# | Title | Journal | Year | Citations |
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1 | Microbial Carbonate Precipitation as a Soil Improvement Technique | Geomicrobiology Journal | 2007 | 1,313 |
2 | A comparison of methods for the quantification of bacterial sulfate reduction in coastal marine sediments | Geomicrobiology Journal | 1978 | 619 |
3 | Anaerobic mineralization of marine sediment organic matter: Rates and the role of anaerobic processes in the oceanic carbon economy | Geomicrobiology Journal | 1987 | 475 |
4 | Microbiological fractionation of stable sulfur isotopes: A review and critique | Geomicrobiology Journal | 1979 | 401 |
5 | Fungi as Geologic Agents | Geomicrobiology Journal | 2000 | 368 |
6 | Organic matter mineralization with the reduction of ferric iron: A review | Geomicrobiology Journal | 1987 | 350 |
7 | Biomineralization of Poorly Crystalline Fe(III) Oxides by Dissimilatory Metal Reducing Bacteria (DMRB) | Geomicrobiology Journal | 2002 | 349 |
8 | Microbially Induced Calcium Carbonate Precipitation on Surface or in the Bulk of Soil | Geomicrobiology Journal | 2012 | 323 |
9 | State-of-the-Art Review of Biocementation by Microbially Induced Calcite Precipitation (MICP) for Soil Stabilization | Geomicrobiology Journal | 2017 | 313 |
10 | Geomicrobiology of Caves: A Review | Geomicrobiology Journal | 2001 | 309 |
11 | Silicates, Silicate Weathering, and Microbial Ecology | Geomicrobiology Journal | 2001 | 293 |
12 | Mechanisms for Fe(III) Oxide Reduction in Sedimentary Environments | Geomicrobiology Journal | 2002 | 286 |
13 | Nitrogen isotope effects in the assimilation of inorganic nitrogenous compounds by marine diatoms | Geomicrobiology Journal | 1978 | 282 |
14 | Microbially Mediated Calcium Carbonate Precipitation: Implications for Interpreting Calcite Precipitation and for Solid-Phase Capture of Inorganic Contaminants | Geomicrobiology Journal | 2001 | 279 |
15 | Linking Diversity and Stable Isotope Fractionation in Ammonia-Oxidizing Bacteria | Geomicrobiology Journal | 2003 | 279 |
16 | Subscribed Content Calcium Carbonate Precipitation by Ureolytic Subsurface Bacteria | Geomicrobiology Journal | 2000 | 278 |
17 | Effect of Microorganisms and Microbial Metabolites on Apatite Dissolution | Geomicrobiology Journal | 2002 | 257 |
18 | Activity, Distribution, and Diversity of Sulfate Reducers and Other Bacteria in Sediments above Gas Hydrate (Cascadia Margin, Oregon) | Geomicrobiology Journal | 2003 | 254 |
19 | Precipitation of Calcite by Indigenous Microorganisms to Strengthen Liquefiable Soils | Geomicrobiology Journal | 2011 | 254 |
20 | Chemical and microbiological studies of sulfide‐mediated manganese reduction1 | Geomicrobiology Journal | 1986 | 248 |
21 | Diversity of Ferrous Iron-Oxidizing, Nitrate-Reducing Bacteria and their Involvement in Oxygen-Independent Iron Cycling | Geomicrobiology Journal | 2004 | 227 |
22 | Characterization of Specific Membrane Fatty Acids as Chemotaxonomic Markers for Sulfate-Reducing Bacteria Involved in Anaerobic Oxidation of Methane | Geomicrobiology Journal | 2003 | 222 |
23 | Acetate Availability and its Influence on Sustainable Bioremediation of Uranium-Contaminated Groundwater | Geomicrobiology Journal | 2011 | 222 |
24 | Influence of Biogenic Fe(II) on Bacterial Crystalline Fe(III) Oxide Reduction | Geomicrobiology Journal | 2002 | 220 |
25 | Photolithotropic and chemoorganotrophic activity of bacteria and algae as related to beachrock formation and degradation (gulf of Aqaba, Sinai) | Geomicrobiology Journal | 1979 | 219 |
