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Measurement report: Indirect evidence for the controlling influence of acidity on the speciation of iodine in Atlantic aerosols

Baker, Alex R. ; Yodle, Chan

Copernicus GmbH ; 2021

In: Atmospheric Chemistry and Physics Vol. 21, No. 17 ( 2021-09-02), p. 13067-13076

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In: Atmospheric Chemistry and Physics, Copernicus GmbH, Vol. 21, No. 17 ( 2021-09-02), p. 13067-13076

Abstract: Abstract. The speciation of soluble iodine and major-ion composition were determined in size-fractionated aerosols collected during the AMT21 cruise between Avonmouth, UK, and Punta Arenas, Chile, in September–November 2011. The proportions of iodine species (iodide, iodate and soluble organic iodine (SOI)) varied markedly between size fractions and with the extent to which the samples were influenced by pollutants. In general, fine mode aerosols (〈 1 µm) contained higher proportions of both iodide and SOI, while iodate was the dominant component of coarse (〈 1 µm) aerosols. The highest proportions of iodate were observed in aerosols that contained (alkaline) unpolluted sea spray or mineral dust. Fine mode samples with high concentrations of acidic species (e.g. non-sea-salt sulfate) contained very little iodate and elevated proportions of iodide and SOI. These results are in agreement with modelling studies that indicate that iodate can be reduced under acidic conditions and that the resulting hypoiodous acid (HOI) can react with organic matter to produce SOI and iodide. Further work that investigates the link between iodine speciation and aerosol pH directly, as well as studies on the formation and decay of organo-iodine compounds under aerosol conditions, will be necessary before the importance of this chemistry in regulating aerosol iodine speciation can be confirmed.

Type of Medium: Online Resource

ISSN: 1680-7324

URL: Article

DOI: 10.5194/acp-21-13067-2021

Language: English

Publisher: Copernicus GmbH

Publication Date: 2021

detail.hit.zdb_id: 2092549-9

detail.hit.zdb_id: 2069847-1

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Wide discrepancies in the magnitude and direction of modeled solar-induced chlorophyll fluorescence in response to light conditions

Parazoo, Nicholas C. ; Magney, Troy ; Norton, Alex ; [et al.]

Copernicus GmbH ; 2020

In: Biogeosciences Vol. 17, No. 13 ( 2020-07-16), p. 3733-3755

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In: Biogeosciences, Copernicus GmbH, Vol. 17, No. 13 ( 2020-07-16), p. 3733-3755

Abstract: Abstract. Recent successes in passive remote sensing of far-red solar-induced chlorophyll fluorescence (SIF) have spurred the development and integration of canopy-level fluorescence models in global terrestrial biosphere models (TBMs) for climate and carbon cycle research. The interaction of fluorescence with photochemistry at the leaf and canopy scales provides opportunities to diagnose and constrain model simulations of photosynthesis and related processes, through direct comparison to and assimilation of tower, airborne, and satellite data. TBMs describe key processes related to the absorption of sunlight, leaf-level fluorescence emission, scattering, and reabsorption throughout the canopy. Here, we analyze simulations from an ensemble of process-based TBM–SIF models (SiB3 – Simple Biosphere Model, SiB4, CLM4.5 – Community Land Model, CLM5.0, BETHY – Biosphere Energy Transfer Hydrology, ORCHIDEE – Organizing Carbon and Hydrology In Dynamic Ecosystems, and BEPS – Boreal Ecosystems Productivity Simulator) and the SCOPE (Soil Canopy Observation Photosynthesis Energy) canopy radiation and vegetation model at a subalpine evergreen needleleaf forest near Niwot Ridge, Colorado. These models are forced with local meteorology and analyzed against tower-based continuous far-red SIF and gross-primary-productivity-partitioned (GPP) eddy covariance data at diurnal and synoptic scales during the growing season (July–August 2017). Our primary objective is to summarize the site-level state of the art in TBM–SIF modeling over a relatively short time period (summer) when light, canopy structure, and pigments are similar, setting the stage for regional- to global-scale analyses. We find that these models are generally well constrained in simulating photosynthetic yield but show strongly divergent patterns in the simulation of absorbed photosynthetic active radiation (PAR), absolute GPP and fluorescence, quantum yields, and light response at the leaf and canopy scales. This study highlights the need for mechanistic modeling of nonphotochemical quenching in stressed and unstressed environments and improved the representation of light absorption (APAR), distribution of light across sunlit and shaded leaves, and radiative transfer from the leaf to the canopy scale.

Type of Medium: Online Resource

ISSN: 1726-4189

URL: Article

DOI: 10.5194/bg-17-3733-2020

DOI: 10.5194/bg-17-3733-2020-supplement

Language: English

Publisher: Copernicus GmbH

Publication Date: 2020

detail.hit.zdb_id: 2158181-2

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