a sequence of metasediments in north-central Venezuela which constitutes, locally, the lower part of the Caribbean series. According to the same authors, the Caracas "series" starts with a basal conglomerate that lies directly with unconformity on top of the ancient igneous complex (Sebastopol granite). It is constituted by angular fragments of quartz and weathered granite, mainly cemented by siliceous material. "From this conglomerate the series passes gradually through arkose and conglomeratic limestone into a series of calcareous and graphitoid schists and limestone".
Said authors (1938, p. 282) changed the name "series" to Caracas group, including under such name Las Brisas formation which comprises the Zenda phase, and Las Mercedes formation which comprises the Los Colorados phase. Later on, Dengo (1951, chart 2, front p. 70) included two new formations in the definition of the Caracas group: Antímano and Tacagua. On the other hand, this author modified the original con¿ept, in relation with what was supposed to be a basal conglomerate (See LAS BRISAS, Formation).
Aguerrevere and Zuloaga (ibid.) indicate that the Caracas group lies in transitional contact below the rocks that they include in the Villa de Cura "series". This name is obsolete.
R. J. Smith (1952, fig. 5, p. 341 and 363) assumes that the Caracas "series" (group) unconformably underlies the Paracotos formation, of a lower metamorphic grade, though he says (p. 363) that he never saw the unconformity due to the fact that in his whole area, the units were in fault contact.
G. Dengo (1951, p. 110) states that the metamorphic rocks of the Caracas group were originally sediments and igneous rocks (serpentinites, antigorites and anphibolites).
Dengo writes (ibid., p. 110-111): "The original sediments, largely if not entirely of Cretaceous age, consisted of sandstones and conglomerates at the base that graded upward into limestones and limy shales. Basaltic rocks were intruded prior to any major deformation and probably contemporaneously with the deposition of some of the sediments. Some volcanic tuffs were probably deposited in the upper part of the sedimentary sucession". The same author goes on saying: "In the Late Cretaceous, northern Venezuela was deformed, together with a large portion of the Caribbean region. During this deformation, ultramafic rocks were intruded along the axial region of the down buckle. Continued deformation, probably accompanied by remelting of the crust at depth, rise of the isogeotherms, and migration of solution into the sedimentary succesion, produced the regional metamorphism. The sediments were changed into gneiss, schists, and marbles and the basaltic rocks into amphibolites".
Maxwell and Dengo (1951, p. 152-153) state that the metamorphic rocks of the Carúpano area (northeastern Venezuela) are "lithologically similar to the younger metamorphic rocks of the Caracas group". According to the same authors, the structural complexity and the lack of good outcrops make it altogether impossible to measure the exact thickness in the Carúpano region, but it can be said that the metamorphic sections of Carúpano and Caracas, are about the same. According to the same source, the Caracas group has an approximate thickness of 1,500 to 3,000 m. while the metamorphic sequence which outcrops at the Carúpano region would have a maximum thickness of 3,100 m. Maxwell and Dengo believe that "the lithological and structural similarity and the metamorphic grade along the strike are good evidences to believe that the stratigraphic section of the regions of Caracas and Carúpano are approximately the same in age".
The age of the rocks which constitute the Caracas group is still subject to discussion. Many geologists, following Aguerrevere and Zuloaga's suggestion (1937, p. 22) accept the possibility of a Lower Cretaceous age, but the evidences that support such hypothesis are still scarce. Some geologists accept the possibility that at least part of the Caracas group would be Jurassic in age. A more general discussion about the age of the metamorphic rocks in north-central Venezuela is presented in an other article (see CARIBBEAN, "Series").
The upper contacts of the Caracas group are locally uncomformable: a) near La Guaira with Upper Tertiary sediments (Cabo Blanco group); b) near Caracas with Pleistocene (bones of megatheria found near Caracas) and perhaps Holocene alluvium; and c) to the south of Caracas with Cretaceous metasediments of the Paracotos formation.
Further information in relation with the igneous rocks associated with the metasediments of the Caracas group is to be obtained in the article "CORDILLERA DE LA COSTA" (Igneous in).
J. M. Sellier de Civrieux
CARIBBEAN, "Series"
predominantly MIDDLE and UPPER MESOZOIC
Northcentral and northeastern Venezuela
Author of name: G. P. Wall.
