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External tagging does not affect the feeding behavior of a coral reef fish, Chaetodon vagabundus (Pisces: Chaetodontidae) (2009)

Berumen, Michael L. ; Almany, Glenn R.

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Publication Date: 2022-05-25

Description: Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here by permission of for personal use, not for redistribution. The definitive version was published in Environmental Biology of Fishes 86 (2009): 447-450, doi:10.1007/s10641-009-9545-9.

Description: Increasingly, the ability to recognize individual fishes is important for studies of population dynamics, ecology, and behavior. Although a variety of methods exist, external tags remain one of the most widely applied because they are both effective and cost efficient. However, a key assumption is that neither the tagging procedure nor the presence of a tag negatively affects the individual. While this has been demonstrated for relatively coarse metrics such as growth and survival, few studies have examined the impact of tags and tagging on more subtle aspects of behavior. We tagged adult vagabond butterflyfish (Chaetodon vagabundus) occupying a 30-ha insular reef in Kimbe Bay, Papua New Guinea, using a commonly-utilized t-bar anchor tag. We quantified and compared feeding behavior (bite rate), which is sensitive to stress, of tagged and untagged individuals over four separate sampling periods spanning four months post-tagging. Bite rates did not differ between tagged and untagged individuals at each sampling period and, combined with additional anecdotal observations of normal pairing behavior and successful reproduction, suggest that tagging did not adversely affect individuals.

Description: The authors gratefully acknowledge funding from the Fulbright Program, National Science Foundation and the Australian Research Council.

Keywords: Feeding behavior ; Papua New Guinea ; T-bar anchor tags

Repository Name: Woods Hole Open Access Server

Type: Preprint

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Otolith geochemistry does not reflect dispersal history of clownfish larvae (2010)

Berumen, Michael L. ; Walsh, Harvey J. ; Raventos, N. ; [et al.]

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Publication Date: 2022-05-25

Description: Author Posting. © The Author(s), 2010. This is the author's version of the work. It is posted here by permission of Springer for personal use, not for redistribution. The definitive version was published in Coral Reefs 29 (2010): 883-891, doi:10.1007/s00338-010-0652-z.

Description: Natural geochemical signatures in calcified structures are commonly employed to retrospectively estimate dispersal pathways of larval fish and invertebrates. However, the accuracy of the approach is generally untested due to the absence of individuals with known dispersal histories. We used genetic parentage analysis (genotyping) to divide 110 new recruits of the orange clownfish, Amphiprion percula, from Kimbe Island, Papua New Guinea, into two groups: “self-recruiters” spawned by parents on Kimbe Island and “immigrants” that had dispersed from distant reefs (〉10km away). Analysis of daily increments in sagittal otoliths found no significant difference in PLDs or otolith growth rates between self-recruiting and immigrant larvae. We also quantified otolith Sr/Ca and Ba/Ca ratios during the larval phase using laser ablation inductively coupled plasma mass spectrometry. Again, we found no significant differences in larval profiles of either element between self-recruits and immigrants. Our results highlight the need for caution when interpreting otolith dispersal histories based on natural geochemical tags in the absence of water chemistry data or known-origin larvae with which to test the discriminatory ability of natural tags.

Description: Research was supported by the Australian Research Council, the Coral Reef Initiatives for the Pacific (CRISP), the Global Environmental Facility CRTR Connectivity Working Group, the Total Foundation, a National Science Foundation grant (#0424688) to SRT, and a National Science Foundation Graduate Research Fellowship to MLB.

Keywords: Amphiprion percula ; Connectivity ; Natural markers ; Otolith chemistry ; Papua New Guinea ; Pelagic larval duration

Repository Name: Woods Hole Open Access Server

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Relative gut lengths of coral reef butterflyfishes (Pisces: Chaetodontidae) (2011)

Berumen, Michael L. ; Pratchett, Morgan S. ; Goodman, B. A.

