Distribution of Ca, Fe, K, and S between soluble and insoluble material in the Greenland Ice Core Project ice core

Laj, Paolo; Ghermandi, Grazia; Cecchi, Rodolfo; Maggi, Valter; Riontino, C.; Hong, Sungmin; Candelone, Jean-Pierre; Boutron, Claude F.

doi:10.1029/96jc02660

Cited by 59 publications

(37 citation statements)

References 37 publications

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“…As the end member of the Asian dust, dust in the Greenland Ice Core Project (GRIP) ice core shows iron solubility averaging about 40920% (Laj et al, 1997). Until now, both iron abundance and especially iron solubility of dust are not well understood, leading to a large uncertainty in assessing the exact iron flux and the impact of dust on the global biogeochemical cycle in models.…”

Section: P U B L I S H E D B Y T H E I N T E R N a T I O N A L M E T mentioning

confidence: 99%

Iron content and solubility in dust from high-alpine snow along a north-south transect of High Asia

Wu¹,

Zhang²,

Li³

et al. 2012

Tellus B: Chemical and Physical Meteorology

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A B S T R A C T This study describes the dissolved and insoluble iron fraction of dust (mineral aerosol) in high-alpine snow samples collected along a north-south transect across High Asia (Eastern Tien Shan, Qilian Shan, and Southern Tibetan Plateau). This dust provides the basic chemical properties of mid-and high-level tropospheric Asian dust that can supply the limiting iron nutrient for phytoplankton growth in the North Pacific. The iron content in Asian dust averages 4.95% in Eastern Tien Shan, 3.38Á5.41% along Qilian Shan and 3.85% in the Southern Tibetan Plateau. The iron fractional solubility averages about 0.25% in Eastern Tien Shan, 0.05Á2% along Qilian Shan and 1.5% in the Southern Tibetan Plateau. Among the controlling factors that can affect iron solubility in Asian dust, such as dust composition and particle grain size, acidity seems to be the most significant and can increase the iron solubility by one or two orders of magnitude with acidification of pH 00.66. Our results reveal that iron solubility of dust in the remote downwind sites is higher than that in high-alpine snow, confirming the strong pH-dependence of iron solubility, and indicating that Asian dust shows a large variation in iron solubility on a regional scale.

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Section: P U B L I S H E D B Y T H E I N T E R N a T I O N A L M E T mentioning

confidence: 99%

Iron content and solubility in dust from high-alpine snow along a north-south transect of High Asia

Wu¹,

Zhang²,

Li³

et al. 2012

Tellus B: Chemical and Physical Meteorology

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“…Traditionally, in Antarctic, and more generally in Polar, research devoted to the reconstruction of present and past changes in the chemical composition of the atmosphere through the analysis of aerosol or ice, only the total content of substances or the simple partition between soluble and insoluble fractions have been considered [1][2][3][4][5][6][7][8][9][10][11][12][13]. In particular as regards heavy metals, there is at present no information available in the literature, with the exception of our previous work [14,15], with reference to their distribution between the soluble and the insoluble fractions in aerosol, snow and ice.…”

Section: Introductionmentioning

confidence: 99%

Determination of water-soluble, acid-extractable and inert fractions of Cd, Pb and Cu in Antarctic aerosol by square wave anodic stripping voltammetry after sequential extraction and microwave digestion

Illuminati

Annibaldi

Truzzi

et al. 2015

Journal of Electroanalytical Chemistry

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“…Although atmospheric dustiness has been linked to large-amplitude, large-scale temperature changes in past ice core studies of glacial to interglacial transitions (10, 11), it is unclear whether projected climate warming in coming decades to centuries will result in more or less atmospheric dust (12). Decadal changes in dust flux have been reported for ice cores from the Antarctic Peninsula (13, 14), but reliable, high-time-resolution records of changes in dust levels during recent decades and centuries are sparse (15).Ice core records offer the possibility of reconstructing past changes in dust concentration (10,11,(13)(14)(15)(16)(17)(18)(19)(20). Most previous high-resolution ice core studies used as proxies of atmospheric dust the non-sea-salt component of soluble calcium (nssCa) or magnesium (nssMg) that are computed by using estimated elemental ratios in sea salt aerosols (11,19).…”

