Machine learning techniques to characterize functional traits of plankton from image data

Eric C. Orenstein; Sakina‐Dorothée Ayata; Frédéric Maps; Érica C. Becker; Fabio Benedetti; Tristan Biard; Thibault de Garidel‐Thoron; Jeffrey S. Ellen; Filippo Ferrario; Sarah L. C. Giering; Tamar Guy‐Haim; Laura Hoebeke; Morten Hvitfeldt Iversen; Thomas Kiørboe; Jean‐François Lalonde; Arancha Lana; Martin Laviale; Fabien Lombard; Tom Lorimer; Séverine Martini; Albin Meyer; Klas Ove Möller; Barbara Niehoff; Mark D. Ohman; Cédric Pradalier; Jean‐Baptiste Romagnan; Simon‐Martin Schröder; Virginie Sonnet; Heidi M. Sosik; Lars S. Stemmann; Michiel Stock; Tuba Terbiyik‐Kurt; Nerea Valcárcel‐Pérez; Laure Vilgrain; Guillaume Wacquet; Anya M. Waite; Jean‐Olivier Irisson

doi:10.1002/lno.12101

Machine learning techniques to characterize functional traits of plankton from image data

Eric C. Orenstein, Sakina‐Dorothée Ayata^*, Frédéric Maps, Érica C. Becker, Fabio Benedetti, Tristan Biard, Thibault de Garidel‐Thoron, Jeffrey S. Ellen, Filippo Ferrario, Sarah L. C. Giering, Tamar Guy‐Haim, Laura Hoebeke, Morten Hvitfeldt Iversen, Thomas Kiørboe, Jean‐François Lalonde, Arancha Lana, Martin Laviale, Fabien Lombard, Tom Lorimer, Séverine MartiniAlbin Meyer, Klas Ove Möller, Barbara Niehoff, Mark D. Ohman, Cédric Pradalier, Jean‐Baptiste Romagnan, Simon‐Martin Schröder, Virginie Sonnet, Heidi M. Sosik, Lars S. Stemmann, Michiel Stock, Tuba Terbiyik‐Kurt, Nerea Valcárcel‐Pérez, Laure Vilgrain, Guillaume Wacquet, Anya M. Waite, Jean‐Olivier Irisson

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Plankton imaging systems supported by automated classification and analysis have improved ecologists' ability to observe aquatic ecosystems. Today, we are on the cusp of reliably tracking plankton populations with a suite of lab-based and in situ tools, collecting imaging data at unprecedentedly fine spatial and temporal scales. But these data have potential well beyond examining the abundances of different taxa; the individual images themselves contain a wealth of information on functional traits. Here, we outline traits that could be measured from image data, suggest machine learning and computer vision approaches to extract functional trait information from the images, and discuss promising avenues for novel studies. The approaches we discuss are data agnostic and are broadly applicable to imagery of other aquatic or terrestrial organisms.

Original language	English
Journal	Limnology and Oceanography
Volume	67
Issue number	8
Pages (from-to)	1647-1669
Number of pages	23
ISSN	0024-3590
DOIs	https://doi.org/10.1002/lno.12101
Publication status	Published - 2022

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Orenstein, E. C., Ayata, SD., Maps, F., Becker, É. C., Benedetti, F., Biard, T., de Garidel‐Thoron, T., Ellen, J. S., Ferrario, F., Giering, S. L. C., Guy‐Haim, T., Hoebeke, L., Iversen, M. H., Kiørboe, T., Lalonde, JF., Lana, A., Laviale, M., Lombard, F., Lorimer, T., ... Irisson, JO. (2022). Machine learning techniques to characterize functional traits of plankton from image data. Limnology and Oceanography, 67(8), 1647-1669. https://doi.org/10.1002/lno.12101

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title = "Machine learning techniques to characterize functional traits of plankton from image data",

abstract = "Plankton imaging systems supported by automated classification and analysis have improved ecologists' ability to observe aquatic ecosystems. Today, we are on the cusp of reliably tracking plankton populations with a suite of lab-based and in situ tools, collecting imaging data at unprecedentedly fine spatial and temporal scales. But these data have potential well beyond examining the abundances of different taxa; the individual images themselves contain a wealth of information on functional traits. Here, we outline traits that could be measured from image data, suggest machine learning and computer vision approaches to extract functional trait information from the images, and discuss promising avenues for novel studies. The approaches we discuss are data agnostic and are broadly applicable to imagery of other aquatic or terrestrial organisms.",

