Images showing reconstructions of charcoals.

X-ray microtomographic imaging of charcoal

Bird, Michael I.
Ascough, Philippa L.
Young, Iain M.
Wood, Cheryl V.
Scott, Andrew C.

October 2008

We assess the potential of X-ray microtomography as a tool for the non-destructive, three-dimensiona...

Charcoal Morphometry for Paleoecological Analysis: The Effects of Fuel Type and Transportation on Morphological Parameters

Alastair J. Crawford
Claire M. Belcher

August 2014

Premise of the study: Charcoal particles preserved in sediments are used as indicators of paleowildf...

TEM images of individual particles in sample L5 by a side (a) and front (b) view, and their local high-magnification images (c, d).

Jia-Yuan Shi (400900)
Qi-Zhi Yao (400901)
Xi-Ming Li (400902)
Gen-Tao Zhou (400903)
Sheng-Quan Fu (400904)

April 2013

TEM images of individual particles in sample L5 by a side (a) and front (b) view, and their local...

Reconstruction of fossil charcoal particle (A–D) Ancient Cretaceous mesofossil charcoal particle (A) reflected light image (B–D) image processed three-dimensional reconstructions showing all sides of the particle.

Claire M. Belcher (401339)
Surangi W. Punyasena (105507)
Mayandi Sivaguru (159959)

August 2013

(E–F) shows also the ability to code the images according to charcoal volume for a range of parti...

Three dimensional recontruction of Large “bonfire” particles of charcoal.

Claire M. Belcher (401339)
Surangi W. Punyasena (105507)
Mayandi Sivaguru (159959)

August 2013

(A) Original reflected light image (B–D) image processed three-dimensional reconstructions top vi...

Novel application of confocal laser scanning microscopy and 3D volume rendering toward improving the resolution of the fossil record of charcoal.

Claire M Belcher
Surangi W Punyasena
Mayandi Sivaguru

Variations in the abundance of fossil charcoals between rocks and sediments are assumed to reflect c...

Novel Application of Confocal Laser Scanning Microscopy and 3D Volume Rendering toward Improving the Resolution of the Fossil Record of Charcoal

Claire M. Belcher (401339)
Surangi W. Punyasena (105507)
Mayandi Sivaguru (159959)

August 2013

<div>Variations in the abundance of fossil charcoals between rocks and sediments are assumed to r...

Complementary imaging techniques for charcoal examination and identification

Hubau, Wannes
Van den Bulcke, Jan
Kitin, Peter
Brabant, Loes
Van Acker, Joris
Beeckman, Hans

January 2013

Identification of ancient charcoal fragments is a valuable tool in reconstructing past environments ...

Visualizing Surface Morphology of Sedimentary Charred Botanical Particles Using Tangential Flash Macrophotography

Gray, William
Velasquez-Franco, Susana

August 2023

Charred fragments of botanical materials in sediments provide important clues as to the historic fir...

Supplemental Fig1

Hudspith, Victoria A.
Hadden, Rory M.
Bartlett, Alastair I.
Belcher, Claire M.

November 2017

Figure 1. Podocarpus salignus dead foliage ash/char (Fig. 2E) illustrating the stages of image proce...

Shapes and sizes of charcoal in the Great Plains.

Berangere A. Leys (3966623)
Julie L. Commerford (3966620)
Kendra K. McLauchlan (3243414)

April 2017

A Typical shape of a woody fuel type charcoal piece; B Typical shape of an herbaceo...

Microphotographs of SMT 1, its sub-types, and SMT 4.

Cristiano Nicosia (5194778)
Federico Polisca (13549768)
Christopher Miller (1120)
Bertrand Ligouis (2215843)
Susan Mentzer (13549771)
Claudia Mangani (13549774)
Federica Gonzato (13549777)

August 2022

(a) SMT 1: ashes mixed with charcoal and charred vegetal matter (XPL). Note the compaction of the ma...

Photomicrographs illustrating charcoals from ‘undegraded’ and ‘biodegraded’ categories, (A) undegraded gymnospermous woody fragment, (B) Plant tissue showing evidence of biodegradation prior to charring: the presence of cell infillings formed from biodegradation of the cell wall, distortion of cell walls, and cavity formation in secondary walls.

Victoria A. Hudspith (719099)
Claire M. Belcher (401339)
Ryan Kelly (500386)
Feng Sheng Hu (272388)

April 2015

Photographs were taken using reflected-light microscopy with immersion oil.</p

Three-dimensional reconstruction at the molecular level

Joachim Frank

This article gives a brief overview over the problem of obtaining three-dimensional images of macrom...

Overview of the macro-charcoal remains from Porongos outcrop.

José Rafael W. Benicio (6458891)
André Jasper (4618531)
Rafael Spiekermann (6458894)
Luciane Garavaglia (6458897)
Etiene Fabbrin Pires-Oliveira (6458900)
Neli Teresinha Galarce Machado (4618528)
Dieter Uhl (164074)

March 2019

A) Fragment showing slightly abraded edges (sample PBUMCN 1167). B) Macro-charcoal impregnated by py...

X-ray microtomographic imaging of charcoal

Bird, Michael I.
Ascough, Philippa L.
Young, Iain M.
Wood, Cheryl V.
Scott, Andrew C.

October 2008

We assess the potential of X-ray microtomography as a tool for the non-destructive, three-dimensiona...

Charcoal Morphometry for Paleoecological Analysis: The Effects of Fuel Type and Transportation on Morphological Parameters

Alastair J. Crawford
Claire M. Belcher

August 2014

Premise of the study: Charcoal particles preserved in sediments are used as indicators of paleowildf...

