Wednesday, 27 December 2017

Dusty dendrites

Pseudo-dendrites formed in iron rich dust.

This pseudo-dendrite has formed from a combination of water precipitation and very fine dust. During an outback drive, the morning mist has precipitated and dripped on the slightly rounded black plastic surface. The continued movement of the car has shaken another few drips loose and kicked up sufficient fine dust to stick to the water trails. Lighter trails indicate areas which were wet longer and able to trap a thicker dust layer.
Interestingly, the water trails only diverge and never appear to merge. My current hypothesis is that the water trails were pushing tiny iron rich dust particles in front and to the sides of them. When being transported, these would rotate to align with the earths magnetic field but as they dried, this ability would be reduced. A cross section of a dried trail would look a lot like a brontosaurus, thin and pointy at both ends and much thicker in the middle. Not only would this present too sharp an incline compared to the black plastic surface, the dust would have a very minor magnetic field which would contribute to guiding the actively moving droplet away.

Thursday, 9 November 2017

Mafic dykes cross cut a granite

Mafic (basalt) dykes cross cut thegranite of the Burnside Batholith at Lowlands Beach.

I was very taken with the two planes of weakness highlighted here by right angled jogs in the intruding dyke. The locations where the dykes, which are around 25cm wide, pinch out and step across suggest to me a more sheared or rotational strain field.

Thursday, 10 August 2017

Iron dust

The interpretation of magnetic anomalies has been an enjoyable part of my job as a geologist for many years now. I'm currently working in the Iron Ore industry in the Pilbara which makes this especially challenging. The Archean rocks of the Pilbara are variably magnetic, with fresh Banded Iron Formation (BIF) creating magnetic highs and remnant magnetic fields creating magnetic lows. Neutral magnetic signatures can come from enriched iron deposits where the Fe is no-longer magnetic or from overlying detrital packages. Detritals can also be enriched in magnetic pisolites which create shallow, highly variable anomalies.

Shown above is a standard geological probe with a small magnet imbedded on the top. I have run the magnet through the dust next to the car and then rinsed the result in my water bucket. As you can see, I'm left with very fine grains of magnetic material which form pseudo-crystals as they self organise in the magnetic field.
With current supplies, the soil and BIF is not deemed to be sufficiently enriched in iron (it's less than 45%) to offset the work of removing gangue material such as the silica/chert.

Sunday, 11 June 2017

Fossils at Naracoorte.

A huge shell fossil from the Naracoorte member of the Gambier Limestone. This limestone formed in a shallow temperate sea. The environment appears to have pretty low biodiversity as evidenced by the small variety of fossils preserved in the rock. This large shell is unusual as the Gambier Limestone seems to be dominated by sea urchin flukes and spines.