Aquatic Microbial Ecology

27/03/2023

acuminata, D. acuta, D. caudata and minutum were exposed to different combinations of temperature and salinity to investigate short-term response to and recovery from T/S stress. Dinophysis species showed varying capacities to deal with sudden changes in salinity while A. minutum tolerated all salinity being limited for temperature. Read more in the article by Rial et al. bit.ly/ame_89_1

28/02/2022

and feedbacks with in a human-impacted estuary. , and were sampled in to capture a gradient from off (in the background) towards less waters. Read more in the article by Santoferrara et al. bit.ly/ame_88_61

11/02/2022

In this article, the structure and dynamics of from the basin (Argentina) were analyzed related to alterations of certain environmental variables during four -Southern Oscillation events. Read more in the article by Küppers et al. bit.ly/ame_88_43

28/01/2022

Candidatus ( ) is an abundant methanotrophic genus in water columns of oxygen-stratified lakes and ponds but has probably escaped detection in previous gene analyses due to insufficient database coverage. To complement the databases, we provide 16S rRNA gene sequences (1532 bp) representing 2 different species of the genus. Read more in the article by Rissanen et al. bit.ly/ame_88_25

28/01/2022

are abundant in the but little is known about what they eat or the that live in their guts ( ). New research investigates the feeding ecology and microbiome of pteropod Limacina antarctica with high throughput sequencing. Read more in the article by Thibodeau et al. bit.ly/ame_88_19

27/08/2021

In this review, the authors illustrate the importance of symbionts for organisms, and how the beneficial services provided by microbial symbionts can be affected by human activities. Read more in the article by Stock et al. https://bit.ly/ame_87_113

09/07/2021

A year-long spatio-temporal survey of biomass, diversity and assemblage structure in the highlights the important contribution by non-motile tychoplanktonic in intertidal biofilms from temperate estuaries.

Read more in the article by Ribeiro et al. https://bit.ly/ame_87_61

07/05/2021

High-speed microscale video recording reveals that the Teleaulax amphioxeia swims much faster than the cryptophytes Storeatula major and Guillardia theta. The ambush-feeding ciliate Mesodinium rubrum preys preferentially upon the fast-swimming T. amphioxeia because it offers significantly high prey encounters and hydrodynamic signals. Read more in the article by Jiang & Johnson http://bit.ly/ame_86_169

ABSTRACT: The mixotrophic ciliate Mesodinium rubrum is an ambush feeder relying on cryptophyte prey motility for prey encounter and perception; therefore, cryptophyte species-specific swimming behaviors affect M. rubrum’s prey preference. Here, a high-speed microscale imaging system was used to qu...

23/04/2021

An examination of reefs across 875053 km2 shows that ecology is influenced by the density and diversity of as well as biogeographical-related features. Read more in the article by Apprill et al. http://bit.ly/ame_86_115

ABSTRACT: Microorganisms are central to the functioning of coral reef ecosystems, but their dynamics are unstudied on most reefs. We examined the microbial ecology of shallow reefs within the Federated States of Micronesia. We surveyed 20 reefs surrounding 7 islands and atolls (Yap, Woleai, Olimarao...

22/04/2021

The authors examined dynamics of communities in pristine spring waters of . Results showed significant regional and seasonal differences, with the catchment altitude as a key determinant of their variability.

Read more in the article by Opalički Slabe et al. http://bit.ly/ame_86_99

ABSTRACT: In aquatic ecosystems, the biomass, activity and composition of microorganisms are determined to a large extent by local and regional environmental conditions. While karst aquifers are an important source for drinking water, the ecology of microbial communities in karst waters has hardly b...

19/03/2021

Every two years the ECI selects two top performers in the field of ecology: the winner of the International Ecology Institute (ECI) Prize, which carries an endowment of € 6000, and the winner of the International Recognition of Professional Excellence (IRPE) Prize, which carries an endowment of .....

11/03/2021

The contribution of biofilm-associated , including and oxidisers, to the total increased sharply across the pre-treatment system of a seawater plant. Read more in the Aquatic Microbial Ecology article by Balzano et al. http://bit.ly/ame_86_63

ABSTRACT: We analysed prokaryotic and eukaryotic communities across the seawater pre-treatment system of Penneshaw (Kangaroo Island, South Australia) desalination plant, using 16S and 18S rRNA gene sequencing. The richness of operational taxonomic units increased downstream of the pre-treatment syst...