26 | Distribution of aerobic bacteria, protozoa, algae, and fungi in deep subsurface sediments | Geomicrobiology Journal | 1989 | 206 |
27 | Pore‐size constraints on the activity and survival of subsurface bacteria in a late cretaceous shale‐sandstone sequence, northwestern New Mexico | Geomicrobiology Journal | 1997 | 206 |
28 | Bioremediation of metal‐contaminated surface and groundwaters | Geomicrobiology Journal | 1990 | 205 |
29 | Characterization of Neutrophilic Fe(II)-Oxidizing Bacteria Isolated from the Rhizosphere of Wetland Plants and Description ofFerritrophicum radicicolagen. nov. sp. nov., andSideroxydans paludicolasp. nov. | Geomicrobiology Journal | 2007 | 205 |
30 | Constraints on the Biological Source(s) of the Orphan Branched Tetraether Membrane Lipids | Geomicrobiology Journal | 2009 | 199 |
31 | An Anaerobic World in Sponges | Geomicrobiology Journal | 2005 | 198 |
32 | Numbers, diversity, and morphological characteristics of aerobic, chemoheterotrophic bacteria in deep subsurface sediments from a site in South Carolina | Geomicrobiology Journal | 1989 | 197 |
33 | Role of black fungi in color change and biodeterioration of antique marbles | Geomicrobiology Journal | 1993 | 197 |
34 | Diverse Mn(II)-Oxidizing Bacteria Isolated from Submarine Basalts at Loihi Seamount | Geomicrobiology Journal | 2005 | 195 |
35 | A comparison of methods for the quantification of bacterial sulfate reduction in coastal marine sediments | Geomicrobiology Journal | 1978 | 191 |
36 | Isolation ofPaenibacillussp. and Assessment of its Potential for Enhancing Mineral Weathering | Geomicrobiology Journal | 2012 | 190 |
37 | The Wadi Natrun: Chemical composition and microbial mass developments in alkaline brines of Eutrophic Desert Lakes | Geomicrobiology Journal | 1979 | 184 |
38 | Effects of bacterial exopolymer adhesion on the entrainment of sand | Geomicrobiology Journal | 1990 | 179 |
39 | Resistance to, and Accumulation of, Uranium by Bacteria from a Uranium-Contaminated Site | Geomicrobiology Journal | 2004 | 179 |
40 | Mycosporine‐like amino acids as osmotic solutes in a community of halophilic cyanobacteria | Geomicrobiology Journal | 1997 | 177 |
41 | Sulfate reduction in coastal ecosystems | Geomicrobiology Journal | 1987 | 176 |
42 | The Influence ofBacillus pasteuriion the Nucleation and Growth of Calcium Carbonate | Geomicrobiology Journal | 2006 | 171 |
43 | Bacterial Iron Oxidation in Circumneutral Freshwater Habitats: Findings from the Field and the Laboratory | Geomicrobiology Journal | 2004 | 165 |
44 | Precipitation of arsenic during bacterial sulfate reduction | Geomicrobiology Journal | 1995 | 164 |
45 | A brief review of microbial arsenate respiration | Geomicrobiology Journal | 1998 | 164 |
46 | Detection and Enumeration of Sulphate-Reducing Bacteria in Estuarine Sediments by Competitive PCR | Geomicrobiology Journal | 2004 | 162 |
47 | Calcite precipitation by marine bacteria∗ | Geomicrobiology Journal | 1980 | 161 |
48 | Lithotrophic and Heterotrophic Bacteria in Deep Subsurface Sediments and Their Relation to Sediment Properties | Geomicrobiology Journal | 1989 | 160 |
49 | Neutrophilic Iron-Oxidizing Bacteria in the Ocean: Their Habitats, Diversity, and Roles in Mineral Deposition, Rock Alteration, and Biomass Production in the Deep-Sea | Geomicrobiology Journal | 2004 | 159 |
50 | Geomicrobiology of Pyrite (FeS2) Dissolution: Case Study at Iron Mountain, California | Geomicrobiology Journal | 1999 | 158 |