The Maracaibo Basin, also known as Lake Maracaibo natural region, Lake Maracaibo depression or Lake Maracaibo Lowlands, is a

foreland basin A foreland basin is a structural basin that develops adjacent and parallel to a mountain belt. Foreland basins form because the immense mass created by crustal thickening associated with the evolution of a mountain belt causes the lithospher ...

and one of the eight

natural regions of Venezuela Because of its natural structure, Venezuela can be divided into eight very distinct natural regions. In the evaluation of a natural region, the human element is not present. The natural region groups of Venezuela formed as a consequence of the as ...

, found in the northwestern corner of

Venezuela Venezuela, officially the Bolivarian Republic of Venezuela, is a country on the northern coast of South America, consisting of a continental landmass and many Federal Dependencies of Venezuela, islands and islets in the Caribbean Sea. It com ...

in South America. Covering over 36,657 square km, it is a hydrocarbon-rich region that has produced over 30 billion bbl of oil with an estimated 44 billion bbl yet to be recovered. The basin is characterized by a large shallow tidal

estuary An estuary is a partially enclosed coastal body of brackish water with one or more rivers or streams flowing into it, and with a free connection to the open sea. Estuaries form a transition zone between river environments and maritime enviro ...

Lake Maracaibo Lake Maracaibo () is located in northwestern Venezuela, between the states of Zulia, Trujillo, and Mérida. While Maracaibo is commonly referred to as a lake, its current hydrological characteristics may better classify it as estuary and/or ...

, located near its center. The Maracaibo basin has a complex tectonic history that dates back to the Jurassic period with multiple evolution stages. Despite its complexity, these major tectonic stages are well preserved within its stratigraphy. This makes The Maracaibo basin one of the most valuable basins for reconstructing South America's early tectonic history.

Geologic setting

The Maracaibo basin is surrounded by two mountain ranges, the Méridas Andes to the southeast and the Sierra de Perija to the west, with the

Gulf of Venezuela The Gulf of Venezuela is a gulf of the Caribbean Sea bounded by the Venezuelan states of Zulia and Falcón and by La Guajira Department, Colombia. The western side is formed by the Guajira Peninsula. A strait connects it with Maracaibo Lake to ...

to the north. The basin lies within a region of deformation created by the interactions of the Caribbean and South American Plate boundaries. These interactions include the collision of the Caribbean Plate with the

South American Plate The South American plate is a major tectonic plate which includes the continent of South America as well as a sizable region of the Atlantic Ocean seabed extending eastward to the African plate, with which it forms the southern part of the Mid ...

in the

Cenozoic era The Cenozoic Era ( ; ) is Earth's current geological Era (geology), era, representing the last 66million years of Earth's history. It is characterized by the dominance of mammals, Insect, insects, birds and flowering plant, angiosperms (floweri ...

, which formed a belt of foreland basins across northern South America. There are three main fault zones associated with the basin: the Santa Marta-Bucaramanga fault zone, the Boconó fault zone, and the Oca fault zone. These strike-slip zones create a v-shape around the basin which form a smaller plate known as the Maracaibo block. Within this v-shaped wedge, multiple smaller fault zones are present including the Icotea strike-slip fault. Thus the Maracaibo basin geometry is dominated by strike-slip tectonics and subordinate folding with a main syncline, the Maracaibo syncline, striking north-south through the center of Lake Maracaibo.

Tectonic history

The formation of the Maracaibo basin began 160 Ma with the North American, South American, and Caribbean plates playing key roles in the evolution of the basin. It developed into the present-day foreland basin via multiple stages throughout time: Late Jurassic, Late Cretaceous, Paleocene-Eocene, and the Oligocene-Holocene stages. South American plates

Late Jurassic

During the break-up of

Pangea Pangaea or Pangea ( ) was a supercontinent that existed during the late Paleozoic and early Mesozoic eras. It assembled from the earlier continental units of Gondwana, Euramerica and Siberia (continent), Siberia during the Carboniferous period ...

