Nitrogen dynamics and phytoplankton community structure: the role of organic nutrients

Moschonas, Grigorios; Gowen, Richard J.; Paterson, Ruth F.; Mitchell, Elaine; Stewart, Brian M.; McNeill, Sharon; Glibert, Patricia M.; Davidson, Keith

doi:10.1007/s10533-017-0351-8

Cited by 60 publications

(39 citation statements)

References 113 publications

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“…Urea and DFAA contributed significantly to the total measured N uptake during blooms (Figs. 3,4,6,7,and 8), consistent with other studies (Glibert et al 2001;Mulholland et al 2002Mulholland et al , 2009aHeil et al 2007;Anderson et al 2008;Gobler et al 2012;Boneillo and Mulholland 2014;Bronk et al 2014;Moschonas et al 2017). We also observed that high rates of DON uptake for these compounds were not limited to periods when there were blooms (Fig.…”

Section: Nitrogen Uptakesupporting

confidence: 92%

“…3, 4, and 8). During all years, DIN contributed substantially to N demand during both bloom and non-bloom periods, similar to what has been shown in other estuarine and coastal marine systems (Heil et al 2007;Mulholland and Lomas 2008;Mulholland et al 2009a, b;Boneillo and Mulholland 2014;Bronk et al 2014;Moschonas et al 2017 − was also a quantitatively large source of N to Gymnodinium sp. and other dinoflagellate-dominated phytoplankton communities (Fig.…”

Section: Nitrogen Uptakesupporting

confidence: 82%

“…During the summer of 2003, when there were no monospecific blooms observed, but dinoflagellates still dominated the phytoplankton community, uptake of DON compounds usually exceeded that of DIN. Similar observations were made in another eutrophic system during summer in the absence of algal blooms (Boneillo and Mulholland 2014) and in coastal systems where the composition of the dissolved N pool has been related to phytoplankton community composition (Heil et al 2007;Moschonas et al 2017).…”

Section: Nitrogen Uptakesupporting

confidence: 79%

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Blooms of Dinoflagellate Mixotrophs in a Lower Chesapeake Bay Tributary: Carbon and Nitrogen Uptake over Diurnal, Seasonal, and Interannual Timescales

Mulholland

Morse

Egerton

et al. 2018

Estuaries and Coasts

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A multi-year study was conducted in the eutrophic Lafayette River, a sub-tributary of the lower Chesapeake Bay during which uptake of inorganic and organic nitrogen (N) and C compounds was measured during multiple seasons and years when different dinoflagellate species were dominant. Seasonal dinoflagellate blooms included a variety of mixotrophic dinoflagellates including Heterocapsa triquetra in the late winter, Prorocentrum minimum in the spring, Akashiwo sanguinea in the early summer, and Scrippsiella trochoidea and Cochlodinium polykrikoides in late summer and fall. Results showed that no single N source fueled algal growth, rather rates of N and C uptake varied on seasonal and diurnal timescales, and within blooms as they initiated and developed. Rates of photosynthetic C uptake were low yielding low assimilation numbers during much of the study period and the ability to assimilate dissolved organic carbon augmented photosynthetic C uptake during bloom and non-bloom periods. The ability to use dissolved organic C during the day and night may allow mixotrophic bloom organisms a competitive advantage over co-occurring phytoplankton that are restricted to photoautotrophic growth, obtaining N and C during the day and in well-lit surface waters.

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Section: Nitrogen Uptakesupporting

confidence: 92%

Section: Nitrogen Uptakesupporting

confidence: 82%

Section: Nitrogen Uptakesupporting

confidence: 79%

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Blooms of Dinoflagellate Mixotrophs in a Lower Chesapeake Bay Tributary: Carbon and Nitrogen Uptake over Diurnal, Seasonal, and Interannual Timescales

Mulholland

Morse

Egerton

et al. 2018

Estuaries and Coasts

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“…The ecology of prokaryotes and protists, especially Antarctic phytoplankton during summer (11)(12)(13)(14)(15)(16), together with the major role of viruses in prokaryotes and eukaryotic phytoplankton mortality (17)(18)(19)(20) have been well studied. However, due to the geographical location and the difficulty of culturing viral hosts, an understanding of virus diversity and viral community structures in coastal regions of Antarctica including Sub-Antarctic areas is still lacking.…”

