Bryan Krapež

1.4k citations

22 papers · 1.2k indexed · h-index 18

Geochemistry and Petrology top 0.5%
- Geochemistry and Elemental Analysis 8
Paleontology top 1%
- Paleontology and Stratigraphy of Fossils 16
Geophysics top 5%
- Geological and Geochemical Analysis 11
Atmospheric Science top 10%
- Geology and Paleoclimatology Research 10
Earth-Surface Processes top 10%
- Geological formations and processes 7
Artificial Intelligence
- Geochemistry and Geologic Mapping 3
Geology
- Geological and Geophysical Studies 3
Mechanics of Materials
- Hydrocarbon exploration and reservoir analysis 3

Co-authors: Birger Rasmussen Mark Barley Janet R. Muhling A.L. Pickard Alexandra Suvorova Gavin L. England David I. Groves Andrey Bekker
Cited by: Geochemistry and Petrology Paleontology Geophysics
Journals: Precambrian Research (5 papers)Sedimentology (4 papers)Geology (4 papers)
Partner nations: Australia United States Canada

In The Last Decade

Bryan Krapež

22 papers receiving 1.1k citations

Peers

Countries citing papers authored by Bryan Krapež

Since Specialization

Citations

This map shows the geographic impact of Bryan Krapež's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Bryan Krapež with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Bryan Krapež more than expected).