, the North American Plate began to separate from the South American Plate. The two plates rifted away from each other forming the " Proto-Caribbean Seaway", an 1800 km wide region of oceanic crust. As this rifting occurred, the Caribbean plate began its eastward migration from the Pacific region.

Late Cretaceous

After rifting, the northern edge of the South American Plate developed into a

passive margin A passive margin is the transition between Lithosphere#Oceanic lithosphere, oceanic and Lithosphere#Continental lithosphere, continental lithosphere that is not an active plate continental margin, margin. A passive margin forms by sedimentatio ...

with the Proto-Caribbean Seaway. This stable passive margin allowed for thermal subsidence to occur which began to increase due to the building up of the

Cordillera Central Central Cordillera refers to the New Guinea Highlands. Cordillera Central, meaning ''central range'' in Spanish, may refer to the following mountain ranges: * Cordillera Central, Andes (disambiguation), several mountain ranges in South America ** ...

range of Colombia. This uplift was initiated by the eastward moving Caribbean plate interacting with the Nazca and northwestern South American plate. Caribbean plate tectonics-en

Paleocene-Eocene

The Caribbean Plate has been migrating eastward from the Pacific region and eventually collided with the South American Plate in the middle Paleocene. This collision transformed the passive margin of northern South America into an

active margin A convergent boundary (also known as a destructive boundary) is an area on Earth where two or more lithospheric plates collide. One plate eventually slides beneath the other, a process known as subduction. The subduction zone can be defined by a ...

. The Caribbean plate had subducted significant amounts of oceanic Proto-Caribbean crust by this time and was now subducting beneath the South American crust. This boundary interaction was greatly affecting the region of northwestern South America. Foreland basins formed across the region which received large amount of sediment due to the plate boundary interactions to the north.

Oligocene-Holocene

The Caribbean plate continued its eastward migration and continued to deform the northwestern regions of South America while also producing deformation along the northeastern regions. As plate migration proceeded, accretion along the South American plate increased. This accretion greatly influenced mountain building of the region. Uplift of the Sierra de Perijas occurred during the Oligocene whereas the Mérida Andes formed later in the middle Miocene. This uplift and subsequent erosion deposited large amount of sediment into the basin. The Maracaibo syncline formed later in this stage due to "inversion of Eocene rift-related structures".

Stratigraphy

The main events of sediment deposition follow the same pattern as the tectonic events, where major sedimentary formations coincide with the four tectonic stages mentioned above.

Depositional history

The break-up of Pangea resulted in the break-up of the Paleozoic metamorphic basement rock. The basement rock formed half-grabens where eroded sediments from the break-up were then deposited. These sediments created the metasedimentary rocks of the La Quinta formation. Development of the passive margin occurred after rifting. Characterized by carbonate and shale, the stable passive margin allowed for large amounts of clastic sediment to deposit and stay undisturbed until burial. Some of the most important source rocks come from this stage, including the La Luna and Socuy formations. The timing of the Paleogene collision is clearly recorded in the stratigraphy of the Maracaibo basin. There is an abrupt change in sediment type of the late Cretaceous made evident by the thickly deposited, pelagic shale of the Colon formation. This represents the beginnings of the Caribbean arc collision with the South American plate. As the collision continued, this region shifted from the passive margin stage to the foreland basin stage. These Paleogene sediments are characterized by fluvial and deltaic facies and make up the Misoa formation, fluvial sandstones that act as

hydrocarbon In organic chemistry, a hydrocarbon is an organic compound consisting entirely of hydrogen and carbon. Hydrocarbons are examples of group 14 hydrides. Hydrocarbons are generally colourless and Hydrophobe, hydrophobic; their odor is usually fain ...

reservoirs. Mountain building begins in the late Paleogene, producing mostly continental sandstone facies.

