International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?

This thesis aims to assess the degree to which one can expect conflict or cooperation over the natural resources on the Moon and other celestial bodies in the future. By describing and exploring how the emerging global space industry may benefit humankind, it covers existing international space trea...

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Bibliographic Details
Main Author: Eymork, Tania Patricia
Format: Master Thesis
Language:English
Published: Norwegian University of Life Sciences, Ås 2012
Subjects:
Online Access:http://hdl.handle.net/11250/187862
id ftunivmob:oai:nmbu.brage.unit.no:11250/187862
record_format openpolar
institution Open Polar
collection Open archive Norwegian University of Life Sciences: Brage NMBU
op_collection_id ftunivmob
language English
topic international relations
natural resources
helium-3
Moon
naturressurser
internasjonal politikk
månen
VDP::Agriculture and fishery disciplines: 900::Agriculture disciplines: 910::Management of natural resources: 914
VDP::Social science: 200::Political science and organizational theory: 240::International politics: 243
spellingShingle international relations
natural resources
helium-3
Moon
naturressurser
internasjonal politikk
månen
VDP::Agriculture and fishery disciplines: 900::Agriculture disciplines: 910::Management of natural resources: 914
VDP::Social science: 200::Political science and organizational theory: 240::International politics: 243
Eymork, Tania Patricia
International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?
topic_facet international relations
natural resources
helium-3
Moon
naturressurser
internasjonal politikk
månen
VDP::Agriculture and fishery disciplines: 900::Agriculture disciplines: 910::Management of natural resources: 914
VDP::Social science: 200::Political science and organizational theory: 240::International politics: 243
description This thesis aims to assess the degree to which one can expect conflict or cooperation over the natural resources on the Moon and other celestial bodies in the future. By describing and exploring how the emerging global space industry may benefit humankind, it covers existing international space treaties and how fairer administration may help to eradicate poverty by, amongst other things, providing a clean source of environmentally friendly energy. This sixtyyear young industry is redeploying rapidly from once a total governmental responsibility and concern to a more entrepreneurial, commercialized, and privatized sector, hence leading to competition between major space faring nations. Many of our daily activities today are highly dependent from space activities. Fossil fuels are becoming increasingly challenging to commercially exploit as new areas rich in oil and gas are found in harsher climates such as the Arctic and deeper waters. Due to expensive exploration and exploitation costs, only developed and rich countries will benefit future access, whereas the Less Developed Countries may be left out and remain in sustainable poverty. The alternative energy sector for renewable energy resources such as bioenergy, solar, wind and hydropower have their limits. Nuclear power is today a much debated. The Moon and other celestial bodies contain a vast amount of natural resources. One, and in abundance, is helium-3. It is estimated that forty tons can meet twenty five percent of the global energy demand for one year. This clean, non-radioactive and safe source of energy scarcely exists on Earth. Helium-3 derives from the dismantlement of old and outdated nuclear warheads. Helium-3 is used within medicine, scientific research, and well logging operations1 in the oil and gas industry, and for homeland security. Major space nations such as Russia, China, India, and Japan appear to have integrated within their space programs to commercially exploit the Moon for helium-3 in the future. The United Nations 1967 Outer Space Treaty (OST) prohibits any commercial exploitation on the Moon and other celestial bodies2 and permits only scientific research for peaceful uses. The Moon and other celestial bodies including the Antarctica and the deep seas (including the Arctic) belong to the Common Heritage of Mankind (CHM). This raises issues whether or not new treaties will be required, and whether or not a new mandating body to be established. The 1 Hydrocarbon detection in rock formation 2 Excluding the planet Earth. CHM is a principle within international law, which holds that defined areas such as the Moon and other celestial bodies, Antarctica, and the deep seas (including the Arctic) should be held in trust for future generations and be protected from exploitation. However, legal and much debated legal loopholes exist. The quest for profitable natural resources may often be a basis for conflict, and even wars socalled ‘resource wars’. ‘Space’ is also a resource, for example Low Earth Orbit (LEO) where satellites are positioned. Accordingly, conflicts among some nations are already in tension due to outdated LEO treaties where ‘first-in, first use’ principle is used. LEO is becoming quite crowded with satellites, and both nation states and private companies want to position themselves in the best space. Another debate is the delimitation and demarcation of space; where does space start and even where does space end. Therefore, to which degree can one expect conflict or cooperation on the Moon or other celestial body if we cannot even set rules for something as close as LEO ? Clean energy is the most important challenge Mankind has to face3. Dr. Richard Smalley also fears for the world the shortage of affordable and achievable energy resources, which are a necessity for stability in a global world.
