Download

Full Text

See more details

X (3)

Mendeley (83)

43

CITATIONS

43 Total citations

11 Recent citations

5.39 Field Citation Ratio

n/a Relative Citation Ratio

publications

0

supporting

0

mentioning

0

contrasting

0

Smart Citations

0

0

0

0

Citing PublicationsSupportingMentioningContrasting

View Citations

See how this article has been cited at scite.ai

scite shows how a scientific paper has been cited by providing the context of the citation, a classification describing whether it supports, mentions, or contrasts the cited claim, and a label indicating in which section the citation was made.

• Abraham, K., Opfergelt, S., Fripiat, F., Cavagna, A.-J., de Jong, J.T.M., Foley, S., André, L., Cardinal, D., Δ30Si and δ29Si determinations on USGS BHVO-1 and BHVO-2 reference materials via new configuration on Nu Plasma Multi Collector ICP-MS. Geost. Geoanal. Res. 32 (2008), 193–202.
• Akerman, A., Poitrasson, F., Oliva, P., Audry, S., Prunier, J., Braun, J.-J., The isotopic fingerprint of Fe cycling in an equatorial soil–plant–water system: the Nsimi watershed, South Cameroon. Chem. Geol. 385 (2014), 104–116.
• Arnalds, O., Volcanic Soils of Iceland. Catena 56 (2004), 3–20.
• Arnalds, O., Soils of Iceland. Jokull 58 (2008), 409–421.
• Arnalds, O., Gíslason, S.R., Validity of oxalate extraction for characterization and Al/Si calculations for vitric Andosols. Soil Resources of European Volcanic Systems. Mainzer Naturwiss. Archiv. 40 (2002), 13–15.
• Arnalds, O., Gretarsson, E., Soil Map of Iceland. second ed., 2001, Agricultural Research Institute, Reykjavik Available in digital format www.rala.is/desert.
• Arnalds, O., Gudmundsson, J., Oskarsson, H., Brink, S.H., Gisladottir, F.O., Icelandic inland wetlands: characteristics and Extent of Draining. Wetlands, 2016, 10.1007/s13157-016-0784-1.
• Bascomb, D.L., Distribution of pyrophosphate extractable iron and organic carbon in soils in various groups. J. Soil. Sci. 19 (1968), 251–268.
• Beard, B.L., Johnson, C.M., Skulan, J.L., Nealson, K.H., Cox, L., Sun, H., Application of Fe isotopes to tracing the geochemical and biological cycling of Fe. Chem. Geol. 195 (2003), 87–117.
• Bergquist, B.A., Boyle, E.A., Iron isotopes in the Amazon River system: weathering and transport signatures. Earth Planet. Sci. Lett. 248 (2006), 54–68.
• Blakemore, L.C., Searle, P.L., Daly, B.K., 1981. Methods for Chemical Analysis of Soil. New Zealand Soil Bureau Scientific Report 10 A, second revision.
• Bonneville, S., Van Cappellen, P., Behrends, T., Microbial reduction of iron(III) oxyhydroxides: effects of mineral solubility and availability. Chem. Geol. 212 (2004), 255–268.
• Borggaard, O.K., 1988. Phase Identification by Selective Dissolution Techniques. Iron in soils and clay minerals. In: Stucki, J.W., Goodman, B.A., Schwertmann, U. (Eds.), Nato Science Series C, vol. 217, pp. 83–98.
• Boyd, P.W., Watson, A.J., Law, C.S., Abraham, E.R., Trull, T., Murdoch, R., et al. A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization. Nature 407 (2000), 695–702.
• Boyle, E.A., Edmond, J.M., The mechanism of iron removal in estuaries. Geochim. Cosmochim. Acta 41 (1977), 1313–1324.
• Brantley, S.L., Liermann, L., Bullen, T.D., Fractionation of Fe isotopes by soil microbes and organic acids. Geology 29 (2001), 535–538.
• Brantley, S.L., Liermann, L.J., Guynn, R.L., Anbar, A., Icopini, G.A., Barling, J., Fe isotopic fractionation during mineral dissolution with and without bacteria. Geochim. Cosmochim. Acta 68 (2004), 3189–3204.
• Buettner, S.W., Kramer, M.G., Chadwick, O.A., Thompson, A., Mobilization of colloidal carbon during iron reduction in basaltic soils. Geoderma 221–222 (2014), 139–145.
