about
Iron limitation of microbial phosphorus acquisition in the tropical North Atlantic.Abundances of iron-binding photosynthetic and nitrogen-fixing proteins of Trichodesmium both in culture and in situ from the North AtlanticQuantifying Integrated Proteomic Responses to Iron Stress in the Globally Important Marine Diazotroph Trichodesmium.Predicting the electron requirement for carbon fixation in seas and oceans.Seasonal ITCZ migration dynamically controls the location of the (sub)tropical Atlantic biogeochemical divide.Improving photosynthesis for algal biofuels: toward a green revolution.Evidence for polyploidy in the globally important diazotroph Trichodesmium.Diatom carbon export enhanced by silicate upwelling in the northeast Atlantic.Diagnosing oceanic nutrient deficiency.Phosphite utilization by the globally important marine diazotroph Trichodesmium.Iron Biogeochemistry in the High Latitude North Atlantic Ocean.Desert Dust as a Source of Iron to the Globally Important Diazotroph Trichodesmium.Lipidomics of Thalassiosira pseudonana Under Phosphorus Stress Reveal Underlying Phospholipid Substitution Dynamics and Novel Diglycosylceramide Substitutes.Nutrient co-limitation at the boundary of an oceanic gyre.Tapping the Unused Potential of Photosynthesis with a Heterologous Electron Sink.Ocean Science. Microbial proteins and oceanic nutrient cycles.THE CYANOBACTERIAL CHLOROPHYLL-BINDING-PROTEIN ISIA ACTS TO INCREASE THE IN VIVO EFFECTIVE ABSORPTION CROSS-SECTION OF PSI UNDER IRON LIMITATION1Ammonium accumulation during a silicate-limited diatom bloom indicates the potential for ammonia emission events
P50
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P50
description
onderzoeker
@nl
researcher, ORCID id # 0000-0002-9541-6046
@en
name
Mark Moore
@ast
Mark Moore
@en
Mark Moore
@es
Mark Moore
@nl
type
label
Mark Moore
@ast
Mark Moore
@en
Mark Moore
@es
Mark Moore
@nl
prefLabel
Mark Moore
@ast
Mark Moore
@en
Mark Moore
@es
Mark Moore
@nl
P106
P1153
15619764000
P21
P31
P496
0000-0002-9541-6046