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confidence: 99%

“…At many ice core sites, particularly coastal locations, the nssCa concentration may be uncertain because strong marine influences on glaciochemistry mean that up to 90% of total soluble calcium is derived from seawater, and varying fractionation of sea salt on sea ice surfaces and during transport means that the sea salt aerosol ratio does not always accurately reflect the seawater contribution (11,21). In addition, the nssCa-based proxy primarily represents the chemically weathered part of atmospheric dust because the bulk of nssCa and nssMg in atmospheric dust comes from finegrained calcium carbonate, dolomite, and gypsum deposits (17,18,(22)(23)(24)(25). The climate signal contained in the aluminosilicate dust record may differ significantly from that in the chemically weathered dust record because the former arises primarily from deposits of mechanically weathered sediments, such as glacial loess.…”

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confidence: 99%

“…Ice core records offer the possibility of reconstructing past changes in dust concentration (10,11,(13)(14)(15)(16)(17)(18)(19)(20). Most previous high-resolution ice core studies used as proxies of atmospheric dust the non-sea-salt component of soluble calcium (nssCa) or magnesium (nssMg) that are computed by using estimated elemental ratios in sea salt aerosols (11,19).…”

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confidence: 99%

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20th-Century doubling in dust archived in an Antarctic Peninsula ice core parallels climate change and desertification in South America

McConnell

Aristarain

Banta

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

237

188

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Crustal dust in the atmosphere impacts Earth's radiative forcing directly by modifying the radiation budget and affecting cloud nucleation and optical properties, and indirectly through ocean fertilization, which alters carbon sequestration. Increased dust in the atmosphere has been linked to decreased global air temperature in past ice core studies of glacial to interglacial transitions. We present a continuous ice core record of aluminum deposition during recent centuries in the northern Antarctic Peninsula, the most rapidly warming region of the Southern Hemisphere; such a record has not been reported previously. This record shows that aluminosilicate dust deposition more than doubled during the 20th century, coincident with the Ϸ1°C Southern Hemisphere warming: a pattern in parallel with increasing air temperatures, decreasing relative humidity, and widespread desertification in Patagonia and northern Argentina. These results have far-reaching implications for understanding the forces driving dust generation and impacts of changing dust levels on climate both in the recent past and future.aluminosilicate dust ͉ global warming ͉ human impacts ͉ Patagonia ͉ radiative transfer C rustal dust in the atmosphere has a direct impact on climate forcing in two significant ways: modifying the radiation balance and affecting cloud nucleation and optical properties (1, 2). Atmospheric crustal dust also supplies iron, an essential nutrient for phytoplankton, to ocean surface waters and may indirectly affect climate by modulating the biological export of carbon to the deep ocean (3). Impacts of atmospheric dust on regional radiation budgets are similar in magnitude to those from sulfate and biomass burning aerosols (4) but can be either negative or positive (1). Estimates of the optical properties of dust have been revised recently as a result of improved in situ and remote sensing measurements (5, 6), but warming has been predicted across areas of high albedo (7, 8) such as snow-and ice-covered regions of the Antarctic Peninsula where recent warming has been pronounced (9). Although atmospheric dustiness has been linked to large-amplitude, large-scale temperature changes in past ice core studies of glacial to interglacial transitions (10, 11), it is unclear whether projected climate warming in coming decades to centuries will result in more or less atmospheric dust (12). Decadal changes in dust flux have been reported for ice cores from the Antarctic Peninsula (13, 14), but reliable, high-time-resolution records of changes in dust levels during recent decades and centuries are sparse (15).Ice core records offer the possibility of reconstructing past changes in dust concentration (10,11,(13)(14)(15)(16)(17)(18)(19)(20). Most previous high-resolution ice core studies used as proxies of atmospheric dust the non-sea-salt component of soluble calcium (nssCa) or magnesium (nssMg) that are computed by using estimated elemental ratios in sea salt aerosols (11,19). At many ice core sites, particularly coastal locations, the nssCa ...

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Distribution of Ca, Fe, K, and S between soluble and insoluble material in the Greenland Ice Core Project ice core

Cited by 59 publications

References 37 publications

Iron content and solubility in dust from high-alpine snow along a north-south transect of High Asia

Iron content and solubility in dust from high-alpine snow along a north-south transect of High Asia

Determination of water-soluble, acid-extractable and inert fractions of Cd, Pb and Cu in Antarctic aerosol by square wave anodic stripping voltammetry after sequential extraction and microwave digestion

20th-Century doubling in dust archived in an Antarctic Peninsula ice core parallels climate change and desertification in South America

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