Add to ORKGGeochemical data and orbital photography from Apollo, Mariner, and Venera missions were combined with terrestrial geologic evidence to study the problem of why the earth has two contrasting types of crust (oceanic and continental). The following outline of terrestrial crustal evolution is proposed. A global crust of intermediate to acidic composition, high in aluminum, was formed by igneous processes early in the earth's history; portions survive in some shield areas as granitic and anorthositic gneisses. This crust was fractured by major impacts and tectonic processes, followed by basaltic eruptions analogous to the lunar maria and the smooth plains of the north hemisphere of Mars. Seafloor spreading and subduction ensued, during which por...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
The present article reviews the evolution of continental crust since the time the earth began to ins...
The crustal evolution of the terrestrial planets increase in complexity and duration with increasing...
A survey is given of the dimensions and composition of the present continental crust. The abundances...
The continental crust is the primary archive of geological history, and is host to most of our natur...
Terrestrial planets produce crusts as they differentiate. The Earth’s bi-modal crust, with a high-st...
The continental crust is our archive of Earth history, and the store of many natural resources; howe...
The continental crust covers nearly a third of the Earth's surface. It is buoyant - being less dense...
The continental crust covers nearly a third of the Earth's surface. It is buoyant—being less dense t...
The continental crust covers nearly a third of the Earth's surface. It is buoyant—being less dense t...
The problem of the origin of the continental crust can be resolved into two fundamental questions: (...
The role of major impact basins (such as those which formed on the moon before 4 billion years ago) ...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
International audienceThe continental crust is the archive of Earth’s history. Its rock units record...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
The present article reviews the evolution of continental crust since the time the earth began to ins...
The crustal evolution of the terrestrial planets increase in complexity and duration with increasing...
A survey is given of the dimensions and composition of the present continental crust. The abundances...
The continental crust is the primary archive of geological history, and is host to most of our natur...
Terrestrial planets produce crusts as they differentiate. The Earth’s bi-modal crust, with a high-st...
The continental crust is our archive of Earth history, and the store of many natural resources; howe...
The continental crust covers nearly a third of the Earth's surface. It is buoyant - being less dense...
The continental crust covers nearly a third of the Earth's surface. It is buoyant—being less dense t...
The continental crust covers nearly a third of the Earth's surface. It is buoyant—being less dense t...
The problem of the origin of the continental crust can be resolved into two fundamental questions: (...
The role of major impact basins (such as those which formed on the moon before 4 billion years ago) ...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
International audienceThe continental crust is the archive of Earth’s history. Its rock units record...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
About four billion years ago, Earth’s outer layer is thought to have been composed mostly of a 25- t...
The present article reviews the evolution of continental crust since the time the earth began to ins...