Correlation between Anammox Activity and Microscale Distribution of Nitrite in a Subtropical Mangrove Sediment

Meyer, Rikke Louise; Risgaard-Petersen, Nils; Allen, Diane E.

doi:10.1128/aem.71.10.6142-6149.2005

Cited by 195 publications

(165 citation statements)

References 38 publications

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“…Meyer et al (2005) reported AN from a subtropical sediment, correlated with benthic nitrite distribution. Nicholls and Trimmer (2009) have argued that the importance of AN potential increases with both organic carbon content of sediment and with nitrate concentration in the overlying water, and that there is increase of AN relative to DN at lower temperature (Dalsgaard and Thamdrup 2002;Rysgaard et al 2004) .…”

Section: Discussionmentioning

confidence: 99%

Dissimilatory reduction of nitrate to ammonium, not denitrification or anammox, dominates benthic nitrate reduction in tropical estuaries

Dong

Sobey

Smith

et al. 2010

Limnology & Oceanography

214

119

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We measured benthic denitrification (DN) and dissimilatory reduction of nitrate to ammonium (DNRA) using the isotope-pairing technique in three tropical estuaries in Thailand (Mae Klong), Indonesia (Cisadane), and Fiji (Vunidawa-Rewa) during rainy, dry, and intermediate seasons along the salinity gradient of each estuary. DNRA dominated. Anammox (AN) was measured initially but neither AN activity nor AN bacteria-related 16S ribosomal RNA genes were detected in any of the estuaries. DN was either zero or extremely low, driven by water column nitrate and not from benthic nitrification-DN. N 2 O was not formed during DN. N 2 O saturations in estuary water were low, except in the nutrified Indonesian estuary, and tropical estuaries are therefore likely to be only small sources of N 2 O. Benthic nitrate reduction was nitrate limited; when nitrate was enhanced experimentally, DN increased slightly, but DNRA increased proportionately much more. Predominance of DNRA over DN in tropical estuaries may be due both to an energetic advantage (greater standard free energy change, DGu) of nitrate ammonifiers over denitrifiers when competing for limited nitrate, and also to higher affinity for nitrate by the nitrate ammonifiers. At tropical temperatures the three processes occur in the order DNRA . DN . AN. In contrast, temperate estuaries, at lower temperature and higher nitrate concentrations, exhibit proportionately greater levels of AN and DN. The Cisadane estuary became anoxic during the dry season, with high ammonium and sulfide, but no nitrate reduction because of lack of nitrate. Addition of nitrate stimulated high rates of autotrophic DN driven by sulfide, but not DNRA.

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Section: Discussionmentioning

confidence: 99%

Dissimilatory reduction of nitrate to ammonium, not denitrification or anammox, dominates benthic nitrate reduction in tropical estuaries

Dong

Sobey

Smith

et al. 2010

Limnology & Oceanography

214

119

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“…Our future effort will focus on the enrichment of the members of this cluster in a laboratory scale bioreactor. Anammox metabolism in marine ecosystems was an important discovery for the oceanic nitrogen cycle (Dalsgaard et al, 2003;Kuypers et al, 2003;Meyer et al, 2005); anammox bacteria highlighted in hydrothermal ecosystems could allow a better comprehension of the nitrogen cycle in the deep ocean.…”

Section: Activity Measurementsmentioning

confidence: 99%

Presence and activity of anaerobic ammonium-oxidizing bacteria at deep-sea hydrothermal vents

et al. 2008

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Recent studies indicate that ammonia is an important electron donor for the oxidation of fixed nitrogen, both in the marine water column and sediments. This process, known as anammox, has so far only been observed in a large range of temperature habitats. The present study investigated the role of anammox in hydrothermal settings. During three oceanographic expeditions to the MidAtlantic Ridge, hydrothermal samples were collected from five vent sites, at depths ranging from 750 to 3650 m from cold to hot habitats. Evidence for the occurrence of anammox in these particular habitats was demonstrated by concurrent surveys, including the amplification of 16S rRNA gene sequences related to known anammox bacteria, ladderanes lipids analysis and measurement of a

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“…The potential for anammox has now been reported for sediments from estuaries (Trimmer et al 2003;RisgaardPetersen et al 2004;Meyer et al 2005) and coastal seas Thamdrup and Dalsgaard 2002;Rysgaard et al 2004) and, in addition, several anoxic bodies of water Kuypers et al 2003Kuypers et al , 2005. The contribution of anammox to N 2 production has been found to be very high in some sediments, accounting for up to 80% of N removal (Engströ m et al 2005).…”

mentioning

confidence: 99%

“…The precise regulation of anammox in sediments is, as yet, unclear, though the current dogma is that denitrification decreases relative to anammox with increasing water depth offshore because of the associated decrease in availability of organic carbon needed to drive sediment mineralization and, thus, denitrification Dalsgaard et al 2005;Engströ m et al 2005). In addition, anammox may be favored in colder regions and-or those systems where NO { 3 and its reduction to NO { 2 are both high and consistent Meyer et al 2005;Trimmer et al 2005). Despite this progress the majority of studies on anammox and denitrification in sediment are potentials based on anaerobic slurry incubations.…”

mentioning

confidence: 99%

Production of nitrogen gas via anammox and denitrification in intact sediment cores along a continental shelf to slope transect in the North Atlantic

Trimmer

Nicholls

2009

Limnology & Oceanography

132

111

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We measured the production of N 2 gas from anammox and denitrification simultaneously in intact sediment cores at six sites along a transect of the continental shelf (50 m) and deeper slope (2000 m) in the North Atlantic. Maximum rates of total N 2 production were measured on the shelf and were largely due to denitrification, with anammox contributing, on average, 33% of this production. On the continental slope, the production of N 2 gas decreased but the proportion due to anammox reached a maximum of 65%. This change in both amount and dominant pathway of N 2 production could be explained largely by the concentration of organic carbon at each site. With increasing carbon the total production of N 2 increased rapidly while the response of anammox was not significant. On the continental slope, total N 2 production fell below 2 mmol N m 22 h 21 and anammox was strongly related (r 5 0.95) to denitrification but the relative magnitude of anammox to denitrification (1.65 : 1) suggested that anammox could not be fuelled by NO { 2 from denitrification alone. On the shelf, however, where total N 2 production was predominantly greater than 2 mmol N m 22 h 21 , no relationship between anammox and denitrification was found and anammox remained constant at 1.4 mmol N m 22 h 21 . Despite the constancy and greater availability of NO { 3 and lower temperatures on the continental slope, the significance of anammox to the total production of N 2 appears primarily controlled by the overall rate of N 2 production.

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Correlation between Anammox Activity and Microscale Distribution of Nitrite in a Subtropical Mangrove Sediment

Cited by 195 publications

References 38 publications

Dissimilatory reduction of nitrate to ammonium, not denitrification or anammox, dominates benthic nitrate reduction in tropical estuaries

Dissimilatory reduction of nitrate to ammonium, not denitrification or anammox, dominates benthic nitrate reduction in tropical estuaries

Presence and activity of anaerobic ammonium-oxidizing bacteria at deep-sea hydrothermal vents

Production of nitrogen gas via anammox and denitrification in intact sediment cores along a continental shelf to slope transect in the North Atlantic

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