Jackie Collier scite author profile

The biological pump plays a vital role in exporting organic particles into the deep ocean for long-term carbon sequestration. However, much remains unknown about some of its key microbial players. In this study, Labyrinthulomycetes protists (LP) were used to understand the significance of heterotrophic microeukaryotes in the transport of particulate organic matter from the surface to the dark ocean. Unlike the sharp vertical decrease of prokaryotic biomass, the LP biomass only slightly decreased with depth and eventually exceeded prokaryotic biomass in the bathypelagic layer. Sequencing identified high diversity of the LP communities with a dominance of Aplanochytrium at all depths. Notably, ASVs that were observed in the surface layer comprised $20% of ASVs and $60% of sequences in each of the deeper (including bathypelagic) layers, suggesting potential vertical export of the LP populations to the deep ocean. Further analyses of the vertical patterns of the 50 most abundant ASVs revealed niche partitioning of LP phylotypes in the pelagic ocean, including those that could decompose organic detritus and/or facilitate the formation of fast-sinking particles. Overall, this study presents several lines of evidence that the LP can be an important component of the biological pump through their multiple ecotypes in the pelagic ocean.

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A nested quantitative PCR assay for detection of the hard clam pathogen Mucochytrium quahogii (=QPX) in environmental samples

Geraci-Yee

Allam²,

Collier³

2022

Front. Mar. Sci.

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Progress in understanding and managing QPX disease outbreaks in hard clams (Mercenaria mercenaria) has been limited by lack of insight into basic aspects of the biology and ecology of the opportunistic pathogen Mucochytrium quahogii (formerly QPX or Quahog Parasite Unknown). One barrier is that while several methods have been able to detect M. quahogii in seawater and sediment, its abundance was typically too low for reliable quantification by those methods. Here we describe the development and validation of a sensitive, M. quahogii-specific, nested quantitative PCR (nqPCR) assay following the Minimum Information for Publication of Quantitative Real-Time PCR Experiments (MIQE) guidelines. The assay reaches the theoretical limit of detection (LOD) of a PCR assay at 3 copies per reaction with excellent efficiency, linearity, and minimal sample PCR inhibition. The functionality of the assay was evaluated by quantifying M. quahogii in sediment and seawater samples, which revealed that M. quahogii was broadly distributed throughout the marine environment, detected in 75% of samples, with mean estimated abundance of 0.21 cells per mg sediment, 0.55 cells per ml bottom seawater, and 0.02 cells per ml surface seawater. M. quahogii was most prevalent and most abundant in sediment and bottom seawater samples, suggesting that the flocculent layer at the sediment-water interface is an important environmental reservoir where M. quahogii may interact with hard clams. This assay will serve as a valuable tool to better understand QPX disease dynamics and offers a model to guide development of similar assays for other important marine microbes typically present at similarly low abundance.

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The Responses of Cyanobacteria to Environmental Conditions: Light and Nutrients

Grossman

Schaefer

Chiang

et al.

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Cyanobacteria are found in virtually all terrestrial niches and can be found in locations which exhibit widely fluctuating chemical and physical parameters including nutrient availability, light intensity, light wavelength, temperature, and water activity. Described throughout this volume are ways in which cyanobacteria respond to changes in their environment, and examples of the insights that molecular genetic analyses have provided into acclimation processes. This chapter will discuss the modification of the cyanobacterial light-harvesting apparatus in response to light quality and nutrient availability. Recent advances in understanding the regulation of nutrient acquisition systems during nutrient-limited growth will also be summarized. I. PBS StructureWhile all oxygen evolving organisms contain chlorophyll a in their photosynthetic reaction centers, the pigments of the antennae complexes that harvest light energy may vary markedly. In the procaryotic cyanobacteria and eucaryotic red algae phycobiliproteins are the major light-harvesting polypeptides

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Jackie Collier

Introducing the Microbes and Social Equity Working Group: Considering the Microbial Components of Social, Environmental, and Health Justice

Vertical community patterns of Labyrinthulomycetes protists reveal their potential importance in the oceanic biological pump

A nested quantitative PCR assay for detection of the hard clam pathogen Mucochytrium quahogii (=QPX) in environmental samples

The Responses of Cyanobacteria to Environmental Conditions: Light and Nutrients

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