25/02/2021

A starvation response gene (psr1-like) is present and expressed in pusilla and other . With to genes in algae and plants, it may modulate the to P-deficiency. Read more in the article by Fiore et al. http://bit.ly/ame_86_29

ABSTRACT: Phosphorus (P) limits primary production in regions of the surface ocean, and many plankton species exhibit specific physiological responses to P deficiency. The metabolic response of Micromonas pusilla, an ecologically relevant marine photoautotroph, to P deficiency was investigated using...

07/12/2020

An in situ experiment in Antarctic waters showed the sponge Mycale tylotornota and the bryozoan Cornucopina pectogemma completely inhibited the microscopic eukaryotic growth, one of the succession stages involved in biofouling.

Read more about this study: https://bit.ly/ame_85_197

ABSTRACT: Organisms living in the sea are exposed to fouling by other organisms. Many benthic marine invertebrates, including sponges and bryozoans, contain natural products with antimicrobial properties, since microbes usually constitute the first stages of fouling. Extracts from 4 Antarctic sponge...

25/11/2020

23/10/2020

Authors of this study reported the abundance of photoreceptors Cryptochrome/Photolyase Family (CPF) on aquatic microbial communities in this global analysis. Metagenomics data combined with geo-referenced solar irradiation measurements indicated the higher the UV-B dose suffered by the microbiome, the higher the abundance of CPF and lower the microbial diversity.

Read more: http://bit.ly/ame_85_141

ABSTRACT: During evolution, microorganisms exposed to high amounts of UV-B irradiation developed fine-tuned photo-enzymes called ‘photolyases’ to cope with DNA damage caused by UV-B. These photoreceptors, belonging to the cryptochrome/photolyase family (CPF), have been well characterized at the ...

22/10/2020

Stable isotope deuterium (D)-labeled leucine (D10-leucine) can be used to measure protein synthesis rates for estimation of bacterial production in aquatic ecosystems as an alternative to radioisotopes such as 3H-leucine. Read more in the article by Tsuchiya et al. http://bit.ly/ame_85_121

ABSTRACT: The most widely used method for measuring bacterial production is tritium-labeled leucine (3H-Leu). Although this method provides methodological simplicity and high sensitivity, the employment of radioactive isotopes is often restricted by regulations, particularly in field settings. In th...

09/10/2020

are important tropical biomes. Ever wonder about the hidden members of this ecosystem, the ? New work from researchers shows that mangrove seawater harbors tidally shifting communities of bacteria and archaea. Nearby seagrass and coral reef ecosystems also feature shifting microbial communities, but more on a diel cycle. Find out more in the article by Becker et al. http://bit.ly/ame_85_101

ABSTRACT: In coral reefs and adjacent seagrass meadow and mangrove environments, short temporal scales (i.e. tidal, diurnal) may have important influences on ecosystem processes and community structure, but these scales are rarely investigated. This study examines how tidal and diurnal forcings infl...

04/09/2020

A study on the microbiome of sea turtle nests at a mass-nesting beach provides further evidence that the physical characteristics of nests (including those that determine microbial composition and activity) are likely more relevant to hatching success than the presence of potential pathogens or microbial community structure alone.

Read more about this study by Vanessa Bezy et al. from Wildlife Conservation Association http://bit.ly/ame_85_71

ABSTRACT: For endangered sea turtle populations, microbial pathogens of developing embryos are of concern at nesting sites around the globe. For olive ridley turtles, hatching success is markedly lower at mass-nesting sites than at solitary nesting beaches, a case presumably resulting from the abund...

11/08/2020

Biogeographic patterns and community assembly processes vary between bacterioplankton and protist communities across the Southland Front system to the east of New Zealand's South Island.

Recently published study by Ro Allen and colleagues: https://bit.ly/ame_85_19

ABSTRACT: Bacterioplankton and protists fulfil key roles in marine ecosystems. Understanding the abundance and distribution of these organisms through space and time is a central focus of biological oceanographers. The role of oceanographic features, in addition to environmental conditions, in struc...

