posted on 2015-10-20, 00:00authored byGibaek Kim, Hee-joo Cho, Arom Seo, Dohyung Kim, Yeontae Gim, Bang Yong Lee, Young Jun Yoon, Kihong Park
Ship-borne
measurements of ambient aerosols were conducted during
an 11 937 km cruise over the Arctic Ocean (cruise 1) and the
Pacific Ocean (cruise 2). A frequent nucleation event was observed
during cruise 1 under marine influence, and the abundant organic matter
resulting from the strong biological activity in the ocean could contribute
to the formation of new particles and their growth to a detectable
size. Concentrations of particle mass and black carbon increased with
increasing continental influence from polluted areas. During cruise
1, multiple peaks of hygroscopic growth factor (HGF) of 1.1–1.2,
1.4, and 1.6 were found, and higher amounts of volatile organic species
existed in the particles compared to that during cruise 2, which is
consistent with the greater availability of volatile organic species
caused by the strong oceanic biological activity (cruise 1). Internal
mixtures of volatile and nonhygroscopic organic species, nonvolatile
and less-hygroscopic organic species, and nonvolatile and hygroscopic
nss-sulfate with varying fractions can be assumed to constitute the
submicrometer particles. On the basis of elemental composition and
morphology, the submicrometer particles were classified into C-rich
mixture, S-rich mixture, C/S-rich mixture, Na-rich mixture, C/P-rich
mixture, and mineral-rich mixture. Consistently, the fraction of biological
particles (i.e., P-containing particles) increased when the ship traveled
along a strongly biologically active area.