American Geophysical Union Become an AGU Member
Subscribe to AGU Journals		 AGU Home AGU Publications

Read Full Article (file size: 861126 bytes)    Cited by

GLOBAL BIOGEOCHEMICAL CYCLES, VOL. 17, NO. 2, 1050, doi:10.1029/2002GB001940, 2003

Effects of patchy ocean fertilization on atmospheric carbon dioxide and biological production

Anand Gnanadesikan

NOAA Geophysical Fluid Dynamics Laboratory, Princeton, New Jersey, USA


Jorge L. Sarmiento

Atmospheric and Ocean Sciences Program, Princeton University, Princeton, New Jersey, USA


Richard D. Slater

Atmospheric and Ocean Sciences Program, Princeton University, Princeton, New Jersey, USA


Abstract

Increasing oceanic productivity by fertilizing nutrient-rich regions with iron has been proposed as a mechanism to offset anthropogenic emissions of carbon dioxide. Earlier studies examined the impact of large-scale fertilization of vast reaches of the ocean for long periods of time. We use an ocean general circulation model to consider more realistic scenarios involving fertilizing small regions (a few hundred kilometers on a side) for limited periods of time (of order 1 month). A century after such a fertilization event, the reduction of atmospheric carbon dioxide is between 2% and 44% of the initial pulse of organic carbon export to the abyssal ocean. The fraction depends on how rapidly the surface nutrient and carbon fields recover from the fertilization event. The modeled recovery is very sensitive to the representation of biological productivity and remineralization. Direct verification of the uptake would be nearly impossible since changes in the air-sea flux due to fertilization would be much smaller than those resulting from natural spatial variability. Because of the sensitivity of the uptake to the long-term fate of the iron and organic matter, indirect verification by measurement of the organic matter flux would require high vertical resolution and long-term monitoring. Finally, the downward displacement of the nutrient profile resulting from an iron-induced productivity spurt may paradoxically lead to a long-term reduction in biological productivity. In the worst-case scenario, removing 1 ton of carbon from the atmosphere for a century is associated with a 30-ton reduction in biological export of carbon.

Published 15 May 2003.

Index Terms: 4806 Oceanography: Biological and Chemical: Carbon cycling; 4842 Oceanography: Biological and Chemical: Modeling; 4845 Oceanography: Biological and Chemical: Nutrients and nutrient cycling; 4875 Oceanography: Biological and Chemical: Trace elements.

Read Full Article (file size: 861126 bytes)    Cited by

Citation: Gnanadesikan, A., J. L. Sarmiento, and R. D. Slater (2003), Effects of patchy ocean fertilization on atmospheric carbon dioxide and biological production, Global Biogeochem. Cycles, 17(2), 1050, doi:10.1029/2002GB001940.