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Abundant hydrothermal venting along melt‐rich and melt‐free ridge segments in the Lau back‐arc basin
Author(s) -
Baker Edward T.,
Resing Joseph A.,
Walker Sharon L.,
Martinez Fernando,
Taylor Brian,
Nakamura Koichi
Publication year - 2006
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2005gl025283
Subject(s) - hydrothermal circulation , geology , ridge , mid ocean ridge , back arc basin , tectonics , structural basin , arc (geometry) , convection , petrology , paleontology , subduction , geometry , meteorology , physics , mathematics
The relationship between the spatial density of hydrothermal venting ( p h ) and spreading rate ( u s ) is undefined along back‐arc ridges. Here we report a continuous survey of hydrothermal plumes along the ∼400‐km‐long Eastern Lau Spreading Center. The mean p h / u s ratio for each of three tectonic segments followed the global midocean ridge trend, with p h doubling as u s increased northward from 39 to 96 mm/yr. However, we found little correlation between p h and the previously imaged distribution of axial melt lenses, which are near‐continuous along the southern two segments but wholly absent along the northernmost segment. We infer that venting on the southern segments is melt driven, whereas venting on the northern ELSC is entirely powered with heat extracted by deep circulation through hot rock. This segment may be a rare example of an entire fast‐spreading segment where hydrothermal convection cells are powered by downward‐migrating cracking fronts.