Lipid biomarker signatures as tracers for harmful cyanobacterial blooms in the Baltic Sea

Bauersachs, Thorsten; Talbot, Helen M.; Sidgwick, Frances R.; Sivonen, Kaarina; Schwark, Lorenz

doi:10.1371/journal.pone.0186360

Cited by 32 publications

(37 citation statements)

References 105 publications

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“…4a, summarized in Table 1), agrees well with the HG distribution in cultures of Nodularia, Aphanizomenon and Anabaena as well as other members of the Nostocaceae family (Table 1), including those that have been isolated from the Baltic (Bauersachs et al, 2009a(Bauersachs et al, , 2017. These cultures generally also synthesized minor amounts of the C 26 keto-ol HG, as was seen in the MoWP sediments.…”

Section: Brackish Sedimentssupporting

confidence: 80%

“…The C 28 diol was often dominant and both the C 26 and C 28 keto-ol were present in a higher proportion than during the Bauersachs et al (2009a). b Bauersachs et al (2017). c Wörmer et al (2012).…”

Section: The Ancylus Lake Sedimentsmentioning

confidence: 99%

“…Bauersachs et al (2017) have recently analyzed the HGs of eight representative heterocystous cyanobacterial strains isolated from the Baltic Sea, and the six C 6 HGs targeted in our study (a) (b) Figure 4. Distribution of HGs, displayed as fractional abundance (%) vs. depth (in cm) for (a) the MUC P435-1-4 core and (b) the GC 303 600 core.…”

Section: Abundance and Distribution Of Hgsmentioning

confidence: 99%

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The Holocene sedimentary record of cyanobacterial glycolipids in the Baltic Sea: an evaluation of their application as tracers of past nitrogen fixation

et al. 2017

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Abstract. Heterocyst glycolipids (HGs) are lipids exclusively produced by heterocystous dinitrogen-fixing cyanobacteria. The Baltic Sea is an ideal environment to study the distribution of HGs and test their potential as biomarkers because of its recurring summer phytoplankton blooms, dominated by a few heterocystous cyanobacterial species of the genera Nodularia and Aphanizomenon. A multi-core and a gravity core from the Gotland Basin were analyzed to determine the abundance and distribution of a suite of selected HGs at a high resolution to investigate the changes in past cyanobacterial communities during the Holocene. The HG distribution of the sediments deposited during the Modern Warm Period (MoWP) was compared with those of cultivated heterocystous cyanobacteria, including those isolated from Baltic Sea waters, revealing high similarity. However, the abundance of HGs dropped substantially with depth, and this may be caused by either a decrease in the occurrence of the cyanobacterial blooms or diagenesis, resulting in partial destruction of the HGs. The record also shows that the HG distribution has remained stable since the Baltic turned into a brackish semi-enclosed basin ∼ 7200 cal. yr BP. This suggests that the heterocystous cyanobacterial species composition remained relatively stable as well. During the earlier freshwater phase of the Baltic (i.e., the Ancylus Lake and Yoldia Sea phases), the distribution of the HGs varied much more than in the subsequent brackish phase, and the absolute abundance of HGs was much lower than during the brackish phase. This suggests that the cyanobacterial community adjusted to the different environmental conditions in the basin. Our results confirm the potential of HGs as a specific biomarker of heterocystous cyanobacteria in paleo-environmental studies.

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Section: Brackish Sedimentssupporting

confidence: 80%

Section: The Ancylus Lake Sedimentsmentioning

confidence: 99%

Section: Abundance and Distribution Of Hgsmentioning

confidence: 99%

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The Holocene sedimentary record of cyanobacterial glycolipids in the Baltic Sea: an evaluation of their application as tracers of past nitrogen fixation

et al. 2017

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“…However, the profile was dominated by 7Me-C17:0 and 6-methylheptadecane (6Me-C17:0), which together accounted for 65% to 88% of 85 all hydrocarbons. As 6Me-C17:0 and 7Me-C17:0 were not detected in the other heterocystous cyanobacteria investigated (with the exception of 7Me-C17:0 occurring in minor abundance in the Aphanizomenon strain), they can be considered as most diagnostic for tracing planktonic cyanobacteria of the genus Nodularia in the Baltic Sea (Bauersachs et al, 2017). Indeed, 7Me-C17:0 has been found in the surface waters of the central Baltic Sea (Landsort Deep) in summer (Berndmeyer et al, 2014).…”

mentioning

confidence: 88%

“…Branched alkanes, most commonly as 7-methylheptadecane, were predominantly observed in particular clades including heterocystous, ramified and some filamentous cyanobacteria, and rarely in unicellular cyanobacteria (Liu et al, 2013;Coates et al, 2014). Recently, Bauersachs et al (2017) examined the lipid profiles of heterocystous cyanobacteria strains belonging to the genera Dolichospermum, Aphanizomenon and Nodularia, isolated from the Baltic Sea. Mid-chain branched alkanes were not detected in any of the investigated Dolichospermum strains, although 7-methylheptadecane (7Me-C17:0) and 8-80 methylheptadecane (8Me-C17:0) have been reported in a representative of this genus before (Coates et al, 2014;Fehler and Light, 1970).…”

mentioning

confidence: 99%

Reconstructing N<sub>2</sub>-fixing cyanobacterial blooms in the Baltic Sea beyond observations using 6- and 7-methylheptadecanes in sediments as specific biomarkers

