Sunday, August 7, 2011
BSSIPC's submission to Mining Warden Hearing on Sea Bed Mining
MINING ACT 1991
MINING WARDEN HEARING
MADANG PROVINCIAL HEADQUARTERS
1000 17th February 2009
SUBMISSIONS
Bismark-Solomon Seas Indigenous Peoples Council
There are five broad objections to allowing any more exploration for deep seabed mining.
1. There is no statutory framework, or an inadequate statutory frame work in Papua New Guinea to address the risks from deep sea bed mining.
2. There are no regulations for safety and environmental management of the engineering associated with deep sea bed mining.
3. There is no framework for the distribution of economic benefits arising from deep sea bed mining.
4. There is no organic law supporting provincial maritime boundaries.
5. It is not rational to grant further exploration licenses to an applicant who cannot bring existing exploration licenses into actual mining
1. No statutory frame work, or an inadequate statutory frame work
Deep seabed mining is new technology with new risks. Papua New Guinea does not have a specific statutory framework, or an inadequate statutory frame work to address the risks that arise from this new technology. The Mining Act and Mining Regulations date from the last decade, and they have not been brought up to date. Similarly there are no regulations under the Environment Act that address any risk from deep sea bed mining.
The Constitution binds all government officers and officials, including judicial officers, and Mining Wardens through the Third National Goal: National sovereignty & self-reliance para (6): “the State is to take effective measures to control and actively participate in the national economy, and in particular to control major enterprises engaged in the exploitation of natural resources”
Consequently for the State to grant permits or licenses to foreign companies to carry out the exploration of natural resources without having in place “effective measures to control” that exploration, is unconstitutional and unlawful, in itself.
The fact that there is no legal framework for the exploration of deep sea bed resources is a fact that should be taken into account by any officer or body, bound by law to exercise any discretion.
If a licence were to issue, and there were no body of appropriate laws to regulate the exploration permit, then because the act of issuing the license would have been unconstitutional, then a fact (no laws regulating the activity) that should have been taken into account, was not taken into account, and at administrative law, would be an unreasonable act, and unlawful.
This would be so, even if the issuing of the license was otherwise constitutional, because issuing of a license in circumstances were there are risks and no law affecting those risks, is irrational.
2. There are no regulations for safety and environmental management of the engineering associated with deep sea bed mining.
Deep sea bed mining is a new technology. It is being done for the first time in Papua New Guinea.
The Papua New Guinea Government does not have in place appropriate regulations to deal with this new technology.
Government has the responsibility to protect all the stakeholders in deep sea bed mining.
These stakeholders would include
• The mine and ship workers, and their trade unions, who are engaged in the deep sea bed mining operations.
• Provincial governments and local level governments and the communities in the areas adjacent to the mining activity, or likely to be affected by the mining activity.
• Future generations
It follows from the fact that there are no statutes or Acts of Parliament dealing with deep sea bed mining that there are also no regulations.
What this shows is that the government is rushing too quickly in an area where it cannot properly oversee and regulate the activity.
There are no effective controls over the engineering and mining safety associated with deep sea bed mining. There are mine safety regulations in respect of terrestrial mining. But no regulations for sea bed mining.
There are no effective controls over the environmental risks that could arise from sea bed mining. This is of particular concern because of the biodiversity priority of life-forms associated with the mining of active submarine vents.
But regulations are needed to control the effects of sedimentary disturbances caused by mining the sea bed, and the way those sedimentary disturbances may be affected by ocean currents. Here the absence of regulations dealing with altered metal particles is likely to be important in the long-term because of the effect that metal particles carried by ocean currents may have on coral reefs, or fish-breeding grounds, areas in which fish are know to aggregate, or known areas where commercial fishing is prevalent.
In all of these areas there is need for regulation because “the State is to take effective measures to control and actively participate in the national economy, and in particular to control major enterprises engaged in the exploitation of natural resources”. For similar reasons of no constitutional compliance, there should be no exploration that disturbs active vents.
