Leaching material from Antarctic seaweeds and penguin guano affects cloud-relevant aerosol production

Manuel Dall'Osto; Ana  Sotomayor-Garcia; Miguel  Cabrera-Brufau; Elisa  Berdalet; Dolors  Vaqué; Sebastian  Zeppenfeld; Manuela  van Pinxteren; Hartmut  Herrmann; Heike  Wex; Matteo  Rinaldi; Marco  Paglione; David Beddows; Roy Harrison; Conxita  Avila; Rafael P.  Martin-Martin; Jiyeon  Park; Andrés  Barbosa

doi:10.1016/j.scitotenv.2022.154772

Leaching material from Antarctic seaweeds and penguin guano affects cloud-relevant aerosol production

Manuel Dall'Osto, Ana Sotomayor-Garcia, Miguel Cabrera-Brufau, Elisa Berdalet, Dolors Vaqué, Sebastian Zeppenfeld, Manuela van Pinxteren, Hartmut Herrmann, Heike Wex, Matteo Rinaldi, Marco Paglione, David Beddows, Roy Harrison, Conxita Avila, Rafael P. Martin-Martin, Jiyeon Park, Andrés Barbosa

Earth and Environmental Sciences

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Abstract

Within the Southern Ocean, the greatest warming is occurring on the Antarctic Peninsula (AP) where clear cryospheric and biological consequences are being observed. Antarctic coastal systems harbour a high diversity of marine and terrestrial ecosystems heavily influenced by Antarctic seaweeds (benthonic macroalgae) and bird colonies (mainly penguins). Primary sea spray aerosols (SSA) formed by the outburst of bubbles via the sea-surface microlayer depend on the organic composition of the sea water surface. In order to gain insight into the influence of ocean biology and biogeochemistry on atmospheric aerosol, we performed in situ laboratory aerosol bubble chamber experiments to study the effect of different leachates of biogenic material - obtained from common Antarctic seaweeds as well as penguin guano - on primary SSA. The addition of different leachate materials on a seawater sample showed a dichotomous effect depending on the leachate material added - either suppressing (up to 52%) or enhancing (22–88%) aerosol particle production. We found high ice nucleating particle number concentrations resulting from addition of guano leachate material. Given the evolution of upper marine polar coastal ecosystems in the AP, further studies on ocean-atmosphere coupling are needed in order to represent the currently poorly understood climate feedback processes.

Original language	English
Article number	154772
Journal	The Science of the Total Environment
Volume	831
Early online date	29 Mar 2022
DOIs	https://doi.org/10.1016/j.scitotenv.2022.154772
Publication status	Published - 20 Jul 2022

Keywords

Antarctic
Atmospheric marine biogeochemistry
BEPSII
CATCH
SOLAS
Sea ice-atmospheric interactions
Sea spray aerosols

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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DallOstoM2022LeachingFinal published version, 2.11 MBLicence: Creative Commons: Attribution (CC BY)

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Dall'Osto, M., Sotomayor-Garcia, A., Cabrera-Brufau, M., Berdalet, E., Vaqué, D., Zeppenfeld, S., van Pinxteren, M., Herrmann, H., Wex, H., Rinaldi, M., Paglione, M., Beddows, D., Harrison, R., Avila, C., Martin-Martin, R. P., Park, J., & Barbosa, A. (2022). Leaching material from Antarctic seaweeds and penguin guano affects cloud-relevant aerosol production. The Science of the Total Environment, 831, Article 154772. Advance online publication. https://doi.org/10.1016/j.scitotenv.2022.154772

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title = "Leaching material from Antarctic seaweeds and penguin guano affects cloud-relevant aerosol production",

abstract = "Within the Southern Ocean, the greatest warming is occurring on the Antarctic Peninsula (AP) where clear cryospheric and biological consequences are being observed. Antarctic coastal systems harbour a high diversity of marine and terrestrial ecosystems heavily influenced by Antarctic seaweeds (benthonic macroalgae) and bird colonies (mainly penguins). Primary sea spray aerosols (SSA) formed by the outburst of bubbles via the sea-surface microlayer depend on the organic composition of the sea water surface. In order to gain insight into the influence of ocean biology and biogeochemistry on atmospheric aerosol, we performed in situ laboratory aerosol bubble chamber experiments to study the effect of different leachates of biogenic material - obtained from common Antarctic seaweeds as well as penguin guano - on primary SSA. The addition of different leachate materials on a seawater sample showed a dichotomous effect depending on the leachate material added - either suppressing (up to 52%) or enhancing (22–88%) aerosol particle production. We found high ice nucleating particle number concentrations resulting from addition of guano leachate material. Given the evolution of upper marine polar coastal ecosystems in the AP, further studies on ocean-atmosphere coupling are needed in order to represent the currently poorly understood climate feedback processes.",

keywords = "Antarctic, Atmospheric marine biogeochemistry, BEPSII, CATCH, SOLAS, Sea ice-atmospheric interactions, Sea spray aerosols",

author = "Manuel Dall'Osto and Ana Sotomayor-Garcia and Miguel Cabrera-Brufau and Elisa Berdalet and Dolors Vaqu{\'e} and Sebastian Zeppenfeld and {van Pinxteren}, Manuela and Hartmut Herrmann and Heike Wex and Matteo Rinaldi and Marco Paglione and David Beddows and Roy Harrison and Conxita Avila and Martin-Martin, {Rafael P.} and Jiyeon Park and Andr{\'e}s Barbosa",

