2010
DOI: 10.1073/pnas.1005638107
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Unveiling a phytoplankton hotspot at a narrow boundary between coastal and offshore waters

Abstract: In terrestrial ecosystems, transitional areas between different plant communities (ecotones) are formed by steep environmental gradients and are commonly characterized by high species diversity and primary productivity, which in turn influences the foodweb structure of these regions. Whether comparable zones of elevated diversity and productivity characterize ecotones in the oceans remains poorly understood. Here we describe a previously hidden hotspot of phytoplankton diversity and productivity in a narrow bu… Show more

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Cited by 79 publications
(102 citation statements)
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“…In this region, Fe is supplied to surface waters mainly through atmospheric deposition of dust from arid continental regions and volcanic emissions, with Fe inputs from continental margin sediments fueling winter phytoplankton blooms when atmospheric deposition is low (Lam et al, 2006;Lam and Bishop, 2008). A gradient in surface nutrient concentrations is observed from this oceanic region eastwards toward the continent; bioavailable Fe increases and supports higher phytoplankton biomass while NO − 3 concentrations in the upper mixed layer decrease to limiting levels on the continental shelf (Taylor and Haigh, 1996;Harris et al, 2009;Ribalet et al, 2010).…”
Section: Introductionmentioning
confidence: 99%
“…In this region, Fe is supplied to surface waters mainly through atmospheric deposition of dust from arid continental regions and volcanic emissions, with Fe inputs from continental margin sediments fueling winter phytoplankton blooms when atmospheric deposition is low (Lam et al, 2006;Lam and Bishop, 2008). A gradient in surface nutrient concentrations is observed from this oceanic region eastwards toward the continent; bioavailable Fe increases and supports higher phytoplankton biomass while NO − 3 concentrations in the upper mixed layer decrease to limiting levels on the continental shelf (Taylor and Haigh, 1996;Harris et al, 2009;Ribalet et al, 2010).…”
Section: Introductionmentioning
confidence: 99%
“…Nitrate concentrations continued to decline in the plusFe sample after 98 h, indicating that at the time of sampling, the iron-stimulated phytoplankton community was in the early to midstages of bloom development. On the basis of continuous flow cytometry measurements in parallel iron-enriched incubation experiments, these large cells peaked in cell abundance on day 5 (∼120 h), at which time NO 3 − concentrations were fully depleted (25). A modest, yet significant increase in phytoplankton biomass in the Ctl was observed compared with that in the ambient waters, possibly resulting from changes in light conditions, minor iron contamination, and/or reductions in grazing pressure associated with the incubations.…”
Section: Resultsmentioning
confidence: 99%
“…‡ Size classes of phytoplankton populations are described in Ribalet et al (25). § Pennate diatoms such as Pseudo-nitzschia spp.…”
Section: Resultsmentioning
confidence: 99%
“…The biodiversity maximum in the mid-water column at 150 m (Figure 3a) reflects patterns seen elsewhere in the ocean for other organisms including copepods, ostracods (Angel, 1993;Lindsay and Hunt, 2005) and fish (Badcock and Merrett, 1976). Biodiversity is often highest at ecotones, the interface between different environments, (Angel, 1993;Barton et al, 2010;Ribalet et al, 2010) and the 150 m depth is such an interface between the euphotic and disphotic zones.…”
Section: Alpha-diversity Patterns Differ Between Depthsmentioning
confidence: 99%