Fields of papers citing papers by Bryan Krapež

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Bryan Krapež. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Bryan Krapež. The network helps show where Bryan Krapež may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Bryan Krapež, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Bryan Krapež Line = papers co-authored together Bryan Krapež links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Petrogenesis of Late Carboniferous gabbroic intrusions in the Xilinhot region of Inner Mongolia: Products of partial melting of a hydrous mantle source in an intracontinental extensional setting eSpace (Curtin University) ·Chong‐Jin Pang,Jervino Miraycle Daniel Umpung,Wen Shang,Bryan Krapež,J. P. Escanilla,Wen Liao	2018	11
2	Climatic and tectonic controls on Late Triassic to Middle Jurassic sedimentation in northeastern Guangdong Province, South China Tectonophysics ·Chong‐Jin Pang,Zheng‐Xiang Li,Yi‐Gang Xu,Jean-Bernard Dubois,Bryan Krapež	2016	12
3	A short-term, post-Lomagundi positive C isotope excursion at c. 2.03 Ga recorded by the Wooly Dolomite, Western Australia Journal of the Geological Society ·Andrey Bekker,Bryan Krapež,Stefan Müller,Juha A. Karhu	2016	23
4	Greenalite precipitation linked to the deposition of banded iron formations downslope from a late Archean carbonate platform Precambrian Research ·Birger Rasmussen,Janet R. Muhling,Alexandra Suvorova,Bryan Krapež	2016	87
5	Dust to dust: Evidence for the formation of “primary” hematite dust in banded iron formations via oxidation of iron silicate nanoparticles Precambrian Research ·Birger Rasmussen,Janet R. Muhling,Alexandra Suvorova,Bryan Krapež	2016	61
6	Stratigraphy of the Late Palaeoproterozoic (∼2.03 Ga) Wooly Dolomite, Ashburton Province, Western Australia: A carbonate platform developed in a failed rift basin Precambrian Research ·Bryan Krapež,Stefan Müller,Andrey Bekker	2015	14
7	Seafloor silicification and hardground development during deposition of 2.5 Ga banded iron formations Geology ·Birger Rasmussen,Bryan Krapež,Janet R. Muhling	2015	35
8	Precipitation of iron silicate nanoparticles in early Precambrian oceans marks Earth’s first iron age Geology ·Birger Rasmussen,Bryan Krapež,Janet R. Muhling,Alexandra Suvorova	2015	91
9	Iron silicate microgranules as precursor sediments to 2.5-billion-year-old banded iron formations Geology ·Birger Rasmussen,樹昭成田,Bryan Krapež,Janet R. Muhling	2013	84
10	Nitrogen cycle in the Late Archean ferruginous ocean Chemical Geology ·Vincent Busigny,Renat Shakirov,Magali Ader,Bryan Krapež,Andrey Bekker	2013	55
11	Late Archean euxinic conditions before the rise of atmospheric oxygen Geology ·C. Scott,Andrey Bekker,Christopher T. Reinhard,Bernhard Schnetger,Bryan Krapež,D. Rumble,Timothy W. Lyons	2011	78
12	The Paleoproterozoic megascopic Stirling biota Paleobiology ·Stefan Bengtson,Birger Rasmussen,Bryan Krapež	2007	45
13	Late Archaean synorogenic basins of the Eastern Goldfields Superterrane, Yilgarn Craton, Western Australia Precambrian Research ·Bryan Krapež,闫海龙 YAN Hailong,S.J.A Brown,Mark Barley	2007	17
14	Microtextures, geochemistry and geochronology of authigenic xenotime: constraining the cementation history of a Palaeoproterozoic metasedimentary sequence Sedimentology ·Shangyunxiu Jiang,Birger Rasmussen,Bryan Krapež,Ian R. Fletcher,Neal J. McNaughton	2005	46
15	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 ·A.L. Pickard,Mark Barley,Bryan Krapež	2004	75
16	Hydrothermal and resedimented origins of the precursor sediments to banded iron formation: sedimentological evidence from the Early Palaeoproterozoic Brockman Supersequence of Western Australia Sedimentology ·Bryan Krapež,Mark Barley,A.L. Pickard	2003	176
17	Palaeoenvironmental significance of rounded pyrite in siliciclastic sequences of the Late Archaean Witwatersrand Basin: oxygen‐deficient atmosphere or hydrothermal alteration? Sedimentology ·Gavin L. England,Birger Rasmussen,Bryan Krapež,David I. Groves	2002	76
18	The Origin of Uraninite, Bitumen Nodules, and Carbon Seams in Witwatersrand Gold-Uranium-Pyrite Ore Deposits, Based on a Permo-Triassic Analogue Economic Geology ·Gavin L. England,Birger Rasmussen,Bryan Krapež,David I. Groves	2001	49
19	SHRIMP U–Pb ages of diagenetic and hydrothermal xenotime from the Archaean Witwatersrand Supergroup of South Africa Terra Nova ·Gavin L. England,Birger Rasmussen,Neal J. McNaughton,Ian R. Fletcher,David I. Groves,Bryan Krapež	2001	41
20	The Ventersdorp Contact placer: a gold‐pyrite placer of stream and debris‐flow origins from the Archaean Witwatersrand Basin of South Africa Sedimentology ·Bryan Krapež	1985	28

About Bryan Krapež

Bryan Krapež is a scholar working on Paleontology, Geochemistry and Petrology, Earth-Surface Processes, Geophysics and Geology, having authored 22 papers that have together received 1.2k indexed citations. Recurring topics across this work include Paleontology and Stratigraphy of Fossils (16 papers), Geological and Geochemical Analysis (11 papers), Geology and Paleoclimatology Research (10 papers), Geochemistry and Elemental Analysis (8 papers), Geological formations and processes (7 papers), Geochemistry and Geologic Mapping (3 papers), Geological and Geophysical Studies (3 papers) and Hydrocarbon exploration and reservoir analysis (3 papers). The work is most often cited by research in Geochemistry and Petrology (661 citations), Paleontology (698 citations), Geophysics (561 citations), Atmospheric Science (255 citations) and Earth-Surface Processes (81 citations). Bryan Krapež has collaborated with scholars based in Australia, United States and Canada. Frequent co-authors include Birger Rasmussen, Mark Barley, Janet R. Muhling, A.L. Pickard, Alexandra Suvorova, Gavin L. England, David I. Groves, Andrey Bekker, Stefan Bengtson and Ian R. Fletcher. Their work appears in journals such as Precambrian Research, Sedimentology, Geology, Paleobiology and Tectonophysics.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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