Ocean iron fertilization: why further research is needed

Despite large uncertainties in the fertilization efficiency, natural iron fertilization studies and some of the purposeful iron enrichment studies have demonstrated that Southern Ocean iron fertilization can lead to a significant export of carbon from the sea surface to the ocean interior. From an e...

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Main Authors: Güssow, Kerstin, Oschlies, Andreas, Proelss, Alexander, Rehdanz, Katrin, Rickels, Wilfried
Format: Report
Language:English
Published: Kiel: Kiel Institute for the World Economy (IfW) 2009
Subjects:
Klimaschutz
Meer
Düngemittel
Stahl
Internationale Umweltpolitik
Emissionshandel
Internationales Recht
Vorsorgeprinzip
Welt
jel:K33
jel:Q51
jel:Q54
jel:Q56
Climate change
geoengineering
ocean iron fertilization
international carbon market
public international law
precautionary principle
Southern Ocean
Online Access:https://www.econstor.eu/bitstream/10419/30043/1/618323325.pdf
id ftleibnizopen:oai:oai.leibnizopen.de:UzA-74cBdbrxVwz6a-Z7
record_format openpolar
spelling ftleibnizopen:oai:oai.leibnizopen.de:UzA-74cBdbrxVwz6a-Z7 2023-06-11T04:17:03+02:00 Ocean iron fertilization: why further research is needed Güssow, Kerstin Oschlies, Andreas Proelss, Alexander Rehdanz, Katrin Rickels, Wilfried 2009 https://www.econstor.eu/bitstream/10419/30043/1/618323325.pdf eng eng Kiel: Kiel Institute for the World Economy (IfW) http://www.econstor.eu/dspace/Nutzungsbedingungen Klimaschutz Meer Düngemittel Stahl Internationale Umweltpolitik Emissionshandel Internationales Recht Vorsorgeprinzip Welt jel:K33 jel:Q51 jel:Q54 jel:Q56 Climate change geoengineering ocean iron fertilization international carbon market public international law precautionary principle Working Paper 2009 ftleibnizopen 2023-05-07T23:32:41Z Despite large uncertainties in the fertilization efficiency, natural iron fertilization studies and some of the purposeful iron enrichment studies have demonstrated that Southern Ocean iron fertilization can lead to a significant export of carbon from the sea surface to the ocean interior. From an economic perspective the potential of OIF is far from negligible in relation to other abatement options. Comparing the range of cost estimates to the range of estimates for forestation projects they are in the same order of magnitude, but OIF could provide more carbon credits even if high discount rates are used to account for potential leakage and non-permanence. However, the uncertainty about undesired adverse effects of purposeful iron fertilization on marine ecosystems and biogeochemistry has led to attempts to ban commercial and, to some extent, scientific experiments aimed at a better understanding of the processes involved, effectively precluding further consideration of this mitigation option. As regards the perspective of public international law, the pertinent agreements dealing with the protection of the marine environment indicate that OIF is to be considered as lawful if and to the extent to which it represents legitimate scientific research. In this respect, the precautionary principle can be used to balance the risks arising out of scientific OIF activities for the marine environment with the potential advantages relevant to the objectives of the climate change regime. As scientific OIF experiments involve only comparatively small negative impacts within a limited marine area, further scientific research must be permitted to explore the carbon sequestration potential of OIF in order to either reject this concept or integrate it into the flexible mechanisms contained in the Kyoto Protocol. Report Southern Ocean LeibnizOpen (The Leibniz Association) Southern Ocean
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic Klimaschutz
Meer
Düngemittel
Stahl
Internationale Umweltpolitik
Emissionshandel
Internationales Recht
Vorsorgeprinzip
Welt
jel:K33
jel:Q51
jel:Q54
jel:Q56
Climate change
geoengineering
ocean iron fertilization
international carbon market
public international law
precautionary principle
spellingShingle Klimaschutz
Meer
Düngemittel
Stahl
Internationale Umweltpolitik
Emissionshandel
Internationales Recht
Vorsorgeprinzip
Welt
jel:K33
jel:Q51
jel:Q54
jel:Q56
Climate change
geoengineering
ocean iron fertilization
international carbon market
public international law
precautionary principle
Güssow, Kerstin
Oschlies, Andreas
Proelss, Alexander
Rehdanz, Katrin
Rickels, Wilfried
Ocean iron fertilization: why further research is needed
topic_facet Klimaschutz
Meer
Düngemittel
Stahl
Internationale Umweltpolitik
Emissionshandel
Internationales Recht
Vorsorgeprinzip
Welt
jel:K33
jel:Q51
jel:Q54
jel:Q56
Climate change
geoengineering
ocean iron fertilization
international carbon market
public international law
precautionary principle
description Despite large uncertainties in the fertilization efficiency, natural iron fertilization studies and some of the purposeful iron enrichment studies have demonstrated that Southern Ocean iron fertilization can lead to a significant export of carbon from the sea surface to the ocean interior. From an economic perspective the potential of OIF is far from negligible in relation to other abatement options. Comparing the range of cost estimates to the range of estimates for forestation projects they are in the same order of magnitude, but OIF could provide more carbon credits even if high discount rates are used to account for potential leakage and non-permanence. However, the uncertainty about undesired adverse effects of purposeful iron fertilization on marine ecosystems and biogeochemistry has led to attempts to ban commercial and, to some extent, scientific experiments aimed at a better understanding of the processes involved, effectively precluding further consideration of this mitigation option. As regards the perspective of public international law, the pertinent agreements dealing with the protection of the marine environment indicate that OIF is to be considered as lawful if and to the extent to which it represents legitimate scientific research. In this respect, the precautionary principle can be used to balance the risks arising out of scientific OIF activities for the marine environment with the potential advantages relevant to the objectives of the climate change regime. As scientific OIF experiments involve only comparatively small negative impacts within a limited marine area, further scientific research must be permitted to explore the carbon sequestration potential of OIF in order to either reject this concept or integrate it into the flexible mechanisms contained in the Kyoto Protocol.
format Report
author Güssow, Kerstin
Oschlies, Andreas
Proelss, Alexander
Rehdanz, Katrin
Rickels, Wilfried
author_facet Güssow, Kerstin
Oschlies, Andreas
Proelss, Alexander
Rehdanz, Katrin
Rickels, Wilfried
author_sort Güssow, Kerstin
title Ocean iron fertilization: why further research is needed
title_short Ocean iron fertilization: why further research is needed
title_full Ocean iron fertilization: why further research is needed
title_fullStr Ocean iron fertilization: why further research is needed
title_full_unstemmed Ocean iron fertilization: why further research is needed
title_sort ocean iron fertilization: why further research is needed
publisher Kiel: Kiel Institute for the World Economy (IfW)
publishDate 2009
url https://www.econstor.eu/bitstream/10419/30043/1/618323325.pdf
geographic Southern Ocean
geographic_facet Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_rights http://www.econstor.eu/dspace/Nutzungsbedingungen
_version_ 1768375848952397824

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