Laser photogrammetry improves size and demographic estimates for whale sharks

Laser photogrammetry improves size and demographic estimates for whale sharks

Whale sharks Rhincodon typus are globally threatened, but a lack of biological and demographic information hampers an accurate assessment of their vulnerability to further decline or capacity to recover. We used laser photogrammetry at two aggregation sites to obtain more accurate size estimates of...

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Bibliographic Details
Main Authors: Christoph A. Rohner, Anthony J. Richardson, Clare E.M. Prebble, Andrea D. Marshall, Michael B. Bennett, Scarla J. Weeks, Geremy Cliff, Sabine P. Wintner, Simon J. Pierce
Format: Article
Language:English
Published: PeerJ Inc. 2015-04-01
Series:PeerJ
Subjects:
Elasmobranch
Age & growth
Conservation biology
Africa
Online Access:https://peerj.com/articles/886.pdf
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spelling doaj-5de53742709c4716b7f4df99d01d49dd2020-11-24T22:12:48ZengPeerJ Inc.PeerJ2167-83592015-04-013e88610.7717/peerj.886886Laser photogrammetry improves size and demographic estimates for whale sharksChristoph A. Rohner0Anthony J. Richardson1Clare E.M. Prebble2Andrea D. Marshall3Michael B. Bennett4Scarla J. Weeks5Geremy Cliff6Sabine P. Wintner7Simon J. Pierce8Marine Megafauna Foundation, Praia do Tofo Inhambane, MozambiqueCSIRO Oceans and Atmosphere Flagship, Brisbane Queensland, AustraliaMarine Megafauna Foundation, Praia do Tofo Inhambane, MozambiqueMarine Megafauna Foundation, Praia do Tofo Inhambane, MozambiqueSchool of Biomedical Sciences, The University of Queensland, St Lucia Queensland, AustraliaBiophysical Oceanography Group, School of Geography, Planning and Environmental Management, The University of Queensland, St Lucia Queensland, AustraliaKwaZulu-Natal Sharks Board, Umhlanga, South AfricaKwaZulu-Natal Sharks Board, Umhlanga, South AfricaMarine Megafauna Foundation, Praia do Tofo Inhambane, MozambiqueWhale sharks Rhincodon typus are globally threatened, but a lack of biological and demographic information hampers an accurate assessment of their vulnerability to further decline or capacity to recover. We used laser photogrammetry at two aggregation sites to obtain more accurate size estimates of free-swimming whale sharks compared to visual estimates, allowing improved estimates of biological parameters. Individual whale sharks ranged from 432–917 cm total length (TL) (mean ± SD = 673 ± 118.8 cm, N = 122) in southern Mozambique and from 420–990 cm TL (mean ± SD = 641 ± 133 cm, N = 46) in Tanzania. By combining measurements of stranded individuals with photogrammetry measurements of free-swimming sharks, we calculated length at 50% maturity for males in Mozambique at 916 cm TL. Repeat measurements of individual whale sharks measured over periods from 347–1,068 days yielded implausible growth rates, suggesting that the growth increment over this period was not large enough to be detected using laser photogrammetry, and that the method is best applied to estimating growth rates over longer (decadal) time periods. The sex ratio of both populations was biased towards males (74% in Mozambique, 89% in Tanzania), the majority of which were immature (98% in Mozambique, 94% in Tanzania). The population structure for these two aggregations was similar to most other documented whale shark aggregations around the world. Information on small (<400 cm) whale sharks, mature individuals, and females in this region is lacking, but necessary to inform conservation initiatives for this globally threatened species.https://peerj.com/articles/886.pdfElasmobranchAge & growthConservation biologyAfrica
collection DOAJ
language English
format Article
sources DOAJ
author Christoph A. Rohner
Anthony J. Richardson
Clare E.M. Prebble
Andrea D. Marshall
Michael B. Bennett
Scarla J. Weeks
Geremy Cliff
Sabine P. Wintner
Simon J. Pierce
spellingShingle Christoph A. Rohner
Anthony J. Richardson
Clare E.M. Prebble
Andrea D. Marshall
Michael B. Bennett
Scarla J. Weeks
Geremy Cliff
Sabine P. Wintner
Simon J. Pierce
Laser photogrammetry improves size and demographic estimates for whale sharks
PeerJ
Elasmobranch
Age & growth
Conservation biology
Africa
author_facet Christoph A. Rohner
Anthony J. Richardson
Clare E.M. Prebble
Andrea D. Marshall
Michael B. Bennett
Scarla J. Weeks
Geremy Cliff
Sabine P. Wintner
Simon J. Pierce
author_sort Christoph A. Rohner
title Laser photogrammetry improves size and demographic estimates for whale sharks
title_short Laser photogrammetry improves size and demographic estimates for whale sharks
title_full Laser photogrammetry improves size and demographic estimates for whale sharks
title_fullStr Laser photogrammetry improves size and demographic estimates for whale sharks
title_full_unstemmed Laser photogrammetry improves size and demographic estimates for whale sharks
title_sort laser photogrammetry improves size and demographic estimates for whale sharks
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2015-04-01
description Whale sharks Rhincodon typus are globally threatened, but a lack of biological and demographic information hampers an accurate assessment of their vulnerability to further decline or capacity to recover. We used laser photogrammetry at two aggregation sites to obtain more accurate size estimates of free-swimming whale sharks compared to visual estimates, allowing improved estimates of biological parameters. Individual whale sharks ranged from 432–917 cm total length (TL) (mean ± SD = 673 ± 118.8 cm, N = 122) in southern Mozambique and from 420–990 cm TL (mean ± SD = 641 ± 133 cm, N = 46) in Tanzania. By combining measurements of stranded individuals with photogrammetry measurements of free-swimming sharks, we calculated length at 50% maturity for males in Mozambique at 916 cm TL. Repeat measurements of individual whale sharks measured over periods from 347–1,068 days yielded implausible growth rates, suggesting that the growth increment over this period was not large enough to be detected using laser photogrammetry, and that the method is best applied to estimating growth rates over longer (decadal) time periods. The sex ratio of both populations was biased towards males (74% in Mozambique, 89% in Tanzania), the majority of which were immature (98% in Mozambique, 94% in Tanzania). The population structure for these two aggregations was similar to most other documented whale shark aggregations around the world. Information on small (<400 cm) whale sharks, mature individuals, and females in this region is lacking, but necessary to inform conservation initiatives for this globally threatened species.
topic Elasmobranch
Age & growth
Conservation biology
Africa
url https://peerj.com/articles/886.pdf
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