Southern Methodist University / University of Hawaii / University of California / /
IndustryTerm
low wave energy / reef systems / low-energy environments / high-energy environments / personal communications / high wave energy / high-energy assemblage / heavy laminar micritic cement displaying knobby texture / lower wave energy / aragonitic cement / knobby micritic cement / swell energy / depositional energy / low-energy shadows / energy / Low-energy assemblages / Hawaiian reef systems / low-energy assemblage / increased north swell energy / study site / high-energy reef crest / wave energy / low-energy lithofacies / energy conditions / high-energy / cement / low-energy settings / less wave energy / mid-energy assemblage / /
NaturalFeature
Kailua Bay / Shannon / Molokai reef / Molokai / Mamala Bay / Holocene reef / Holocene reefs / Hanauma Bay / Sunset Beach / Oahu reef / Kaneohe Bay / West Molokai volcano / Kaiwi Channel / Pacific ocean / ENSO reef / East Molokai volcano / Indian ocean / East volcano / Lanai / /
Organization
Geological Survey Pacific Science Center / Department of Geology and Geophysics / Woods Hole Oceanographic Institution / Mid-Holocene Unit / Society for Sedimentary Geology / University of California / Santa Cruz / Pleistocene / University of Hawaii / Southern Methodist University / Holocene Unit / U.S. Naval Oceanographic Office / Department of Geological Sciences / /
Person
Coral Framestone / A. MARY S. ENGELS / Hale O Lono / All Hikauhi / Schroeder / /
Position
Emperor / quantitative physical model of the relationship / /
HOLOCENE REEF ACCRETION: SOUTHWEST MOLOKAI, HAWAII, U.S.A. MARY S. ENGELS,1 CHARLES H. FLETCHER, III, 1 MICHAEL E. FIELD, 2 CURT D. STORLAZZI, 2 ERIC E. GROSSMAN, 2 JOHN J.B. ROONEY,1 CHRISTOPHER L. CONGER,1 AND CRAIG GL