Interactions of bacteria with diatoms: influence on natural marine biofilms

Khandeparker, Lidita; D’Costa, Priya M.; Anil, Arga Chandrashekar; Sawant, Sanghapal D.

doi:10.1111/maec.12077

Cited by 27 publications

(17 citation statements)

References 45 publications

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“…Samples grown in the low‐nutrient media cover a larger area faster, similar to the evolution of fast growth when nutrients are reduced or only available during short periods of time (Ketola et al ). Increased biofilm formation in response to competition for nutrients (Oliveira et al ) at higher temperatures is in accordance with short‐term studies carried out on bacteria and mixed algal‐bacteria biofilm assemblages (Villanueva et al ; Mosier et al ) and observations that followed diatom biofilms throughout monsoon seasons (Khandeparker et al ). Mild warming of 4°C, which is within the range of predicted IPCC scenarios (RCP 4.5, IPCC 2014), increases biofilm formation by close to two‐fold in nutrient replete as well as low‐nutrient conditions compared to biofilms evolving under control conditions.…”

Section: Discussionsupporting

confidence: 85%

“…Diatoms and their associated bacteria form biofilms on surfaces of sinking or floating debris and on benthic structures in shallow, coastal areas (Amin et al ; Doiron et al ; Khandeparker et al ; Windler et al ). Planktonic diatoms may also aggregate through increased production of transparent exopolymer particles (TEPs; see de Brouwer et al ; Berman et al ; Windler et al ).…”

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confidence: 99%

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Enhanced biofilm formation aids adaptation to extreme warming and environmental instability in the diatom Thalassiosira pseudonana and its associated bacteria

Schaum

2018

Limnology & Oceanography

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Recent studies have highlighted the capacity of marine diatoms at the foundation of ocean food webs and biogeochemical cycles to respond to environmental change. These responses are a combination of physiological acclimation and evolutionary responses. The latter occur rapidly within a few hundred generations (translating to a scale of months to years), due to the large standing genetic variation and short generation times of diatom populations. Studies are usually carried out on diatom species in their planktonic state, but this may constitute a stark oversimplification: diatoms readily form biofilms in the water column of shallow coastal areas, where biofilm formation affects carbon export, and in the benthos, where biofilms contribute significantly to sediment stability. Here, I have carried out a 400‐generation selection experiment, where I evolved the diatom Thalassiosira pseudonana and its associated bacteria. Bacteria and diatom were cultured in their planktonic form, and under strong selection for rapid biofilm formation in temperature and nutrient regimes differing in their severity and stability. I find that biofilm formation is enhanced under mild warming and rapid thermal fluctuations but not under extreme warming regardless of nutrient availability. Evolutionary responses are slower in biofilms under benign conditions but speed up under extreme and fluctuating conditions. Taxonomic composition of the associated bacteria is driven by the temperature selection regime in biofilms but not in planktonic samples. I also show that T. pseudonana, when selected for biofilm formation, presents predictable and sequential morphologies that are not usually observed in planktonic T. pseudonana.

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Section: Discussionsupporting

confidence: 85%

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confidence: 99%

Enhanced biofilm formation aids adaptation to extreme warming and environmental instability in the diatom Thalassiosira pseudonana and its associated bacteria

Schaum

2018

Limnology & Oceanography

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“…All these results showed that AHLs produced by bacteria noticeably increased the diatom-biofilm biomass and EPS production. It was reported that the interaction between diatoms and bacteria in biofilm might be regulated by a complex network of chemical factors including EPS and other substances (Khandeparker et al, 2014). For example, bacteria influenced the diatom community structure by antibiotic-mediated interactions (D'Costa and Anil, 2011).…”

Section: Discussionmentioning

confidence: 99%

The possible role of bacterial signal molecules N-acyl homoserine lactones in the formation of diatom-biofilm ( Cylindrotheca sp.)

Yang

Fang

Chen

et al. 2016

Marine Pollution Bulletin

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Section: Introductionmentioning

confidence: 99%

“…In the field, barnacles are covered with epibiotic biofilm, and bacteria in the biofilm matrix have been reported to play an important role in barnacle settlement (Khandeparker et al 2003(Khandeparker et al , 2006(Khandeparker et al , 2014Khandeparker & Kumar 2011;Bacchetti De Gregoris et al 2012). In a pilot study, Khandeparker et al (2003) reported that exopolymers from the shell-associated bacteria can induce barnacle larval settlement and another study proved the uniqueness of these bacteria to the barnacle shell, which helps the cyprid to recognize parentally associated biofilms (Bacchetti De Gregoris et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Epibiotic community on the acorn barnacle (Balanus amphitrite) from a monsoon‐influenced tropical estuary

Sahoo

Khandeparker

2015

Marine Ecology

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The epibiotic communities (diatoms and metazoans) on the outer surfaces of the shell of the barnacle Balanus amphitrite (BSh) and its opercular valves (the scutum and tergum; BST) were investigated on a monthly basis for 1 year in a tropical monsoon-influenced estuary and compared with that of the surrounding rock biofilm. BSh and BST were rich in the diatoms Achnanthes longipes and Melosira nummuloides and amongst the invertebrates, nematodes and tardigrades were abundant. To the best of our knowledge, this is the first report of epibiosis on the acorn barnacle. Diatom abundance was at its maximum during the monsoon season on all the inter-tidal substrata i.e. BSh, BST and rock. A significant correlation was found between the density of diatoms and invertebrates associated with the BSh and BST, possibly because of the trophic relationship between them or the suitability of the physical environment. The possible role of these epibionts on the settlement of this barnacle species is currently unknown and needs further investigation.

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Interactions of bacteria with diatoms: influence on natural marine biofilms

Cited by 27 publications

References 45 publications

Enhanced biofilm formation aids adaptation to extreme warming and environmental instability in the diatom Thalassiosira pseudonana and its associated bacteria

Enhanced biofilm formation aids adaptation to extreme warming and environmental instability in the diatom Thalassiosira pseudonana and its associated bacteria

The possible role of bacterial signal molecules N-acyl homoserine lactones in the formation of diatom-biofilm ( Cylindrotheca sp.)

Epibiotic community on the acorn barnacle (Balanus amphitrite) from a monsoon‐influenced tropical estuary

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