Estimating morphometric attributes of baleen whales with photogrammetry from small UASs: A case study with blue and gray whales

Burnett, Jonathan D.; Lemos, Leila S.; Barlow, Dawn; Wing, Michael G.; Chandler, Todd; Torres, Leigh G.

doi:10.1111/mms.12527

Cited by 79 publications

(125 citation statements)

References 39 publications

(132 reference statements)

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“…These new technologies are rapidly changing the study of wildlife (Bevan et al 2016, Rümmler et al 2016, Schofield et al 2017, Sykora-Bodie et al 2017, Rees et al 2018, Rieucau et al 2018, Weimerskirch et al 2018, Verfuss et al 2019, especially in marine settings where observation had been mostly limited to vessel-based or airborne observers. Because new camera systems allow more rapid (near instantaneous) changes in orientation than most boats and manned aircraft can achieve, animals can be followed and stable vantage points maintained or switched very quickly (Hodgson et al 2013(Hodgson et al , 2017Goebel et al 2015;Koski et al 2015;Durban et al 2016;Fiori et al 2017;Johnston et al 2017;Krause et al 2017;Torres 2017;Burnett et al 2018;Torres et al 2018). Not only have these video recording systems become less expensive and more readily available (Goldbogen and Meir 2014, Nowacek et al 2016, Dawson et al 2017, they are also less noisy and less dangerous to operate (Christiansen et al 2016b), so that they pose fewer risks to animals and likely cause fewer changes in wild animals' natural behavior (Ditmer et al, 2015, Dominguez-Sanchez et al 2018.…”

Section: ;mentioning

confidence: 99%

New views of humpback whale flow dynamics and oral morphology during prey engulfment

Werth

Kosma

Chenoweth

et al. 2019

Marine Mammal Science

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The rise of inexpensive, user‐friendly cameras and editing software promises to revolutionize data collection with minimal disturbance to marine mammals. Video sequences recorded by aerial drones and GoPro cameras provided close‐up views and unique perspectives of humpback whales engulfing juvenile salmon at or just below the water surface in Southeast Alaska and Prince William Sound. Although humpback feeding is famous for its flexibility, several stereotyped events were noted in the 47 lunges we analyzed. Engulfment was rapid (mean 2.07 s), and the entrance through which the tongue inverts into the ventral pouch was seen as water rushes in. Cranial elevation was a major contributor to gape, and pouch contraction sometimes began before full gape closure, with reverberating waves indicating rebounding flow of water within the expanded pouch. Expulsion of filtered water began with a small splash at the anterior of the mouth, followed by sustained excurrent flow in the mouth's central or posterior regions. Apart from a splash of rebounding water, water within the mouth was surprisingly turbulence‐free during engulfment, but submersion of the whale's head created visible surface whirlpools and vortices which may aggregate prey for subsequent engulfment.

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Section: ;mentioning

confidence: 99%

New views of humpback whale flow dynamics and oral morphology during prey engulfment

Werth

Kosma

Chenoweth

et al. 2019

Marine Mammal Science

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“…Yet, and paradoxically, software specifically designed to aid in obtaining simple planimetric measurements in 2D CRP are scarce and often tailored to specific problems, narrowing their applicability (e.g. Burnett et al, ; Hsiang et al, ). Instead, 2D CRP studies often make use of image editing software to obtain measurements from digital photographic reproductions (e.g.…”

Section: Introductionmentioning

confidence: 99%

AragoJ: A free, open‐source software to aid single camera photogrammetry studies

Aleixo¹,

O’Callaghan

Soares

et al. 2020

Methods Ecol Evol

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Close‐range photogrammetry (CRP) is a well‐established technique to retrieve quantitative information from objects using photography. CRP is often used in morphology studies when the direct handling of individuals is unpractical or unethical, or to reduce processing costs and time. Although multiple software to extract quantitative information from 3D reconstructions of objects exist, tools for 2D CRP are scarce and often tailored for specific applications. We present AragoJ, a cross‐platform, open‐source, Java based software designed to integrate and streamline all 2D CRP workflow steps in a single program. AragoJ allows the user to perform all the main tasks involved in obtaining measurements from digital pictures, namely: (1) performing camera calibration and correcting radial picture distortions; (2) calculating a scaling factor either by: (a) utilizing a scale in the picture, or (b) based on camera specifications (focal distance and digital sensor size) and distance to object; (3) measuring and scaling the relevant traits in the photographs; (4) obtaining information from pictures’ digital metadata files; and (5) exporting measurements and metadata to a comma separated values file. AragoJ was designed to be versatile and unconstrained, in order to be useful for 2D CRP studies across multiple disciplines. The software, source code and detailed documentation are available from https://github.com/AzWhaleLab/AragoJ.

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“…MorphoMetriX was inspired by the image processing program ImageJ (Schneider, Rasband, & Eliceiri, 2012) and other UAS photogrammetry tools written in R (Christiansen, Dujon, Sprogis, Arnould, & Bejder, 2016) and MATLAB (Burnett et al, 2018;Dawson, 2017) that were developed specifically for measuring body condition of cetaceans. While ImageJ is an open source software with a powerful zoom function and the freedom and flexibility to measure any object of interest in an image, it lacks the ability to automatically section animals proportionally for perpendicular width measurements (i.e., body width measurements at 10% intervals along the total length of an animal), a key method used for comparative studies of body condition in cetaceans (Christiansen et al, 2016;Christiansen et al, 2018;Dawson, 2017;Miller et al, 2012).…”

mentioning

confidence: 99%

“…Several software systems, written in MATLAB and R, have been developed to extract photogrammetric measures from aerial images of megavertebrates. However, some of these tools have slow workflows, are designed with only particular aircraft/sensor combinations and/or specific measurements in mind e.g., (Burnett et al, 2018;Dawson, 2017), have limited image zoom capabilities e.g., (Burnett et al, 2018;Christiansen et al, 2016;Dawson, 2017), and in some cases are not open source, requiring purchased or institutional licensing e.g., (Burnett et al, 2018;Dawson, 2017). These existing tools written in R and MATLAB are relatively feature-rich, allowing the measurement of proportional body widths based on total length, as well as a set of additional pre-fixed morphometric measurement options, such as 'width of eyes', 'rostrum to blowhole', and 'fluke width'.…”

mentioning

confidence: 99%

MorphoMetriX: a photogrammetric measurement GUI for morphometric analysis of megafauna

Torres¹,

Bierlich²

2020

JOSS

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Estimating morphometric attributes of baleen whales with photogrammetry from small UASs: A case study with blue and gray whales

Cited by 79 publications

References 39 publications

New views of humpback whale flow dynamics and oral morphology during prey engulfment

New views of humpback whale flow dynamics and oral morphology during prey engulfment

AragoJ: A free, open‐source software to aid single camera photogrammetry studies

MorphoMetriX: a photogrammetric measurement GUI for morphometric analysis of megafauna

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