• Buss, H.L., Mathur, R., White, A.F., Brantley, S.L., Phosphorus and iron cycling in deep saprolite, Luquillo Mountains, Puerto Rico. Chem. Geol. 269 (2010), 52–61.
• Caldelas, C., Weiss, D.J., Zinc Homeostasis and isotopic fractionation in plants: a review. Plant Soil 411 (2017), 17–46.
• Chapman, J.B., Weiss, D.J., Shan, Y., Lemburger, M., Iron isotope fractionation during leaching of granite and basalt by hydrochloric and oxalic acids. Geochim. Cosmochim. Acta 73 (2009), 1312–1324.
• Chauvel, A., Lucas, Y., Boulet, R., On the genesis of the soil mantle of the region of Manaus, Central Amazonia, Brazil. Experientia 43 (1987), 234–241.
• Chorover, J., Kretzschmar, R., Garcia-Pichel, F., Sparks, D.L., Soil biogeochemical processes within the Critical Zone. Elements 3 (2007), 321–326.
• Cornelis, J.-T., Delvaux, B., Cardinal, D., André, L., Ranger, J., Opfergelt, S., Tracing mechanisms controlling the release of dissolved silicon in forest soil solutions using Si isotopes and Ge/Si ratios. Geochim. Cosmochim. Acta 74 (2010), 3913–3924.
• Cornelis, J.T., Weis, D., Lavkulich, L., Vermeire, M.-L., Delvaux, B., Barling, J., Silicon isotopes record dissolution and re-precipitation of pedogenic clay minerals in a podzolic soil chronosequence. Geoderma 235–236 (2014), 19–29.
• Cornell, R.M., Schwertmann, U., The Iron Oxides: Structure, Properties, Reactions, Occurrence and Uses. second ed., 2003, VCH, Weinheim, Germany.
• Cornu, S., Besnault, A., Bermond, A., Soil podzolisation induced by reforestation as shown by sequential and kinetic extractions of Fe and Al. Eur. J. Soil Sci. 59 (2008), 222–232.
• Cornu, S., Clozel, B., Extractions séquentielles et spéciation des éléments trace métalliques dans les sols naturels: analyse critique. Etudes et Gestion des Sols 7 (2000), 179–189.
• Crochet, P., Jóhannesson, T., Jónsson, T., Sigurðsson, O., Björnsson, H., Pálsson, F., Barstad, I., Estimating the spatial distribution of precipitation in Iceland using a linear model of orographic precipitation. J. Hydrometeorol. 8 (2007), 1285–1306.
• Dauphas, N., John, G.J., Rouxel, O., Iron isotope systematics. Rev. Mineral. Geochem. 82 (2017), 415–510.
• Delmelle, P., Opfergelt, S., Cornelis, J.-T., Ping, C.L., Volcanic soils. Sigurdsson, H., Houghton, B., Rymer, H., Stix, J., McNutt, S., (eds.) The Encyclopedia of Volcanoes, second ed., 2015, Academic Press, San Diego, 1253–1264.
• Delstanche, S., Opfergelt, S., Cardinal, D., Elsass, F., André, L., Delvaux, B., Silicon isotopic fractionation during adsorption of aqueous monosilicic acid onto iron oxide. Geochim. Cosmochim. Acta 73 (2009), 923–934.
• Dideriksen, K., Baker, J.A., Stipp, S.L.S., Equilibrium Fe isotope fractionation between inorganic aqueous Fe(III) and the siderophore complex, Fe(III)-desferrioxamine B. Earth Planet. Sci. Lett. 269 (2008), 280–290.
• Dietzel, M., Impact of cyclic freezing on precipitation of silica in Me–SiO2–H2O systems and geochemical implications for cryosoils. Chem. Geol. 216 (2005), 79–88.
• dos Santos Pinheiro, G.M., Poitrasson, F., Sondag, F., Cochonneau, G., Vieira, L.C., Contrasting iron isotopic compositions in river suspended particulate matter: the Negro and the Amazon annual river cycles. Earth Planet. Sci. Lett. 394 (2014), 168–178.
• Emmanuel, S., Erel, Y., Matthews, A., Teutsch, N., A preliminary mixing model for Fe isotopes in soils. Chem. Geol. 222 (2005), 23–34.
• Escoube, R., Rouxel, O.J., Pokrovsky, O.S., Schroth, A., Holmes, R.M., Donard, O.F.X., Iron isotope systematics in Arctic rivers. C. R. Geosci. 347 (2015), 377–385.
