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Microphytobenthos activity and fluxes at the sediment-water interface: interactions and spatial variability
In this study oxygen and nutrient fluxes and denitrification rates across the sediment-water interface were measured via intact core incubations with a twofold aim: show whether microphytobenthos activity affects these processes and analyse the dispersion of replicate measurements. Eighteen intact s...
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| Published in: | Aquatic ecology 2003-10, Vol.37 (4), p.341-349 |
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| Language: | English |
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| creator | Bartoli, Marco Nizzoli, Daniele Viaroli, Pierluigi |
| description | In this study oxygen and nutrient fluxes and denitrification rates across the sediment-water interface were measured via intact core incubations with a twofold aim: show whether microphytobenthos activity affects these processes and analyse the dispersion of replicate measurements. Eighteen intact sediment cores (i.d. 8 cm) were randomly sampled from a shallow microtidal brackish pond at Tjarno, on the west coast of Sweden, and were incubated in light and in darkness simulating in situ conditions. During incubation O^sub 2^, inorganic N and SiO^sub 2^ fluxes and denitrification rates (isotope pairing) were measured. Assuming mean values of 18 cores as best estimate of true average (BEA), the accuracy of O^sub 2^, NH^sub 4^^sup +^, NO^sub 3^^sup -^ and SiO^sub 2^ fluxes calculated for an increasing number of subsamples was tested. At the investigated site, microalgae strongly influenced benthic O^sub 2^, inorganic N and SiO^sub 2^ fluxes and coupled (D^sub n^) and uncoupled (D^sub w^) denitrification through their photosynthetic activity. In the shift between dark and light conditions NH^sub 4^^sup +^ and SiO^sub 2^ effluxes (60 and 110 µmol m^sup -2^h^sup -1^) and D^sub n^ (5 µmol m^sup -2^ h^sup -1^) dropped to zero, NO^sub 3^^sup -^ uptake (70 µmol m^sup -2^ h^sup -1^) showed a 30% increase, while D^sub w^ (20 µmol m^sup -2^ h^sup -1^) showed an 80% decrease. For O^sub 2^ and NO^sub 3^^sup -^ dark fluxes, 4 core replicates were sufficient to obtain averages within 5-10% of the best estimated mean, while 10-20% accuracy was obtained with 4-12 replicates for SiO^sub 2^ and >10 replicates for NH^sub 4^^sup +^ dark fluxes. Mean accuracy was considerably lower for all light incubations, probably due to the patchy distribution of the benthic microalgal community.[PUBLICATION ABSTRACT] |
| doi_str_mv | 10.1023/B:AECO.0000007040.43077.5f |
| format | article |
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Eighteen intact sediment cores (i.d. 8 cm) were randomly sampled from a shallow microtidal brackish pond at Tjarno, on the west coast of Sweden, and were incubated in light and in darkness simulating in situ conditions. During incubation O^sub 2^, inorganic N and SiO^sub 2^ fluxes and denitrification rates (isotope pairing) were measured. Assuming mean values of 18 cores as best estimate of true average (BEA), the accuracy of O^sub 2^, NH^sub 4^^sup +^, NO^sub 3^^sup -^ and SiO^sub 2^ fluxes calculated for an increasing number of subsamples was tested. At the investigated site, microalgae strongly influenced benthic O^sub 2^, inorganic N and SiO^sub 2^ fluxes and coupled (D^sub n^) and uncoupled (D^sub w^) denitrification through their photosynthetic activity. In the shift between dark and light conditions NH^sub 4^^sup +^ and SiO^sub 2^ effluxes (60 and 110 µmol m^sup -2^h^sup -1^) and D^sub n^ (5 µmol m^sup -2^ h^sup -1^) dropped to zero, NO^sub 3^^sup -^ uptake (70 µmol m^sup -2^ h^sup -1^) showed a 30% increase, while D^sub w^ (20 µmol m^sup -2^ h^sup -1^) showed an 80% decrease. For O^sub 2^ and NO^sub 3^^sup -^ dark fluxes, 4 core replicates were sufficient to obtain averages within 5-10% of the best estimated mean, while 10-20% accuracy was obtained with 4-12 replicates for SiO^sub 2^ and >10 replicates for NH^sub 4^^sup +^ dark fluxes. Mean accuracy was considerably lower for all light incubations, probably due to the patchy distribution of the benthic microalgal community.