Quantitative estimation of bioturbation based on digital image analysis

Javier Dorador; Francisco J. Rodríguez-Tovar; F. J. Hernández-Molina; D. A.V. Stow; C. Alvarez-Zarikian; G. Acton; A. Bahr; B. Balestra; E. Ducassou. E.; R. Flood; J. A. Flores; S. Furota; P. Grunert; D. Hodell; F. Jimenez-Espejo; J. K. Kim; L. Krissek; J. Kuroda; B. Li; E. Llave; J. Lofi; L. Lourens; M. Miller; F. Nanayama; N. Nishida; C. Richter; C. Roque; H. Pereira; M. Sanchez Goñi; F. Sierro Sanchez; A. Singh; C. Sloss; Y. Takashimizu; A. Tzanova; A. Voelker; T. Williams; C. Xuan

doi:10.1016/j.margeo.2014.01.003

Quantitative estimation of bioturbation based on digital image analysis

Javier Dorador
, Francisco J. Rodríguez-Tovar
, F. J. Hernández-Molina
, D. A.V. Stow
, C. Alvarez-Zarikian
, G. Acton
, A. Bahr
, B. Balestra
, E. Ducassou. E.
, R. Flood
, J. A. Flores
, S. Furota
, P. Grunert
, D. Hodell
, F. Jimenez-Espejo
, J. K. Kim
, L. Krissek
, J. Kuroda
, B. Li
, E. Llave

J. Lofi, L. Lourens, M. Miller, F. Nanayama, N. Nishida, C. Richter, C. Roque, H. Pereira, M. Sanchez Goñi, F. Sierro Sanchez, A. Singh, C. Sloss, Y. Takashimizu, A. Tzanova, A. Voelker, T. Williams, C. Xuan

University of Granada

Research output: Contribution to journal › Article › peer-review

71 Scopus citations

Abstract

Quantitative determination of modification of primary sediment features, by the activity of organisms (i.e., bioturbation) is essential in geosciences. Some methods proposed since the 1960s are mainly based on visual or subjective determinations. The first semiquantitative evaluations of the Bioturbation Index, Ichnofabric Index, or the amount of bioturbation were attempted, in the best cases using a series of flashcards designed in different situations. Recently, more effective methods involve the use of analytical and computational methods such as X-rays, magnetic resonance imaging or computed tomography; these methods are complex and often expensive. This paper presents a compilation of different methods, using Adobe® Photoshop® software CS6, for digital estimation that are a part of the IDIAP (Ichnological Digital Analysis Images Package), which is an inexpensive alternative to recently proposed methods, easy to use, and especially recommended for core samples. The different methods - "Similar Pixel Selection Method (SPSM)", "Magic Wand Method (MWM)" and the "Color Range Selection Method (CRSM)" - entail advantages and disadvantages depending on the sediment (e.g., composition, color, texture, porosity, etc.) and ichnological features (size of traces, infilling material, burrow wall, etc.). The IDIAP provides an estimation of the amount of trace fossils produced by a particular ichnotaxon, by a whole ichnocoenosis or even for a complete ichnofabric. We recommend the application of the complete IDIAP to a given case study, followed by selection of the most appropriate method. The IDIAP was applied to core material recovered from the IODP Expedition 339, enabling us, for the first time, to arrive at a quantitative estimation of the discrete trace fossil assemblage in core samples.

Original language	English
Pages (from-to)	55-60
Number of pages	6
Journal	Marine Geology
Volume	349
DOIs	https://doi.org/10.1016/j.margeo.2014.01.003
State	Published - Mar 1 2014

Keywords

Bioturbation
Digital images
Expedition 339
Integrated Ocean Drilling Program
Marine core deposits
Quantitative methods
Site U1385

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10.1016/j.margeo.2014.01.003

Cite this

Dorador, J., Rodríguez-Tovar, F. J., Hernández-Molina, F. J., Stow, D. A. V., Alvarez-Zarikian, C., Acton, G., Bahr, A., Balestra, B., Ducassou. E., E., Flood, R., Flores, J. A., Furota, S., Grunert, P., Hodell, D., Jimenez-Espejo, F., Kim, J. K., Krissek, L., Kuroda, J., Li, B., ... Xuan, C. (2014). Quantitative estimation of bioturbation based on digital image analysis. Marine Geology, 349, 55-60. https://doi.org/10.1016/j.margeo.2014.01.003

