Anthropogenic activities are altering total nutrient loads to many estuaries and freshwaters,
resulting in high loads not only of total nitrogen (N), but in some cases, of chemically …

The last several decades have witnessed dramatic advances in unfolding the diversity and
commonality of oceanic diazotrophs and their N2-fixing potential. More recently, substantial …

Acidification of seawater caused by anthropogenic carbon dioxide (CO2) is anticipated to
influence the growth of dinitrogen (N2)–fixing phytoplankton, which contribute a large …

The elemental composition of phytoplankton can depart from canonical Redfield values
under conditions of nutrient limitation or production (eg, N fixation). Similarly, the trace metal …

Blooms of the dinitrogen-fixing marine cyanobacterium Trichodesmium considerably
contribute to new nitrogen inputs into tropical oceans. Intriguingly, only 60% of the …

Marine biological nitrogen fixation (BNF) is crucial for introducing “new nitrogen” into the
oceans. Over the past 30 years, numerous laboratory and on-board culture experiments …

ABSTRACT Nitrogen-fixing (N2) cyanobacteria provide bioavailable nitrogen to vast ocean
regions but are in turn limited by iron (Fe) and/or phosphorus (P), which may force them to …

The variability in anthropogenic input of nutrients to coastal water has profound impacts on
the ecology of Gracilariopsis lemaneiformis, a rhodophyte that is protein-rich and …

We investigated the role of extracellular metabolites released during mutualistic interactions
in co-cultures of a microalga, Tetradesmus obliquus IS2 or Coelastrella sp. IS3, and a …

The establishment of non-diazotrophic cultures of the filamentous marine cyanobacterium
Trichodesmium erythraeum IMS101 enabled the first detailed investigation of the process …