Emily Klein
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Most Influential Person Now
Geologist and geochemist
Emily Klein's AcademicInfluence.com Rankings
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Earth Sciences
Emily Klein's Degrees
- PhD Geology University of California, Berkeley
- Masters Geochemistry Stanford University
- Bachelors Geology Stanford University
Why Is Emily Klein Influential?
(Suggest an Edit or Addition)According to Wikipedia, Emily M. Klein is a professor of geology and geochemistry at Duke University. She studies volcanic eruptions and the process of oceanic crust creation. She has spent over thirty years investigating the geology of mid-ocean ridges and identified the importance of the physical conditions of mantle melting on the chemical composition of basalt.
Emily Klein's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Global correlations of ocean ridge basalt chemistry with axial depth and crustal thickness (1987) (1552)
- Petrological systematics of mid-ocean ridge basalts: Constraints on melt generation beneath ocean ridges (1992) (948)
- 3.13 – Geochemistry of the Igneous Oceanic Crust (2003) (207)
- Isotope evidence of a mantle convection boundary at the Australian-Antarctic Discordance (1988) (193)
- Ocean-ridge basalts with convergent-margin geochemical affinities from the Chile Ridge (1995) (181)
- Local versus global variations in ocean ridge basalt composition: A reply (1989) (176)
- Geochemistry of basalts from the southeast Indian Ridge, 115°E–138°E (1991) (161)
- Global biogeochemical cycle of vanadium (2017) (141)
- 4.13 - Composition of the Oceanic Crust (2014) (135)
- Dacite Petrogenesis on Mid-Ocean Ridges: Evidence for Oceanic Crustal Melting and Assimilation (2010) (119)
- Structure of uppermost fast‐spread oceanic crust exposed at the Hess Deep Rift: Implications for subaxial processes at the East Pacific Rise (2002) (113)
- The biogeochemistry of phosphorus after the first century of soil development on Rakata Island, Krakatau, Indonesia (1998) (99)
- Subduction zone geochemical characteristics in ocean ridge basalts from the southern Chile Ridge: Implications of modern ridge subduction systems for the Archean (1996) (86)
- Petrology and Sr, Nd, and Pb isotope geochemistry of mid‐ocean ridge basalt glasses from the 11°45′N to 15°00′N segment of the East Pacific Rise (2000) (81)
- Petrology and geochemistry of primitive lower oceanic crust from Pito Deep: implications for the accretion of the lower crust at the Southern East Pacific Rise (2007) (67)
- Tectonic and magmatic segmentation of the Global Ocean Ridge System: a synthesis of observations (2015) (63)
- Volatile abundances and oxygen isotopes in basaltic to dacitic lavas on mid-ocean ridges: The role of assimilation at spreading centers (2011) (57)
- Role of upwelling hydrothermal fluids in the development of alteration patterns at fast spreading ridges: Evidence from the sheeted dike complex at Pito Deep (2008) (51)
- Geochemistry of dikes and lavas from the north wall of the Hess Deep Rift: Insights into the four‐dimensional character of crustal construction at fast spreading mid‐ocean ridges (2002) (45)
- Uranium-series age constraints on lavas from the axial valley of the Mid-Atlantic Ridge, MARK area (2000) (43)
- Age constraints on crustal recycling to the mantle beneath the southern Chile Ridge: He‐Pb‐Sr‐Nd isotope systematics (1999) (39)
- The origin of bathymetric highs at ridge-transform intersections: A multi-disciplinary case study at the Clipperton Fracture Zone (1994) (38)
- Fresh basalts from the Pacific–Antarctic Ridge extend the Pacific geochemical province (1993) (30)
- Geochemical relationships between dikes and lavas at the Hess Deep Rift: Implications for magma eruptibility (2003) (28)
- Global rate and distribution of H2 gas produced by serpentinization within oceanic lithosphere (2016) (27)
- Compositions of dikes and lavas from the Pito Deep Rift: Implications for crustal accretion at superfast spreading centers (2009) (26)
- Counter-rotating microplates at the Galapagos triple junction (2005) (25)
- Petrogenesis of axial lavas from the southern Chile ridge : Major element constraints (1997) (24)
- Sill to surface: Linking young off-axis volcanism with subsurface melt at the overlapping spreading center at 9°03′N East Pacific Rise (2013) (24)
- Four-dimensional upper crustal construction at fast-spreading mid-ocean ridges: A perspective from an upper crustal cross-section at the Hess Deep Rift (2005) (23)
- Cracking of lithosphere north of the Galapagos triple junction (2008) (23)
- Reconciling geochemical and geophysical observations of magma supply and melt distribution at the 9°N overlapping spreading center, East Pacific Rise (2012) (21)
