34 citations as recorded by crossref.

1. On the Southern Ocean CO2 uptake and the role of the biological carbon pump in the 21st century J. Hauck et al.
2. Iron-Marine Algal Interactions and Impacts: Decreasing Global Warming by Increasing Algal Biomass N. El Semary
3. The Impact of Fish and the Commercial Marine Harvest on the Ocean Iron Cycle A. Moreno et al.
4. Process controlling iron–manganese regulation of the Southern Ocean biological carbon pump P. Anugerahanti & A. Tagliabue
5. The fingerprint of climate variability on the surface ocean cycling of iron and its isotopes D. König & A. Tagliabue
6. A latitudinally banded phytoplankton response to 21st century climate change in the Southern Ocean across the CMIP5 model suite S. Leung et al.
7. A revised global estimate of dissolved iron fluxes from marine sediments A. Dale et al.
8. CMIP5 model analysis of future changes in ocean net primary production focusing on differences among individual oceans and models Y. Nakamura & A. Oka
9. Spatial comparison of the molecular composition of copper-binding organic ligands isolated by Cu(II)-IMAC-SPE and detected by Tims-TOF MS L. Criqui & C. Guéguen
10. Manganese Limitation of Phytoplankton Physiology and Productivity in the Southern Ocean N. Hawco et al.
11. The Variable and Changing Southern Ocean Silicate Front: Insights From the CESM Large Ensemble N. Freeman et al.
12. Projected expansion of Trichodesmium’s geographical distribution and increase in growth potential in response to climate change T. Boatman et al.
13. The interplay between regeneration and scavenging fluxes drives ocean iron cycling A. Tagliabue et al.
14. A Growing Freshwater Lens in the Arctic Ocean With Sustained Climate Warming Disrupts Marine Ecosystem Function W. Fu et al.
15. Reduced CO2 uptake and growing nutrient sequestration from slowing overturning circulation Y. Liu et al.
16. Iron loss of paddy soil in China and its environmental implications L. Chen et al.
17. Climate engineering by mimicking natural dust climate control: the iron salt aerosol method F. Oeste et al.
18. 中国稻田土壤铁流失及其环境意义 留. 陈 et al.
19. Enhanced terrestrial Fe(II) mobilization identified through a novel mechanism of microbially driven cave formation in Fe(III)-rich rocks C. Parker et al.
20. Persistence of deeply sourced iron in the Pacific Ocean T. Horner et al.
21. Temperature-enhanced effects of iron on Southern Ocean phytoplankton C. Eich et al.
22. Mechanisms and predictability of multiyear ecosystem variability in the North Pacific M. Chikamoto et al.
23. Spatial and temporal variations in the micronutrient Fe across the Peruvian shelf from 1984 to 2017 Y. Gu et al.
24. Phenological characteristics of global coccolithophore blooms J. Hopkins et al.
25. A dynamic marine iron cycle module coupled to the University of Victoria Earth System Model: the Kiel Marine Biogeochemical Model 2 for UVic 2.9 L. Nickelsen et al.
26. Sustained climate warming drives declining marine biological productivity J. Moore et al.
27. Consistent global responses of marine ecosystems to future climate change across the IPCC AR5 earth system models A. Cabré et al.
28. A New Ocean State After Nuclear War C. Harrison et al.
29. Climate change impacts on net primary production (NPP) and export production (EP) regulated by increasing stratification and phytoplankton community structure in the CMIP5 models W. Fu et al.
30. Bioactive Trace Metals and Their Isotopes as Paleoproductivity Proxies: An Assessment Using GEOTRACES‐Era Data T. Horner et al.
31. Controlling factors on the global distribution of a representative marine non-cyanobacterial diazotroph phylotype (Gamma A) Z. Shao & Y. Luo
32. Quantification of iron-rich volcanogenic dust emissions and deposition over the ocean from Icelandic dust sources O. Arnalds et al.
33. Impacts of Shifts in Phytoplankton Community on Clouds and Climate via the Sulfur Cycle S. Wang et al.
34. The sources and transport of iron in the North Pacific and its impact on marine ecosystems Y. WANG et al.