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Publication Date: 2022-05-25

Description: Author Posting. © The Author(s), 2011. This is the author's version of the work. It is posted here by permission of Springer for personal use, not for redistribution. The definitive version was published in Coral Reefs 30 (2011): 1005-1010, doi:10.1007/s00338-011-0791-x.

Description: Variation in gut length of closely related animals is known to generally be a good predictor of dietary habits. We examined gut length in 28 species of butterflyfishes (Chaetodontidae), which encompass a wide range of dietary types (planktivores, omnivores, corallivores). We found general dietary patterns to be a good predictor of relative gut length, although we found high variation among groups and covariance with body size. The longest gut lengths are found in species that exclusively feed on the living tissue of corals, while the shortest gut length is found in a planktivorous species. Although we tried to control for phylogeny, corallivory has arisen multiple times in this family, confounding our analyses. The butterflyfishes, a speciose family with a wide range of dietary habits, may nonetheless provide an ideal system for future work studying gut physiology associated with specialisation and foraging behaviours.

Description: This project was funded in part by a National Science Foundation (USA) Graduate Research Fellowship to MLB.

Description: 2012-06-16

Keywords: Chaetodontidae ; Corallivory ; Papua New Guinea ; Relative gut length

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After continents divide : comparative phylogeography of reef fishes from the Red Sea and Indian Ocean (2013)

DiBattista, Joseph D. ; Berumen, Michael L. ; Gaither, Michelle R. ; [et al.]

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Publication Date: 2022-05-26

Description: Author Posting. © The Author(s), 2011. This is the author's version of the work. It is posted here by permission of John Wiley & Sons for personal use, not for redistribution. The definitive version was published in Journal of Biogeography 40 (2013): 1170–1181, doi:10.1111/jbi.12068.

Description: The Red Sea is a biodiversity hotspot characterized by unique marine fauna and high endemism. This sea began forming approximately 24 million years ago with the separation of the African and Arabian plates, and has been characterized by periods of desiccation, hypersalinity and intermittent connection to the Indian Ocean. We aim to evaluate the impact of these events on the genetic architecture of the Red Sea reef fish fauna. We surveyed seven reef fish species from the Red Sea and adjacent Indian Ocean using mitochondrial DNA cytochrome-c oxidase subunit I and cytochrome b sequences. To assess genetic variation and evolutionary connectivity within and between these regions, we estimated haplotype diversity and nucleotide diversity, reconstructed phylogenetic relationships among haplotypes and estimated gene flow and time of population separation using Bayesian coalescent-based methodology. Our analyses revealed a range of scenarios from shallow population structure to diagnostic differences that indicate evolutionary partitions and possible cryptic species. Conventional molecular clocks and coalescence analyses indicated time frames for divergence between these bodies of water ranging from 830,000 years to contemporary exchange or range expansion. Colonization routes were bidirectional, with some species moving from the Indian Ocean to the Red Sea compared with expansion out of the Red Sea for other species. We conclude that: (1) at least some Red Sea reef fauna survived multiple salinity crises; (2) endemism is higher in the Red Sea than previously reported; and (3) the Red Sea is an evolutionary incubator, occasionally contributing species to the adjacent Indian Ocean. The latter two conclusions – elevated endemism and species export – indicate a need for enhanced conservation priorities for the Red Sea.

Description: ACKNOWLEDGEMENTS This research was supported by National Science Foundation grants OCE-0453167 and OCE-0929031 to B.W.B., National Geographic Society Grant 9024-11 to J.D.D., KAUST Red Sea Research Center funding to M.L.B., California Academy of Sciences funding to L.A.R., and by a Natural Sciences and Engineering Research Council of Canada (NSERC) postgraduate fellowship to J.D.D.

Keywords: Coalescent ; Cryptic speciation ; Dispersal ; Genealogical concordance ; Gene flow ; Mitochondrial DNA ; Vicariance

Repository Name: Woods Hole Open Access Server

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