format Master Thesis
author Eymork, Tania Patricia
author_facet Eymork, Tania Patricia
author_sort Eymork, Tania Patricia
title International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?
title_short International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?
title_full International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?
title_fullStr International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?
title_full_unstemmed International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?
title_sort international negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict?
publisher Norwegian University of Life Sciences, Ås
publishDate 2012
url http://hdl.handle.net/11250/187862
geographic Arctic
geographic_facet Arctic
genre Antarc*
Antarctica
Arctic
genre_facet Antarc*
Antarctica
Arctic
op_source 62
op_relation http://hdl.handle.net/11250/187862
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spelling ftunivmob:oai:nmbu.brage.unit.no:11250/187862 2023-05-15T13:48:23+02:00 International negotiations of natural resources on the moon and other celestial bodies : future cooperation or conflict? Eymork, Tania Patricia 2012 application/pdf http://hdl.handle.net/11250/187862 eng eng Norwegian University of Life Sciences, Ås http://hdl.handle.net/11250/187862 62 international relations natural resources helium-3 Moon naturressurser internasjonal politikk månen VDP::Agriculture and fishery disciplines: 900::Agriculture disciplines: 910::Management of natural resources: 914 VDP::Social science: 200::Political science and organizational theory: 240::International politics: 243 Master thesis 2012 ftunivmob 2021-09-23T20:15:17Z This thesis aims to assess the degree to which one can expect conflict or cooperation over the natural resources on the Moon and other celestial bodies in the future. By describing and exploring how the emerging global space industry may benefit humankind, it covers existing international space treaties and how fairer administration may help to eradicate poverty by, amongst other things, providing a clean source of environmentally friendly energy. This sixtyyear young industry is redeploying rapidly from once a total governmental responsibility and concern to a more entrepreneurial, commercialized, and privatized sector, hence leading to competition between major space faring nations. Many of our daily activities today are highly dependent from space activities. Fossil fuels are becoming increasingly challenging to commercially exploit as new areas rich in oil and gas are found in harsher climates such as the Arctic and deeper waters. Due to expensive exploration and exploitation costs, only developed and rich countries will benefit future access, whereas the Less Developed Countries may be left out and remain in sustainable poverty. The alternative energy sector for renewable energy resources such as bioenergy, solar, wind and hydropower have their limits. Nuclear power is today a much debated. The Moon and other celestial bodies contain a vast amount of natural resources. One, and in abundance, is helium-3. It is estimated that forty tons can meet twenty five percent of the global energy demand for one year. This clean, non-radioactive and safe source of energy scarcely exists on Earth. Helium-3 derives from the dismantlement of old and outdated nuclear warheads. Helium-3 is used within medicine, scientific research, and well logging operations1 in the oil and gas industry, and for homeland security. Major space nations such as Russia, China, India, and Japan appear to have integrated within their space programs to commercially exploit the Moon for helium-3 in the future. The United Nations 1967 Outer Space Treaty (OST) prohibits any commercial exploitation on the Moon and other celestial bodies2 and permits only scientific research for peaceful uses. The Moon and other celestial bodies including the Antarctica and the deep seas (including the Arctic) belong to the Common Heritage of Mankind (CHM). This raises issues whether or not new treaties will be required, and whether or not a new mandating body to be established. The 1 Hydrocarbon detection in rock formation 2 Excluding the planet Earth. CHM is a principle within international law, which holds that defined areas such as the Moon and other celestial bodies, Antarctica, and the deep seas (including the Arctic) should be held in trust for future generations and be protected from exploitation. However, legal and much debated legal loopholes exist. The quest for profitable natural resources may often be a basis for conflict, and even wars socalled ‘resource wars’. ‘Space’ is also a resource, for example Low Earth Orbit (LEO) where satellites are positioned. Accordingly, conflicts among some nations are already in tension due to outdated LEO treaties where ‘first-in, first use’ principle is used. LEO is becoming quite crowded with satellites, and both nation states and private companies want to position themselves in the best space. Another debate is the delimitation and demarcation of space; where does space start and even where does space end. Therefore, to which degree can one expect conflict or cooperation on the Moon or other celestial body if we cannot even set rules for something as close as LEO ? Clean energy is the most important challenge Mankind has to face3. Dr. Richard Smalley also fears for the world the shortage of affordable and achievable energy resources, which are a necessity for stability in a global world. Master Thesis Antarc* Antarctica Arctic Open archive Norwegian University of Life Sciences: Brage NMBU Arctic