Distribution of calcifying and silicifying phytoplankton in relation to environmental and biogeochemical parameters during the late stages of the 2005 North East Atlantic Spring Bloom

Leblanc, K.; Hare, Clinton E.; Feng, Yuanyuan; Berg, Gry Mine; DiTullio, Giacomo R.; Neeley, Aimee; Benner, Ina; Sprengel, Claudia; Beck, Aaron J.; Sañudo‐Wilhelmy, Sergio A.; Passow, Uta; Klinck, K.; Rowe, Janet M.; Wilhelm, Steven W.; Brown, Christopher W.; Hutchins, David A.

doi:10.5194/bg-6-2155-2009

Cited by 52 publications

(33 citation statements)

References 75 publications

(85 reference statements)

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“…[23] Introduction of nitrate and silicate during cyclonic eddy events, favor the formation of large (2-200 mm) diatom [Hasle and Syvertsen, 1997] and subsequent blooms. With the depletion of dissolved silicic acid and increased stratification of the surface layer most likely triggers the crash of the diatom bloom, and subsequently leads to cocolithophore dominance [LeBlanc et al, 2009]. Prasanna reported the higher concentrations of silicate (2mM) compared to nitrate (0.5mM) during the cyclonic eddy period in the surface waters and also observed doming of nitrate and silicate isopleths from 50 m to 10 m depth.…”

Section: Discussionmentioning

confidence: 99%

Role of mesoscale eddies on the variability of biogenic flux in the northern and central Bay of Bengal

Vidya

Kumar

2013

J. Geophys. Res. Oceans

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Mesoscale cyclonic eddies (cold core) are though known to enhance the phytoplankton biomass in the Bay of Bengal, their contribution to the carbon export to the deep ocean are yet to be quantified. Using biogenic flux data obtained from the sediment traps, located at 17°27′N, 89°13′E (northern Bay of Bengal trap: NBBT) and 13°07′N, 84°24′E (central Bay of Bengal trap: CBBT), we explored the variability of biogenic flux in response to cyclonic eddies. Temporal variation of the biogenic flux at NBBT (1994–1998) and CBBT (1993–1996) showed four distinct peaks with no well‐defined seasonal pattern. The inverse relationship between the high flux events and sea surface height anomaly (SSHA) along with the dominant periodicity of 10–15 weeks from the Chi‐square analysis of SSHA confirmed the role of eddies in the observed higher biogenic fluxes. During the eddy events, enhanced opal flux suggested eddy‐driven new production, while lower carbonate to opal ratio along with high organic carbon indicated large export via diatoms. Finally, we show that 42% of the total organic carbon collected at mid‐depth (∼1000 m) in the Bay of Bengal is contributed by eddy‐driven processes via diatom bloom making it a regional sink for CO2.

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Section: Discussionmentioning

confidence: 99%

Role of mesoscale eddies on the variability of biogenic flux in the northern and central Bay of Bengal

Vidya

Kumar

2013

J. Geophys. Res. Oceans

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“…Historically, major efforts have been dedicated to elucidating the mechanisms that trigger phytoplankton blooms and lead to temporal and spatial phytoplankton species successions in the ocean (Leblanc et al 2009, Mahadevan et al 2012. Although those studies have shown that a combination of ambient physical and chemical conditions could favor the predominance of certain algae at specific times and/or locations, they have also shown that, with the exception of iron requirements (Boyd et al 2000), nutritional requirements are similar across all algae (Redfield 1958).…”

Section: B Vitamins As Biologically Active Compounds In the Oceanmentioning

confidence: 97%

The Role of B Vitamins in Marine Biogeochemistry

Sañudo‐Wilhelmy

Gómez‐Consarnau²,

Suffridge³

et al. 2014

Annu. Rev. Mar. Sci.

