Ilina S. M., Poitrasson Franck, Lapitskiy S. A., Alekhin Y. V., Viers J., Pokrovsky O. S. (2013). Extreme iron isotope fractionation between colloids and particles of boreal and temperate organic-rich waters. Geochimica et Cosmochimica Acta, 101, p. 96-111. ISSN 0016-7037.
Titre du document
Extreme iron isotope fractionation between colloids and particles of boreal and temperate organic-rich waters
Ilina S. M., Poitrasson Franck, Lapitskiy S. A., Alekhin Y. V., Viers J., Pokrovsky O. S.
Source
Geochimica et Cosmochimica Acta, 2013,
101, p. 96-111 ISSN 0016-7037
Significant and systematic variations of iron isotopic composition in surface water sample fractions obtained by frontal cascade filtration and ultrafiltration have been recorded in (1) subarctic organic-rich boreal river and stream, mire, lake and soil solutions in northern taiga zone (Karelia, NW Russia) and (2) temperate river and lake waters of the southern boreal zone (Central Russia). Water samples were filtered in the field employing progressively decreasing pore size from 100 mu m to 1 kDa followed by iron isotope analysis. In all river samples, there was a gradual increase of delta Fe-57 relative to IRMM-14 with decreasing pore size, from +0.4 +/- 0.1 parts per thousand at 100 mu m up to +4.2 +/- 0.1 parts per thousand at 10 kDa fraction in the subarctic zone and from -0.024 +/- 0.2 parts per thousand at 100 mu m up to +1.2 +/- 0.2 parts per thousand at 10 kDa in the temperate zone. In the series of filtrates/ultrafiltrates of subarctic and temperate streams and rivers, the delta Fe-57 value decreases with increasing molar Fe/C-org ratio. Therefore, small-size, Fe-poor, C-rich colloids (1-10 kDa) and Low Molecular Weight (LMW) fractions of oxygenated water exhibit strong enrichment in heavy isotope whereas High Molecular Weight Fe-rich colloids (100 kDa-0.22 mu m) and particles (1-100 mu m) are isotopically lighter and closer to the continental crust Fe isotope composition. The relative enrichment of 1-10 kDa ultrafiltrates in heavy isotopes suggests that low molecular weight ligands bind Fe more strongly (Fe-O-C bonds) than Fe(III)oxy(hydr)oxides (Fe-O-Fe bonds), in accord with quantum mechanics principles. Highly positive delta Fe-57 of the LMW fraction of labile and potentially bioavailable Fe in small subarctic rivers may turn out to be a very important source of isotopically heavy Fe in the Arctic Ocean. The mechanisms involved in the production of this isotopically heavy Fe may lead this tracer to become a new indicator of environmental changes occurring in the boreal zone.