@article{84e68bada6fd47c99c7df314864aa544,

title = "Quantitative estimation of bioturbation based on digital image analysis",

abstract = "Quantitative determination of modification of primary sediment features, by the activity of organisms (i.e., bioturbation) is essential in geosciences. Some methods proposed since the 1960s are mainly based on visual or subjective determinations. The first semiquantitative evaluations of the Bioturbation Index, Ichnofabric Index, or the amount of bioturbation were attempted, in the best cases using a series of flashcards designed in different situations. Recently, more effective methods involve the use of analytical and computational methods such as X-rays, magnetic resonance imaging or computed tomography; these methods are complex and often expensive. This paper presents a compilation of different methods, using Adobe{\textregistered} Photoshop{\textregistered} software CS6, for digital estimation that are a part of the IDIAP (Ichnological Digital Analysis Images Package), which is an inexpensive alternative to recently proposed methods, easy to use, and especially recommended for core samples. The different methods - {"}Similar Pixel Selection Method (SPSM){"}, {"}Magic Wand Method (MWM){"} and the {"}Color Range Selection Method (CRSM){"} - entail advantages and disadvantages depending on the sediment (e.g., composition, color, texture, porosity, etc.) and ichnological features (size of traces, infilling material, burrow wall, etc.). The IDIAP provides an estimation of the amount of trace fossils produced by a particular ichnotaxon, by a whole ichnocoenosis or even for a complete ichnofabric. We recommend the application of the complete IDIAP to a given case study, followed by selection of the most appropriate method. The IDIAP was applied to core material recovered from the IODP Expedition 339, enabling us, for the first time, to arrive at a quantitative estimation of the discrete trace fossil assemblage in core samples.",

keywords = "Bioturbation, Digital images, Expedition 339, Integrated Ocean Drilling Program, Marine core deposits, Quantitative methods, Site U1385",

author = "Javier Dorador and Rodr{\'i}guez-Tovar, \{Francisco J.\} and Hern{\'a}ndez-Molina, \{F. J.\} and Stow, \{D. A.V.\} and C. Alvarez-Zarikian and G. Acton and A. Bahr and B. Balestra and \{Ducassou. E.\}, E. and R. Flood and Flores, \{J. A.\} and S. Furota and P. Grunert and D. Hodell and F. Jimenez-Espejo and Kim, \{J. K.\} and L. Krissek and J. Kuroda and B. Li and E. Llave and J. Lofi and L. Lourens and M. Miller and F. Nanayama and N. Nishida and C. Richter and C. Roque and H. Pereira and \{Sanchez Go{\~n}i\}, M. and \{Sierro Sanchez\}, F. and A. Singh and C. Sloss and Y. Takashimizu and A. Tzanova and A. Voelker and T. Williams and C. Xuan",

year = "2014",

month = mar,

day = "1",

doi = "10.1016/j.margeo.2014.01.003",

language = "English",

volume = "349",

pages = "55--60",

journal = "Marine Geology",

issn = "0025-3227",

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Dorador, J, Rodríguez-Tovar, FJ, Hernández-Molina, FJ, Stow, DAV, Alvarez-Zarikian, C, Acton, G, Bahr, A, Balestra, B, Ducassou. E., E, Flood, R, Flores, JA, Furota, S, Grunert, P, Hodell, D, Jimenez-Espejo, F, Kim, JK, Krissek, L, Kuroda, J, Li, B, Llave, E, Lofi, J, Lourens, L, Miller, M, Nanayama, F, Nishida, N, Richter, C, Roque, C, Pereira, H, Sanchez Goñi, M, Sierro Sanchez, F, Singh, A, Sloss, C, Takashimizu, Y, Tzanova, A, Voelker, A, Williams, T & Xuan, C 2014, 'Quantitative estimation of bioturbation based on digital image analysis', Marine Geology, vol. 349, pp. 55-60. https://doi.org/10.1016/j.margeo.2014.01.003

TY - JOUR

T1 - Quantitative estimation of bioturbation based on digital image analysis

AU - Dorador, Javier

AU - Rodríguez-Tovar, Francisco J.

AU - Hernández-Molina, F. J.

AU - Stow, D. A.V.

AU - Alvarez-Zarikian, C.

AU - Acton, G.

AU - Bahr, A.

AU - Balestra, B.

AU - Ducassou. E., E.

AU - Flood, R.

AU - Flores, J. A.

AU - Furota, S.

AU - Grunert, P.