Because there are regulations, it is our submission that deep sea vent chimney miners should only be permitted take the inactive relic deposits, and even then the mining safety regime and the environment regime must be strict.
Papua New Guinea has no regime of rules controlling these activities, and prudence requires that the rules be developed first before legal rights put into private hands.
As we have we said, to do otherwise would be to violate the Constitutional mandate that this process is bound by: the wise use of natural resources in the 4th National Goal
“... conservation and replenishment, for the benefit of ourselves and posterity, of the environment and its sacred, scenic, and historical qualities; and all necessary steps to be taken to give adequate protection to our valued birds, animals, fish, insects, plants and trees.”
There are simply no specific rules or regimes to conserve the particularity of deep seabed life-forms.
Exploration should not be permitted over active vents, which should be declared part of Papua New Guineas natural heritage, for the following reasons:
These ecosystems should be considered similar to life on the moons of Saturn or Jupiter, a very different ecology from what we know about earth surface ecology.
Deep sea vent chimney miners should take only the inactive/relict deposits, not the living, smoking, biologically rich vent chimneys.
Grinding up living chimney communities is like removing the Galapagos Islands before Darwin got there.
These submissions are well supported by science.
There has been an explosion of science journal papers on the biology & geochemistry of deep and shallow sea vents in the past two decades, and in vent biology and chemistry.
Papua New Guinea has no rules or regulations over the sampling of these exotic biodiversity hotspots
Oceanographers have already expressed concern about the need for some kind of protection, regulation or rules for sampling these exotic biodiversity hot-spots by the science community. Some of the Cascade Margin, Gulf of Mexico, Blake Plateau, and Mediterranean vent chimney communities have already been surveyed, mapped, numbered, marked with steel post signs, and some have long-term benthic lander monitoring devices on the sea floor.
There are perhaps a dozen or so, large oceanographic institutions that have ships and experienced scientists that have been working on these vent systems since the late 1970s. There are dozens of websites that have videos and photos of chimney ecosystems in action, smokers puffing away.
General submissions on the lack of regulation:
There are major issues with the regulation of existing deep-seabed mining in Papua New Guinea that show new exploration permits should not be granted until a set of regulations are in place.
Because the technology is now available, once the ships are in place, actual mining quickly follows exploration.
Current delays are associated with the world economic down-turn and general drying-up of loan capital.
The following summary of Professor R Steiner, University of Alaska offers expert opinion that should be recorded, in our respectful submission, in any report to the Mining Advisory Board:
1. "...The Solwara 1 project proposes to commercially exploit gold and copper deposits associated with deep-sea hydrothermal vents at a depth of 1,500 in the Bismarck Sea off Papua New Guinea. As the Project would represent the first large-scale, human-induced, site-specific disturbance to the deep ocean basin anywhere in the world, it must be considered with exceptional deliberation and caution.
2. Scientists only first discovered these deep-sea hydrothermal vents and their exotic chemo synthetic ecosystems in 1976,
3. Deep-sea hydrothermal vents, found along mid-ocean ridges and back-arc basins (such as the Manus Basin in the Bismarck Sea), support one of the rarest and most unique ecological communities known to science. Organisms derive their energy from sulphide chemicals in hot (350 C), mineralized vent fluids rather than directly or indirectly from photosynthesis as in other biological communities, and/or from endosymbionts in their tissues.
4. Most species discovered at vents are new to science, and the vents support communities with "extremely high biomass" relative to other deep-sea habitats. Some scientists suggest that such deep-sea hydrothermal vents systems may be where life first evolved on Earth.
The proposed Solwara 1 mining project would destroy an extensive patch of productive vent habitat, including tens of thousands of vent chimneys, killing virtually all of the attached organisms.
5. The Nautilus in its Environmental Impact Statement admits
"The extent of the impacts to vents and other seafloor habitats directly mined will inevitably be severe at the site scale,"
"it may be many years before development of chimneys returns to pre-mining conditions (emphasis added).
"mining is expected to alter venting frequency and characteristics on surrounding seafloor areas as well, thus affecting the ecological communities of a much broader scale than just the mined site.