02/07/2020

In the Douro estuary, the spatio-temporal variability of environmental factors influences the annual distribution of key functional genes of bacterial and archaeal ammonia oxidizers (amoA), denitrifiers (nirS, nirK, nosZI) and the novel non-denitrifying N2O reducers (nosZII).

Just published study by Paula Salgado et al: https://bit.ly/ame_84_205

ABSTRACT: Understanding the spatial and seasonal dynamics of nitrogen (N)-cycle microbial communities is pivotal for the knowledge of N biogeochemistry. The present study addressed the spatial-temporal variability of nitrification (bacterial and archaeal amoA) and denitrification (nirS, nirK, and no...

17/06/2020

DNA combined with classic biomass measurement brings new insights into exploring the in the Mediterranean Sea. Community in this oligotrophic area is bathymetrically distributed, while population’s biomass changes not only bathymetrically but also among different locations. Community biomass and composition respond differently to similar environmental conditions.

Read more about this study: https://bit.ly/ame_84_155

ABSTRACT: Marine microbial eukaryotes play crucial roles in water-column ecosystems; however, there are regional gaps in the investigation of natural microbial eukaryote communities, and uncertainties concerning their distribution persevere. This study combined 18S rRNA metabarcoding, biomass measur...

09/06/2020

ABSTRACT: Humanity’s self-ordained mandate to subdue and dominate nature is part of the cognitive foundation of the modern world—a perspective that remains deeply ingrained in science and technology. Marine biology has not been immune to this anthropocentric bias. But this needs to change, and t...

08/06/2020

Happy World Oceans Day! 🌊🌊🌊

Today we celebrate ! 🌊🌊🌊

Oceans play an enormous role on our planet! There are still a lot of challenges and research to do, and we are grateful to all scientists who protect, conserve and provide more knowledge about oceans every day! 🦈🐋🐟🦀🐙

05/06/2020

A holomictic event in a marine meromictic Rogoznica Lake resulted in development of euxinia throughout the water column. This event substantially changed the community structure, decreased the abundance and diversity, yet favoring chemolitotrophs and anoxygenic photoautotrophs. This is tightly associated with environmental stress, i.e. augmentation of sulfur species and oxygen depletion.

Find out more about the study: https://bit.ly/ame_84_141

ABSTRACT: The water column of marine Rogoznica Lake (Croatia) is stratified throughout the year. However, on rare occasions, the lake exhibits complete mixing, primarily driven by meteorological conditions. On such occasions, anoxic, sulfide-rich bottom water mixes with the oxic surface layer, trigg...

08/05/2020

Multivariate control of heterotrophic bacterial abundance and zooplankton grazing in Labrador fjords (northeastern Canada). Study recently published in AME by Armelle-Galine Simo-Matchim et al.

New publication from Stace Trevackett explores the leaf microbiomes of estuarine seagrass populations across salinities and regional scale.

🔗https://www.int-res.com/abstracts/ame/v84/p59-74/

ABSTRACT: The health of seagrass plants, and thereby the ecosystems they form, is linked to their associated microbial communities. However, the role of the microbiome in holobiont function and health remains poorly understood for most seagrass species and environmental pressures, and there is, therefore, a need to better understand the drivers behind the formation of and external influences on the seagrass microbiome. Using a core microbiome framework, we characterised the leaf microbiomes of 6 estuarine seagrass populations after a precipitation event to explore how the microbiomes vary across different sites and salinities over a regional spatial scale. We found that each estuary had distinct core bacterial community structures (beta-diversity), but shared a more similar fungal core community structure. We hypothesise that the differences in the bacterial members of the microbiomes among estuaries are generally the result of each estuary being influenced by unique watersheds and sources of prokaryotes. In contrast, the similarity in the core fungal communities suggests that the eukaryotic components of the microbiomes are likely under selection or result from similar colonisation pathway(s). We also found that the bacterial taxa driving the differences among estuaries were linked to the salinity of the estuary, likely due to (1) the general epibiotic nature of colonisation (i.e. watershed source and exposure) and (2) members or functional groups within the leaf microbiome assisting seagrasses in coping with the extreme salinities. These results are valuable for linking microbiomes to the resilience of seagrasses living within dynamic estuaries experiencing a range of physicochemical pressures.