author = "Orenstein, {Eric C.} and Sakina‐Doroth{\'e}e Ayata and Fr{\'e}d{\'e}ric Maps and Becker, {{\'E}rica C.} and Fabio Benedetti and Tristan Biard and {de Garidel‐Thoron}, Thibault and Ellen, {Jeffrey S.} and Filippo Ferrario and Giering, {Sarah L. C.} and Tamar Guy‐Haim and Laura Hoebeke and Iversen, {Morten Hvitfeldt} and Thomas Ki{\o}rboe and Jean‐Fran{\c c}ois Lalonde and Arancha Lana and Martin Laviale and Fabien Lombard and Tom Lorimer and S{\'e}verine Martini and Albin Meyer and M{\"o}ller, {Klas Ove} and Barbara Niehoff and Ohman, {Mark D.} and C{\'e}dric Pradalier and Jean‐Baptiste Romagnan and Simon‐Martin Schr{\"o}der and Virginie Sonnet and Sosik, {Heidi M.} and Stemmann, {Lars S.} and Michiel Stock and Tuba Terbiyik‐Kurt and Nerea Valc{\'a}rcel‐P{\'e}rez and Laure Vilgrain and Guillaume Wacquet and Waite, {Anya M.} and Jean‐Olivier Irisson",

year = "2022",

doi = "10.1002/lno.12101",

language = "English",

volume = "67",

pages = "1647--1669",

journal = "Limnology and Oceanography",

issn = "0024-3590",

publisher = "Wiley-Blackwell",

number = "8",

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Orenstein, EC, Ayata, SD, Maps, F, Becker, ÉC, Benedetti, F, Biard, T, de Garidel‐Thoron, T, Ellen, JS, Ferrario, F, Giering, SLC, Guy‐Haim, T, Hoebeke, L, Iversen, MH, Kiørboe, T, Lalonde, JF, Lana, A, Laviale, M, Lombard, F, Lorimer, T, Martini, S, Meyer, A, Möller, KO, Niehoff, B, Ohman, MD, Pradalier, C, Romagnan, JB, Schröder, SM, Sonnet, V, Sosik, HM, Stemmann, LS, Stock, M, Terbiyik‐Kurt, T, Valcárcel‐Pérez, N, Vilgrain, L, Wacquet, G, Waite, AM & Irisson, JO 2022, 'Machine learning techniques to characterize functional traits of plankton from image data', Limnology and Oceanography, vol. 67, no. 8, pp. 1647-1669. https://doi.org/10.1002/lno.12101

TY - JOUR

T1 - Machine learning techniques to characterize functional traits of plankton from image data

AU - Orenstein, Eric C.

AU - Ayata, Sakina‐Dorothée

AU - Maps, Frédéric

AU - Becker, Érica C.

AU - Benedetti, Fabio

AU - Biard, Tristan

AU - de Garidel‐Thoron, Thibault

AU - Ellen, Jeffrey S.

AU - Ferrario, Filippo

AU - Giering, Sarah L. C.

AU - Guy‐Haim, Tamar

AU - Hoebeke, Laura

AU - Iversen, Morten Hvitfeldt

AU - Kiørboe, Thomas

AU - Lalonde, Jean‐François

AU - Lana, Arancha

AU - Laviale, Martin

AU - Lombard, Fabien

AU - Lorimer, Tom

AU - Martini, Séverine

AU - Meyer, Albin

AU - Möller, Klas Ove

AU - Niehoff, Barbara

AU - Ohman, Mark D.

AU - Pradalier, Cédric

AU - Romagnan, Jean‐Baptiste

AU - Schröder, Simon‐Martin

AU - Sonnet, Virginie

AU - Sosik, Heidi M.

AU - Stemmann, Lars S.

AU - Stock, Michiel

AU - Terbiyik‐Kurt, Tuba

AU - Valcárcel‐Pérez, Nerea

AU - Vilgrain, Laure

AU - Wacquet, Guillaume

AU - Waite, Anya M.

AU - Irisson, Jean‐Olivier

PY - 2022

Y1 - 2022

N2 - Plankton imaging systems supported by automated classification and analysis have improved ecologists' ability to observe aquatic ecosystems. Today, we are on the cusp of reliably tracking plankton populations with a suite of lab-based and in situ tools, collecting imaging data at unprecedentedly fine spatial and temporal scales. But these data have potential well beyond examining the abundances of different taxa; the individual images themselves contain a wealth of information on functional traits. Here, we outline traits that could be measured from image data, suggest machine learning and computer vision approaches to extract functional trait information from the images, and discuss promising avenues for novel studies. The approaches we discuss are data agnostic and are broadly applicable to imagery of other aquatic or terrestrial organisms.

AB - Plankton imaging systems supported by automated classification and analysis have improved ecologists' ability to observe aquatic ecosystems. Today, we are on the cusp of reliably tracking plankton populations with a suite of lab-based and in situ tools, collecting imaging data at unprecedentedly fine spatial and temporal scales. But these data have potential well beyond examining the abundances of different taxa; the individual images themselves contain a wealth of information on functional traits. Here, we outline traits that could be measured from image data, suggest machine learning and computer vision approaches to extract functional trait information from the images, and discuss promising avenues for novel studies. The approaches we discuss are data agnostic and are broadly applicable to imagery of other aquatic or terrestrial organisms.

U2 - 10.1002/lno.12101

DO - 10.1002/lno.12101

M3 - Journal article

C2 - 36247386

SN - 0024-3590

VL - 67

SP - 1647

EP - 1669

JO - Limnology and Oceanography

JF - Limnology and Oceanography

IS - 8

ER -

Machine learning techniques to characterize functional traits of plankton from image data

Abstract

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