[PUBLICATION ABSTRACT]</description><identifier>ISSN: 1386-2588</identifier><identifier>EISSN: 1573-5125</identifier><identifier>DOI: 10.1023/B:AECO.0000007040.43077.5f</identifier><language>eng</language><publisher>Dordrecht: Springer Nature B.V</publisher><subject>Accuracy ; Brackish ; Cores ; Denitrification ; Microalgae ; Sediment-water interface ; Sediments</subject><ispartof>Aquatic ecology, 2003-10, Vol.37 (4), p.341-349</ispartof><rights>Kluwer Academic Publishers 2003</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c350t-f33fc00f769808a30363e45015943a4a67d84d96cf406d3c1131b182ca437d5d3</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Bartoli, Marco</creatorcontrib><creatorcontrib>Nizzoli, Daniele</creatorcontrib><creatorcontrib>Viaroli, Pierluigi</creatorcontrib><title>Microphytobenthos activity and fluxes at the sediment-water interface: interactions and spatial variability</title><title>Aquatic ecology</title><description>In this study oxygen and nutrient fluxes and denitrification rates across the sediment-water interface were measured via intact core incubations with a twofold aim: show whether microphytobenthos activity affects these processes and analyse the dispersion of replicate measurements. Eighteen intact sediment cores (i.d. 8 cm) were randomly sampled from a shallow microtidal brackish pond at Tjarno, on the west coast of Sweden, and were incubated in light and in darkness simulating in situ conditions. During incubation O^sub 2^, inorganic N and SiO^sub 2^ fluxes and denitrification rates (isotope pairing) were measured. Assuming mean values of 18 cores as best estimate of true average (BEA), the accuracy of O^sub 2^, NH^sub 4^^sup +^, NO^sub 3^^sup -^ and SiO^sub 2^ fluxes calculated for an increasing number of subsamples was tested. At the investigated site, microalgae strongly influenced benthic O^sub 2^, inorganic N and SiO^sub 2^ fluxes and coupled (D^sub n^) and uncoupled (D^sub w^) denitrification through their photosynthetic activity. In the shift between dark and light conditions NH^sub 4^^sup +^ and SiO^sub 2^ effluxes (60 and 110 µmol m^sup -2^h^sup -1^) and D^sub n^ (5 µmol m^sup -2^ h^sup -1^) dropped to zero, NO^sub 3^^sup -^ uptake (70 µmol m^sup -2^ h^sup -1^) showed a 30% increase, while D^sub w^ (20 µmol m^sup -2^ h^sup -1^) showed an 80% decrease. For O^sub 2^ and NO^sub 3^^sup -^ dark fluxes, 4 core replicates were sufficient to obtain averages within 5-10% of the best estimated mean, while 10-20% accuracy was obtained with 4-12 replicates for SiO^sub 2^ and >10 replicates for NH^sub 4^^sup +^ dark fluxes. 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Eighteen intact sediment cores (i.d. 8 cm) were randomly sampled from a shallow microtidal brackish pond at Tjarno, on the west coast of Sweden, and were incubated in light and in darkness simulating in situ conditions. During incubation O^sub 2^, inorganic N and SiO^sub 2^ fluxes and denitrification rates (isotope pairing) were measured. Assuming mean values of 18 cores as best estimate of true average (BEA), the accuracy of O^sub 2^, NH^sub 4^^sup +^, NO^sub 3^^sup -^ and SiO^sub 2^ fluxes calculated for an increasing number of subsamples was tested. At the investigated site, microalgae strongly influenced benthic O^sub 2^, inorganic N and SiO^sub 2^ fluxes and coupled (D^sub n^) and uncoupled (D^sub w^) denitrification through their photosynthetic activity. In the shift between dark and light conditions NH^sub 4^^sup +^ and SiO^sub 2^ effluxes (60 and 110 µmol m^sup -2^h^sup -1^) and D^sub n^ (5 µmol m^sup -2^ h^sup -1^) dropped to zero, NO^sub 3^^sup -^ uptake (70 µmol m^sup -2^ h^sup -1^) showed a 30% increase, while D^sub w^ (20 µmol m^sup -2^ h^sup -1^) showed an 80% decrease. For O^sub 2^ and NO^sub 3^^sup -^ dark fluxes, 4 core replicates were sufficient to obtain averages within 5-10% of the best estimated mean, while 10-20% accuracy was obtained with 4-12 replicates for SiO^sub 2^ and >10 replicates for NH^sub 4^^sup +^ dark fluxes. Mean accuracy was considerably lower for all light incubations, probably due to the patchy distribution of the benthic microalgal community.[PUBLICATION ABSTRACT]</abstract><cop>Dordrecht</cop><pub>Springer Nature B.V</pub><doi>10.1023/B:AECO.0000007040.43077.5f</doi><tpages>9</tpages></addata></record> |
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| ispartof | Aquatic ecology, 2003-10, Vol.37 (4), p.341-349 |
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| subjects | Accuracy Brackish Cores Denitrification Microalgae Sediment-water interface Sediments |
| title | Microphytobenthos activity and fluxes at the sediment-water interface: interactions and spatial variability |
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