Original reference: G. P. Wall, 1860, p. 465.
Original description: ibid.
The name Caribbean "system" was used by G. P. Wall (1860, p. 465) to designate a unit of metamorphic rocks outcropping in northeastern Venezuela (Paria and Araya Peninsulas) and northern Trinidad. The name was changed to Caribbean "series" by Wall and Sawkins (1860). They intended to subdivide the "series" into an old group and a young group. Nevertheless, due to the complexity of the units which constitute the Caribbean "series", the establishment of a type-section has not been attempted so far.
The name Caribbean "series" has been frequently used in Venezuela and Trinidad.
The sediments of the Caribbean "series", today metamorphosed, were affected by the formation of a great downbuckle or tectogene. Crushed rocks of said tectogene are now forming a geotectoclinal (Caribbean arch).
Liddle (1946, p 46) intended to restrict the use of the name Caribbean "series" to a pretended Paleozoic schists sequence ("lower schists series") and to differentiate it from what he considered to be another sequence, of Mesozoic age.
Today it is well known (see Dusenbury and Wolcott, 1949, p. 17-19, and Bucher, 1952, p. 39-40) that such differentiation was based on an identification of Silurian fossils made by Dreverman. As it was demonstrated by Schuchert (1928, D. 951- 952) the fossils did not come from Venezuela (see VALENCIA LIMESTONE). The only "proof" for the occurrence of Paleozoic schists in the Caribbean "series" was thus gone and consequently the name "Lower Schists" had no value.
According to Kugler (1953, p. 35) the Caribbean series in the Island of Trinidad includes the following formations: a) (pre-Triassic or ?Jurassic) Dragón formation; b) (Jurassic) Maracas beds, Maraval beds, Laventille formation, Río Seco Formation, Grande Riviere formation; c) (Lower Cretaceous) Cumana formation, Galera formation, Toco formation, Sans Souci formation. According to the author, the first four formations are also represented in northeastern Venezuela. According to Kugler (ibid., p. 33) the series total thickness in northern Trinidad is of approximately 18,770 meters, number which according to some geologists seems exaggerated. In the regions of north-central Venezuela studied so far, the Caribbean "series", locally unconformable over the ancient igneous complex (Sebastopol complex), begins with the Caracas group (Las Brisas formation with the tecto-phase of the Pefia de Mora augengneiss; Antímano formation, Las Mercedes formation, and—according to Dengo, 1951—Tacagua formation). The Paracotos formation (of a lower metamorphic grade) unconformably overlies the Caracas group (fide Smith, 1952). The Paracotos is locally overlain by the volcanic rocks of Tiara or sediments of a very low metamorphic grade, the study of which has not been published yet.
Although it would be precocious to indicate the total thickness of the Caribbean "series" in northern-central Venezuela, the information available on the average thickness of the formations that constitute it, suggests a much lower thickness than that given by Kugler in Trinidad. Maxwell and Dengo (1950, p. 152) indicate a thickness of 1,500 to 3,000 meters for the Caracas group. The metamorphic section which outcrops in Carúpano, State of Sucre, and considered by said authors as probably correlative with the Caracas group, is 3,100 meters thick. The Paracotos formation, overlying the Caracas group, is 2,300 meters thick as appreciated by Smith (1952, p. 363).
The age of the rocks constituting the Caribbean "series" has been and continues to be a matter of great discussion. According to Kugler (1936, p. 1441) Cunningham Craig was probably the first author to suggest the occurrence of Cretaceous rocks in the Northern Range of Trinidad; he based himself on lithologic similarities with Cretaceous rocks of the Central Range and mentioned the presence of limestone lenses containing caprinids, in calcareous schists of the Northern Range. He considered that the fauna is "Cenomanian in age and identical to the Cogollo limestone of Venezuela". Jurassic fossils were found by Hutchison (1939, p. 1243) in the Northern Range. Said age is today accepted for the lower part of the Caribbean "series" in the Island of Trinidad (see MARACAS BEDS and MARAVAL BEDS).
