Volcanism in Hawaii, Chapter One: The Hawaiian-Emporer Volcanic Chain, Part 1, Geologic Evolution
Dataset Identification:
Resource Abstract:
Chapter One (1) from Volcanism in Hawaii. The Hawaiian-Emperor volcanic chain stretches nearly 6,000 km across the North Pacific
Ocean and consists of at least t 07 individual volcanoes with a total volume of about 1 million cubic km. The chain is age
progressive with still-active volcanoes at the southeast end and 80-75-Ma volcanoes at the northwest end. The bend between
the Hawaiian and Emperor Chains reflects a major change in Pacific plate motion at 43.1 plus or minus 1.4 Ma and probably
was caused by collision of the Indian subcontinent into Eurasia and the resulting reorganization of oceanic spreading centers
and initiation of subduction zones in the western Pacific. The volcanoes of the chain were erupted onto the floor of the Pacific
Ocean without regard for the age or preexisting structure of the ocean crust. Hawaiian volcanoes erupt lava of distinct chemical
compositions during four major stages in their evolution and growth. The earliest stage is a submarine alkalic preshield stage,
which is followed by the tholeiitic shield stage. The shield stage probably accounts for greater than 95 percent of the volume
of each volcano. The shield stage is followed by an alkalic postshield stage during which a thin cap of alkalic basalt and
associated differentiated lava covers the tholeiitic shield. After several million years of erosion, alkalic rejuvenated-stage
lava erupts from isolated vents. An individual volcano may become extinct before the sequence is complete. The alkalic preshield
stage is only known from recent study of Loihi Seamount. Lava from later eruptive stages has been identified from numerous
submerged volcanoes located west of the principal Hawaiian Islands. Volcanic propagation rates along the chain are 9.2 plus
or minus 0.3 cm/yr for the Hawaiian Chain and 7.2 plus or minus 1.1 cm/yr for the Emperor Chain. A best fit through all the
age data for both chains gives 8.6 plus or minus 0.2 cm/yr. Alkalic rejuvenated-stage lava erupts on an older shield during
the formation of a new large shield volcano 190 plus or minus 30 km to the east. The duration of the quiescent period preceding
eruption of rejuvenated-stage lava decreases systematically from 2.5 m.y. on Niihau to less than 0.4 m.y. at Haleakala, reflecting
an increase in the rate of volcanic propagation during the last few million years. Rejuvenated-stage lava is generated during
the rapid change from subsidence to uplift as the volcanoes override a flexural arch created by loading the new shield volcano
on the ocean lithosphere. Paleomagnetic data indicate that the Hawaiian hot spot has remained fixed during the last 40 m.y.,
but prior to that time the hot spot was apparently located at a more northerly latitude. The most reliable data suggest about
7 degrees of southward movement of the hot spot between 65 and 40 Ma. The numerous hypotheses to explain the mechanism of
the hot spot fall into four types: propagating fracture hypotheses, thermal or chemical convection hypotheses, shear melting
hypotheses, and heat injection hypotheses. A successful hypothesis must explain the propagation of volcanism along the chain,
the near-fixity of the hot spot, the chemistry and timing of the eruptions from individual volcanoes, and the detailed geometry
of volcanism. None of the geophysical hypotheses proposed to date are fully satisfactory. However, the existence of the Hawaiian
swell suggests that hot spots are indeed hot. In addition, both geophysical and geochemical hypotheses suggest that primitive
undegassed mantle material ascends beneath Hawaii. Petrologic models suggest that this primitive material reacts with the
ocean lithosphere to produce the compositional range of Hawaiian lava.
Citation
Title Volcanism in Hawaii, Chapter One: The Hawaiian-Emporer Volcanic Chain, Part 1, Geologic Evolution
publication Date
1987-01-01T00:00:00
cited responsible party
-
originator
individual Name Clague, David A. Dalrymple, G. Brent
notes: This metadata record has been processed by the iso-19115-to-usgin-19115-data XSLT to ensure that all mandatory content for
USGIN profile has been added.2013-11-04T12:00:00