4.7 Article

The concentration, size distribution and dry deposition flux of microbes in atmospheric aerosols over the marginal seas and Northwest Pacific Ocean

期刊

ATMOSPHERIC RESEARCH
卷 265, 期 -, 页码 -

出版社

ELSEVIER SCIENCE INC
DOI: 10.1016/j.atmosres.2021.105906

关键词

Microbes; Aerosols; Size distribution; Flux; Ocean

资金

  1. NSFC [41775148]
  2. Fundamental Research Funds for the Central Uni-versities [201762006]
  3. NSFC Open Research Cruise [NORC2013-09, NORC2014-01, NORC2016-09]
  4. Ship Time Sharing Project of the NSFC

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This study investigated the concentration and flux of biological aerosol particles in the air over oceans, specifically focusing on the difference between marginal seas and open oceans. Airborne microbes were assessed through microscope counts in samples collected during cruises in 2014 and 2016. The results showed that the concentration of airborne microbes was lower over the Northwest Pacific Ocean (NWPO) compared to Qingdao (QD), mainly due to continental sources of microbes. However, the NWPO still had a significantly higher concentration compared to the Yellow and Bohai Seas (YBS). Additionally, factors such as wind speed, direction, offshore distance, and transport distance influenced the microbe concentration over different areas. Dust events were found to increase microbe concentration and change size distribution in samples. These findings suggest that airborne microbes can be input into the ocean through atmospheric deposition, which can have important impacts on marine ecosystems.
The concentration and flux of biological aerosol particles over oceans are important for understanding the ecological implications of airborne microbes in marine ecosystems. Airborne microbes over oceans remain uncharacterized, especially the difference between those over the marginal seas and those over the open oceans. Atmospheric aerosol samples were collected over Qingdao (QD), the Yellow and Bohai Seas (YBS) and the Northwest Pacific Ocean (NWPO) during three cruises in the spring of 2014 and 2016. The total airborne microbes (TAM) in the samples were assessed based on microscope counts. The TAM concentration was (4.07 +/- 1.42) x 105 cells.m- 3 and (2.75 +/- 0.91) x 105 cells.m- 3 over the NWPO in 2014 and 2016, respectively, significantly lower than that over QD ((8.02 +/- 4.04) x 105 cells.m- 3 and (14.04 +/- 23.95) x 105 cells.m- 3 in 2014 and 2016, respectively) due to the continental source of microbes, but the TAM concentration over the NWPO in 2014 was significantly higher than that over the YBS (p < 0.01). The microbe concentration over the NWPO was affected by wind speed and direction, the horizontal offshore distance and the ratio of the distance over the sea to the total transport distance (RS), but the microbe concentration over the YBS was affected by air temperature, NO, NO2, the distance over the sea, the horizontal offshore distance and RS. Compared with those in the marine samples, the TAM in coastal samples was affected by many factors, such as air temperature, relative humidity, atmospheric pressure, PM2.5, PM10, SO2 and O3. A dust event significantly increased the concentration of TAM by a factor of 1.6-49 and changed the size distribution of TAM in the samples. The dry deposition flux of TAM was 8.83 x 107-5.12 x 108 cells.m- 2.d- 1 over the NWPO, close to the flux of 1.20 x 108-2.63 x 108 cells.m- 2.d- 1 over the YBS. Our results suggest that airborne microbes are input to the ocean via atmospheric deposition, which may have important impacts on marine ecosystems.

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