Section: Introductionmentioning

confidence: 99%

Metagenomic characterization of the viral community of the South Scotia Ridge

Yang¹,

Gao²,

Jiang

et al. 2018

Preprint

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Viruses are the most abundant biological entities in aquatic ecosystems and harbor an enormous genetic diversity. While their great influence on the marine ecosystems is widely acknowledged, current information about their diversity remains scarce. A viral metagenomic analysis of two surfaces and one bottom water sample was conducted from sites on the South Scotia Ridge (SSR) near the Antarctic Peninsula, during the austral summer 2016. The taxonomic composition and diversity of the viral communities were investigated and a functional assessment of the sequences was determined. Phylotypic analysis showed that most viruses belonging to the order Caudovirales, in particular, the family Podoviridae (41.92-48.7%), which is similar to the viral communities from the Pacific Ocean. Functional analysis revealed a relatively high frequency of phage-associated and metabolism genes. Phylogenetic analyses of phage TerL and Capsid_NCLDV (nucleocytoplasmic large DNA viruses) marker genes indicated that many of the sequences associated with Caudovirales and NCLDV were novel and distinct from known complete phage genomes. High Phaeocystis globosa virus virophage (Pgvv) signatures were found in SSR area and complete and partial Pgvv-like were obtained which may have an influence on host-virus interactions in the area during summer. Our study expands the existing knowledge of viral communities and their diversities from the Antarctic region and provides basic data for further exploring polar microbiomes.Importance In this study, we used high-throughput sequencing and bioinformatics analysis to analyze the viral community structure and biodiversity of SSR in the open sea near the Antarctic Peninsula. The results showed that the SSR viromes are novel, oceanic-related viromes and a high proportion of sequence reads was classified as unknown. Among known virus counterparts, members of the order Caudovirales were most abundant which is consistent with viromes from the Pacific Ocean. In addition, phylogenetic analyses based on the viral marker genes (TerL and MCP) illustrate the high diversity among Caudovirales and NCLDV. Combining deep sequencing and a random subsampling assembly approach, a new Pgvv-like group was also found in this region, which may a signification factor regulating virus-host interactions.

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“…Consequently, research based on DOM materials extracted by different methods may lead to different results, because various DOM components play different roles in ecological processes. For example, during the microbial degradation of DOM, components rich in N and P (i.e., amino acids and nucleotides) are transformed into inorganic nutrients (i.e., ammonium, nitrate, phosphate) (Moschonas et al, 2017;Brailsford et al, 2017). Low-molecular weight organic acids can improve the transport of metal ions in soil through the formation of metal-organic acid complexes (Wu et al, 2010 as they are less used by microorganisms (Nebbioso and Piccolo, 2013;Cotrufo et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Influence of extractants and filter materials in the extraction of dissolved organic matter (DOM) from subtropical agricultural soil

Zheng

Liang

2018

Emir J Food Agric

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The dissolved organic matter (DOM) plays an important role in ecological processes in agricultural ecosystems. However, composition of DOM extracted by different methods remains unclear. In this study, pyrolysis–gas-chromatography/mass spectrometry (Py-GCMS) was used to investigate the content and chemical composition of DOM extracted by aqueous K2SO4 or H2O and filter paper (FP) or membrane (FM). The results showed that dissolved organic carbon (DOC) content extracted by K2SO4 was 0.83–11.2 times higher than that extracted by H2O, while it increased by 10.1–75.0% when filtered by FP compared to that filtered by FM. Compared with the H2O extract, the K2SO4 one contained lower proportions of aromatic compounds. The relative proportions of hydrophobic compounds in the K2SO4 extract (9.7–89.7%), were higher than in H2O one (2.6–63.5%), whereas the proportions of hydrophilic compounds exhibited the opposite trend (p<0.05). The content and complexity of the DOM extracted by the FP-K2SO4 method was higher than that obtained by FM-H2O one. Taken together, the K2SO4 and H2O extractants affected both the quantity and quality of DOM, whereas the FP and FM filter materials only influenced the DOC content (p<0.05). Consequently, effect of the extraction method on DOM properties should be considered when studying DOM composition and corresponding ecological processes.

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Nitrogen dynamics and phytoplankton community structure: the role of organic nutrients

Cited by 60 publications

References 113 publications

Blooms of Dinoflagellate Mixotrophs in a Lower Chesapeake Bay Tributary: Carbon and Nitrogen Uptake over Diurnal, Seasonal, and Interannual Timescales

Blooms of Dinoflagellate Mixotrophs in a Lower Chesapeake Bay Tributary: Carbon and Nitrogen Uptake over Diurnal, Seasonal, and Interannual Timescales

Metagenomic characterization of the viral community of the South Scotia Ridge

Influence of extractants and filter materials in the extraction of dissolved organic matter (DOM) from subtropical agricultural soil

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