The University of Southampton
University of Southampton Institutional Repository

3DKMI: A MATLAB package to generate shape signatures from Krawtchouk moments and an application to species delimitation in planktonic foraminifera

3DKMI: A MATLAB package to generate shape signatures from Krawtchouk moments and an application to species delimitation in planktonic foraminifera
3DKMI: A MATLAB package to generate shape signatures from Krawtchouk moments and an application to species delimitation in planktonic foraminifera
1. The rapid and repeatable characterization of individual morphology has advanced automated taxonomic classification. The most direct study of evolutionary processes is, however, not from taxonomic description, but rather of the evolution of the traits that comprise individuals and define species. Repeatable signatures of individual morphology are crucial for analyzing the response to selection at scale, and thus tracking evolutionary trajectories through time and across species boundaries.

2. Here, we introduce our 3DKMI – an open-source MATLAB package designed for the study of morphology using three-dimensional (3D) Krawtchouk moment invariants. The volumetric features derived from the 3D images remain stable under translation, scaling, and rotation and, for an image of size 128 × 128 × 128 can be computed in less than 0.1 seconds.

3. We applied our package as a case study on a collection of 300 X-ray computed tomography scans of planktonic foraminifera specimens across five species to (1) assess the invariance of the features under different transformations and (2) analyze morphological differences among species based on the extracted characteristics.

4. We show that 3DKMI has the capacity to efficiently and repeatedly characterize the signatures of individual morphology. In the future, we hope that the 3D feature extraction technique 3DKMI will be widely applied to digital collections to advance research in ecology and evolution
2041-210X
Lin, Huahua
afee4716-d506-458d-8813-a9fb37a115ec
Zhang, Wenshu
cfa69116-bc11-4ca4-8444-07037f4aeab9
Mulqueeney, James Michael
20bf3f65-5f1a-4836-bccd-f8c97c6f61ab
Brombacher, Anieke
d4078b17-3572-49a3-bdb0-15d7696f0bfd
Searle-Barnes, Alex
27cd9e5f-9a76-4d3d-8c88-0d3d0b1fad63
Nixon, Mark
2b5b9804-5a81-462a-82e6-92ee5fa74e12
Cai, Xiaohao
de483445-45e9-4b21-a4e8-b0427fc72cee
Ezard, Tom
a143a893-07d0-4673-a2dd-cea2cd7e1374
Lin, Huahua
afee4716-d506-458d-8813-a9fb37a115ec
Zhang, Wenshu
cfa69116-bc11-4ca4-8444-07037f4aeab9
Mulqueeney, James Michael
20bf3f65-5f1a-4836-bccd-f8c97c6f61ab
Brombacher, Anieke
d4078b17-3572-49a3-bdb0-15d7696f0bfd
Searle-Barnes, Alex
27cd9e5f-9a76-4d3d-8c88-0d3d0b1fad63
Nixon, Mark
2b5b9804-5a81-462a-82e6-92ee5fa74e12
Cai, Xiaohao
de483445-45e9-4b21-a4e8-b0427fc72cee
Ezard, Tom
a143a893-07d0-4673-a2dd-cea2cd7e1374

Lin, Huahua, Zhang, Wenshu, Mulqueeney, James Michael, Brombacher, Anieke, Searle-Barnes, Alex, Nixon, Mark, Cai, Xiaohao and Ezard, Tom (2024) 3DKMI: A MATLAB package to generate shape signatures from Krawtchouk moments and an application to species delimitation in planktonic foraminifera. Methods in Ecology and Evolution. (In Press)

Record type: Article

Abstract

1. The rapid and repeatable characterization of individual morphology has advanced automated taxonomic classification. The most direct study of evolutionary processes is, however, not from taxonomic description, but rather of the evolution of the traits that comprise individuals and define species. Repeatable signatures of individual morphology are crucial for analyzing the response to selection at scale, and thus tracking evolutionary trajectories through time and across species boundaries.

2. Here, we introduce our 3DKMI – an open-source MATLAB package designed for the study of morphology using three-dimensional (3D) Krawtchouk moment invariants. The volumetric features derived from the 3D images remain stable under translation, scaling, and rotation and, for an image of size 128 × 128 × 128 can be computed in less than 0.1 seconds.

3. We applied our package as a case study on a collection of 300 X-ray computed tomography scans of planktonic foraminifera specimens across five species to (1) assess the invariance of the features under different transformations and (2) analyze morphological differences among species based on the extracted characteristics.

4. We show that 3DKMI has the capacity to efficiently and repeatedly characterize the signatures of individual morphology. In the future, we hope that the 3D feature extraction technique 3DKMI will be widely applied to digital collections to advance research in ecology and evolution

Text
MEE-24-01-017_Accepted_Manuscript - Accepted Manuscript
Download (3MB)

More information

Accepted/In Press date: 26 June 2024

Identifiers

Local EPrints ID: 492222
URI: http://eprints.soton.ac.uk/id/eprint/492222
ISSN: 2041-210X
PURE UUID: 11f44483-8942-4526-ad6b-48ba79c425a2
ORCID for Huahua Lin: ORCID iD orcid.org/0000-0002-1600-6293
ORCID for James Michael Mulqueeney: ORCID iD orcid.org/0000-0003-3502-745X
ORCID for Alex Searle-Barnes: ORCID iD orcid.org/0000-0003-0389-7717
ORCID for Mark Nixon: ORCID iD orcid.org/0000-0002-9174-5934
ORCID for Xiaohao Cai: ORCID iD orcid.org/0000-0003-0924-2834
ORCID for Tom Ezard: ORCID iD orcid.org/0000-0001-8305-6605

Catalogue record

Date deposited: 22 Jul 2024 16:51
Last modified: 26 Aug 2024 04:01

Export record

Contributors

Author: Huahua Lin ORCID iD
Author: Wenshu Zhang
Author: Anieke Brombacher
Author: Mark Nixon ORCID iD
Author: Xiaohao Cai ORCID iD
Author: Tom Ezard ORCID iD

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×