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1. Characterisation of Five Natural Magnetite Reference Materials for In Situ Iron Isotope Measurement with Application to Magmatic Ni‐Cu Sulfide Mineralisation.

2. Iron isotope fractionation during partial melting of metapelites and the generation of strongly peraluminous granites.

3. Lower crustal control in the iron isotope systematics of plutonic xenoliths from Adak Island, Central Aleutians, with implications for arc magma geochemistry.

4. Geochemical and Sr‐Nd‐Pb‐Fe Isotopic Constraints on the Formation of Fe‐Si Oxyhydroxide Deposits at the Ultraslow‐Spreading Southwest Indian Ridge.

5. Geochemical and Sr‐Nd‐Pb‐Fe Isotopic Constraints on the Formation of Fe‐Si Oxyhydroxide Deposits at the Ultraslow‐Spreading Southwest Indian Ridge

6. Mantle Oxidation Induced by Recycled Carbonate: Insights From Mg‐Zn‐Fe‐Cu Isotopic Systematics of Intraplate Basalts.

7. The effect of temperature on the release of silicon, iron and manganese into seawater from resuspended sediment particles.

8. In Situ Trace Element and Fe-O Isotope Studies on Magnetite of the Iron-Oxide Ores from the Takab Region, North Western Iran: Implications for Ore Genesis.

9. Tracing Sediment Melt Activity in the Sub‐Continental Lithosphere: Insights From Zn‐Fe Stable Isotopes.

10. Light Fe isotopes in arc magmas from cold subduction zones: Implications for serpentinite-derived fluids oxidized the sub-arc mantle.

11. Evidence for isotopically light Fe mobility under oxidising conditions in subduction zone fluids: A record of Monviso meta-serpentinites, Western Alps.

12. Iron isotope evidence in ocean island basalts for plume- and plate-controlled melting, São Miguel, Azores.

13. The effect of Fe–Ti oxide separation on iron isotopic fractionation during basalt differentiation.

14. Coupled iron and heavy metal accumulation in karst soils in Southwestern China: Iron isotope perspective.

15. Geochemical and Seasonal Characteristics of Dissolved Iron Isotopes in the Mun River, Northeast Thailand.

16. Heavy iron isotopes reveal mantle oxidation in addition to pyroxenite sources for intraplate basalts.

17. Coupled δ56Fe and δ18O analysis of the Frere iron formation, Western Australia, and Paleoproterozoic ocean circulation.

18. Iron isotope constraints on the genesis of giant Beiya Au-base metal deposits, Yunnan, Southwest China.

19. Chemostratigraphy of the Carajás banded iron formation, Brazil: A record of Neoarchean Ocean chemistry.

20. Investigating the provenance of iron bars from Les Saintes‐Maries‐de‐la‐Mer Roman shipwrecks (south‐east France) with iron isotopes.

21. Effect of the Isotopic Composition of Fe on the Kinetics of Its α → γ Phase Transition.

22. Iron isotopes and the redox evolution of Ediacaran sediments

23. An eclogitic component in the Pitcairn mantle plume: Evidence from olivine compositions and Fe isotopes of basalts.

24. Alkalinity of ocean island lavas decoupled from enriched source components: A case study from the EM1-PREMA Tasmantid mantle plume.

25. A Crustal Control on the Fe Isotope Systematics of Volcanic Arcs Revealed in Plutonic Xenoliths From the Lesser Antilles

26. Fe and O isotopes in coesite-bearing jadeite quartzite from the Western Alps record multistage fluid-rock interactions in a continental subduction zone.

27. Effect of the Isotopic Composition of Fe on Its Linear Thermal Expansion Coefficient.

28. Anoxygenic photosynthesis linked to Neoarchean iron formations in Carajás (Brazil).

29. A recipe for making potassium-rich magmas in collisional orogens: New insights from K and Fe isotopes.

30. Fe and S isotopes variation of pyrite from hydrothermal mineralization in the Zijinshan region in Fujian Province, SE China.

31. Geochemical and Seasonal Characteristics of Dissolved Iron Isotopes in the Mun River, Northeast Thailand

32. The origin of early-Paleozoic banded iron formations in NW China.

33. Iron isotope fractionation in reduced hydrothermal gold deposits: A case study of the Wulong gold deposit, Liaodong Peninsula, East China.

34. Large Fe isotope fractionations in sulfide ores and ferruginous sedimentary rocks from the Kuroko volcanogenic massive sulfide deposits in the Hokuroku district, northeast Japan.

35. Episodic ferruginous conditions associated with submarine volcanism led to the deposition of a Late Carboniferous iron formation.

36. Incremental Growth of Layered Mafic-Ultramafic Intrusions Through Melt Replenishment Into a Crystal Mush Zone Traced by Fe-Hf Isotope Systematics

37. Isotopic fingerprinting of dissolved iron sources in the deep western Pacific since the late Miocene.

38. 黑色页岩铁同位素标准物质的研制.

39. Iron isotopes and the redox evolution of Ediacaran sediments.

40. Iron isotope fractionation in hydrous basaltic magmas in deep crustal hot zones.

41. The behavior of Fe and S isotopes in porphyry copper systems: Constraints from the Tongshankou Cu-Mo deposit, Eastern China.

42. Subglacial meltwater supported aerobic marine habitats during Snowball Earth.

43. Tracking Fe mobility and Fe speciation in subduction zone fluids at the slab-mantle interface in a subduction channel: A tale of whiteschist from the Western Alps.

44. Shallow-marine ironstones formed by microaerophilic iron-oxidizing bacteria in terminal Paleoproterozoic.

45. Iron mobility in subduction zone fluids at forearc depths and implications for mantle redox heterogeneity.

46. Iron isotope evidence in continental intraplate basalts for mantle lithosphere imprint on heterogenous asthenospheric melts.

47. In Situ Trace Element and Fe-O Isotope Studies on Magnetite of the Iron-Oxide Ores from the Takab Region, North Western Iran: Implications for Ore Genesis

48. Modern weathering in outcrop samples versus ancient paleoredox information in drill core samples from a Mesoarchaean marine oxygen oasis in Pongola Supergroup, South Africa.

49. Combined mass-dependent and nucleosynthetic isotope variations in refractory inclusions and their mineral separates to determine their original Fe isotope compositions.

50. Iron isotope fractionation during sulfide liquid segregation and crystallization at the Lengshuiqing Ni-Cu magmatic sulfide deposit, SW China.

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