6. Concerns regarding Project impacts summarized in the EIS include: "loss of habitat and degradation of water quality; loss, regional or wider scale loss, of endemic or rare species; decreased diversity of species or higher taxonomic levels; and loss of knowledge or of future opportunities (i.e., what we do not know)." It is highly likely that all of these will occur.
7. The ecological footprint of normal operation of the project will be significant. An 11-hectare area of the sulphide mound at Solwara 1, all of its associated organisms, and tens of thousands of vent chimneys would be removed and destroyed by the mining process, down to a maximum depth of 220 m below the existing sea floor.
8. It is expected that mining will impact venting frequency, location, and intensity at areas surrounding the mined area, and thus impact these nearby biological communities. Recruitment of vent species at other vent sites downstream from Solwara 1, including Solwara 8 approximately 45 km to the north west, will likely be reduced. The 245,000 tons of waste rock and unconsolidated sediment overburden will be disposed down-slope, and extend 2 km or more from the discharge site. The suspended sediment from mining operations and disposal of waste will settle over an extensive area of seafloor habitat, resulting in the smothering of benthic communities. The discharge plume from the de watered ore with 6,000 mg/L suspended solids, increased metals leached from the ore, and elevated temperatures up to 11 C, will be discharged 25 m - 50 m above the seabed, and will exert detectable impacts 10 km from the site. At the expected discharge rate of 0.3 m3 / sec, over 10 million tons / year of contaminated effluent will be discharged into the deep-sea environment.
9. Underwater noise from the Project is expected to be audible 600 km from the site, and could induce masking effects in cetaceans 15 km from the site, and behavioral response much farther. And 1.44 million m3 (tons) of ballast water from bulk ore carriers, potentially contaminated with exotic invasive species, will be discharged into nearshore waters off New Britain. Project impacts are expected to be regional in extent (extending more than 10 km from site), prolonged in duration (lasting beyond 1 year), and have high degree of severity (severe negative impact on populations, community or ecosystem survival or health). The relative impact of the proposed Project on the globally rare and unique habitat found only at deep-sea hydrothermal vents would be proportionately far greater than, for instance, impacts of terrestrial mines on global forest habitat.
10. Further, the footprint of the Project would be considerably more extensive and severe if accidents occur. The accident scenario of most immediate concern is that of the loss of an ore shuttle barge, with 6,000 tons of toxic ore, fuel, and other hazardous material onboard, or a bulk ore carrier with 25,000 tons of ore and fuel onboard, in the near shore environment off New Ireland or New Britain. ..."
3. There is no framework for the distribution of economic benefits arising from deep sea bed mining
There are no laws that apportion the surpluses to be gained from deep seabed mining.
With deep sea bed mining, once a suitable mining ship has been built, actual mining may well fast upon the completion of an exploration license.
Fiscally, Papua New Guinea does not have an appropriate mining tax regime to deal with deep sea bed mining.
The Solwara 1 Project could gross as much as 1 billion US dollars in a 30 month lifetime.
Taxes under the current laws maybe $US45 million or so.
There are no special tax laws in place to deal with deep sea bed mining.
Again, there are constitutional imperatives set out in the Third and Fourth National Goals of the Constitution, that a Mining Wardens has a duty to implement as far as he or she is able:
Third National Goal National sovereignty & self-reliance (6): “the State is to take effective measures to control and actively participate in the national economy, and in particular to control major enterprises engaged in the exploitation of natural resources”
Fourth National Goal Natural resources & environment: “wise use to be made of our natural resources and the environment in and on the land or seabed, in the sea, under the land, and in the air, in the interests of our development and in trust for future generations”
The legal situation is a mess. There is no effective control. There can be no “wise-use”. The projects are clearly unconstitutional because of the lack of control and inadequate provisions to safeguard the rights of future generations through apportionment of the surpluses.
4. There are no constitutional laws on Maritime Provincial boundaries
The Organic Law on Provincial Boundaries deals only terrestrial boundaries.