• Fantle, M.S., DePaolo, D.J., Iron isotopic fractionation during continental weathering. Earth Planet. Sci. Lett. 228 (2004), 547–562.
• Fekiacova, Z., Pichat, S., Cornu, S., Balesdent, J., Inferences from the vertical distribution of Fe isotopic compositions on pedogenetic processes in soils. Geoderma 209–210 (2013), 110–118.
• Fekiacova, Z., Vermeire, M.L., Bechon, L., Cornelis, J.T., Cornu, S., Can Fe isotope fractionations trace the pedogeneticmechanisms involved in podzolization?. Geoderma 296 (2017), 38–46.
• Frings, P.J., Clymans, W., Fontorbe, G., De La Rocha, C.L., Conley, D.J., The continental Si cycle and its impact on the ocean Si isotope budget. Chem. Geol. 425 (2016), 12–36.
• Fritsch, E., Allard, T., Benedetti, M.F., Bardy, M., Do Nascimento, N.R., Li, Y., Calas, G., Organic complexation and translocation of ferric iron in podzols of the Negro River watershed. Separation of secondary Fe species from Al species. Geochim. Cosmochim. Acta 73 (2009), 1813–1825.
• Fritsch, E., Balan, E., Do Nascimento, N.R., Allard, T., Bardy, M., Bueno, G., Derenne, S., Melfi, A.J., Calas, G., Deciphering the weathering processes using environmental mineralogy and geochemistry: towards an integrated model of laterite and podzol genesis in the Upper Amazon Basin. C. R. Geosci. 343 (2011), 188–198.
• Garnier, J., Garnier, J.-M., Vieira, C.L., Akerman, A., Chmeleff, J., Ruiz, R.I., Poitrasson, F., Iron isotope fingerprints of redox and biogeochemical cycling in the soil-water-rice plant system of a paddy field. Sci. Tot. Environ. 574 (2017), 1622–1632.
• Geilert, S., Vroon, P.Z., Roerdink, D.L., Cappellen, P.V., van Bergen, M.J., Silicon isotope fractionation during abiotic silica precipitation at low temperatures: inferences from flow-through experiments. Geochim. Cosmochim. Acta 142 (2014), 95–114.
• Geilert, S., Vroon, P.Z., Keller, N.S., Gudbrandsson, S., Stefánsson, A., van Bergen, M.J., Silicon isotope fractionation during silica precipitation from hot-spring waters: evidence from the Geysir geothermal field, Iceland. Geochim. Cosmochim. Acta 164 (2015), 403–427.
• Georg, R.B., Reynolds, B.C., Frank, M., Halliday, A.N., New sample preparation techniques for the determination of Si isotopic compositions using MC-ICPMS. Chem. Geol. 235 (2006), 95–104.
• Georg, R.B., Zhu, C., Reynolds, B.C., Halliday, A.N., Stable silicon isotopes of groundwater, feldspars, and clay coatings in the Navajo Sandstone aquifer, Black Mesa, Arizona, USA. Geochim. Cosmochim. Acta 73 (2009), 2229–2241.
• Guelke, M., von Blanckenburg, F., Fractionation of stable iron isotopes in higher plants. Environ. Sci. Technol. 41 (2007), 1896–1901.
• Guelke, M., von Blanckenburg, F., Schoenberg, R., Staubwasser, M., Stuetzel, H., Determining the stable Fe isotope signature of plant-available iron in soils. Chem. Geol. 277 (2010), 269–280.
• Guelke-Stelling, M., von Blanckenburg, F., Fe isotope fractionation caused by translocation of iron during growth of bean and oat as models of strategy I and II plants. Plant Soil 352 (2012), 217–223.
• Guicharnaud, R.A., Biogeochemistry of Icelandic Andosols. Ph.D. thesis, 2009, University of Aberdeen, Aberdeen, UK, 140.
• Hecht, B.P., Vogt, K.A., Eysteinsson, P., Vogt, D.J., Changes in air and soil temperatures in three Icelandic birch forests with different land-use histories. Icel. Agric. Sci. 20 (2007), 49–60.
• Henkel, S., Kasten, S., Poulton, S.W., Staubwasser, M., Determination of the stable iron isotopic composition of sequentially leached iron phases in marine sediments. Chem. Geol. 421 (2016), 93–102.
