Relative viability proxy of airborne prokaryotic microorganisms at the Southeastern Mediterranean coastal Sea

E. Rahav, A. Paytan, B. Herut

Research output: Contribution to journalArticlepeer-review

Abstract

The atmosphere plays a fundamental role in transporting airborne prokaryotes across the oceans and land. Despite the harsh atmospheric conditions, a considerable fraction of the airborne prokaryotic microorganisms survive the journey and remain viable upon deposition, and can affect the receiving environment. Here, we provide the first estimate of potential viability proxy for airborne prokaryotic cells at the Southeastern Mediterranean coast in 22 events during 2015, representing marine and terrestrial air-mass trajectories and a significant dust storm event. This was assessed using sequence amplicons of the small subunit ribosomal RNA gene (SSU rRNA) jointly with other complementary measurements. To estimate the relative viability in our dataset we used the ratio between the abundance of the bacterial SSU rRNA transcripts in a given sampling date and the lowest measured value (23.7.2015) as a measure of a relative viability proxy. The abundance of prokaryotes SSU rRNA transcripts ranged from ∼500 to 11,000 copies m3, with ∼2-fold higher relative viability proxy in marine-origin aerosols than predominantly terrestrial atmospheric trajectories. The relative viability proxy of prokaryotes was low during the peak of an intense and prolonged dust storm, and increased by ∼1.5-fold in the subsequent days representing background conditions (<1700 ng Al m−3). Furthermore, we show that anthropogenic/toxic trace-metals (Cu/Al, Pb/Al) negatively correlates with potentially viable airborne prokaryotes in marine trajectory aerosols, whereas mineral dust load (Al, Fe proxy) positively affect their potential viability proxy. This may suggest that airborne prokaryotes associated to marine trajectories benefit from a particle-associate lifestyle, enabling relatively higher humidity and supply of nutrients attributed to mineral dust particles.

Original languageEnglish
Article number900977
JournalFrontiers in Environmental Science
Volume10
DOIs
StatePublished - 22 Jul 2022
Externally publishedYes

Bibliographical note

Funding Information:
This study was supported by the Israel Science Foundation (grant #1211/17) to BH and ER and by the NSF-OCE (grant #0850467) to AP.

Publisher Copyright:
Copyright © 2022 Rahav, Paytan and Herut.

Keywords

  • aerosols
  • dust
  • Southeastern Mediterranean
  • trace-metals
  • viable airborne prokaryotes

ASJC Scopus subject areas

  • Environmental Science (all)

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