MINING has been part of this country from the ochre pits of the Aboriginals, the first coalmine at the mouth of the Hunter, the gold shafts at Hill End and on to the wealth coming from Cadia gold and copper mine, near Orange.
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It has made an enormous economic contribution to this nation.
As a specialist engineer I have spent most of my 40-year career working for major construction and mining companies on underground and open-cut mines, and in the disposal of the waste products of those mines.
I have worked, and continue to work, for most of the major mining companies and for the big construction companies in Australia and south-east Asia.
Until a few decades ago, mining in this country tended to be confined to relatively small areas.
So even if some mines had adverse impacts on land, water systems, and important environments – take the massive landslides in the Burragorang Valley and at Katoomba, the cracking of the Cataract River, and the draining of swamps on the Newnes Plateau – most impacts from these mines covered limited areas.
But with coal seam gas (CSG) extraction we are dealing with a new animal.
CSG extraction is a relatively new industry and a form of mining that covers very large areas very quickly. It has the potential to adversely affect groundwater systems over large parts of this state.
In order to extract coal seam gas, one first has to depressurise the groundwater in the coal seams and move it to the surface.
So the coal seams are, in effect, groundwater voids – the same as coalmines. But we are no longer talking about relatively localised effects. We are talking huge areas.
The enormous expansion of CSG mining has occurred in a poorly controlled manner over a very short period.
Large areas of our state will be affected by a relatively new industry where the science behind these impacts and the key hydrogeological parameters are poorly understood.
We have very little empirical information about long-term impacts from CSG operations because the industry is so young.
What we do know is that the impacts will develop over many years – and that, if the impacts are substantial, they will be almost impossible to reverse.
The current NSW government listing of exploration licences for CSG totals 189,567 square kilometres, almost 19million hectares.
To this we must add 24,000 hectares in production leases for CSG and all the coalmining areas.
Together this comprises much of our populated area, our forested wilderness, our wetlands and rivers, and our productive agricultural land.
What we do with our water matters.
Rainfall is our primary water source and is subject to huge swings.
In times of plenty, our rivers flow, our dams fill, but most importantly our groundwater systems replenish.
Huge quantities seep into the Great Artesian Basin from the recharge zone along the east coast, into the porous and fractured rocks in the Sydney-Gunnedah geological basin that extends from Sutton Forest to Narrabri, and also into the older rocks west of the divide.
Apart from feeding bores, groundwater sustains the baseflows of our creeks and rivers, and our wetland systems.
Diminish those groundwater systems and you create a tendril effect of damage that extends from an individual vegetable farmer at Picton to a complete river system in the Yarramalong Valley, or at Gloucester.
CSG mining puts our groundwater under enormous pressure.
It is simply a matter of physics, not of opinion, that this depressurisation from CSG mining will adversely affect the whole groundwater system, because like the apple that fell on Isaac Newton’s head, groundwater is controlled by gravity and flows from zones of high elevation to zones of lower potential energy.
How long will it take for the changes to our groundwater to be substantial?
We don’t know.
How extensive will they be?
We don’t know.
One thing we do know is encapsulated by Dr Richard Evans, principal hydrogeologist of Sinclair Knight Merz
‘‘There is no free lunch here – every litre of water you pump out of the ground reduces river flow by the same amount.’’
I don’t believe as a society we should just let this process run helter skelter – a process whose consequences on our environment are not yet fully understood by scientists and engineers.
And we cannot rely on what is called “adaptive management”, because if monitoring of CSG does show significant impacts on water systems, there is very little that can be done to reverse the process once the damage is done.
Wisdom demands that the whole process of CSG extraction in this state be urgently wound back.
That may allow the science to catch up with the present rapacious desire to exploit a resource.
To allow CSG mining to proceed before more is done to understand its impact is a reckless gamble with our future.
Perhaps we can learn from past lessons involving asbestos, tobacco, thalidomide and Agent Orange.
Damage may be done that cannot be repaired.
Dr Philip Pells is a civil engineer who has spent four decades in geotechnical and groundwater engineering.