# | Title | Journal | Year | Citations |
---|
1 | ISORROPIA: A New Thermodynamic Equilibrium Model for Multiphase Multicomponent Inorganic Aerosols | Aquatic Geochemistry | 1998 | 1,146 |
2 | (null) | Aquatic Geochemistry | 1998 | 746 |
3 | The aquatic chemistry of rare earth elements in rivers and estuaries | Aquatic Geochemistry | 1995 | 485 |
4 | Rare Earth Element and Yttrium Variability in South East Queensland Waterways | Aquatic Geochemistry | 2006 | 443 |
5 | (null) | Aquatic Geochemistry | 1998 | 300 |
6 | The Role of One- and Two-Electron Transfer Reactions in Forming Thermodynamically Unstable Intermediates as Barriers in Multi-Electron Redox Reactions | Aquatic Geochemistry | 2010 | 190 |
7 | Adsorption and Desorption of Phosphate on Calcite and Aragonite in Seawater | Aquatic Geochemistry | 2001 | 183 |
8 | Origin of Salts and Brine Evolution of Bolivian and Chilean Salars | Aquatic Geochemistry | 2009 | 172 |
9 | (null) | Aquatic Geochemistry | 1997 | 162 |
10 | Factors controlling the solubility of aerosol trace metals in the atmosphere and on mixing into seawater | Aquatic Geochemistry | 1996 | 147 |
11 | A Chemical Equilibrium Model for Natural Waters | Aquatic Geochemistry | 1998 | 137 |
12 | (null) | Aquatic Geochemistry | 2000 | 130 |
13 | Marine Dissolved Organic Phosphorus Composition: Insights from Samples Recovered Using Combined Electrodialysis/Reverse Osmosis | Aquatic Geochemistry | 2010 | 130 |
14 | Fe–Al–organic Colloids Control of Trace Elements in Peat Soil Solutions: Results of Ultrafiltration and Dialysis | Aquatic Geochemistry | 2005 | 127 |
15 | Lake Van, Eastern Anatolia, Hydrochemistry and History | Aquatic Geochemistry | 2009 | 123 |
16 | Evidence for Strong Copper(I) Complexation by Organic Ligands in Seawater | Aquatic Geochemistry | 1998 | 121 |
17 | Hydrochemistry of Salt Lakes of the Qinghai-Tibet Plateau, China | Aquatic Geochemistry | 2009 | 120 |
18 | Closed Basin Brine Evolution and the Influence of Ca–Cl Inflow Waters: Death Valley and Bristol Dry Lake California, Qaidam Basin, China, and Salar de Atacama, Chile | Aquatic Geochemistry | 2009 | 116 |
19 | The Removal of Dissolved Metals by Hydroxysulphate Precipitates during Oxidation and Neutralization of Acid Mine Waters, Iberian Pyrite Belt | Aquatic Geochemistry | 2006 | 112 |
20 | The Chemical Speciation of Fe(III) in Freshwaters | Aquatic Geochemistry | 2008 | 110 |
21 | Impact of Episodic Warming Events | Aquatic Geochemistry | 2004 | 109 |
22 | Nutrient Inputs, Phytoplankton Response, and CO2 Variations in a Semi-Enclosed Subtropical Embayment, Kaneohe Bay, Hawaii | Aquatic Geochemistry | 2011 | 107 |
23 | Dissolution of Carbonate Sediments Under Rising pCO2 and Ocean Acidification: Observations from Devil’s Hole, Bermuda | Aquatic Geochemistry | 2007 | 106 |
24 | The chemistry of the anoxic waters in the Framvaren Fjord, Norway | Aquatic Geochemistry | 1995 | 104 |
25 | (null) | Aquatic Geochemistry | 2001 | 95 |
26 | Geomicrobiology of Blood Falls: An Iron-Rich Saline Discharge at the Terminus of the Taylor Glacier, Antarctica | Aquatic Geochemistry | 2004 | 95 |
27 | Geochemical-focusing of manganese in lake sediments ? An indicator of deep-water oxygen conditions | Aquatic Geochemistry | 1997 | 94 |
28 | The Mobility of Rare Earth Elements and Redox Sensitive Elements in the Groundwater/Seawater Mixing Zone of a Shallow Coastal Aquifer | Aquatic Geochemistry | 2003 | 92 |
29 | (null) | Aquatic Geochemistry | 1999 | 91 |
30 | Comparative Scavenging of Yttrium and the Rare Earth Elements in Seawater: Competitive Influences of Solution and Surface Chemistry | Aquatic Geochemistry | 2004 | 91 |
31 | Fe(II)-Na(I)-Ca(II) Cation Exchange on Montmorillonite in Chloride Medium: Evidence for Preferential Clay Adsorption of Chloride – Metal Ion Pairs in Seawater | Aquatic Geochemistry | 2005 | 91 |
32 | Uranium(6+) sorption on montmorillonite: Experimental and surface complexation modeling study | Aquatic Geochemistry | 1997 | 90 |
33 | Characterizing Colloidal Material in Natural Waters | Aquatic Geochemistry | 1997 | 89 |
34 | (null) | Aquatic Geochemistry | 2002 | 88 |
35 | Sources of Terrestrial Organic Carbon in the Mississippi Plume Region: Evidence for the Importance of Coastal Marsh Inputs | Aquatic Geochemistry | 2011 | 87 |
36 | The solubility control of rare earth elements in natural terrestrial waters and the significance of PO 4 3? and CO 3 2? in limiting dissolved rare earth concentrations: A review of recent information | Aquatic Geochemistry | 1995 | 86 |
37 | Redox Chemistry in the Root Zone of a Salt Marsh Sediment in the Tagus Estuary, Portugal | Aquatic Geochemistry | 2003 | 86 |
38 | Using Mg Isotopes to Trace Cyanobacterially Mediated Magnesium Carbonate Precipitation in Alkaline Lakes | Aquatic Geochemistry | 2013 | 85 |
39 | A continuous and mechanistic representation of calcite reaction-controlled kinetics in dilute solutions at 25�C and 1 atm total pressure | Aquatic Geochemistry | 1995 | 84 |
40 | Hydrochemical framework of groundwater in the Ankobra Basin, Ghana | Aquatic Geochemistry | 2007 | 83 |
41 | Salt Waters of the Northern Apennine Foredeep Basin (Italy): Origin and Evolution | Aquatic Geochemistry | 2011 | 83 |
42 | (null) | Aquatic Geochemistry | 1999 | 82 |
43 | Diagenesis of vascular plant organic matter components during burial in lake sediments | Aquatic Geochemistry | 1995 | 81 |
44 | Natural and anthropogenic budgets of a small watershed in the massif central (France): Chemical and strontium isotopic characterization of water and sediments | Aquatic Geochemistry | 1996 | 81 |
45 | Colloidal Control on the Distribution of Rare Earth Elements in Shallow Groundwaters | Aquatic Geochemistry | 2010 | 81 |
46 | Increasing Iron Concentrations in UK Upland Waters | Aquatic Geochemistry | 2008 | 80 |
47 | The Multiple Sources and Patterns of Methane inNorth Sea Waters | Aquatic Geochemistry | 1998 | 79 |
48 | AquaEnv : An Aqua tic Acid–Base Modelling Env ironment in R | Aquatic Geochemistry | 2010 | 77 |
49 | Examination and Refinement of the Determination of Aqueous Hydrogen Sulfide by the Methylene Blue Method | Aquatic Geochemistry | 2011 | 77 |
50 | Metallophores and Trace Metal Biogeochemistry | Aquatic Geochemistry | 2015 | 76 |