Icotea pull-apart basin

The Icotea pull-apart basin is a unique transtensional feature in the center of the Maracaibo Basin. This basin is fault bounded on all 4 sides and formed due to strike slip involved extension along the north to south striking left lateral Icotea strike slip fault. The Icotea fault originally formed as a normal fault during a Mesozoic rifting phase and was subsequently reactivated as a strike slip fault during the late Paleocene. There is a record of 7.5-18 km of fault offset. The basin records 3 km of Eocene sediment fill in a depocenter located in the northern part of the basin. Extension in the Icotea basin is estimated to be between 0.8-2.25 km. Since the Oligocene, basin extension, strike slip motion and basin fill has ceased and inversion has progressed in consequence to continued uplift of the Sierra de Perija and development of the convergent Maracaibo syncline.

Hydrocarbon resources

Oil was discovered in producible quantities in Venezuela in 1914 at the town of Mene Grande in the east central part of the Maracaibo basin near a surface oil seep. In December 1922,

Royal Dutch Shell Shell plc is a British multinational oil and gas company, headquartered in London, England. Shell is a public limited company with a primary listing on the London Stock Exchange (LSE) and secondary listings on Euronext Amsterdam and the New ...

's George Reynolds (formerly with the

Anglo-Persian Oil Company The Anglo-Persian Oil Company (APOC; ) was a British company founded in 1909 following the discovery of a large oil field in Masjed Soleiman, Persia (Iran). The British government purchased 51% of the company in 1914, gaining a controlling numbe ...

) discovered the La Rosa Oil Field. The Barroso Well blew out at 100 thousand BOPD. In 1928, Jersey Standard discovered oil deposits under Lake Maracaibo. Today the basin accounts for approximately 50% of Venezuela's crude export capacity and approximately 15% of proven Venezuelan oil reserves. The region hosts one of the world's largest oil refinery complexes, the Paraguaná Refinery Complex. The nearby islands of

Aruba Aruba, officially the Country of Aruba, is a constituent island country within the Kingdom of the Netherlands, in the southern Caribbean Sea north of the Venezuelan peninsula of Paraguaná Peninsula, Paraguaná and northwest of Curaçao. In 19 ...

and

Curaçao Curaçao, officially the Country of Curaçao, is a constituent island country within the Kingdom of the Netherlands, located in the southern Caribbean Sea (specifically the Dutch Caribbean region), about north of Venezuela. Curaçao includ ...

also host large refineries that process oil from the Maracaibo basin. Together these refineries form the 'Venezuelan Circuit' of

PDVSA Petróleos de Venezuela, S.A. (acronym PDVSA, , English language, English: Petroleum of Venezuela) is the Venezuelan state-owned oil and natural gas company. It has activities in exploration, production, refining and exporting oil as well as e ...

. The Bolivar Coastal Field, BCF, on the eastern shore of Lake Maracaibo produces from Miocene sandstones and Eocene sandstones.Martinez, A.R., Giant Fields of Venezuela, in Geology of Giant Petroleum Fields, AAPG Memoir 14, Halbouty, M.T., editor, Tulsa: American Association of Petroleum Geologists, p. 328. West of Maracaibo, the La Paz Field produces from Cretaceous limestones, and oil is found in the stratigraphic traps of Boscan, Los Claros and the Urdaneta fields. Venezuela produces a mix of conventional heavy crude and unconventional crude derived from bitumen. This latter source, previously too expensive to produce in quantity, now makes up an increasing large percent of Venezuela's oil exports – 600,000 of Venezuela's three million barrels per day in 2006. In the Maracaibo Basin, the balance of reserves is toward its conventional deposits. As the country continues shifting toward bitumen production due to its increasing profitability and decreases in conventional reserves, the level of Maracaibo Basin oil production will decrease, while that of the Orinoco Belt and its massive bitumen deposits will increase.

References

External links

* History of the Venezuelan oil industry
OPEC: VenezuelaUS Energy Information Administration: Venezuela

{{Sedimentary basins of Venezuela Natural regions of Venezuela Geography of Zulia Geography of Mérida (state) Geography of Táchira Geography of Trujillo (state) Geographical regions of Venezuela Oil fields of Venezuela Physiographic sections