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Dall'Osto, M, Sotomayor-Garcia, A, Cabrera-Brufau, M, Berdalet, E, Vaqué, D, Zeppenfeld, S, van Pinxteren, M, Herrmann, H, Wex, H, Rinaldi, M, Paglione, M, Beddows, D , Harrison, R, Avila, C, Martin-Martin, RP, Park, J & Barbosa, A 2022, 'Leaching material from Antarctic seaweeds and penguin guano affects cloud-relevant aerosol production', The Science of the Total Environment, vol. 831, 154772. https://doi.org/10.1016/j.scitotenv.2022.154772

TY - JOUR

T1 - Leaching material from Antarctic seaweeds and penguin guano affects cloud-relevant aerosol production

AU - Dall'Osto, Manuel

AU - Sotomayor-Garcia, Ana

AU - Cabrera-Brufau, Miguel

AU - Berdalet, Elisa

AU - Vaqué, Dolors

AU - Zeppenfeld, Sebastian

AU - van Pinxteren, Manuela

AU - Herrmann, Hartmut

AU - Wex, Heike

AU - Rinaldi, Matteo

AU - Paglione, Marco

AU - Beddows, David

AU - Harrison, Roy

AU - Avila, Conxita

AU - Martin-Martin, Rafael P.

AU - Park, Jiyeon

AU - Barbosa, Andrés

PY - 2022/7/20

Y1 - 2022/7/20

N2 - Within the Southern Ocean, the greatest warming is occurring on the Antarctic Peninsula (AP) where clear cryospheric and biological consequences are being observed. Antarctic coastal systems harbour a high diversity of marine and terrestrial ecosystems heavily influenced by Antarctic seaweeds (benthonic macroalgae) and bird colonies (mainly penguins). Primary sea spray aerosols (SSA) formed by the outburst of bubbles via the sea-surface microlayer depend on the organic composition of the sea water surface. In order to gain insight into the influence of ocean biology and biogeochemistry on atmospheric aerosol, we performed in situ laboratory aerosol bubble chamber experiments to study the effect of different leachates of biogenic material - obtained from common Antarctic seaweeds as well as penguin guano - on primary SSA. The addition of different leachate materials on a seawater sample showed a dichotomous effect depending on the leachate material added - either suppressing (up to 52%) or enhancing (22–88%) aerosol particle production. We found high ice nucleating particle number concentrations resulting from addition of guano leachate material. Given the evolution of upper marine polar coastal ecosystems in the AP, further studies on ocean-atmosphere coupling are needed in order to represent the currently poorly understood climate feedback processes.

AB - Within the Southern Ocean, the greatest warming is occurring on the Antarctic Peninsula (AP) where clear cryospheric and biological consequences are being observed. Antarctic coastal systems harbour a high diversity of marine and terrestrial ecosystems heavily influenced by Antarctic seaweeds (benthonic macroalgae) and bird colonies (mainly penguins). Primary sea spray aerosols (SSA) formed by the outburst of bubbles via the sea-surface microlayer depend on the organic composition of the sea water surface. In order to gain insight into the influence of ocean biology and biogeochemistry on atmospheric aerosol, we performed in situ laboratory aerosol bubble chamber experiments to study the effect of different leachates of biogenic material - obtained from common Antarctic seaweeds as well as penguin guano - on primary SSA. The addition of different leachate materials on a seawater sample showed a dichotomous effect depending on the leachate material added - either suppressing (up to 52%) or enhancing (22–88%) aerosol particle production. We found high ice nucleating particle number concentrations resulting from addition of guano leachate material. Given the evolution of upper marine polar coastal ecosystems in the AP, further studies on ocean-atmosphere coupling are needed in order to represent the currently poorly understood climate feedback processes.

KW - Antarctic

KW - Atmospheric marine biogeochemistry

KW - BEPSII

KW - CATCH

KW - SOLAS

KW - Sea ice-atmospheric interactions

KW - Sea spray aerosols

UR - http://www.scopus.com/inward/record.url?scp=85128926998&partnerID=8YFLogxK

U2 - 10.1016/j.scitotenv.2022.154772

DO - 10.1016/j.scitotenv.2022.154772

M3 - Article

VL - 831

JO - The Science of the Total Environment

JF - The Science of the Total Environment

M1 - 154772

ER -

Leaching material from Antarctic seaweeds and penguin guano affects cloud-relevant aerosol production

Abstract

Keywords

UN SDGs

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