Harry Leach scite author profile

Fertilization of the ocean by adding iron compounds has induced diatom-dominated phytoplankton blooms accompanied by considerable carbon dioxide drawdown in the ocean surface layer. However, because the fate of bloom biomass could not be adequately resolved in these experiments, the timescales of carbon sequestration from the atmosphere are uncertain. Here we report the results of a five-week experiment carried out in the closed core of a vertically coherent, mesoscale eddy of the Antarctic Circumpolar Current, during which we tracked sinking particles from the surface to the deep-sea floor. A large diatom bloom peaked in the fourth week after fertilization. This was followed by mass mortality of several diatom species that formed rapidly sinking, mucilaginous aggregates of entangled cells and chains. Taken together, multiple lines of evidence-although each with important uncertainties-lead us to conclude that at least half the bloom biomass sank far below a depth of 1,000 metres and that a substantial portion is likely to have reached the sea floor. Thus, iron-fertilized diatom blooms may sequester carbon for timescales of centuries in ocean bottom water and for longer in the sediments.

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Organic complexation of iron in the Southern Ocean

Boyé

Berg

Jong

et al. 2001

Deep Sea Research Part I: Oceanographic Research Papers

218

196

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Sustained Monitoring of the Southern Ocean at Drake Passage: Past Achievements and Future Priorities

Meredith

Woodworth

Chereskin

et al. 2011

Reviews of Geophysics

138

128

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International audienceDrake Passage is the narrowest constriction of the Antarctic Circumpolar Current (ACC) in the Southern Ocean, with implications for global ocean circulation and climate. We review the long-term sustained monitoring programs that have been conducted at Drake Passage, dating back to the early part of the twentieth century. Attention is drawn to numerous breakthroughs that have been made from these programs, including (1) the first determinations of the complex ACC structure and early quantifications of its transport; (2) realization that the ACC transport is remarkably steady over interannual and longer periods, and a growing understanding of the processes responsible for this; (3) recognition of the role of coupled climate modes in dictating the horizontal transport and the role of anthropogenic processes in this; and (4) understanding of mechanisms driving changes in both the upper and lower limbs of the Southern Ocean overturning circulation and their impacts. It is argued that monitoring of this passage remains a high priority for oceanographic and climate research but that strategic improvements could be made concerning how this is conducted. In particular, long-term programs should concentrate on delivering quantifications of key variables of direct relevance to large-scale environmental issues: In this context, the time-varying overturning circulation is, if anything, even more compelling a target than the ACC flow. Further, there is a need for better international resource sharing and improved spatiotemporal coordination of the measurements. If achieved, the improvements in understanding of important climatic issues deriving from Drake Passage monitoring can be sustained into the future

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Water mass properties and fluxes in the Rockall Trough, 1975–1998

Holliday

Pollard

Read

et al. 2000

Deep Sea Research Part I: Oceanographic Research Papers

143

124

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Mesoscale frontal dynamics: shaping the environment of primary production in the Antarctic Circumpolar Current

Strass

Garabato

Pollard

et al. 2002

Deep Sea Research Part II: Topical Studies in Oceanography

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Harry Leach

Deep carbon export from a Southern Ocean iron-fertilized diatom bloom

Organic complexation of iron in the Southern Ocean

Sustained Monitoring of the Southern Ocean at Drake Passage: Past Achievements and Future Priorities

Water mass properties and fluxes in the Rockall Trough, 1975–1998

Mesoscale frontal dynamics: shaping the environment of primary production in the Antarctic Circumpolar Current

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