AU - Hodell, D.

AU - Jimenez-Espejo, F.

AU - Kim, J. K.

AU - Krissek, L.

AU - Kuroda, J.

AU - Li, B.

AU - Llave, E.

AU - Lofi, J.

AU - Lourens, L.

AU - Miller, M.

AU - Nanayama, F.

AU - Nishida, N.

AU - Richter, C.

AU - Roque, C.

AU - Pereira, H.

AU - Sanchez Goñi, M.

AU - Sierro Sanchez, F.

AU - Singh, A.

AU - Sloss, C.

AU - Takashimizu, Y.

AU - Tzanova, A.

AU - Voelker, A.

AU - Williams, T.

AU - Xuan, C.

PY - 2014/3/1

Y1 - 2014/3/1

N2 - Quantitative determination of modification of primary sediment features, by the activity of organisms (i.e., bioturbation) is essential in geosciences. Some methods proposed since the 1960s are mainly based on visual or subjective determinations. The first semiquantitative evaluations of the Bioturbation Index, Ichnofabric Index, or the amount of bioturbation were attempted, in the best cases using a series of flashcards designed in different situations. Recently, more effective methods involve the use of analytical and computational methods such as X-rays, magnetic resonance imaging or computed tomography; these methods are complex and often expensive. This paper presents a compilation of different methods, using Adobe® Photoshop® software CS6, for digital estimation that are a part of the IDIAP (Ichnological Digital Analysis Images Package), which is an inexpensive alternative to recently proposed methods, easy to use, and especially recommended for core samples. The different methods - "Similar Pixel Selection Method (SPSM)", "Magic Wand Method (MWM)" and the "Color Range Selection Method (CRSM)" - entail advantages and disadvantages depending on the sediment (e.g., composition, color, texture, porosity, etc.) and ichnological features (size of traces, infilling material, burrow wall, etc.). The IDIAP provides an estimation of the amount of trace fossils produced by a particular ichnotaxon, by a whole ichnocoenosis or even for a complete ichnofabric. We recommend the application of the complete IDIAP to a given case study, followed by selection of the most appropriate method. The IDIAP was applied to core material recovered from the IODP Expedition 339, enabling us, for the first time, to arrive at a quantitative estimation of the discrete trace fossil assemblage in core samples.

AB - Quantitative determination of modification of primary sediment features, by the activity of organisms (i.e., bioturbation) is essential in geosciences. Some methods proposed since the 1960s are mainly based on visual or subjective determinations. The first semiquantitative evaluations of the Bioturbation Index, Ichnofabric Index, or the amount of bioturbation were attempted, in the best cases using a series of flashcards designed in different situations. Recently, more effective methods involve the use of analytical and computational methods such as X-rays, magnetic resonance imaging or computed tomography; these methods are complex and often expensive. This paper presents a compilation of different methods, using Adobe® Photoshop® software CS6, for digital estimation that are a part of the IDIAP (Ichnological Digital Analysis Images Package), which is an inexpensive alternative to recently proposed methods, easy to use, and especially recommended for core samples. The different methods - "Similar Pixel Selection Method (SPSM)", "Magic Wand Method (MWM)" and the "Color Range Selection Method (CRSM)" - entail advantages and disadvantages depending on the sediment (e.g., composition, color, texture, porosity, etc.) and ichnological features (size of traces, infilling material, burrow wall, etc.). The IDIAP provides an estimation of the amount of trace fossils produced by a particular ichnotaxon, by a whole ichnocoenosis or even for a complete ichnofabric. We recommend the application of the complete IDIAP to a given case study, followed by selection of the most appropriate method. The IDIAP was applied to core material recovered from the IODP Expedition 339, enabling us, for the first time, to arrive at a quantitative estimation of the discrete trace fossil assemblage in core samples.

KW - Bioturbation

KW - Digital images

KW - Expedition 339

KW - Integrated Ocean Drilling Program

KW - Marine core deposits

KW - Quantitative methods

KW - Site U1385

UR - https://www.scopus.com/pages/publications/84893167966

U2 - 10.1016/j.margeo.2014.01.003

DO - 10.1016/j.margeo.2014.01.003

M3 - Article

AN - SCOPUS:84893167966

SN - 0025-3227

VL - 349

SP - 55

EP - 60

JO - Marine Geology

JF - Marine Geology

ER -

Quantitative estimation of bioturbation based on digital image analysis

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Keywords

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