A. Alothman, Daffne C. López‐Sandoval, C. Duarte, S. Agustí
{"title":"贫营养水体中浮游细菌暗CO2固定","authors":"A. Alothman, Daffne C. López‐Sandoval, C. Duarte, S. Agustí","doi":"10.5194/bg-20-3613-2023","DOIUrl":null,"url":null,"abstract":"Abstract. Dark CO2 fixation by bacteria is believed to be particularly important\nin oligotrophic ecosystems. However, only a few studies have characterized\nthe role of bacterial dissolved inorganic carbon (DIC) fixation in global\ncarbon dynamics. Therefore, this study quantified the primary production\n(PP), total bacteria dark CO2 fixation (TBDIC fixation), and\nheterotrophic bacterial production (HBP) in the warm and oligotrophic Red\nSea using stable-isotope labeling and cavity ring-down spectroscopy\n(13C–CRDS). Additionally, we assessed the contribution of bacterial DIC\nfixation (TBDIC %) relative to the total DIC fixation\n(totalDIC fixation). Our study demonstrated that TBDIC fixation increased the totalDIC fixation from 2.03 to 60.45 µg C L−1 d−1 within the photic zone, contributing 13.18 % to 71.68 % with an average value of 33.95 ± 0.02 % of the\nphotic layer totalDIC fixation. The highest TBDIC fixation values were measured at the surface and deep (400 m) water with\nan average value of 5.23 ± 0.45 and\n4.95 ± 1.33 µg C L−1 d−1, respectively. These\nfindings suggest that the non-photosynthetic processes such as anaplerotic\nDIC reactions and chemoautotrophic CO2 fixation extended to the entire\noxygenated water column. On the other hand, the percent of TBDIC\ncontribution to totalDIC fixation increased as primary production\ndecreased (R2=0.45, p<0.0001), suggesting the relevance\nof increased dark DIC fixation when photosynthetic production was low or\nabsent, as observed in other systems. Therefore, when estimating the total\ncarbon dioxide production in the ocean, dark DIC fixation must also be\naccounted for as a crucial component of the carbon dioxide flux in addition to\nphotosynthesis.\n","PeriodicalId":8899,"journal":{"name":"Biogeosciences","volume":" ","pages":""},"PeriodicalIF":3.9000,"publicationDate":"2023-08-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Bacterioplankton dark CO2 fixation in oligotrophic waters\",\"authors\":\"A. Alothman, Daffne C. López‐Sandoval, C. Duarte, S. Agustí\",\"doi\":\"10.5194/bg-20-3613-2023\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract. Dark CO2 fixation by bacteria is believed to be particularly important\\nin oligotrophic ecosystems. However, only a few studies have characterized\\nthe role of bacterial dissolved inorganic carbon (DIC) fixation in global\\ncarbon dynamics. Therefore, this study quantified the primary production\\n(PP), total bacteria dark CO2 fixation (TBDIC fixation), and\\nheterotrophic bacterial production (HBP) in the warm and oligotrophic Red\\nSea using stable-isotope labeling and cavity ring-down spectroscopy\\n(13C–CRDS). Additionally, we assessed the contribution of bacterial DIC\\nfixation (TBDIC %) relative to the total DIC fixation\\n(totalDIC fixation). Our study demonstrated that TBDIC fixation increased the totalDIC fixation from 2.03 to 60.45 µg C L−1 d−1 within the photic zone, contributing 13.18 % to 71.68 % with an average value of 33.95 ± 0.02 % of the\\nphotic layer totalDIC fixation. The highest TBDIC fixation values were measured at the surface and deep (400 m) water with\\nan average value of 5.23 ± 0.45 and\\n4.95 ± 1.33 µg C L−1 d−1, respectively. These\\nfindings suggest that the non-photosynthetic processes such as anaplerotic\\nDIC reactions and chemoautotrophic CO2 fixation extended to the entire\\noxygenated water column. On the other hand, the percent of TBDIC\\ncontribution to totalDIC fixation increased as primary production\\ndecreased (R2=0.45, p<0.0001), suggesting the relevance\\nof increased dark DIC fixation when photosynthetic production was low or\\nabsent, as observed in other systems. 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Bacterioplankton dark CO2 fixation in oligotrophic waters
Abstract. Dark CO2 fixation by bacteria is believed to be particularly important
in oligotrophic ecosystems. However, only a few studies have characterized
the role of bacterial dissolved inorganic carbon (DIC) fixation in global
carbon dynamics. Therefore, this study quantified the primary production
(PP), total bacteria dark CO2 fixation (TBDIC fixation), and
heterotrophic bacterial production (HBP) in the warm and oligotrophic Red
Sea using stable-isotope labeling and cavity ring-down spectroscopy
(13C–CRDS). Additionally, we assessed the contribution of bacterial DIC
fixation (TBDIC %) relative to the total DIC fixation
(totalDIC fixation). Our study demonstrated that TBDIC fixation increased the totalDIC fixation from 2.03 to 60.45 µg C L−1 d−1 within the photic zone, contributing 13.18 % to 71.68 % with an average value of 33.95 ± 0.02 % of the
photic layer totalDIC fixation. The highest TBDIC fixation values were measured at the surface and deep (400 m) water with
an average value of 5.23 ± 0.45 and
4.95 ± 1.33 µg C L−1 d−1, respectively. These
findings suggest that the non-photosynthetic processes such as anaplerotic
DIC reactions and chemoautotrophic CO2 fixation extended to the entire
oxygenated water column. On the other hand, the percent of TBDIC
contribution to totalDIC fixation increased as primary production
decreased (R2=0.45, p<0.0001), suggesting the relevance
of increased dark DIC fixation when photosynthetic production was low or
absent, as observed in other systems. Therefore, when estimating the total
carbon dioxide production in the ocean, dark DIC fixation must also be
accounted for as a crucial component of the carbon dioxide flux in addition to
photosynthesis.
期刊介绍:
Biogeosciences (BG) is an international scientific journal dedicated to the publication and discussion of research articles, short communications and review papers on all aspects of the interactions between the biological, chemical and physical processes in terrestrial or extraterrestrial life with the geosphere, hydrosphere and atmosphere. The objective of the journal is to cut across the boundaries of established sciences and achieve an interdisciplinary view of these interactions. Experimental, conceptual and modelling approaches are welcome.