- Evidence for subduction-related contamination of the mantle beneath the southern Chile Ridge: Implications for ambiguous ophiolite compositions (2000) (20)
- Significance of widespread low effusion rate eruptions over the past two million years for delivery of magma to the overlapping spreading centers at 9°N East Pacific Rise (2009) (18)
- Basalt compositions from the Mid-Atlantic Ridge at the SMARK area (22°30′N to 22°50′N) – implications for parental liquid variability at isotopically homogeneous spreading centers (2001) (14)
- Ocean-ridge basalt compositions correlated with palaeobathymetry (1990) (14)
- Lava geochemistry as a probe into crustal formation at the East Pacific Rise (2012) (14)
- The Effectiveness of Arsenic Remediation from Groundwater in a Private Home (2010) (13)
- Temporal and spatial variability in the composition of lavas exposed along the Western Blanco Transform Fault (2005) (11)
- New insights in crustal accretion expected from Indian Ocean Spreading Centers (1995) (9)
- Global Biogeochemical Cycle of Fluorine (2020) (8)
- Seafloor photo‐geology and sonar terrain modeling at the 9°N overlapping spreading center, East Pacific Rise (2013) (7)
- Global Biogeochemical Cycle of Lithium (2021) (6)
- Earth science: Spread thin in the Arctic (2003) (5)
- Mixing of basalt magmas (1989) (3)
- The Global Biogeochemical Cycle of Arsenic (2022) (1)
- The Evolution of Seafloor Spreading Behind the Tip of the Westward Propagating Cocos‐Nazca Spreading Center (2020) (1)
- Ocean Ridge Magmatic and Hydrothermal Geochemical Processes (1991) (1)
- Alvin, Jason II, DSL-120 Investigation of Super-Fast EPR Crust Exposed at the Pito Deep Rift, Easter Microplate, SE Pacific (2005) (1)
- Prevalence of Uterine Fibroids Amongst Women Hospitalized for Acute PE in a Single Tertiary Center (2023) (0)
- Tectonic, Magmatic and Geochemical Segmentation of the Global Ocean Ridge System: A Synthesis of Observations (2014) (0)
- Table 1) Major and trace element composition of Pito Deep Rift dikes and lavas (2008) (0)
- Evolution of Magmatic Processes at Superfast-Spreading Centers: Insights from Spatial Variations in Upper Crustal Composition at the Pito Deep Rift (2008) (0)
- A Small Ocean Rift Leads to a New View of the Galapagos Microplate: the Incipient Rift at 2 Degrees North, East of the East Pacific Rise (2004) (0)
- Table 1) Recalculated major element compositions of Pito Deep Rift dikes and lavas (2012) (0)
- The Water Crisis in Gaza (2006) (0)
- Geochemical variations in mid-ocean ridge basalts from the Cocos-Nazca Spreading Center (2019) (0)
- Initial rifting to seafloor spreading: geochemical and petrologic variations in basalts from the Cocos-Nazca Spreading Center (2018) (0)
- Volatiles in the Chile Ridge Basalts and the Role of Adjacent Andean Subduction Zone (2018) (0)
- Committee of Visitors Advises NSF Division of Ocean Sciences (2010) (0)
- Upper Crustal Structure of Superfast‐Spread Oceanic Crust Exposed at the Pito Deep Rift: Implications for Seafloor Spreading (2023) (0)
- Surpassing our genes: The subversive post-human message of 'Gattaca' (2021) (0)
- Mantle temperature: a 2009 perspective (2009) (0)
- Identification of a Possible Second, Large Propagator North of the Hess Deep Rift (2003) (0)
- Performing Dream Homes: Theater and the Spatial Politics of the Domestic Sphere ed. (2021) (0)
- (Table S5) Chlorite and chlorite-smectite compositions of Pito Deep samples (2008) (0)
- Crustal Assimilation and the Petrogenesis of Mid-Ocean Ridge Dacites (2010) (0)
- Variations in crustal structure in the region of the Galapagos triple junction (2019) (0)
- Editorial Commentary: Arthroscopy Is the Gold Standard for Diagnosis of Meniscal Ramp Lesions: Magnetic Resonance Imaging Also May Be Helpful. (2023) (0)
- Composition of dikes and lavas from the Pito Deep Rift (2008) (0)
- Gravity Anomalies and Implications for Shallow Mantle Processes of the Western Cocos‐Nazca Spreading Center (2023) (0)
- DSL120 mosaics of superfast EPR crustal layers exposed by ultraslow seafloor spreading near Pito Deep. (2005) (0)
- Formation of the Galapagos Microplate and its Effect on Rifting at the Galapagos Triple Junction (2020) (0)
- An analytical model of the free H 2 produced by serpentinization within oceanic lithosphere (2014) (0)
- Tectonic and Geologic Characterization of the Incipient Rift, east of the East Pacific Rise at 2o40'N (2003) (0)
- Crustal Assimilation at Mid-Ocean Ridges Using Major and Trace Elements, Volatiles, Oxygen Isotopes and Petrologic Modeling (2010) (0)
- On- and off-axis magma transport in dikes at axial discontinuities: 9N OSC EPR (2013) (0)
- Reply to Selin: Human impacts on the atmospheric burden of trace metals (2018) (0)
- Raced bodies/erased bodies: The Federal Theatre Project’s Negro Repertory Lysistrata (1936) (2014) (0)
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