1997
DOI: 10.4319/lo.1997.42.7.1544
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The use of amides and other organic nitrogen sources by the phytoplankton Emiliania huxleyi

Abstract: Although dissolved organic nitrogen (DON) is beginning to be seen as a potentially important nitrogen source for phytoplankton, much remains to be learned about its components and their utilization. Emiliania huxleyi, a cosmopolitan eukaryotic phytoplankton species abundant in oligotrophic oceans and during blooms in some coastal regions, was screened for use of various DON compounds. Hypoxanthine and other purines support the nickeldependent growth of most E. huxleyi strains. Acetamide and formamide but not l… Show more

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Cited by 71 publications
(83 citation statements)
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References 39 publications
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“…It has also been reported to grow on small amides as a sole N source, including acetamide and, to a lesser extent, formamide . This is consistent with other studies that identified that dinoflagellates, coccolithophores and diatoms grow on acetamide, and that coccolithophores grow well on formamide (Palenik and Henson, 1997). Tag 3830, which mapped to an acetamidase/ formamidase, is upregulated in the -N library, which suggests that A. anophagefferens can break down these small amides, and that this process is regulated by N deficiency.…”
Section: Responses To N Deficiencysupporting
confidence: 79%
See 1 more Smart Citation
“…It has also been reported to grow on small amides as a sole N source, including acetamide and, to a lesser extent, formamide . This is consistent with other studies that identified that dinoflagellates, coccolithophores and diatoms grow on acetamide, and that coccolithophores grow well on formamide (Palenik and Henson, 1997). Tag 3830, which mapped to an acetamidase/ formamidase, is upregulated in the -N library, which suggests that A. anophagefferens can break down these small amides, and that this process is regulated by N deficiency.…”
Section: Responses To N Deficiencysupporting
confidence: 79%
“…Finally, an acetamidase/formamidase (NCBI #: 323450867) is found in this cluster and is down-regulated 2.8-fold and 1.4-fold in the -P and P-refed treatments, respectively. In the coccolithophore Emiliania huxleyi, it was demonstrated that activities of acetamidase and formamidase increased under N deficiency (Palenik and Henson 1997). Transcriptome data showed an increase in an acetamidase/formamidase in A. anophagefferens under N-deficient conditions (Wurch et al 2011).…”
Section: Highest Abundance In Controlmentioning
confidence: 99%
“…Tyrrell and Taylor (1996)). Emiliania huxleyi may be well-adapted to grow in low nutrient conditions, as it has been shown to have very high affinity for phosphate, and the ability to use organic nitrogen and phosphorus sources (Palenik and Henson, 1997;Riegman et al, 2000;Benner and Passow, 2010). It is likely that conflicting results regarding the necessary nutrient conditions may have been related to the high physiological and genetic variability between E. huxleyi strains, as has been shown for e.g.…”
Section: Phytoplankton Community Structurementioning
confidence: 87%
“…Spring phytoplankton blooms are a prominent seasonal feature of the North East Atlantic Ocean (NE Atlantic) (Henson et al, 2006) and are characterised by an intense diatom bloom followed by nanoplankton (among others: prymnesiophytes, prasinophytes and cyanobacteria) when first dissolved silicate and then other nutrients become depleted, and increasing water column stratification hinders nutrient replenishment to the euphotic zone (Joint et al, 1986;Lochte et al, 1993;Rees et al, 1999;Raitsos et al, 2006;Leblanc et al, 2009). Especially, coccolithophores are a prominent feature of the late spring bloom, and this has been attributed to their tolerance for high irradiances, lower nutrient requirements and/or ability to utilise organic nitrogen or phosphorus sources (Palenik and Henson, 1997;Leblanc et al, 2009 and references therein). Bloom termination follows when nutrient depletion depresses primary productivity and grazing and viral control catch up with algal growth (Brussaard, 2004;Calbet and Landry, 2004;Behrenfeld, 2010).…”
Section: Introductionmentioning
confidence: 99%
“…Purine metabolism was consistently a large component of haptophyte QMF (5.6-27%), an order of magnitude higher than diatoms and dinoflagellates (1-2%). Purine nucleotides may represent a source of dissolved organic nitrogen accessible to haptophytes, because haptophytes have been found to grow on purines as their sole nitrogen source (33). As the precursor for nucleic acid biosynthesis, purine uptake in the ocean has also been attributed to nucleotide salvage (34).…”
Section: Resultsmentioning
confidence: 99%