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Applying computer vision to digitised natural history collections for climate change research: temperature-size responses in British butterflies

Applying computer vision to digitised natural history collections for climate change research: temperature-size responses in British butterflies
Applying computer vision to digitised natural history collections for climate change research: temperature-size responses in British butterflies
1. Natural history collections are invaluable resources for understanding biotic response to global change. Museums around the world are currently imaging specimens, capturing specimen data, and making them freely available online. In parallel to the digitisation effort, there have been great advancements in computer vision: the computer trained automated recognition/detection, and measurement of features in digital images. Applying computer vision to digitised natural history collections has the potential to greatly accelerate the use of these collections for biotic response to global change research. In this paper, we apply computer vision to a very large, digitised collection to test hypotheses in an established area of biotic response to climate change research: temperature-size responses. 2. We develop a computer vision pipeline (Mothra) and apply it to the NHM collection of British butterflies (>180,000 imaged specimens). Mothra automatically detects the specimen and other objects in the image, sets the scale, measures wing features (e.g., forewing length), determines the orientation of the specimen (pinned ventrally or dorsally), and identifies the sex. We pair these measurements and specimen collection data with temperature records for 17,726 specimens across a subset of 24 species to test how adult size varies with temperature during the immature stages of species. We also assess patterns of sexual-size dimorphism across species and families for 32 species trained for automated sex ID. 3. Mothra accurately measures the forewing lengths of butterfly specimens compared to manual measurements and accurately determines the sex of specimens. Females are the larger sex in most species and an increase in adult body size with warmer monthly temperatures during the late larval stages is the most common temperature size response. These results confirm suspected patterns and support hypotheses based on recent studies using a smaller dataset of manually measured specimens. 4. We show that computer vision can be a powerful tool to efficiently and accurately extract phenotypic data from a very large collection of digital natural history collections. In the future, computer vision will become widely applied to digital collections to advance ecological and evolutionary research and to accelerate their use to investigate biotic response to global change.
Butterfly, Computer vision, Climate Change, Deep Learning, digitisation, Mothra, Lepidoptera, Natural History Collections, deep learning, Mothra, butterfly, computer vision, lepidoptera, natural history collections, climate change, digitisation
2041-210X
Wilson, Rebecca
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Fioravante de Siqueira, Alexandre
2ab45868-076b-4579-a3b0-05fe23466283
Brooks, Stephen
2a836e3f-1fb5-40ea-8558-21720cf837e9
Price, Benjamin
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Simon, Lea M.
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van der Walt, Stéfan J.
19b00fdf-fcc0-4ee2-8b43-241ed764d7e8
Fenberg, Phillip
c73918cd-98cc-41e6-a18c-bf0de4f1ace8
Wilson, Rebecca
3eb91ab1-d5c4-4f0c-a5d1-8944b536a296
Fioravante de Siqueira, Alexandre
2ab45868-076b-4579-a3b0-05fe23466283
Brooks, Stephen
2a836e3f-1fb5-40ea-8558-21720cf837e9
Price, Benjamin
d7f2f534-d03f-4ac1-bcf2-39a372091075
Simon, Lea M.
0ed2d36a-0c80-44a1-9ab3-2ac3725190cb
van der Walt, Stéfan J.
19b00fdf-fcc0-4ee2-8b43-241ed764d7e8
Fenberg, Phillip
c73918cd-98cc-41e6-a18c-bf0de4f1ace8

Wilson, Rebecca, Fioravante de Siqueira, Alexandre, Brooks, Stephen, Price, Benjamin, Simon, Lea M., van der Walt, Stéfan J. and Fenberg, Phillip (2022) Applying computer vision to digitised natural history collections for climate change research: temperature-size responses in British butterflies. Methods in Ecology and Evolution. (doi:10.1111/2041-210X.13844).

Record type: Article

Abstract

1. Natural history collections are invaluable resources for understanding biotic response to global change. Museums around the world are currently imaging specimens, capturing specimen data, and making them freely available online. In parallel to the digitisation effort, there have been great advancements in computer vision: the computer trained automated recognition/detection, and measurement of features in digital images. Applying computer vision to digitised natural history collections has the potential to greatly accelerate the use of these collections for biotic response to global change research. In this paper, we apply computer vision to a very large, digitised collection to test hypotheses in an established area of biotic response to climate change research: temperature-size responses. 2. We develop a computer vision pipeline (Mothra) and apply it to the NHM collection of British butterflies (>180,000 imaged specimens). Mothra automatically detects the specimen and other objects in the image, sets the scale, measures wing features (e.g., forewing length), determines the orientation of the specimen (pinned ventrally or dorsally), and identifies the sex. We pair these measurements and specimen collection data with temperature records for 17,726 specimens across a subset of 24 species to test how adult size varies with temperature during the immature stages of species. We also assess patterns of sexual-size dimorphism across species and families for 32 species trained for automated sex ID. 3. Mothra accurately measures the forewing lengths of butterfly specimens compared to manual measurements and accurately determines the sex of specimens. Females are the larger sex in most species and an increase in adult body size with warmer monthly temperatures during the late larval stages is the most common temperature size response. These results confirm suspected patterns and support hypotheses based on recent studies using a smaller dataset of manually measured specimens. 4. We show that computer vision can be a powerful tool to efficiently and accurately extract phenotypic data from a very large collection of digital natural history collections. In the future, computer vision will become widely applied to digital collections to advance ecological and evolutionary research and to accelerate their use to investigate biotic response to global change.

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More information

Accepted/In Press date: 17 February 2022
e-pub ahead of print date: 5 April 2022
Additional Information: Funding Information: We thank the iCollections team (NHM) for capturing the images and data, Paul Ward (NHM) for providing server access to the images, Robert Foster (NHM) for access to and training on use of the HPC cluster, and James Durrant for developing an early wing measurement prototype. We thank Gary Fisher, Graham Wilson and Hannah O'Sullivan for their help with the image analysis, and Dennis Feng, Sera Yang, Teddy Tran and Théo Bodrito for their work on preliminary versions of Mothra. This work was supported by the Natural Environmental Research Council (grant number NE/L002531/1), and in part by the Gordon and Betty Moore Foundation (Grant GBMF3834) and by the Alfred P. Sloan Foundation (Grant October 27, 2013) to the University of California, Berkeley. Publisher Copyright: © 2022 The Authors. Methods in Ecology and Evolution published by John Wiley & Sons Ltd on behalf of British Ecological Society.
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Keywords: Butterfly, Computer vision, Climate Change, Deep Learning, digitisation, Mothra, Lepidoptera, Natural History Collections, deep learning, Mothra, butterfly, computer vision, lepidoptera, natural history collections, climate change, digitisation

Identifiers

Local EPrints ID: 454860
URI: http://eprints.soton.ac.uk/id/eprint/454860
DOI: doi:10.1111/2041-210X.13844
ISSN: 2041-210X
PURE UUID: dd73480b-ef14-45da-9d0e-3718a759873c
ORCID for Rebecca Wilson: ORCID iD orcid.org/0000-0002-5705-6078
ORCID for Phillip Fenberg: ORCID iD orcid.org/0000-0003-4474-176X

Catalogue record

Date deposited: 28 Feb 2022 17:31
Last modified: 17 Mar 2024 07:10

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Contributors

Author: Rebecca Wilson ORCID iD
Author: Alexandre Fioravante de Siqueira
Author: Stephen Brooks
Author: Benjamin Price
Author: Lea M. Simon
Author: Stéfan J. van der Walt
Author: Phillip Fenberg ORCID iD

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