The use of chromium reduction in the analysis of reduced inorganic sulfur in sediments and shales DE Canfield, R Raiswell, JT Westrich, CM Reaves, RA Berner Chemical geology 54 (1-2), 149-155, 1986 | 1582 | 1986 |
Burial of organic carbon and pyrite sulfur in sediments over Phanerozoic time: a new theory RA Berner, R Raiswell Geochimica et Cosmochimica Acta 47 (5), 855-862, 1983 | 1313 | 1983 |
The reactivity of sedimentary iron minerals toward sulfide DE Canfield, R Raiswell, SH Bottrell American Journal of Science 292 (9), 659-683, 1992 | 946 | 1992 |
C/S method for distinguishing freshwater from marine sedimentary rocks RA Berner, R Raiswell Geology 12 (6), 365-368, 1984 | 866 | 1984 |
Sources of iron for pyrite formation in marine sediments R Raiswell, DE Canfield American Journal of Science 298 (3), 219-245, 1998 | 817 | 1998 |
Degree of pyritization of iron as a paleoenvironmental indicator of bottom-water oxygenation R Raiswell, F Buckley, RA Berner, TF Anderson Journal of Sedimentary Research 58 (5), 812-819, 1988 | 796 | 1988 |
Pyrite formation in euxinic and semi-euxinic sediments R Raiswell, RA Berner American Journal of Science 285 (8), 710-724, 1985 | 768 | 1985 |
The iron biogeochemical cycle past and present R Raiswell, DE Canfield Geochemical perspectives 1 (1), 1-2, 2012 | 693 | 2012 |
A revised scheme for the reactivity of iron (oxyhydr) oxide minerals towards dissolved sulfide SW Poulton, MD Krom, R Raiswell Geochimica et cosmochimica acta 68 (18), 3703-3715, 2004 | 668 | 2004 |
Could bacteria have formed the Precambrian banded iron formations? KO Konhauser, T Hamade, R Raiswell, RC Morris, FG Ferris, G Southam, ... Geology 30 (12), 1079-1082, 2002 | 629 | 2002 |
The low-temperature geochemical cycle of iron: from continental fluxes to marine sediment deposition SW Poulton, R Raiswell American journal of science 302 (9), 774-805, 2002 | 552 | 2002 |
The evolution of the sulfur cycle DE Canfield, R Raiswell American Journal of Science 299 (7-9), 697-723, 1999 | 447 | 1999 |
A comparison of iron extraction methods for the determination of degree of pyritisation and the recognition of iron-limited pyrite formation R Raiswell, DE Canfield, RA Berner Chemical geology 111 (1-4), 101-110, 1994 | 433 | 1994 |
Pyrite texture, isotopic composition and the availability of iron R Raiswell American Journal of Science 282 (8), 1244-1263, 1982 | 382 | 1982 |
Mudrock-hosted carbonate concretions: a review of growth mechanisms and their influence on chemical and isotopic composition R Raiswell, QJ Fisher Journal of the Geological Society 157 (1), 239-251, 2000 | 370 | 2000 |
Pyrite formation and fossil preservation DE Canfield Taphonomy: releasing the data locked in the fossil record, Topics in …, 1991 | 347 | 1991 |
Pyrite and organic matter in Phanerozoic normal marine shales R Raiswell, RA Berner Geochimica et Cosmochimica Acta 50 (9), 1967-1976, 1986 | 345 | 1986 |
The growth of Cambrian and Liassic concretions R Raiswell Sedimentology 17 (3‐4), 147-171, 1971 | 309 | 1971 |
Bioavailable iron in the Southern Ocean: the significance of the iceberg conveyor belt R Raiswell, LG Benning, M Tranter, S Tulaczyk Geochemical transactions 9, 1-9, 2008 | 300 | 2008 |
Ice sheets as a significant source of highly reactive nanoparticulate iron to the oceans JR Hawkings, JL Wadham, M Tranter, R Raiswell, LG Benning, ... Nature communications 5 (1), 1-8, 2014 | 284 | 2014 |