One of the current applications for exploitation licenses straddles what are generally thought of as Madang Province and Manus Province waters.
But there is at least one other application that straddles what are generally thought of as Madang Province and East Sepik Province waters.
There are no laws saying how surpluses are to be shared by adjacent provinces.
5. It is not rational to grant further exploration licenses to an applicant who cannot bring previous licenses into actual mining
On the 18th of December 2008 Mining Magazine, reported Nautilus Minerals Inc, the parent of the Applicant issued a statement to say that the Solwara1 mining system and the timetable for the first ore production at Solwara-1 is expected to be delayed beyond December 2010.
Orders for equipment have been either cancelled or delayed. Up to 30% of the work force has been laid-off.
The reports indicate that the global economic down-turn has affected the Applicants parent cash-flow, and Solwara-1 has been effectively ”mothballed” on a low-level maintenance for at least two years, but the exact date is uncertain, and so the “mothballing” could be longer.
In our submission, it is not rational to grant further new exploration permits to a company that may not have the capital to mine, or access to the capital to mine, particular when the country has no regulatory frame work in place.
To grant additional licences would be imprudent and simply not make sense in the circumstances..
The applications for further exploration permits should not be recommended because the Applicant has not been able to further past grants of exploration licenses into actual mining.
The Applicant should be allowed to prove itself with Solwara-1, only after appropriate laws and regulations have been enacted.
Only then could the authorities be in a position to consider any application for new permits from that Applicant or its associates.
Bibliography
Known bibliography on the ecology of active vents and the dangers of mining
Whole issue of Oceanography Magazine, vol. 20, No. 1, March 2007, on Inter ridge research, including a lot of papers on hydrothermal vents, vent microbes and invertebrates, good photos and diagrams, vent biodiversity & bio geography, vent gases and minerals, some history of the 1977 discovery of the vents offshore from Panama, ROVs and AUV equipment, hard bottom drilling gear, and worries about protecting unusual vent ecosystems from the ravages of ship sampling.
Whole issue of Marine Geology on Sedn & Seafloor Hydrocarbon Emissions on Deep European Continental Margins, edited by M. K. Ivanov, N. H. Kenyon, A. E. Suzyumov, and J. M. Woodside, vol. 195, issues 1-4, 30 March 2003.
Whole issue of Marine Geology on "Geosphere-Biosphere Coupling: Cold Seep Related carbonate mound formation & ecology", vol. 198(1-2), 30 June 03, 2003, Editors T. J. C. E. van Weering, W.-C. Dullo, and J.-P. Henriet. This includes papers on mounds off the coast of Norway, Ireland, and the Gulf of Mexico, mud volcanoes, gas and methane hydrates, some biological DNA taxonomy.
Chemical Geology (Vol. 205, Issue 3-4, May 2004) Geomicrobiology and Biogeochemistry of Gas Hydrates and Hydrocarbon Seeps, Edited by: Chuanlun Zhang and Brian Lanoil.Table of Contents at the end of this file. Abstracts are in the References Folder.
Volume 24 Number 3 (2004) of Geo-Marine Letters is on hydrocarbon seeps in marginal seas, edited by John M. Woodside, Robert E. Garrison, J. Casey Moore, Keith A. Kvenvolden.
Journal: Marine and Petroleum Geology 22(4), 2005, special issue on
Near-Surface Hydrocarbon Migration: Mechanisms and Seepage Rates
AAPG, Edited by: M. A. Abrahams, J.K. Whelan. Table of contents at end of this file.
Chemical Geology Special Issue on Shallow water Hydrothermal Venting, edited by R. M. Prol-Ledesma, P. R. Dando, and C. E. J. de Ronde, vol. 224(1-3):1-182. They focus on vents in <200 m water depth, and find rather different expressions of metal and hydrocarbon tracers on the seafloor.
Environmental Geology vol 46 (8) 2004. Most of this issue is on methane seeps, hydrocarbons, mud volcanoes, Alvin and ABE expedition logs and photos, mostly of deep hydrothermal vents., click on Magic Mountain, and many other video clips showing vent chimneys on the Cascadia Margin at 2000 m water depth.
