Antarctic ice sheet fertilises the Southern Ocean

Death, Ros; Wadham, Jemma L.; Monteiro, Fanny M.; Brocq, A. M. Le; Tranter, Martyn; Ridgwell, Andy; Dutkiewicz, Stephanie; Raiswell, R.

doi:10.5194/bg-11-2635-2014

Cited by 106 publications

(123 citation statements)

References 60 publications

(93 reference statements)

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“…Given our study's implications of an area of influence for giant icebergs of more than an order of magnitude above that of "typical" icebergs, and that approximately half of the iceberg discharge is as giant icebergs 15 , with several dozen giant icebergs present in the Southern Ocean at any one time 4 , these model calculations of iceberg productivity are likely to be a significant underestimate. This conclusion is supported by another modelling study which concentrated on glacial meltwater and higher iceberg fluxes, but did not include shelf sediment iron fluxes 12 .…”

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confidence: 81%

“…Atmospheric dust is a major background source of iron to the region 7 , but iron-rich sediment fluxes from islands 8 , continental shelves 9 , ice sheet meltwater 10 and melting icebergs 1 are known to be other, locally much more important, sources of iron. There are a few large-scale estimates of the contribution of icebergs to the Southern Ocean iron flux, derived from modelling studies of typical sub-kilometre sized icebergs 11,12 , scaling up of observational studies 13,14 or remote sensing studies 2 . However, these assume iceberg inputs are well represented by those from the smaller, sub-kilometre, peak in the very bimodal size distribution 15 .…”

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confidence: 99%

“…Recently, concern over the stability of the West Antarctic Ice Sheet has arisen 4,23 , with implications for more ice discharge in the future and thus carbon drawdown through fertilization. Note that even an increase in regional sediment-rich ice sheet meltwater into coastal waters can lead to enhanced fertilization 10,12,24 , although that associated with giant iceberg melting may be even greater (Figure 3). The future may therefore see an increase in Southern Ocean carbon sequestration through this iceberg fertilization mechanism, acting as a secondary negative feedback on climate change.…”

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Enhanced Southern Ocean marine productivity due to fertilization by giant icebergs

2016

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The Southern Ocean is a significant sink in the ocean component of the global carbon cycle, contributing ~ 10% of the ocean's total carbon sequestration through a mixture of chemical and biologically-driven processes 5 . However, its contribution is at a lower level than that of the smaller South Pacific and Indian Oceans 5 , due to its low concentration of dissolved iron, an important trace nutrient for primary production 6 . Atmospheric dust is a major background source of iron to the region 7 , but iron-rich sediment fluxes from islands 8 , continental shelves 9 , ice sheet meltwater 10 and melting icebergs 1 are known to be other, locally much more important, sources of iron. There are a few large-scale estimates of the contribution of icebergs to the Southern Ocean iron flux, derived from modelling studies of typical sub-kilometre sized icebergs 11,12 , scaling up of observational studies 13,14 or remote sensing studies 2 . However, these assume iceberg inputs are well represented by those from the smaller, sub-kilometre, peak in the very bimodal size distribution 15 . In fact about half the total iceberg discharge volume is made up of giant icebergs 15 -those exceeding 18 km in horizontal dimension -and there have currently only been two observational studies of the phytoplankton blooms close to individual giant icebergs, both in conditions within or near sea-ice cover in the Weddell Sea 1, 3 . Such areas may be subject to enhanced productivity due to the impact of sea-ice fertilization 16 . While the calving of giant icebergs is very episodic 15 , they derive from a range of geographical and geological environments around Antarctica, and thus likely have different iron and nutrient characteristics. Several dozen such icebergs are present in the Southern Ocean at any one time 15 , and they can survive for many years. Even when in areas of open water giant icebergs can survive for longer than a year 17 . Here we examine the chlorophyll signature from a range of giant icebergs in the open Southern Ocean using remote sensing, to show that ocean fertilization from such icebergs is much larger than previously suspected.Chlorophyll levels are well known to be raised near icebergs 1,2,18 . This derives from the meltwater plumes from icebergs containing significant concentrations of iron, but also a range of other nutrients 14 . As the Southern Ocean is a High Nutrient Low Chlorophyll (HNLC) region 6 , it is the bioavailable iron known to be in nanoparticle aggregates of ferrihydrite and goethite in iceberg sediments 13 that is the key nutrient within this meltwater. Dissolution of these particles leads to enriched concentrations of dissolved iron in the meltwater plume at levels 10-1000 times those due to atmospheric dust 19 . Ship-based studies have demonstrated that, for an iceberg of maximum horizontal size L i , chlorophyll levels are enhanced downstream over a distance of ~ L i 20 . Similarly, it has been shown using SeaWifs ocean colour that the probability of chlorophyll being enhanced 6 days after an iceb...

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Enhanced Southern Ocean marine productivity due to fertilization by giant icebergs

2016

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“…Photochemistry by sunshine is the main trigger of the transformation of the primary insoluble-iron fraction of dust aerosols into soluble iron salts (Johnson and Meskhidze, 2013), and the understanding of how the different iron content and speciation in aerosols affect the climate is growing (Al-Abadleh, 2015). Currently, increased subglacial meltwater and icebergs may supply large amounts of bioavailable iron to the Southern Ocean (Death et al, 2014). The flux of bioavailable iron associated with glacial runoff is estimated at 0.40-2.54 Tg yr −1 in Greenland and 0.06-0.17 Tg yr −1 in Antarctica (Hawkings et al, 2014), values which are comparable with eolian dust fluxes to the oceans surrounding Antarctica and Greenland and will increase by enhanced melting in a warming climate.…”

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confidence: 99%

Climate engineering by mimicking natural dust climate control: the iron salt aerosol method

et al. 2017

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Abstract. Power stations, ships and air traffic are among the most potent greenhouse gas emitters and are primarily responsible for global warming. Iron salt aerosols (ISAs), composed partly of iron and chloride, exert a cooling effect on climate in several ways. This article aims firstly to examine all direct and indirect natural climate cooling mechanisms driven by ISA tropospheric aerosol particles, showing their cooperation and interaction within the different environmental compartments. Secondly, it looks at a proposal to enhance the cooling effects of ISA in order to reach the optimistic target of the Paris climate agreement to limit the global temperature increase between 1.5 and 2 • C.Mineral dust played an important role during the glacial periods; by using mineral dust as a natural analogue tool and by mimicking the same method used in nature, the proposed ISA method might be able to reduce and stop climate warming. The first estimations made in this article show that by doubling the current natural iron emissions by ISA into the troposphere, i.e., by about 0.3 Tg Fe yr −1 , artificial ISA would enable the prevention or even reversal of global warming. The ISA method proposed integrates technical and economically feasible tools.

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“…This process could provide an important source of nutrients to the chronically iron-starved ecosystems in the Southern Ocean 5 , says Martyn Tranter, a marine biogeochemist the University of Bristol, UK.…”

Section: Vital Signsmentioning

confidence: 99%

Lakes under the ice: Antarctica’s secret garden

Fox¹

2014

Nature

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Antarctic ice sheet fertilises the Southern Ocean

Cited by 106 publications

References 60 publications

Enhanced Southern Ocean marine productivity due to fertilization by giant icebergs

Enhanced Southern Ocean marine productivity due to fertilization by giant icebergs

Climate engineering by mimicking natural dust climate control: the iron salt aerosol method

Lakes under the ice: Antarctica’s secret garden

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