• Herbillon, A.J., 1986. Chemical estimation of weatherable minerals present in the diagnostic horizons of low activity clay soils. In: Beinroth, F.H., Camargo, M.N., Eswaran (Eds.), Proceedings of the 8th International Soil Classification Workshop: Classification, Characterization and Utilization of Oxisols, Part 1. EMBRAPA, Rio de Janeiro, pp. 39–48.
• Hiemstra, T., Barnett, M.O., van Riemsdijk, W.H., Interaction of silicic acid with goethite. J. Colloid Interface Sci. 310 (2007), 8–17.
• Ilina, S.M., Poitrasson, F., Lapitskiy, S.A., Alekhin, Y.V., Viers, J., Pokrovsky, O.S., Extreme iron isotope fractionation between colloids and particles of boreal and temperate organic-rich waters. Geochim. Cosmochim. Acta 101 (2013), 96–111.
• Ingri, J., Malinovskiy, D., Rodushkin, I., Baxter, D., Widerlund, A., Andersson, P., Gustafsson, O., Forsling, W., Iron isotope fractionation in river colloidal matter. Earth Planet. Sci. Lett. 245 (2006), 792–798.
• IPCC, 2013. Climate Change 2013: The Physical Science Basis. In: Stocker, T.F. et al. (Eds.), Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, 1535 pp.
• IUSS Working Group WRB, 2014. World Reference Base for Soil Resources 2014. International soil classification system for naming soils and creating legends for soil maps. FAO, Rome.
• Jeanroy, E., Guillet, B., The occurence of suspended ferruginous particles in pyrophosphate extracts of some soil horizons. Geodema 26 (1981), 95–105.
• Johannesson, T., Eiriksson, T., Gudmundsdottir, K.B., Sigurdarson, S., Kristinsson, J., Overview: Seven trace elements in Icelandic forage. Their value in animal health and with special relation to scrapie. Icel. Agric. Sci. 20 (2007), 3–24.
• Johnson, C.M., Skulan, J.L., Beard, B.L., et al. Isotopic fractionation between Fe(III) and Fe(II) in aqueous solutions. Earth Planet. Sci. Lett. 195 (2002), 141–153.
• Johnson, C.M., Beard, B.L., Roden, E.E., The iron isotope fingerprints of redox and biogeochemical cycling in modern and ancient earth. Annu. Rev. Earth Planet. Sci. 36 (2008), 457–493.
• Jones, L.H.P., Handreck, K.A., Effects of iron and aluminium oxides on silica in solution in soils. Nature 198 (1963), 852–853.
• Kiczka, M., Wiederhold, J.G., Frommer, J., Kraemer, S.M., Bourdon, B., Kretzschmar, R., Iron isotope fractionation during proton- and ligand-promoted dissolution of primary phyllosilicates. Geochim. Cosmochim. Acta 74 (2010), 3112–3128.
• Kiczka, M., Wiederhold, J.G., Frommer, J., Kraemer, S.M., Bourdon, B., Kretzschmar, R., Iron isotope fractionation during Fe uptake and translocation in alpine plants. Environ. Sci. Technol. 44 (2010), 6144–6150.
• Kiczka, M., Wiederhold, J.G., Frommer, J., Voegelin, A., Kraemer, S.M., Bourdon, B., Kretzschmar, R., Iron speciation and isotope fractionation during silicate weathering and soil formation in an alpine glacier forefield chronosequence. Geochim. Cosmochim. Acta 75 (2011), 5559–5573.
• Kostka, J.E., Luther, G.W., Partitioning and speciation of solid phase iron in saltmarsh sediments. Geochim. Cosmochim. Acta 58 (1994), 1701–1710.
• Krachler, R., Jirsa, F., Ayromlou, S., Factors influencing the dissolved iron input by river water to the open ocean. Biogeosciences 2 (2005), 311–315.
• Krachler, R., Krachler, R.F., von der Kammer, F., Süphandag, A., Jirsa, F., Ayromlou, S., Hofmann, T., Keppler, B.K., Relevance of peat-draining rivers for the riverine input of dissolved iron into the ocean. Sci. Total Environ. 408 (2010), 2402–2408.
• Li, Y., Ding, T.P., Wan, D., Experimental study of silicon isotope dynamic fractionation and its application in geology. Chin. J. Geochem. 14 (1995), 212–219.