Marine Geology 227 (3-4), March 06, has a series of articles about mud volcanoes, seeps and vents, bottom reflectors.
"http://www.pmel.noaa.gov/vents/home.html" , submarine vent website for the Pacific Marine Environmental Laboratory in Seattle. Videos of vent fields from the Juan de Fuca Ridge, off the coast of Oregon/Washington State and BC. Photos of biota, microbial communities. Their "ring of fire" globe shows the ring going through the Timor Sea.
Wednesday, August 3, 2011
The Ecologist
Some scientists believe deep-sea hydrothermal vents systems may be where life first evolved on earth (Image: Wenceslaus Magun's photos reveals the first Ramu MCC's and Highlands Pacific's deep sea tailings disposal and Nautilus' deep sea bed mining educational awareness conducted on Bagabag Island and at Tokain village, Madang PNG by Professor Richard Steiner, former Executive Director for the Minerals Policy Institute of Australia, Ms Techa and Indigenous New Caledonians (Kanakis.) These awarenesses were conducted a day after Nautilus sent in its deligation to Bagabag Island. 19th August 2007
28th October, 2010
As Papua New Guinea gives go-ahead to a Canadian mining company to dredge its coastal seabed for minerals, critics say environmental assessments have been inadequate, local objections ignored and new species of life could be extinct before they have even been discovered.
Deep-sea hydrothermal vents systems may be where life first evolved on earth
It was perhaps only a matter of time before mining the deep seas took off. Following in the footsteps of deep-sea fishing and drilling for oil it has been lurking in the minds of exploration companies like Nautilus Minerals, which is behind a major project in Papua New Guinea (PNG).
The idea of digging up the seabed one mile beneath the ocean surface to extract mineral-rich deposits such as copper and zinc first emerged in the 1960s. An initial flurry of interest in the 1970s was put off by low metal prices and UN regulations that exist on exploiting resources in international waters.
But with rising demand from China and India for rare earth metals like copper, and deep-sea surveys having now found concentrations of minerals four to five times those on land, it has returned but this time in the ‘unregulated’ territorial waters of PNG, conveniently close to the Asian markets. Ecologists say the PNG government is allowing Nautilus to go ahead with the first ever commercial deep-sea mining project without properly considering the environmental impacts or local opposition. Nautilus investors include the mining giant Anglo-American which is ignoring indigenous opposition to a gold and copper mine in Alaska.
‘Cradle of life on earth’
As well as being metal-rich, the volcanogenic hydrothermal deposits which Nautilus plans to mine are home to a unique ecosystem that is still largely unknown to scientists since being discovered in the late 1970s. Initially, the deep sea was thought to be full of soft sediment and little else but the discovery of hydrothermal vents on the seabed, which produce the deposits, revealed a completely novel ecosystem, unreliant on photosynthesis.
‘It’s the cradle of life on earth,’ explains Dr Rod Fujita from the Environmental Defense Fund and author of studies looking into deep-sea mining, ‘and the only one that does not depend on sunlight. There are species there that are found nowhere else on earth. It’s not like any land habitats we are used to; in fact you have to have your perspective altered to appreciate this deep-sea world,’ he says.
The mining process in PNG will take the top 20-30m off the seabed at a depth of 1,500m and lift it up to the surface before transferring it by barge to processing sites on land. ‘You will destroy fauna just by lifting the land,’ says deep-sea ecologist Professor Paul Tyler, from the National Oceanography Centre at Southampton University. ‘It is possible you might mine at a distance [from the hydrothermal vents] but by mining close by you will affect the flow and the vents might switch off and then all the animals die – you lose a huge biomass.’
'Flimsy' environmental report
Nautilus has attempted to fend off these criticisms by publishing an environment assessment, co-produced by a respected deep-sea biologist Dr Cindy Van Dover. In it they admit the impact to vents and seafloor habitats will ‘inevitably be severe at the site scale’ and that they will take ‘many years’ to recover. However, other ecologists say the assessment is ‘flimsy’ and fails to give a full account of the potential damage mining will cause.
