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Nitrogen cycling in the ocean: From genes to ecosystems and from the past to the future
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The influence of riverine nutrients in niche partitioning of phytoplankton communities - A contrast between the Amazon River plume and the Changjiang (Yangtze) River Diluted Water of the East China Sea
Monday 7th @ 1510-1530, Multifunction Hall
Helga Gomes* , Lamont Doherty Earth Observatory at Columbia University, Palisades, NY, USA
Qian Xu, Institute for Space-Earth Environmental Research (ISEE),
Nagoya University, Japan
Joji Ishizaka, Institute for Space-Earth Environmental Research (ISEE),
Nagoya University, Japan
Joaquim Goes, Lamont Doherty Earth Observatory at Columbia University, Palisades, NY, USA
Presenter Email: helga@ldeo.columbia.edu |
| Riverine nutrients act in concert with local hydrographic conditions to create distinct ecological niches for phytoplankton communities across river-ocean continuums. Here we compare two of the world's largest river-ocean systems, the Amazon River Plume (ARP) which outflows into the Western Tropical North Atlantic and the Changjiang Diluted Water (CDW) which empties into the East China Sea to show how distinctly different N: P supply ratios of their source waters, shape phytoplankton communities along the river-ocean continuum. Sampling in the relatively unpolluted surface waters of the ARP during peak river discharge revealed that phytoplankton communities along the river-ocean continuum were strongly limited by Dissolved Inorganic Nitrogen (DIN, nitrate plus nitrite) which was low or beyond detectable, while Dissolved Inorganic Phosphorous (DIP, phosphate) and Silica were not limiting. The resulting low N:P supply ratio allowed diazotrophs to co-exist with the non-diazotrophs. Diatom-Diazotroph Associations (DDAs) such as Hemiaulus hauckii-Richelia proliferated, while in the oligotrophic oceanic waters, Trichodesmium spp. thrived. In contrast, in the CDW, anthropogenic nitrogen inputs from human pressures in the Changjiang River system has led to a system where the changing supply rate of the single nutrient (DIP) is responsible for the interannual variability seen in the phytoplankton community structure of the CDW. During years of low discharge, DIP limitation can be ameliorated by on-shelf upwelling of DIP rich Kuroshio Intermediate Waters leading to domination of diatoms and dinoflagellates. Conversely, during years of heavy discharge, the westward flowing CDW plume was severely DIP limited, probably because water column stratification dampened upwelling of subsurface waters. The consequent DIP limitation led to the proliferation of small phytoplankton such as Chlorophytes and Cyanobacteria. The absence of diazotrophs in the CDW, leads us to hypothesize that river-ocean continuums, whose source waters are heavily impacted by anthropogenic activities and with high nitrate concentrations often substantially in excess of Redfield ratios, may not support diatoms on account of DIP limitation nor diazotrophy because of excess DIN.
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