Metal dissolution from atmospheric aerosol deposition to the oceans is important in
enhancing and inhibiting phytoplankton growth rates and modifying plankton community …

Dust is produced primarily in desert regions and transported long distances through the
atmosphere to the oceans. Upon deposition of dust, its dissolution can provide an important …

Bioassay incubation experiments conducted with nutrients and local atmospheric aerosol
amendments indicate that phosphorus (P) availability limited phytoplankton growth in the …

This paper reviews atmospheric inputs of trace elements and nutrients to the oceans in the
context of the GEOTRACES programme and provides new data from two Atlantic …

The fractional solubility of aerosol-derived trace elements deposited to the ocean surface is
a key parameter of many marine biogeochemical models. Despite this, it is currently poorly …

It is well recognized that the atmospheric deposition of iron (Fe) affects ocean productivity,
atmospheric CO 2 uptake, ecosystem diversity, and overall climate. Despite significant …

This review has been undertaken to understand the effectiveness of ocean acidification on
oceanic micronutrient metal cycles (iron, copper and zinc) and its potential impacts on …

The seasonal availability of light and micronutrients strongly regulates productivity in the
Southern Ocean, restricting biological utilization of macronutrients and CO2 drawdown …

A new technique for the determination of dissolved copper isotope composition (δ 65 Cu) of
seawater was applied to examine copper sources and internal cycling in the Mediterranean …

Atmospheric deposition brings both nutrients and toxic components to the surface ocean,
resulting in important impacts on phytoplankton. Field and lab studies have been done on …