Impacts of biogenic polyunsaturated aldehydes on metabolism and community composition of particle-attached bacteria in coastal hypoxia

Wu, Zhiwei; Li, Qian P.; Ge, Zaiming; Huang, Bangqin; Dong, Chunming

doi:10.5194/bg-18-1049-2021

Cited by 8 publications

(3 citation statements)

References 59 publications

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“…Moreover, particle resuspension can indirectly affect dissolved oxygen processes by changing biogeochemical cycles, such as the rate of photosynthesis and nitrification (Gloor et al, 1994;Lou et al, 2000;Valipour et al, 2017). Recently, oxygen consumption within hypoxic waters was found to be mainly generated by particle-attached bacteria in the Pearl River Estuary (Wu et al, 2021). Nevertheless, the impact of particle resuspension on the hypoxic degree and the DO budget has not yet been straightforward to identify.…”

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confidence: 99%

Role of Particle Resuspension in Maintaining Hypoxic Level in the Pearl River Estuary

Cui

Tan

et al. 2022

JGR Oceans

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Seasonal hypoxia in stratified estuaries and the adjacent coastal ocean have already been recognized as an increasingly serious environmental problem of worldwide concern (Breitburg et al., 2018;Diaz & Rosenberg, 2008). They were usually linked to the anthropogenic nutrient inputs (also referred to as eutrophication), which stimulates primary production and export of organic matter, thus resulting in increased oxygen consumption and eventual oxygen depletion (Conley, Bonsdorff, et al., 2009). However, this paradigm of eutrophication-driven coastal hypoxia can not be directly used to understand the persistent development of coastal hypoxia after the pollutant export has been strictly controlled in past decades Duarte et al., 2009). In general, seasonal hypoxia occur in the coastal ocean when strong oxygen sinks are coupled with restricted resupply induced by weakly mixing during periods of strong density stratification (Cui et al., 2019;Fennel & Testa, 2018). Total oxygen consumption (TOC) was generally considered to be composed of two components: (a) sediment oxygen demand (SOD), and (b) water oxygen consumption (WOC) by the degradation of dissolved and particulate organic matters (i.e., DOM and POM). In fact, the bed sediment not only determines SOD through the sediment-water interface oxygen consumption, but it possibly enhance WOC also after being resuspended into water column (Ackerman et al., 2001;Moriarty et al., 2018Moriarty et al., , 2021. For the sake of convenience, resuspended sediment will be termed as resuspended particles in the subsequent text, in contrast to immovable bed sediment.

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confidence: 99%

Role of Particle Resuspension in Maintaining Hypoxic Level in the Pearl River Estuary

Cui

Tan

et al. 2022

JGR Oceans

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“…These are good candidates for future amendment experiments as we know little about their function in marine diatom ecosystems. As mentioned above, amendment experiments showed that some organisms are stimulated by oxylipins, like the bacterial epibionts of diatoms [14] and particle-associated communities [15,56], but most organisms are inhibited in some way by PUAs, including free-living bacteria and particle-associated communities at higher concentration exposures [5,13,14,19,57].…”

Section: Novel Oxylipinsmentioning

confidence: 84%

Viral Infection Leads to a Unique Suite of Allelopathic Chemical Signals in Three Diatom Host–Virus Pairs

Edwards,

Thamatrakoln,

Fredricks

et al. 2024

Marine Drugs

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Ecophysiological stress and the grazing of diatoms are known to elicit the production of chemical defense compounds called oxylipins, which are toxic to a wide range of marine organisms. Here we show that (1) the viral infection and lysis of diatoms resulted in oxylipin production; (2) the suite of compounds produced depended on the diatom host and the infecting virus; and (3) the virus-mediated oxylipidome was distinct, in both magnitude and diversity, from oxylipins produced due to stress associated with the growth phase. We used high-resolution accurate-mass mass spectrometry to observe changes in the dissolved lipidome of diatom cells infected with viruses over 3 to 4 days, compared to diatom cells in exponential, stationary, and decline phases of growth. Three host virus pairs were used as model systems: Chaetoceros tenuissimus infected with CtenDNAV; C. tenuissimus infected with CtenRNAV; and Chaetoceros socialis infected with CsfrRNAV. Several of the compounds that were significantly overproduced during viral infection are known to decrease the reproductive success of copepods and interfere with microzooplankton grazing. Specifically, oxylipins associated with allelopathy towards zooplankton from the 6-, 9-, 11-, and 15-lipogenase (LOX) pathways were significantly more abundant during viral lysis. 9-hydroperoxy hexadecatetraenoic acid was identified as the strongest biomarker for the infection of Chaetoceros diatoms. C. tenuissimus produced longer, more oxidized oxylipins when lysed by CtenRNAV compared to CtenDNAV. However, CtenDNAV caused a more statistically significant response in the lipidome, producing more oxylipins from known diatom LOX pathways than CtenRNAV. A smaller set of compounds was significantly more abundant in stationary and declining C. tenuissimus and C. socialis controls. Two allelopathic oxylipins in the 15-LOX pathway and essential fatty acids, arachidonic acid (ARA), eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA) were more abundant in the stationary phase than during the lysis of C. socialis. The host–virus pair comparisons underscore the species-level differences in oxylipin production and the value of screening more host–virus systems. We propose that the viral infection of diatoms elicits chemical defense via oxylipins which deters grazing with downstream trophic and biogeochemical effects.

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“…Very recently, Eastabrook et al have suggested that PUA is not the main driver of diatom-bacteria interactions in laboratory cultures [25]. Recent publications also consider the significant role of attached bacteria in phosphorus recycling in nature [26,27].…”

Section: Introductionmentioning

confidence: 99%

Polyunsaturated Aldehydes Profile in the Diatom Cyclotella cryptica Is Sensitive to Changes in Its Phycosphere Bacterial Assemblages

Hernanz-Torrijos,

Ortega,

Úbeda

et al. 2023

Marine Drugs

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Diatoms are responsible for the fixation of ca. 20% of the global CO2 and live associated with bacteria that utilize the organic substances produced by them. Current research trends in marine microbial ecology show which diatom and bacteria interact mediated through the production and exchange of infochemicals. Polyunsaturated aldehydes (PUA) are organic molecules released by diatoms that are considered to have infochemical properties. In this work, we investigated the possible role of PUA as a mediator in diatom–bacteria interactions. To this end, we compare the PUA profile of a newly isolated oceanic PUA producer diatom, Cyclotella cryptica, co-cultured with and without associated bacteria at two phosphate availability conditions. We found that the PUA profile of C. cryptica cultured axenically was different than its profile when it was co-cultured with autochthonous (naturally associated) and non-autochthonous bacteria (unnaturally inoculated). We also observed that bacterial presence significantly enhanced diatom growth and that C. cryptica modulated the percentage of released PUA in response to the presence of bacteria, also depending on the consortium type. Based on our results, we propose that this diatom could use released PUA as a specific organic matter sign to attract beneficial bacteria for constructing its own phycosphere, for more beneficial growth.

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Impacts of biogenic polyunsaturated aldehydes on metabolism and community composition of particle-attached bacteria in coastal hypoxia

Cited by 8 publications

References 59 publications

Role of Particle Resuspension in Maintaining Hypoxic Level in the Pearl River Estuary

Role of Particle Resuspension in Maintaining Hypoxic Level in the Pearl River Estuary

Viral Infection Leads to a Unique Suite of Allelopathic Chemical Signals in Three Diatom Host–Virus Pairs

Polyunsaturated Aldehydes Profile in the Diatom Cyclotella cryptica Is Sensitive to Changes in Its Phycosphere Bacterial Assemblages

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