Hedberg (1942, p. 202) and Kugler (1953, p. 30-31) believe that in the Paria-Araya region (Venezuela) there are rocks probably equivalent to the Jurassic limestone of the Northern Range of Trinidad. González de Juana (1947, p. 694) states that the "Araya-Paria metamorphic group" includes "not only Jurassic... but some older rocks as well". He further states that the metamorphic rocks of the region of Paria and Araya are unconformably below the Lower Cretaceous (Barranquín formation) and therefore the main metamorphic period in the geotectoclinal was pre-Cretaceous.
In northern-central Venezuela, S. E. Aguerrevere and G. Zuloaga (1937, p. 22) proposed to correlate the lower part of the Caribbean series (Caracas group) with Cretaceous sediments of western Venezuela; they based themselves on lithologic similarities only. They also correlated the limestones near Villa de Cura (post-Caracas in age) with those of the vicinity of San Juan de los Morros; the Las Mercedes formation with the Colón formation; the "Los Colorados phase" with the La Luna formation; the Zenda phase with the Cogollo "formation" and Las Brisas formation with the Río Negro conglomerate. Kehrer (1937, p. 62) admits the possibility of such correlations saying that the transition from metamorphosed Cretaceous to normal Cretaceous can be seen in the Quebrada Auro, between Acarigua and Sarare, and in the Duaca-Aroa section, in western Venezuela.
The possibility of correlating the lower part of the Caribbean "series" in northern-central Venezuela (Caracas group) with the nonmetamorphosed Cretaceous section has been accepted by a number of geologists, for instance W. H. Bucher (1952). Bucher (ibid., p. 49) as well as other authors, indicates that equivalents of the metamorphic Jurassic of Trinidad and western Venezuela might occur in the Caracas group. When discussing the same problem, Hedberg (1942, p. 203) states that the possibility of a metamorphosed Triassic-Jurassic Caracas "series" should be also considered. He also says that it is interesting to notice that at the base of both Cretaceous and Triassic-Jurassic groups there is a sequence of sandstones and conglomerates which pass gradually into limestones and shales, towards the upper part. According to Hedberg, the character of the Caracas metamorphic rocks might be compared with the Triassic-Jurassic sequence as much as to the Cretaceous sequence.
Kugler (1953, p. 30) when discussing the gypsiferous facies in the Jurassic metasediments of the Paria Peninsula and Trinidad, emphasizes their importance in the correlation of the Caribbean "series" (see MARAVAL BEDS). On the other hand (see LAS MERCEDES FORMATION) gypsiferous facies have been recently observed by the writer of the present article in the upper part of the Caracas group. Nevertheless, it should be found out w-hether the gypsum contained in said formations is of a primary origin or not, in order to be able to use the datum for correlation purposes. It should be mentioned here that gypsum veins of a secondary origin have been locally observed in the Lower Cretaceous of Venezuela (Chimana formation) (c. Francken, oral information).
Paleontological evidences in the Caribbean "series" of northern-central Venezuela are scarce. The available data consists of a microfauna collected by Wolcott (1943, p. 1632) in rocks of the Caracas group. It was originally considered Cretaceous or Jurassic, and "distinctly Upper Jurassic" by Bucher (1952, p. 42).
Other fossiliferous samples were collected by Wolcott in 1940, in a place located 5 kilometers to the south-southwest of Capaya, upstream in the Quebrada Yaguapa, from the crossing of the Quebrada Yaguapa with the old road to Caucagua (State of Miranda), a place which is located about 70 kilometers to the east-southeast of Caracas (Dusenbury and Wolcott, 1949, p. 22). The age of said microfauna is Turonian "because all the foraminifera species have been previously found in the Turonian section of the Querecual and La Luna formations and the radiolaria species in the Turonian section of the Querecual formation in Guárico" (ibid., p. 23).
The Paracotos formation, of a lower metamorphic grade than the underlying Caracas group and according to Smith in unconformity over said group, has provided Upper Cretaceous microfaunas in some localities, probably Cenomanian. The first mention in this respect is due to R. J. Smith (1952, p. 367) and it is based on a sample collected by H. H. Hess and studied by H. H. Renz. Other localities containing a similar fauna were studied by the writer of the present article. Recent studies by H. H. Renz indicate the Maestrichtian age of a part of the above mentioned formation.
(see PARACOTOS FORMATION).
Further information on the igneous rocks intimately associated with the formations of the Caribbean "series" could be found in the article "CORDILLERA DE LA COSTA" (IGNEOUS IN).
J. M. Sellier de Civrieux