Microbial diversity and abundance vary along salinity, oxygen, and particle size gradients in the Chesapeake Bay

Cram, Jacob A.; Hollins, Ashley; McCarty, Alexandra J.; Martinez, Grace; Cui, Minming; Gomes, Maya L.; Fuchsman, Clara A.

doi:10.1111/1462-2920.16557

Environmental Microbiology

2024

DOI: 10.1111/1462-2920.16557

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Microbial diversity and abundance vary along salinity, oxygen, and particle size gradients in the Chesapeake Bay

Jacob A. Cram,

Ashley Hollins,

Alexandra J. McCarty

et al.

Abstract: Marine snow and other particles are abundant in estuaries, where they drive biogeochemical transformations and elemental transport. Particles range in size, thereby providing a corresponding gradient of habitats for marine microorganisms. We used standard normalized amplicon sequencing, verified with microscopy, to characterize taxon‐specific microbial abundances, (cells per litre of water and per milligrams of particles), across six particle size classes, ranging from 0.2 to 500 μm, along the main stem of the… Show more

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Cited by 4 publications

References 124 publications

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Declines of Suspended Particle Abundances in the Oxygen-Deficient Zone of the Chesapeake Bay

Dougherty,

Hollins,

Cram

2024

Estuaries and Coasts

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Declines of Suspended Particle Abundances in the Oxygen-Deficient Zone of the Chesapeake Bay

Dougherty,

Hollins,

Cram

2024

Estuaries and Coasts

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Patterns of prokaryotic activity along the marine planktonic matter continuum

Borrull,

Mestre,

Marrasé

et al. 2024

Science of The Total Environment

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Nutrient management offsets the effect of deoxygenation and warming on nitrous oxide emissions in a large US estuary

Tang,

Da,

Tracey

et al. 2024

Sci. Adv.

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Many estuaries experience eutrophication, deoxygenation and warming, with potential impacts on greenhouse gas emissions. However, the response of N 2 O production to these changes is poorly constrained. Here we applied nitrogen isotope tracer incubations to measure N 2 O production under experimentally manipulated changes in oxygen and temperature in the Chesapeake Bay—the largest estuary in the United States. N 2 O production more than doubled from nitrification and increased exponentially from denitrification when O 2 was decreased from >20 to <5 micromolar. Raising temperature from 15° to 35°C increased N 2 O production 2- to 10-fold. Developing a biogeochemical model by incorporating these responses, N 2 O emissions from the Chesapeake Bay were estimated to decrease from 157 to 140 Mg N year −1 from 1986 to 2016 and further to 124 Mg N year −1 in 2050. Although deoxygenation and warming stimulate N 2 O production, the modeled decrease in N 2 O emissions, attributed to decreased nutrient inputs, indicates the importance of nutrient management in curbing greenhouse gas emissions, potentially mitigating climate change.

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Microbial diversity and abundance vary along salinity, oxygen, and particle size gradients in the Chesapeake Bay

Cited by 4 publications

References 124 publications

Declines of Suspended Particle Abundances in the Oxygen-Deficient Zone of the Chesapeake Bay

Declines of Suspended Particle Abundances in the Oxygen-Deficient Zone of the Chesapeake Bay

Patterns of prokaryotic activity along the marine planktonic matter continuum

Nutrient management offsets the effect of deoxygenation and warming on nitrous oxide emissions in a large US estuary

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