Nitrogen-limited mangrove ecosystems conserve N through dissimilatory nitrate reduction to ammonium

Fernandes, Sheryl Oliveira; Bonin, Patricia; Michotey, Valérie; Garcia, Nicole; LokaBharathi, P.A.

doi:10.1038/srep00419

Cited by 104 publications

(62 citation statements)

References 28 publications

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“…Anammox (NH 4 + + NO 2 − → N 2 ) also removes bioavailable nitrogen, and this process widely exists in coastal basins as well as pelagic oceans (including water bodies, sediments, mangrove sediments, and even Arctic ice sheets) (Brandes et al, 2007). Moreover, DNRA converts NO 3 − to NH 4 + , which is more bioavailable; thus, it conserves nitrogen in the ecosystem (Bernard et al, 2015;Fernandes et al, 2012;Giblin et al, 2013). Thus, DNRA reduces the loss of nutrients caused by denitrification through this nitrogen recycling process and is an important mechanism to produce reusable nitrogen, Marine Pollution Bulletin xxx (2016) xxx-xxx which assures high productivity of the mangrove system (Fernandes et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

“…Available nitrogen forms include nitrate (NO 3 − ), nitrite (NO 2 − ), ammonia (NH 4 + ), and organic nitrogen (ON) (Brandes et al, 2007). The mangrove system can convert inorganic nitrogen to gaseous N 2 by nitrogen burial, physical transport, denitrification, anammox, and microbial activities (Vitousek et al, 1997) and conserve nitrogen through the DNRA process (Bernard et al, 2015;Fernandes et al, 2012). The denitrification process reduces NO 3 − and NO 2 − to N 2 and N 2 O, respectively; therefore, it removes nitrogen that was originally stabilized in mangroves.…”

Section: Introductionmentioning

confidence: 99%

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Dissimilatory nitrate reduction to ammonium conserves nitrogen in anthropogenically affected subtropical mangrove sediments in Southeast China

Cao

Jing-xin

et al. 2016

Marine Pollution Bulletin

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Dissimilatory nitrate reduction to ammonium conserves nitrogen in anthropogenically affected subtropical mangrove sediments in Southeast China

Cao

Jing-xin

et al. 2016

Marine Pollution Bulletin

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“…9) suggested (1) no evident differences associated with differences in watershed deforestation, a result confirming the erasure of watershed imprints down-estuary; (2) ammonium concentration deviations in creased down-estuary to salinities of about 15 ‰, implying within-estuary insertions (by regeneration or, less likely, by dissimilatory reduction of nitrate to ammonium; Fernandes et al 2012) during transit down-estuary; (3) deviations in ammonium and nitrate concentrations leaving estuaries seemed largely positive (more points above the dashed line) at salinities > 25 ‰ (Fig. 9), leaving the same visual impression as Figs.…”

Section: Separation Of Effects Of Passive Mixing From Within-estuary mentioning

confidence: 84%

“…5, Table 4). The mid-estuary high suggested considerable release of ammonium into the water column, probably by action of ammonium regeneration from mangrove sediments (Mwa shote & Jumba 2002, Ferguson et al 2004, Alongi et al 2005, Fernandes et al 2010, Smith et al 2011, and perhaps some influence of dissimilatory nitrate reduction to ammonium (Fernandes et al 2012).…”

Section: Ammoniummentioning

confidence: 99%

Nutrient gradients in Panamanian estuaries: effects of watershed deforestation, rainfall, upwelling, and within-estuary transformations

Valiela¹,

Giblin²,

Barth-Jensen³

et al. 2013

Mar. Ecol. Prog. Ser.

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To test whether deforestation of tropical forests alters coupling of watersheds, estuaries, and coastal waters, we measured nutrients in 8 watershed-estuarine systems on the Pacific coast of Panama where watershed forest cover ranged from 23 to 92%. Watersheds with greater forest cover discharged larger dissolved inorganic nitrogen concentrations and higher N/P into estuary headwaters. As freshwater mixed with seawater down-estuary, within-estuary biogeochemical processes erased the imprint of watershed deforestation, increased ammonium, lowered nitrate concentrations, and otherwise altered down-estuary water column composition. As estuarine water left mangrove estuaries, ammonium, nitrate, and phosphate, but not dissolved organic nitrogen, were exported to receiving near-shore waters. Mangrove estuaries in this region thus provide important ecological services, by uncoupling coastal waters from changes in terrestrial land covers, as well as by subsidizing adjoined receiving coastal waters by providing nutrients. The pattern of land−sea coupling and exports was disrupted during La Niña-influenced conditions. In one instance when La Niña conditions led to upwelling of deeper layers, high concentrations of marine-derived ammonium were inserted into estuaries. In another instance, La Niña-associated high rainfall diluted nutrient concentrations within estuaries and lowered salinity regionally, and the fresher upper layer impaired coastal upwelling. Regional rainfall has increased during the last decade. If La Niña rainfall continues to increase, disruptions of current land−estuary−sea couplings may become more frequent, with potentially significant changes in nutrient cycles and ecological services in these coupled ecosystems.The impacts of anthropogenic changes in land cover on the export of nutrients to tropical estuaries are attenuated by mangroves (inset).Photos: I. Valiela FREE REE ACCESS CCESS

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“…Despite their high productivity, mangroves are often nutrient limited, particularly for nitrogen [5][6][7][8]. Mangroves ability to conserve nutrients as a whole ecosystem relies largely on the mineralization of organic matter by active microorganisms, an important component for the productivity of the ecosystem [9][10][11]. Diazotrophs (nitrogen fixing bacteria) are a physiologically and phylogenetically diverse microbial group responsible for most nitrogen input in the mangrove ecosystem [12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Phylogenetic Diversity of Diazotrophs along an Experimental Nutrient Gradient in Mangrove Sediments

Romero

Jacobson-Meyers

Fuhrman

et al. 2015

JMSE

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Abstract:The diversity of diazotrophs was studied in the sediment of mangrove forests (Twin Cays, Belize) subjected to a long-term fertilization with nitrogen and phosphorus. Terminal Restriction Fragment Length Polymorphism (TRFLP) and cloning of PCR-amplified nifH genes were combined via in silico analysis to assign clones to TRFLP-nifH phylotypes, as well as to characterize the occurrence of phylotypes in response to environmental conditions. Results indicated that mangrove sediments from Belize harbor a unique diazotrophic community with a low metabolic diversity dominated by sulfate reducers. The variability of potential nitrogen-fixing sulfate reducers was explained by several environmental parameters, primarily by the abundance of dead roots in the sediments, and the concentration of H2S in the pore-waters. This study describes the complexity of microbial communities within the mangrove sediments with specific functional groups varying along environmental gradients.

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Nitrogen-limited mangrove ecosystems conserve N through dissimilatory nitrate reduction to ammonium

Cited by 104 publications

References 28 publications

Dissimilatory nitrate reduction to ammonium conserves nitrogen in anthropogenically affected subtropical mangrove sediments in Southeast China

Dissimilatory nitrate reduction to ammonium conserves nitrogen in anthropogenically affected subtropical mangrove sediments in Southeast China

Nutrient gradients in Panamanian estuaries: effects of watershed deforestation, rainfall, upwelling, and within-estuary transformations

Phylogenetic Diversity of Diazotrophs along an Experimental Nutrient Gradient in Mangrove Sediments

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