• Liu, S.A., Teng, F.Z., Li, S., Wei, G.J., Ma, J.L., Li, D., Copper and iron isotope fractionation during weathering and pedogenesis: Insights from saprolite profiles. Geochim. Cosmochim. Acta 146 (2014), 59–75.
• Lucas, Y., Boulet, R., Chauvel, A., Veillon, L., Systèmes sols ferrallitiques – Podzols en région amazonienne. Righi, D., Chauvel, A., (eds.) Podzols et Podzolisation, 1987, AFES et INRA, Plaisir et Paris, 53–65.
• Mansfeldt, T., Schuth, S., Häusler, W., Wagner, F., Kaufhold, S., Overesch, M., Iron oxide mineralogy and stable iron isotope composition in a Gleysol with petrogleyic properties. J. Soil Sedim.: Protection, Risk Assessment, & Remediation 12 (2012), 97–114.
• Marschner, H., Römheld, V., Strategies of plants for acquisition of iron. Plant Soil 165 (1994), 261–274.
• Martin, J.H., Fitzwater, S.E., Iron-deficiency limits phytoplankton growth in the Northeast Pacific Subarctic. Nature 331 (1988), 341–342.
• McKeague, J.A., Cline, M.G., Silica in soils. Adv. Agron. 15 (1963), 339–396.
• Mehra, O.P., Jackson, M.L., 1960. Iron oxides removal from soils and clays by dithionite-citrate system buffered with sodium bicarbonate. In: Proc. 7th Natl. Conf. Clays Clay Minerals, Washington, pp. 317–327.
• Melton, E.D., Swanner, E.D., Behrens, S., Schmidt, C., Kappler, A., The interplay of microbially mediated and abiotic reactions in the biogeochemical Fe cycle. Nat. Rev. Microbiol. 12 (2014), 797–808.
• Millet, M.-A., Baker, J.A., Payne, C.E., Ultra-precise stable Fe isotope measurements by high resolution multiple-collector inductively coupled plasma mass spectrometry with a 57Fe–58Fe double spike. Chem. Geol. 304 (2012), 18–25.
• Mizota, C., van Reeuwijk, L.P., 1989. Clay Mineralogy and Chemistry of Soils Formed in Volcanic Material in Diverse Climatic Regions. Soil Monograph 2. ISRIC, Wageningen.
• Morel, F.M.M., Rueter, J.G., Price, N.M., Iron nutrition of phytoplankton and its possible importance in the ecology of ocean regions with high nutrient and low biomass. Oceanography 4 (1991), 56–61.
• Morgan, J.L., Wasylenki, L.E., Nuester, J., Anbar, A.D., Fe isotope fractionation during equilibration of Fe-organic complexes. Environ. Sci. Technol. 44 (2010), 6095–6101.
• Mulholland, D.S., Poitrasson, F., Boaventura, G.R., Allard, T., Vieira, L.C., Santos, R.V., Mancini, L., Seyler, P., Insights into iron sources and pathways in the Amazon River provided by isotopic and spectroscopic studies. Geochim. Cosmochim. Acta 150 (2015), 142–159.
• Oelkers, E.H., Gislason, S.R., The mechanism, rates and consequences of basaltic glass dissolution. I: An experimental study of the dissolution rates of basaltic glass as a function of aqueous Al, Si and oxalic acid concentration at 25 °C and pH = 3 and 11. Geochim. Cosmochim. Acta 65 (2001), 3671–3681.
• Oelze, M., von Blanckenburg, F., Hoellen, D., Dietzel, M., Bouchez, J., Si stable isotope fractionation during adsorption and the competition between kinetic and equilibrium isotope fractionation: implications for weathering systems. Chem. Geol. 380 (2014), 161–171.
• Oelze, M., von Blanckenburg, F., Bouchez, J., Hoellen, D., Dietzel, M., The effect of Al on Si isotope fractionation investigated by silica precipitation experiments. Chem. Geol. 397 (2015), 94–105.
• Opfergelt, S., de Bournonville, G., Cardinal, D., André, L., Delstanche, S., Delvaux, B., Impact of soil weathering degree on silicon isotopic fractionation during adsorption onto iron oxides in basaltic ash soils, Cameroon. Geochim. Cosmochim. Acta 73 (2009), 7226–7240.
• Opfergelt, S., Cardinal, D., André, L., Delvigne, C., Bremond, L., Delvaux, B., Variations of δ30Si and Ge/Si with weathering and biogenic input in tropical basaltic ash soils under monoculture. Geochim. Cosmochim. Acta 74 (2010), 225–240.
