Dissolved manganese in ocean waters : analytical and biogeochemical studies

The aim of this study was to improve our understanding of the natural sources and processes of the dissolved manganese associated with the Southern Ocean and the Tropical North-Eastern (NE) Atlantic Ocean. A flow injection analyser (FIA) with chemiluminescence (CL) detection was first set up for the...

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Main Author: Idrus, Farah Akmal
Other Authors: Statham, Peter
Published: University of Southampton 2013
Subjects:
550
Online Access:https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.595556
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spelling ndltd-bl.uk-oai-ethos.bl.uk-5955562018-09-05T03:23:37ZDissolved manganese in ocean waters : analytical and biogeochemical studiesIdrus, Farah AkmalStatham, Peter2013The aim of this study was to improve our understanding of the natural sources and processes of the dissolved manganese associated with the Southern Ocean and the Tropical North-Eastern (NE) Atlantic Ocean. A flow injection analyser (FIA) with chemiluminescence (CL) detection was first set up for the determination of dissolved manganese (DMn, ≤ 0.2 μm). Extension work was undertaken to solve problems relating to our limited level of understanding of the CL reaction, and the behaviour of the resins used to either preconcentrate the manganese (i.e. Toyopearl AF-Chelate 650M) or to remove the interfering elements (cleaning resin, i.e. NTA Superflow and 8-Hydroxyquinoline). Using the system built in our laboratory, the determination of the interference of other dissolved trace metals (e.g. Fe, Ni, Cu, Co, Zn and Cd) were possible with dissolved manganese measurement in order to obtain a good measurable CL peak for dissolved manganese. The distribution of manganese around the Crozet Islands was examined and was used to provide a conceptual framework for future studies. Dissolved manganese concentrations were measured in samples collected from nine vertical profiles taken across the Crozet Plateau (80 - ~4500 m water depth) that show evidence of a range of processes influencing the manganese distributions. Dissolved manganese varied between 0.1 and 2.44 nM, and the resulting detailed section showed evidence of an island souce is identified which suggests that the plateau and the associated sediments are a source of manganese. Waters further north also appear to be affected by this input of both coastal and shelf origin, although dissolved manganese decrease as a function of distance to the north of the plateau with a gradient of 0.096 nM/km as a result of dispersion and mixing. This gradient was then combined with short-lived Radium isotopes profiles, allowing the determination of a lateral advective flux of manganese (up to 538 nmol/m2/d). Estimates of atmosphere and vertical fluxes of manganese to surface waters were also calculated. It was then possible to estimate a pre-bloom concentration of ~0.4 nM. A set of surface samples were collected from the Tropical NE Atlantic Ocean, and were analysed for dissolved manganese. Results suggest the land-sources of manganese near to the Canary Islands, the Cape Verde Islands and the African Continent, where high dissolved manganese concentrations were determined, with the highest is ~3.90 nM. The lateral advective flux of manganese was higher (47 μmol/m2/d) than the atmospheric flux of manganese (0.17 μmol/m2/d), thus making the shelf+sediment as the most prominent sources of dissolved manganese in the seawater close to the islands. From this atmospheric flux of manganese, it was then possible to estimate the manganese enrichment around the further offshore dust event regions of 0.73 nM/yr and consistent with the dissolved manganese background concentrations. This support the low residence time calculated in dust event regions of around 1 year.550GC OceanographyUniversity of Southamptonhttps://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.595556https://eprints.soton.ac.uk/363750/Electronic Thesis or Dissertation
collection NDLTD
sources NDLTD
topic 550
GC Oceanography
spellingShingle 550
GC Oceanography
Idrus, Farah Akmal
Dissolved manganese in ocean waters : analytical and biogeochemical studies
description The aim of this study was to improve our understanding of the natural sources and processes of the dissolved manganese associated with the Southern Ocean and the Tropical North-Eastern (NE) Atlantic Ocean. A flow injection analyser (FIA) with chemiluminescence (CL) detection was first set up for the determination of dissolved manganese (DMn, ≤ 0.2 μm). Extension work was undertaken to solve problems relating to our limited level of understanding of the CL reaction, and the behaviour of the resins used to either preconcentrate the manganese (i.e. Toyopearl AF-Chelate 650M) or to remove the interfering elements (cleaning resin, i.e. NTA Superflow and 8-Hydroxyquinoline). Using the system built in our laboratory, the determination of the interference of other dissolved trace metals (e.g. Fe, Ni, Cu, Co, Zn and Cd) were possible with dissolved manganese measurement in order to obtain a good measurable CL peak for dissolved manganese. The distribution of manganese around the Crozet Islands was examined and was used to provide a conceptual framework for future studies. Dissolved manganese concentrations were measured in samples collected from nine vertical profiles taken across the Crozet Plateau (80 - ~4500 m water depth) that show evidence of a range of processes influencing the manganese distributions. Dissolved manganese varied between 0.1 and 2.44 nM, and the resulting detailed section showed evidence of an island souce is identified which suggests that the plateau and the associated sediments are a source of manganese. Waters further north also appear to be affected by this input of both coastal and shelf origin, although dissolved manganese decrease as a function of distance to the north of the plateau with a gradient of 0.096 nM/km as a result of dispersion and mixing. This gradient was then combined with short-lived Radium isotopes profiles, allowing the determination of a lateral advective flux of manganese (up to 538 nmol/m2/d). Estimates of atmosphere and vertical fluxes of manganese to surface waters were also calculated. It was then possible to estimate a pre-bloom concentration of ~0.4 nM. A set of surface samples were collected from the Tropical NE Atlantic Ocean, and were analysed for dissolved manganese. Results suggest the land-sources of manganese near to the Canary Islands, the Cape Verde Islands and the African Continent, where high dissolved manganese concentrations were determined, with the highest is ~3.90 nM. The lateral advective flux of manganese was higher (47 μmol/m2/d) than the atmospheric flux of manganese (0.17 μmol/m2/d), thus making the shelf+sediment as the most prominent sources of dissolved manganese in the seawater close to the islands. From this atmospheric flux of manganese, it was then possible to estimate the manganese enrichment around the further offshore dust event regions of 0.73 nM/yr and consistent with the dissolved manganese background concentrations. This support the low residence time calculated in dust event regions of around 1 year.
author2 Statham, Peter
author_facet Statham, Peter
Idrus, Farah Akmal
author Idrus, Farah Akmal
author_sort Idrus, Farah Akmal
title Dissolved manganese in ocean waters : analytical and biogeochemical studies
title_short Dissolved manganese in ocean waters : analytical and biogeochemical studies
title_full Dissolved manganese in ocean waters : analytical and biogeochemical studies
title_fullStr Dissolved manganese in ocean waters : analytical and biogeochemical studies
title_full_unstemmed Dissolved manganese in ocean waters : analytical and biogeochemical studies
title_sort dissolved manganese in ocean waters : analytical and biogeochemical studies
publisher University of Southampton
publishDate 2013
url https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.595556
work_keys_str_mv AT idrusfarahakmal dissolvedmanganeseinoceanwatersanalyticalandbiogeochemicalstudies
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