Professor Richard Steiner, from the University of Alaska cites the incompleteness of classification of species found at the sites and an inadequate assessment of the risks associated with sediment and waste rock disposal. He also cites the effects of increased light and noise in the deep ocean environment and the toxicity of the dewatering plume [the process of removing water from the mined deposits] to deep-sea organisms, which will not be able to differentiate between food and junk sediment.
Of particular concern are the hundreds of thousands of tonnes of waste that will be produced by the mining process, which Steiner compares to that of a ‘giant underwater tractor’ and which will be pumped onto deeper seabeds nearby. Dr Fujita said the physics of water as well as weather and currents made it difficult to predict or contain any spill and that deep-sea mining had the capacity to produce pollution that could travel across into international waters.
A smoking hydrothermal vent on the ocean seabed
Exploitation or financial gain?
‘I don’t think the project would be allowed to proceed anywhere else in the world based on such a poor analysis of risks,’ says Steiner. The USA is known to have similar deposits off the coast of Washington as has Canada but mining is not thought to be imminent. Dr Fujita suggests Nautilus is just the latest overseas mining giant to take advantage of lax regulations in the country. ‘In PNG they have a poor record of mining on land resulting in lots of poor conditions and that bad record and lack of oversight is now moving from land to sea,’ he says.
Only this week the PNG government was accused by Greenpeace of allowing rampant logging and failing to respect the rights of indigenous groups who depend on the forests.
Nautilus has reportedly suggested the country would benefit by more than $200 million from the mining but Steiner says the benefits to local people or the economy of PNG were likely to be disproportionately low compared to the scale and risk of the project. ‘While the project could gross almost $1 billion USD in its 30-month lifetime, it expects to provide only $41 million in total taxes and royalties to the government, a $1.5 million development fund and a few dozen jobs at most to PNG nationals,’ he said.
Prof Steiner is also acting as a science advisor to Mas Kagin, a group formed in 2008to give a voice to coastal indigenous people in PNG oppose any commercial mining. The group says it depends on the coastal waters for their ‘livelihood, culture and way of life’ and has a right to oppose the seabed mining. In a campaign video community groups from two provinces expressed their fears.
‘When we first heard that Nautilus was going to mine the seabed using technology that had never been used anywhere else it felt as though we were becoming a science lab…and our very lives part of an experiment to test this new technology,’ it says.
Nautilus conducted workshops with local villages to explain its proposals but rejected calls to set up a permanent citizens advisory council. The company also declined to respond to concerns raised in this article but has previously said it took great pride in ‘leading the mining industry into the deep ocean’.
Opening the floodgates
It has estimated several billions tons of copper could be extracted from seafloor sites around the world. Dr Tyler acknowledges that the deep-sea has ‘not even had its surface scratched with what it might contribute to the economy’ but fears PNG’s decision to approve Nautilus mining plans will ‘open the floodgates’ before proper assessments have been made of the impact. China is known to be seeking to mine similar deposits in the South-West Indian Ocean.
‘Deep-sea fishing is a good example. We can ring alarm bells but there is no regulation of it. If I had my way the whole area of deep-sea would become a protected area and people who want to exploit it would have to apply to a body who can ensure that they were doing a proper environmental analysis before they were allowed to exploit it. At the moment there is no requirement at all and we end up looking at the damage done,’ he says.
Steiner agrees and says there is too much wrong with the PNG project: ‘the way this first deep-sea mine proceeds will set the tone for all others, and this is a very, very bad start’. He argues investment in reusing copper and gold made more sense than continuing to pay mining companies to take bigger risks in an effort to dig up more.
‘The global economy simply does not need the gold or copper that would be recovered at these deep-sea hydrothermal vents. We know how to recycle and reuse much of the copper already up out of the ground, run through the economy, and discarded in waste dumps. It is a unidirectional waste of resources, energy and money. And we know better.’
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