Kaiser¹,

Wasmund²,

Kahru³

et al. 2019

Preprint

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Summer cyanobacterial blooms represent a threat for the Baltic Sea ecosystem, causing deoxygenation of the bottom water and the spread of the so-called dead zones. The time history of the Baltic Sea cyanobacterial blooms is known 10 from in situ and satellite observations since the early 1980s, but still not well understood. By comparing both weeklyresolved trap sediments and a well-dated sediment core from the Eastern Gotland Basin with monitoring and satellite cyanobacterial data of the last ca. 35 years, it is shown here that 6-and 7-methylheptadecane lipids (expressed as 6+7Me-C17:0) are robust semi-quantitative biomarkers for diazotrophic cyanobacteria, and likely mainly for Nodularia spumigena.Using this organic proxy, it was thus possible to reconstruct the history of cyanobacterial blooms beyond the observational 15 period with a resolution of 2-4 years since 1860. Cyanobacteria were constantly present, but in relatively low abundance until 1920, when they started to alternate between periods with high and low abundance. Interestingly, there seems to be no significant increase in cyanobacterial abundance in the 1950s, when eutrophication and deoxygenation of the Baltic Sea increased considerably. Decadal to multi-decadal fluctuations are likely rather related to variability in the Baltic Sea surface temperature and, ultimately, to the Atlantic Multidecadal Oscillation. A 7,000 years long 6+7Me-C17:0 record from the 20 Bothnian Sea also suggests a relationship with the mean summer temperature in the Baltic Sea region, but at a multicentennial to multi-millennial timescale. The intensity of the cyanobacterial blooms in the Baltic Sea is thus likely mainly related to natural processes such as temperature variability, at least at a multi-decadal to multi-millennial timescale.

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Biogenicity of amorphous organic matter and bacteriomorph acritarchs preserved in wrinkle structures from the Ediacaran Cíjara Formation, Spain

Álvaro,

Ortiz,

Neto de Carvalho

et al. 2023

The Depositional Record

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Establishing the biogenicity of sedimentary surface textures with unresolved microbial origin is critical to any environmental and geobiological interpretation of clastic settings. Here, some Ediacaran wrinkle structures and associated carbonaceous greywacke samples containing mat fragments rich in ‘bacteriomorph acritarchs’ are investigated. Their biogenicity was evaluated with transmitted light and scanning electron microscopy, epifluorescence and Raman spectroscopy, and confirmed by the presence of distinct cyanobacterial biomarkers. The comparison of results yielded by these techniques validates the use of Raman spectroscopy on Neoproterozoic kerogen (organic‐walled microfossils and amorphous organic material) under low metamorphic conditions. Raman spectrographs also allowed recognition of associated rare‐earth element‐rich phosphate (monazite) and subsidiary metal sulphide concentrations, and interpreted as a result of biosorption and/or mat trapping under normal oxic conditions. These microbial mat features represent cyanobacterial bloom‐forming Bavlinella acritarchs, which characterise eutrophic episodes in a semi‐enclosed retroarc basin sandwiched between an active Cadomian arc and West Gondwana.

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Lipid biomarker signatures as tracers for harmful cyanobacterial blooms in the Baltic Sea

Cited by 32 publications

References 105 publications

The Holocene sedimentary record of cyanobacterial glycolipids in the Baltic Sea: an evaluation of their application as tracers of past nitrogen fixation

The Holocene sedimentary record of cyanobacterial glycolipids in the Baltic Sea: an evaluation of their application as tracers of past nitrogen fixation

Reconstructing N<sub>2</sub>-fixing cyanobacterial blooms in the Baltic Sea beyond observations using 6- and 7-methylheptadecanes in sediments as specific biomarkers

Biogenicity of amorphous organic matter and bacteriomorph acritarchs preserved in wrinkle structures from the Ediacaran Cíjara Formation, Spain

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Lipid biomarker signatures as tracers for harmful cyanobacterial blooms in the Baltic Sea

Cited by 32 publications

References 105 publications

The Holocene sedimentary record of cyanobacterial glycolipids in the Baltic Sea: an evaluation of their application as tracers of past nitrogen fixation

The Holocene sedimentary record of cyanobacterial glycolipids in the Baltic Sea: an evaluation of their application as tracers of past nitrogen fixation

Reconstructing N&lt;sub&gt;2&lt;/sub&gt;-fixing cyanobacterial blooms in the Baltic Sea beyond observations using 6- and 7-methylheptadecanes in sediments as specific biomarkers

Biogenicity of amorphous organic matter and bacteriomorph acritarchs preserved in wrinkle structures from the Ediacaran Cíjara Formation, Spain

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Reconstructing N<sub>2</sub>-fixing cyanobacterial blooms in the Baltic Sea beyond observations using 6- and 7-methylheptadecanes in sediments as specific biomarkers