Decline of the world's saline lakes WA Wurtsbaugh, C Miller, SE Null, RJ DeRose, P Wilcock, ... Nature Geoscience 10 (11), 816-821, 2017 | 474 | 2017 |
High-resolution particle size analysis of naturally occurring very fine-grained sediment through laser diffractometry M Sperazza, JN Moore, MS Hendrix Journal of Sedimentary Research 74 (5), 736-743, 2004 | 465 | 2004 |
Partitioning of arsenic and metals in reducing sulfidic sediments JN Moore, WH Ficklin, C Johns Environmental Science & Technology 22 (4), 432-437, 1988 | 438 | 1988 |
Hazardous wastes from large-scale metal extraction. A case study JN Moore, SN Luoma Environmental science & technology 24 (9), 1278-1285, 1990 | 411 | 1990 |
Pit lakes: their characteristics and the potential for their remediation JM Castro, JN Moore Environmental geology 39, 1254-1260, 2000 | 250 | 2000 |
Direct observation of heavy metal-mineral association from the Clark Fork River Superfund Complex: Implications for metal transport and bioavailability MF Hochella Jr, JN Moore, CV Putnis, A Putnis, T Kasama, DD Eberl Geochimica et cosmochimica acta 69 (7), 1651-1663, 2005 | 233 | 2005 |
Selenium fractionation and speciation in a wetland system Y Zhang, JN Moore Environmental science & technology 30 (8), 2613-2619, 1996 | 217 | 1996 |
Diel variation of trace metals in the upper Clark Fork River, Montana CM Brick, JN Moore Environmental science & technology 30 (6), 1953-1960, 1996 | 205 | 1996 |
The fate of geothermal arsenic in the Madison and Missouri Rivers, Montana and Wyoming DA Nimick, JN Moore, CE Dalby, MW Savka Water Resources Research 34 (11), 3051-3067, 1998 | 198 | 1998 |
A TEM study of samples from acid mine drainage systems: Metal-mineral association with implications for transport MF Hochella Jr, JN Moore, U Golla, A Putnis Geochimica et Cosmochimica Acta 63 (19-20), 3395-3406, 1999 | 197 | 1999 |
Grain size partitioning of metals in contaminated, coarse-grained river floodplain sediment: Clark Fork River, Montana, USA JN Moore, EJ Brook, C Johns Environmental Geology and Water Sciences 14, 107-115, 1989 | 197 | 1989 |
Differences in hyporheic-zone microbial community structure along a heavy-metal contamination gradient K Feris, P Ramsey, C Frazar, JN Moore, JE Gannon, WE Holben Applied and Environmental Microbiology 69 (9), 5563-5573, 2003 | 193 | 2003 |
Mineralogy and trace element association in an acid mine drainage iron oxide precipitate; comparison of selective extractions DK McCarty, JN Moore, WA Marcus Applied Geochemistry 13 (2), 165-176, 1998 | 141 | 1998 |
Reaction scheme for the oxidation of As (III) to As (V) by birnessite JN Moore, JR Walker, TH Hayes Clays and Clay Minerals 38, 549-555, 1990 | 140 | 1990 |
Environmentally important, poorly crystalline Fe/Mn hydrous oxides: Ferrihydrite and a possibly new vernadite-like mineral from the Clark Fork River Superfund Complex MF Hochella Jr, T Kasama, A Putnis, CV Putnis, JN Moore American Mineralogist 90 (4), 718-724, 2005 | 138 | 2005 |
Basics of physical stratigraphy and sedimentology WJ Fritz, JN Moore (No Title), 1988 | 133 | 1988 |
Arsenic mobilization in the hyporheic zone of a contaminated stream SA Nagorski, JN Moore Water Resources Research 35 (11), 3441-3450, 1999 | 126 | 1999 |
Prediction of water-soluble metal concentrations in fluvially deposited tailings sediments, Upper Clark Fork Valley, Montana, USA DA Nimick, JN Moore Applied Geochemistry 6 (6), 635-646, 1991 | 125 | 1991 |
Origin, structure, and evolution of a reattachment bar, Colorado River, Grand Canyon, Arizona DM Rubin, JC Schmidt, JN Moore Journal of Sedimentary Research 60 (6), 982-991, 1990 | 125 | 1990 |
Particle-size and chemical control of As, Cd, Cu, Fe, Mn, Ni, Pb, and Zn in bed sediment from the Clark Fork river, Montana (USA) EJ Brook, JN Moore Science of the Total Environment 76 (2-3), 247-266, 1988 | 125 | 1988 |