TEM images of individual particles in sample L5 by a side (a) and front (b) view, and their local high-magnification images (c, d).

Jia-Yuan Shi (400900)
Qi-Zhi Yao (400901)
Xi-Ming Li (400902)
Gen-Tao Zhou (400903)
Sheng-Quan Fu (400904)

April 2013

TEM images of individual particles in sample L5 by a side (a) and front (b) view, and their local...

Reconstruction of fossil charcoal particle (A–D) Ancient Cretaceous mesofossil charcoal particle (A) reflected light image (B–D) image processed three-dimensional reconstructions showing all sides of the particle.

Claire M. Belcher (401339)
Surangi W. Punyasena (105507)
Mayandi Sivaguru (159959)

August 2013

(E–F) shows also the ability to code the images according to charcoal volume for a range of parti...

Three dimensional recontruction of Large “bonfire” particles of charcoal.

Claire M. Belcher (401339)
Surangi W. Punyasena (105507)
Mayandi Sivaguru (159959)

August 2013

(A) Original reflected light image (B–D) image processed three-dimensional reconstructions top vi...

Novel application of confocal laser scanning microscopy and 3D volume rendering toward improving the resolution of the fossil record of charcoal.

Claire M Belcher
Surangi W Punyasena
Mayandi Sivaguru

Variations in the abundance of fossil charcoals between rocks and sediments are assumed to reflect c...

Novel Application of Confocal Laser Scanning Microscopy and 3D Volume Rendering toward Improving the Resolution of the Fossil Record of Charcoal

Claire M. Belcher (401339)
Surangi W. Punyasena (105507)
Mayandi Sivaguru (159959)

August 2013

<div>Variations in the abundance of fossil charcoals between rocks and sediments are assumed to r...

Complementary imaging techniques for charcoal examination and identification

Hubau, Wannes
Van den Bulcke, Jan
Kitin, Peter
Brabant, Loes
Van Acker, Joris
Beeckman, Hans

January 2013

Identification of ancient charcoal fragments is a valuable tool in reconstructing past environments ...

Visualizing Surface Morphology of Sedimentary Charred Botanical Particles Using Tangential Flash Macrophotography

Gray, William
Velasquez-Franco, Susana

August 2023

Charred fragments of botanical materials in sediments provide important clues as to the historic fir...

Supplemental Fig1

Hudspith, Victoria A.
Hadden, Rory M.
Bartlett, Alastair I.
Belcher, Claire M.

November 2017

Figure 1. Podocarpus salignus dead foliage ash/char (Fig. 2E) illustrating the stages of image proce...

Shapes and sizes of charcoal in the Great Plains.

Berangere A. Leys (3966623)
Julie L. Commerford (3966620)
Kendra K. McLauchlan (3243414)

April 2017

A Typical shape of a woody fuel type charcoal piece; B Typical shape of an herbaceo...

Microphotographs of SMT 1, its sub-types, and SMT 4.

Cristiano Nicosia (5194778)
Federico Polisca (13549768)
Christopher Miller (1120)
Bertrand Ligouis (2215843)
Susan Mentzer (13549771)
Claudia Mangani (13549774)
Federica Gonzato (13549777)

August 2022

(a) SMT 1: ashes mixed with charcoal and charred vegetal matter (XPL). Note the compaction of the ma...

Photomicrographs illustrating charcoals from ‘undegraded’ and ‘biodegraded’ categories, (A) undegraded gymnospermous woody fragment, (B) Plant tissue showing evidence of biodegradation prior to charring: the presence of cell infillings formed from biodegradation of the cell wall, distortion of cell walls, and cavity formation in secondary walls.

Victoria A. Hudspith (719099)
Claire M. Belcher (401339)
Ryan Kelly (500386)
Feng Sheng Hu (272388)

April 2015

Photographs were taken using reflected-light microscopy with immersion oil.</p

Three-dimensional reconstruction at the molecular level

Joachim Frank

This article gives a brief overview over the problem of obtaining three-dimensional images of macrom...

Overview of the macro-charcoal remains from Porongos outcrop.

José Rafael W. Benicio (6458891)
André Jasper (4618531)
Rafael Spiekermann (6458894)
Luciane Garavaglia (6458897)
Etiene Fabbrin Pires-Oliveira (6458900)
Neli Teresinha Galarce Machado (4618528)
Dieter Uhl (164074)

March 2019

A) Fragment showing slightly abraded edges (sample PBUMCN 1167). B) Macro-charcoal impregnated by py...

X-ray microtomographic imaging of charcoal

Bird, Michael I.
Ascough, Philippa L.
Young, Iain M.
Wood, Cheryl V.
Scott, Andrew C.

October 2008

We assess the potential of X-ray microtomography as a tool for the non-destructive, three-dimensiona...

Charcoal Morphometry for Paleoecological Analysis: The Effects of Fuel Type and Transportation on Morphological Parameters

Alastair J. Crawford
Claire M. Belcher

August 2014

Premise of the study: Charcoal particles preserved in sediments are used as indicators of paleowildf...

TEM images of individual particles in sample L5 by a side (a) and front (b) view, and their local high-magnification images (c, d).

Jia-Yuan Shi (400900)
Qi-Zhi Yao (400901)
Xi-Ming Li (400902)
Gen-Tao Zhou (400903)
Sheng-Quan Fu (400904)

April 2013

TEM images of individual particles in sample L5 by a side (a) and front (b) view, and their local...

Images showing reconstructions of charcoals.

Abstract

Extracted data

Images showing reconstructions of charcoals.

Abstract

Extracted data

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