Lascelles, D.F. (2021) Response to the reply by Warchola et al. to the discussion by D.F. Lascelles on the paper: Tyler Warcholaa, Stefan V. Lalonde, Ernesto Pecoits, Konstantin von Gunten, Leslie J. Robbins, Daniel S. Alessi, Pascal Philippot, Kurt O. Konhauser. Petrology and geochemistry of the Boolgeeda Iron Formation, Hamersley Basin, Western Australia. Precambrian Research 316 (2018) 155–173. Precambrian Research, 359. 105373pp. doi:10.1016/j.precamres.2019.105373
Reference Type | Journal (article/letter/editorial) | ||
---|---|---|---|
Title | Response to the reply by Warchola et al. to the discussion by D.F. Lascelles on the paper: Tyler Warcholaa, Stefan V. Lalonde, Ernesto Pecoits, Konstantin von Gunten, Leslie J. Robbins, Daniel S. Alessi, Pascal Philippot, Kurt O. Konhauser. Petrology and geochemistry of the Boolgeeda Iron Formation, Hamersley Basin, Western Australia. Precambrian Research 316 (2018) 155–173 | ||
Journal | Precambrian Research | ||
Authors | Lascelles, D.F. | Author | |
Year | 2021 (July) | Volume | 359 |
Page(s) | 105373 | ||
Publisher | Elsevier BV | ||
DOI | doi:10.1016/j.precamres.2019.105373Search in ResearchGate | ||
Mindat Ref. ID | 13940045 | Long-form Identifier | mindat:1:5:13940045:4 |
GUID | 2fb26f67-df58-4173-a3d2-a69f178190a3 | ||
Full Reference | Lascelles, D.F. (2021) Response to the reply by Warchola et al. to the discussion by D.F. Lascelles on the paper: Tyler Warcholaa, Stefan V. Lalonde, Ernesto Pecoits, Konstantin von Gunten, Leslie J. Robbins, Daniel S. Alessi, Pascal Philippot, Kurt O. Konhauser. Petrology and geochemistry of the Boolgeeda Iron Formation, Hamersley Basin, Western Australia. Precambrian Research 316 (2018) 155–173. Precambrian Research, 359. 105373pp. doi:10.1016/j.precamres.2019.105373 | ||
Plain Text | Lascelles, D.F. (2021) Response to the reply by Warchola et al. to the discussion by D.F. Lascelles on the paper: Tyler Warcholaa, Stefan V. Lalonde, Ernesto Pecoits, Konstantin von Gunten, Leslie J. Robbins, Daniel S. Alessi, Pascal Philippot, Kurt O. Konhauser. Petrology and geochemistry of the Boolgeeda Iron Formation, Hamersley Basin, Western Australia. Precambrian Research 316 (2018) 155–173. Precambrian Research, 359. 105373pp. doi:10.1016/j.precamres.2019.105373 | ||
In | (2021) Precambrian Research Vol. 359. Elsevier BV |
References Listed
These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.
Braterman, P.S., Cairns-Smith, A.G., 1987. Iron photoprecipitation and genesis of the banded iron-formations. In: Appel, P.W.U., LaBerge, G.L., (Eds.), Precambrian Iron-Formations: Theophrastus, Athens, pp. 215–245. | |
Cloud (1983) Banded iron-formation – A gradualist’s dilemma , 401 | |
Harmsworth (1990) BIF-derived ores of the Hamersley Province Vol. 1, 617 | |
Krapez, B., Barley, M.E., Pickard, A.L., 2001. Banded iron-formations: ambient pelagites, hydrothermal muds or metamorphic rocks? In: 4th International Archaean Symposium, Extended Abstracts, Perth, pp. 247–248. | |
Krapež, Bryan, Barley, Mark E., Pickard, April L. (2003) Hydrothermal and resedimented origins of the precursor sediments to banded iron formation: sedimentological evidence from the Early Palaeoproterozoic Brockman Supersequence of Western Australia. Sedimentology, 50 (5). 979-1011 doi:10.1046/j.1365-3091.2003.00594.x | |
Lascelles, D.F., 2001. A new model for the origin of banded iron-formations. In: 4th International Archaean Symposium, extended abstracts, Perth, pp. 251–253. | |
Lascelles, D.F., 2002. A new look at old rocks: a non-supergene origin for BIF-derived in situ high-grade iron ore deposits. In: Iron Ore 2002, Proceedings, Australasian Institute of Mining and Metallurgy, Perth, 2002. pp. 107–126. | |
Lascelles (2018) , 185 | |
Morris (1983) Supergene alteration of banded iron formation , 513 | |
Morris (1985) Genesis of iron ore in banded iron-formation by supergene and supergene-metamorphic processes – A conceptual model , 73 | |
Morris (1986) J. Geol. Soc. India The cycling redox state of iron in the genesis of banded iron-formations and their associated enrichment iron ores 28, 9227 | |
Morris, R.C., 2011. Microplaty haematite of the high-grade iron ores – its nature and genesis. In: Proceedings Iron Ore 2011, Perth, Western Australia. Australasian Institute of Mining and Metallurgy Publication Series, No.6/20011. pp. 117–124. | |
Pickard, April L., Barley, Mark E., Krapež, Bryan (2004) Deep-marine depositional setting of banded iron formation: sedimentological evidence from interbedded clastic sedimentary rocks in the early Palaeoproterozoic Dales Gorge Member of Western Australia. Sedimentary Geology, 170 (1) 37-62 doi:10.1016/j.sedgeo.2004.06.007 | |
Powell (1991) Geol. Soc. Australia Abstracts New evidence for the age of deformation along the southern margin of the Hamersley Province: relevance to the palaeogeographic evolution and time of iron-ore formation 25, 52 | |
Taylor (2001) Econ. Geol. Genesis of high-grade hematite orebodies of the Hamersley Province, Western Australia 96, 837 | |
Trendall (1970) , 353 | |
Zegeye, Asfaw, Bonneville, Steeve, Benning, Liane G., Sturm, Arne, Fowle, David A., Jones, CarriAyne, Canfield, Donald E., Ruby, Christian, MacLean, Lachlan C., Nomosatryo, Sulung, Crowe, Sean A., Poulton, Simon W. (2012) Green rust formation controls nutrient availability in a ferruginous water column. Geology, 40 (7) 599-602 doi:10.1130/g32959.1 |
See Also
These are possibly similar items as determined by title/reference text matching only.