• Opfergelt, S., Burton, K.W., Georg, R.B., West, A.J., Guicharnaud, R., Sigfusson, B., Siebert, C., Gislason, S.R., Halliday, A.N., Magnesium retention on the soil exchange complex controlling Mg isotope variations in soils, soil solutions and vegetation in volcanic soils, Iceland. Geochim. Cosmochim. Acta 125 (2014), 110–130.
• Opfergelt, S., Delmelle, P., Silicon isotopes and continental weathering processes: assessing controls on Si transfer to the ocean. C. R. Geosci. 344 (2012), 723–738.
• Opfergelt, S., Georg, R.B., Burton, K.W., Guicharnaud, R., Siebert, C., Gislason, S.R., Halliday, A.N., Silicon isotopes in allophane as a proxy for mineral formation in volcanic soils. Applied Geochem. 26 (2011), S115–S118.
• Opfergelt, S., Georg, R.B., Delvaux, B., Cabidoche, Y.M., Burton, K.W., Halliday, A.N., Silicon isotopes and the tracing of desilication in volcanic soil weathering sequences, Guadeloupe. Chem. Geol. 326–327 (2012), 113–122.
• Opfergelt, S., Cornelis, J.T., Houben, D., Givron, C., Burton, K.W., Mattielli, N., The influence of weathering and soil organic matter on Zn isotopes in soils. Chem. Geol. 466 (2017), 140–148.
• Orradottir, B., Archer, S.R., Arnalds, O., Wilding, L.P., Thurow, T.L., Infiltration in Icelandic Andisols: the role of vegetation and soil frost. Arc. Antarc. Alp. Res. 40 (2008), 412–421.
• Paque, M., Detienne, M., Maters, E.C., Delmelle, P., Smectites and zeolites in ash from the 2010 summit eruption of Eyjafjallajökull volcano, Iceland. Bull Volcanol., 78, 2016, 61.
• Parfitt, R.L., Allophane and imogolite: role in soil biogeochemical processes. Clay Miner. 44 (2009), 135–155.
• Parfitt, R.L., Childs, C.W., Estimation of forms of Fe and Al – a review, and analysis of contrasting soils by dissolution and Mossbauer methods. Aust. J. Soil Res. 26 (1988), 121–144.
• Parfitt, R.L., Kimble, J.M., Conditions for formation of allophane in soils. Soil Sci. Soc. Am. J. 53 (1989), 971–977.
• Pearce, C.R., Burton, K.W., Pogge von Strandmann, P.A.E., James, R.H., Gislason, S.R., Molybdenum isotope behaviour accompanying continental weathering and riverine transport in a basaltic terrain. Earth Planet. Sci. Lett. 295 (2010), 104–114.
• Ping, C.L., Shoji, S., Ito, T., Properties and classification of three volcanic ash derived pedons from Aleutian Islands and Alaska Peninsula, Alaska. Soil Sci. Soc. Am. J. 52 (1988), 455–462.
• Pogge von Strandmann, P.A.E., Burton, K.W., James, R.H., van Calsteren, P., Gislason, S.R., Mokadem, F., Riverine behaviour of uranium and lithium isotopes in an actively glaciated basaltic terrain. Earth Planet. Sci. Lett. 251 (2006), 134–147.
• Pogge Von Strandmann, P.A.E., Burton, K.W., James, R.H., Van Calsteren, P., Gislason, S.R., Sigfusson, B., The influence of weathering processes on riverine magnesium isotopes in a basaltic terrain. Earth Planet. Sci. Lett. 276 (2008), 187–197.
• Poitrasson, F., Silicon isotope geochemistry. Rev. Mineral. Geochem. 82 (2017), 289–344.
• Poitrasson, F., Viers, J., Martin, F., Braun, J.-J., Limited iron isotope variations in recent lateritic soils from Nsimi, Cameroon: implications for the global Fe geochemical cycle. Chem. Geol. 253 (2008), 54–63.
• Poulton, S.W., Raiswell, R., The low-temperature geochemical cycle of iron: from continental fluxes to marine sediment deposition. Am. J. Sci. 302 (2002), 774–805.
• Rai, D., Kittrick, J.A., Mineral equilibria and the soil system. Dixon, J., Weed, S., (eds.) Minerals in Soil Environments, 1989, Soil Science Society of America, Madison, WI, USA, 161–198.