236

314

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The soluble B vitamins (B1, B7, and B12) have long been recognized as playing a central metabolic role in marine phytoplankton and bacteria; however, the importance of these organic external metabolites in marine ecology has been largely disregarded, as most research has focused on inorganic nutrients and trace metals. Using recently available genomic data combined with culture-based surveys of vitamin auxotrophy (i.e., vitamin requirements), we show that this auxotrophy is widespread in the marine environment and occurs in both autotrophs and heterotrophs residing in oligotrophic and eutrophic environments. Our analysis shows that vitamins originate from the activities of some bacteria and algae and that taxonomic changes observed in marine phytoplankton communities could be the result of their specific vitamin requirements and/or vitamin availability. Dissolved vitamin concentration measurements show that large areas of the world ocean are devoid of B vitamins, suggesting that vitamin limitation could be important for the efficiency of carbon and nitrogen fixation in those regions.

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“…Rather, the particular transformation products produced appears to depend on the species of phytoplankton (Bale et al, 2011;Hallegraeff, 1981;Jeffrey and Hallegraeff, 1987;Louda et al, 1998Louda et al, , 2002Owens and Falkowski, 1982), the physiochemical environment (Louda et al, 1998(Louda et al, , 2002Yacobi et al, 2001), and, in the case of grazing, on the species of grazer and on whether the grazing is primary or secondary (coprophagy) (Burkill et al, 1987;Gieskes et al, 1991;Goericke et al, 2000;Hallegraeff, 1981). Furthermore, North Atlantic spring diatom blooms are often thought to be terminated by silicic acid limitation (Henson et al, 2006;Leblanc et al, 2009;Savidge et al, 1995), with major export of phytodetrital aggregates taking place upon bloom termination (Billett et al, 1983). However, while many studies have attributed certain chl-a transformation products to terms such as 'cell stress', 'senescence' and 'death', transformation products associated with potentially nutrient-depleted phytodetrital aggregates have not been studied.…”

Section: Introductionmentioning

confidence: 95%

Chlorophyll-a transformations associated with sinking diatoms during termination of a North Atlantic spring bloom

et al. 2015

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A research cruise in the North Atlantic during the annual diatom bloom provided an ideal platform to study chlorophyll-a (chl-a) transformations associated with a large scale diatom bloom and export below the photic zone. On one deployment, Lagrangian sediment traps captured a significant flux of aggregated diatom cells produced during the termination of the main bloom. We examined the distribution of chl-a transformation products in sinking particles from the sediment traps and in suspended particles from the water column using highresolution HPLC with multistage mass spectrometry (LC-MS n ). There was a dramatic change in the distribution of chl-a and its transformation products between the pre-sinking period, when the average chl-a concentration integrated over the upper 50 m was 68 ± 36 mg m −2 , and the post-sinking period, when it was 30 ± 11 mg m −2 . Before the diatom bloom left the euphotic zone (pre-sinking), suspended particles contained a considerably higher percentage of pheophorbide-a and other chl-a transformation products (27%) than during the postsinking period (10%). Despite high levels of spatial variability in the chl-a concentration, and despite sampling from both within and outside a main bloom patch, the chl-a transformation products in suspended particles did not exhibit spatial variability. Sinking particles associated with the diatom bloom export had low POC:chl-a ratios (52-97), suggesting undegraded phytoplankton cells. However, the samples with especially low POC:chl-a ratios exhibited similar distributions of chl-a transformation products to those with a higher ratio. The proportions of demetalated and de-esterified transformation products increased with depth of suspended particles, although significant levels of these products were also found in the uppermost 20 m during the bloom. This suggests processes in both surface waters and through the water column led to the formation of these products.

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Distribution of calcifying and silicifying phytoplankton in relation to environmental and biogeochemical parameters during the late stages of the 2005 North East Atlantic Spring Bloom

Cited by 52 publications

References 75 publications

Role of mesoscale eddies on the variability of biogenic flux in the northern and central Bay of Bengal

Role of mesoscale eddies on the variability of biogenic flux in the northern and central Bay of Bengal

The Role of B Vitamins in Marine Biogeochemistry

Chlorophyll-a transformations associated with sinking diatoms during termination of a North Atlantic spring bloom

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