30/03/2020

Marine fungi have a distinctive pattern of lipids and proteins, and their elemental composition is consistent with a marine source and heterotrophic uptake of phytoplankton-derived organic matter. The biochemical signature of marine-derived fungi suggests a role in pelagic food webs and element cycling in the ocean. Read more in the by Gutiérrez et al. bit.ly/ame_84_75

ABSTRACT: Fungi are ubiquitous in the marine environment, but their role in carbon and nitrogen cycling in the ocean, and in particular the quantitative significance of fungal biomass to ocean biogeochemistry, has not yet been assessed. Determination of the biochemical and stable isotope composition...

31/01/2020

of the elegans settle in response to complex, multi-species field biofilms and to certain mono-specific bacterial biofilms in the laboratory. We show that culturable bacteria known to induce settlement are very rare in natural biofilms, suggesting that many different, uncultured bacteria normally induce. Read more in the article by Vijayan & Hadfield https://doi.org/10.3354/ame01925

15/11/2019

Climate change and anthropogenic impacts raise concern for food security in the Malacca Straits as ciliate epibiont infestations on living copepods, the main larval/juvenile food of other marine organisms, have greatly increased since 30 years ago when marine waters were less warm and polluted. Find out more in the article by Goh et al. http://bit.ly/AME_83_263

ABSTRACT: Ciliate-copepod epibiosis is a common but poorly understood phenomenon in the aquatic environment. This study investigated the prevalence of ciliate infestation on copepods in the Klang Strait, Straits of Malacca. We hypothesized that anthropogenic impacts in the strait have increased cili...

31/10/2019

Natural marine bacterial communities and D. shibae were cultured in at different growth rates to obtain production rates. Marine bacterial cultures showed much more cellular B12 than dissolved. To deduce the role of B12, cellular production has to be known. Find out more in the article by Villegas-Mendoza et al.
http://bit.ly/ame_83_251

ABSTRACT: In situ dissolved B12 concentration in marine ecosystems is controlled by the balance between rates of release of B12 by prokaryotes, uptake by prokaryotes and eukaryotes, and abiotic degradation. We used chemostats at a range of specific growth rates (μ, d-1; 0.1 to 1) with natural commu...

06/09/2019

How does in coastal lagoons respond to experimentally induced nutrient enrichment? A study of the vulnerability of Mediterranean coastal lagoons submitted to a re-oligotrophication process to occasional eutrophication events, compared with phytoplankton of an oligotrophic lagoon adapted to nutrient-depleted conditions. Find out more in the article by Leruste et al. http://bit.ly/ame_83_131

ABSTRACT: We studied a mesotrophic and a hypertrophic Mediterranean coastal lagoon, both of which had been simultaneously subjected to a nutrient input reduction for 9 yr. We compared these 2 lagoons to an oligotrophic coastal lagoon. Using bioassays comprising 24 h incubations with added phosphorus...

08/07/2019

17/06/2019

along a from to environment: illustration of salinity as main factor shaping community structure and abundance. Read more in the article by Hackbusch et al. http://bit.ly/ame_83_35

ABSTRACT: Shelf sea areas are the primary oceanic source for methane release, the most abundant hydrocarbon in the atmosphere. As such, the southern North Sea’s methane concentration is mainly determined by river runoff and tidal marshes. Within such a highly variable temperate estuary, this study...

03/05/2019

The Bugula neritina is best known for its compounds and the bacterial symbiont that produces them, but it also features a complex microbiome. We asked what other microbes make up this and how they might help us harness its chemical potential.Find out more in the article by Patin et al. http://bit.ly/AME_83_1

ABSTRACT: The bryozoan Bugula neritina hosts an uncultured gammaproteobacterial symbiont, ‘Candidatus Endobugula sertula’ (E. sertula), which also produces the defensive compounds known as bryostatins. These compounds are unpalatable and protect the larvae from predation. Recent studies have sho...

08/03/2019

Call for nominations: ECI & IRPE prizes in . Deadline 30 April 2019. http://www.int-res.com/ecology-institute/call-for-nominations/