• Reynolds, B.C., Aggarwal, J., André, L., Baxter, D., Beucher, C., Brzezinski, M.A., Engström, E., Georg, R.B., Land, M., Leng, M.J., Opfergelt, S., Rodushkin, I., Sloane, H.S., van den Boorn, S.H.J.M., Vroon, P.Z., Cardinal, D., An inter-laboratory comparison of Si isotope reference materials. J. Anal. Atom. Spectrom. 22 (2007), 561–568.
• Roerdink, D.L., van den Boorn, S.H., Geilert, S., Vroon, P.Z., van Bergen, M.J., Experimental constraints on kinetic and equilibriumsilicon isotope fractionation during the formation of non-biogenic chert deposits. Chem. Geol. 402 (2015), 40–51.
• Romanovsky, V.E., Smith, S.L., Christiansen, H.H., Permafrost thermal state in the polar Northern Hemisphere during the International Polar Year 2007–2009: a synthesis. Permafrost Periglac. Process. 21 (2010), 106–116.
• Rouiller, J., Burtin, G., Souchier, B., La dispersion des sols dans l'analyse granulométrique. Méthode utilisant les résines échangeuses d'ions. ENSAIA Nancy 14 (1972), 194–205.
• Ryan, J.N., Gschwend, P.M., Extraction of Iron Oxides from Sediments Using Reductive Dissolution by Titanium(III). Clays Clay Min. 39 (1991), 509–518.
• Savage, P.S., Georg, R.B., Armytage, R.M.G., Williams, H.M., Halliday, A.N., Silicon isotope homogeneity in the mantle. Earth Planet. Sci. Lett. 295 (2010), 139–146.
• Schauble, E., Applying stable isotope fractionation theory to new systems. Rev. Mineral. Geochem. 55 (2004), 65–111.
• Schuth, S., Hurrass, J., Munker, C., Mansfeldt, T., Redox-dependent fractionation of iron isotopes in suspensions of a groundwater-influenced soil. Chem. Geol. 392 (2015), 74–86.
• Schulz, M., Stonestrom, D., Lawrence, C., Bullen, T., Fitzpatrick, J., Kyker-Snowman, E., Manning, J., Mnich, M., Structured heterogeneity in a marine terrace chronosequence: upland mottling. Vadose Zone J., 15(2), 2016, 10.2136/vzj2015.07.0102.
• Schuth, S., Mansfeldt, T., Iron isotope composition of aqueous phases of a lowland environment. Environ. Chem. 13 (2015), 89–101.
• Schwertmann, U., Iron oxides. Chesworth, W., (eds.) Encyclopedia of Soil Science, 2008, Springer, Dordrecht, the Netherlands, 363–369.
• Shoji, S., Masui, J.-I., Opaline silica of recent volcanic ash soils in Japan. J. Soil Sci. 22 (1971), 101–108.
• Siebert, C., Pett-Ridge, J., Opfergelt, S., Guicharnaud, R., Halliday, A.N., Burton, K.W., Molybdenum isotope fractionation in soils: influence of redox conditions, organic matter, and atmospheric inputs. Geochim. Cosmochim. Acta 162 (2015), 1–24.
• Sigfusson, B., Gislason, S.R., Paton, G.I., Pedogenesis and weathering rates of a Histic Andosol in Iceland: field and experimental soil solution study. Geoderma 144 (2008), 572–592.
• Smetacek, V., Klaas, C., Strass, V.H., Assmy, P., Montresor, M., Cisewski, B., et al. Deep carbon export from a Southern Ocean iron-fertilized diatom bloom. Nature 487 (2012), 313–319.
• Steinhoefel, G., Breuer, J., von Blanckenburg, F., Horn, I., Michael, Sommer M., The dynamics of Si cycling during weathering in two small catchments in the Black Forest (Germany) traced by Si isotopes. Chem. Geol. 466 (2017), 389–402.
• Swedlund, P.J., Webster, J.G., Adsorption and polymerisation of silicic acid on ferrihydrite, and its effect on arsenic adsorption. Water Res. 33 (1999), 3413–3422.
• Swindles, G.T., Morris, P.J., Mullan, D., Watson, E.J., Turner, T.E., et al. The long-term fate of permafrost peatlands under rapid climate warming. Sci. Rep., 5, 2015, 17951.
• Thompson, A., Ruiz, J., Chadwick, O.A., Titus, M., Chorover, J., Rayleigh fractionation of iron isotopes during pedogenesis along a climate sequence of Hawaiian basalt. Chem. Geol. 238 (2007), 72–83.
• Thompson, A., Rancourt, D.G., Chadwick, O.A., Chorover, J., Iron solid-phase differentiation along a redox gradient in basaltic soils. Geochim. Cosmochim. Acta 75 (2011), 119–133.
• Walker, A.L., The Effects of Magnetite on Oxalate- and Dithionite-Extractable Iron, Soil Sci. Soc. Am. J. 47 (1983), 1022–1026.
• Welch, S.A., Beard, B.L., Johnson, C.M., Braterman, P.S., Kinetic and equilibrium Fe isotope fractionation between aqueous Fe(II) and Fe(III). Geochim. Cosmochim. Acta 67 (2003), 4231–4250.
• Westermann, S., Østby, T., Gisnås, K., Schuler, T.V., Etzelmüller, B., A ground temperature map of the North Atlantic permafrost region based on remote sensing and reanalysis data. The Cryosphere Disc. 9 (2015), 753–790.
• Weyer, S., Anbar, A.D., Brey, G.P., Munker, C., Mezger, K., Woodland, A.B., Iron isotope fractionation during planetary differentiation. Earth Planet. Sci. Lett. 240 (2005), 251–264.
• Wiederhold, J.G., Teutsch, N., Kraemer, S.M., Halliday, A.N., Kretzschmar, R., Iron isotope fractionation during pedogenesis in redoximorphic soils. Soil Sci. Soc. Am. J. 71 (2007), 1840–1850.
• Wiederhold, J.G., Teutsch, N., Kraemer, S.M., Halliday, A.N., Kretzschmar, R., Iron isotope fractionation in oxic soils by mineral weathering and podzolisation. Geochim. Cosmochim. Acta 71 (2007), 5821–5833.
• Wiederhold, J.G., Kraemer, S.M., Teutsch, N., Borer, P.M., Halliday, A.N., Kretzschmar, R., Iron Isotope Fractionation during Proton-Promoted, Ligand-Controlled, and Reductive Dissolution of Goethite. Environ. Sci. Technol. 40 (2006), 3787–3793.
• Williams, H.M., Bizimis, M., Iron isotope tracing of mantle heterogeneity within the source regions of oceanic basalts. Earth Planet. Sci. Lett. 404 (2014), 396–407.
• Williams, H.M., Wood, B.J., Wade, J., Frost, D., Tuff, J., Isotopic evidence for internal oxidation of the Earth's mantle. Earth Planet. Sci. Lett. 321–322 (2012), 54–63.
• Wolff-Boenisch, D., Gislason, S.R., Oelkers, E.H., The effect of fluoride on the dissolution rates of natural glasses at pH 4 and 25°C. Geochim. Cosmochim. Acta 68 (2004), 4571–4582.
• Wu, L., Beard, B.L., Roden, E.E., Johnson, C.M., Stable iron isotope fractionation between aqueous Fe(II) and hydrous ferric oxide. Envi. Sci. Tech. 45 (2011), 1847–1852.
• Yeghicheyan, D., Carignan, J., Valladon, M., Bouhnik Le Coz, M., Le Cornec, F., Castrec-Rouelle, M., Robert, M., Aquilina, L., Aubry, E., Churlaud, C., Dia, A., Deberdt, S., Dupré, B., Freydier, R., Gruau, G., Hénin, O., de Kersabiec, A.-M., Macé, J., Marin, L., Morin, N., Petitjean, P., Serrat, E., A compilation of silicon and thirty one trace elements measured in the natural river water reference material SLRS-4 (NRC-CNRC). Geostand. Geoanal. Res. 25 (2001), 465–474.
• Yesavage, T.A., Fantle, M.S., Vervoort, J., Mathur, R., Jin, L., Liermann, L.J., Brantley, S.L., Fe cycling in the Shale Hills Critical Zone Observatory, Pennsylvania: an analysis of biogeochemical weathering and Fe isotope fractionation. Geochim. Cosmochim. Acta 99 (2012), 18–38.
• Yesavage, T., Stinchcombb, G.E., Fantle, M.S., Sakd, P.B., Kasznele, A., Brantley, S.L., Investigation of a diabase-derived regolith profile from Pennsylvania: Mineralogy, chemistry and Fe isotope fractionation. Geoderma 273 (2016), 83–97.
• Zambardi, T., Poitrasson, F., Precise Determination of silicon isotopes in silicate rock reference materials by MC-ICP- MS. Geostand. Geoanal. Res. 35 (2011), 89–99.
• Ziegler, K., Chadwick, O.A., Brzezinski, M.A., Kelly, E.F., Natural variations of δ30Si ratios during progressive basalt weathering, Hawaiian Islands. Geochim. Cosmochim. Acta 69 (2005), 4597–4610.