DNA barcoding reveals seasonal shifts in diet and consumption of deep-sea fishes in wedge-tailed shearwaters

Komura, Takashi; Ando, Haruko; Horikoshi, Kazuo; Suzuki, Hajime; Isagi, Yuji

doi:10.1371/journal.pone.0195385

Cited by 15 publications

(15 citation statements)

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“…Molecular technologies that identify prey DNA in the gut, feces and pellets of consumers are revolutionizing our understanding of organisms' diets and food web interactions (Gerwing et al, 2016;Hardy et al, 2017;Komura et al, 2018), and providing new ways to capture biodiversity (Boyer et al, 2015). It is now possible to sample an animal's entire diet using DNA metabarcoding, which targets regions of DNA that are highly conserved within a target group and that offer enough variability to allow distinction between taxonomic groups (Cristescu, 2014).…”

Section: Introductionmentioning

confidence: 99%

Molecular Analysis of Predator Scats Reveals Role of Salps in Temperate Inshore Food Webs

et al. 2018

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High precision, high coverage DNA-based diet analysis tools allow great insight into the food web interactions of cryptic taxa. We used DNA fecal-metabarcoding to look for unrecorded taxa within the diet of a generalist central-placed predator, the little penguin Eudyptula minor. We examined 208 scats from 106 breeding pairs throughout August-February in a large colony at Phillip Island, Australia. While we confirmed a largely piscivorous diet, we also recovered DNA sequences from gelatinous and crustaceous plankton groups that have not previously been detected in the little penguin diet using other diet analysis methods. Gelatinous plankton, including salps, appendicularians, scyphozoans, and hydrozoans were present in 76% of samples and represented 25% of all sequences. DNA recovered from minute copepods and appendicularians may indicate links between trophic levels through secondary predation. Percentage frequency of occurrence (%FOO) demonstrated that little penguin diet composition changed over months and stages (incubation, guard, and post-guard) of the breeding season (month: χ 2 = 201.91, df = NA, p < 0.01; stage: χ 2 = 33.221, df = NA, p = 0.015). Relative read abundance (RRA) uncovered variations in the relative abundance of taxa in the diet over months and stages (month: F = 53.18, df = 59, p < 0.001; stage: F = 66.56, df = 29, p < 0.001). The diet became progressively fish-focused over months of the season and stages, while salps were only present in 4 out of 6 months, with a peak in September. Based on their prevalence in this dataset, in this year of very high breeding success (2.15 chicks per pair), salps may constitute a food source for this largely piscivorous generalist. Our work highlights how DNA metabarcoding can improve our understanding of the trophic role of gelatinous plankton and other cryptic taxa.

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Section: Introductionmentioning

confidence: 99%

Molecular Analysis of Predator Scats Reveals Role of Salps in Temperate Inshore Food Webs

et al. 2018

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“…Another factor that may cause wedge-tailed shearwaters to remain foraging at-sea nocturnally is the DVM exhibited by mesopelagic fish species (Spear et al, 2007) such as Myctophidae, known to be consumed by wedge-tailed shearwaters (Komura et al, 2018). If DVM makes these species available during the night to shallow divers, such as wedge-tailed shearwaters (Spear et al, 2007), we would expect to see this reflected in divergent values of the stable isotopes δ 13 C and/or δ 15 N (Inger and Bearhop, 2008) according to the time spent foraging at night.…”

Section: Discussionmentioning

confidence: 99%

Flying to the moon: Lunar cycle influences trip duration and nocturnal foraging behavior of the wedge-tailed shearwater Ardenna pacifica

Ravache

Bourgeois

Thibault

et al. 2020

Journal of Experimental Marine Biology and Ecology

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Lunar phase and illumination are known to affect nocturnal behavior of many organisms, particularly through predator-prey interactions. Visual predators can benefit from higher light levels to increase their activity, while prey may decrease their activity to avoid predation. The lower number of nocturnal seabirds observed on colonies during full moon nights has been mostly interpreted as a predation avoidance strategy. However, it is also possible that shearwaters take advantage of the moon's illumination to feed also at night, and stay at sea to forage during full moon nights. We used miniaturized GPS-loggers to obtain 179 tracks from 99 wedge-tailed shearwaters breeding in New Caledonia, to investigate moonlight effects on individual behavior. Lunar phase significantly predicted self-provisioning trip duration, with individuals performing longer trips around the full moon. However, this relationship was not significant during chick-provisioning trips when adults have to frequently return to the colony. Adults mostly returned to the colony during moonlit periods, refuting the predation avoidance theory. Tracked individuals showed an unexpectedly high amount of nocturnal foraging activity (28% of total activity), positively influenced by the presence of the moon. δ 15 N stable isotope values were significantly related to the percentage of nocturnal foraging, but with a weak relationship, impeding our ability to confirm that wedge-tailed shearwaters fed on different prey when foraging at night. This study suggests that reduced colony attendance around the full moon may be linked to greater at-sea foraging opportunities in distant oceanic areas than to increased predation risk on land.

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“…Fecal metabarcoding has often identified major food items that have been overlooked in diet analyses by conventional methods. For example, in marine ecosystems, frequent consumption of jelly fish by two albatross species (McInnes, Alderman, et al, 2017) and deep sea fishes by shearwater (Komura, Ando, Horikoshi, Suzuki, & Isagi, 2018) were detected, indicating the usefulness of the method for ecosystem monitoring through the diet of marine predators. High resolution taxon identification by fecal metabarcoding also clearly has shown niche partitioning and overlap of sympatric species, for example, bats (Burgar et al., 2014), rodents (Sato et al., 2018; Soininen et al., 2015), and large mammals (Kartzinel et al., 2015; Smith, Thomas, Levi, Wang, & Wilmers, 2018).…”

Section: Trends In Publication Study Area and Target Animal Taxamentioning

confidence: 99%

Methodological trends and perspectives of animal dietary studies by noninvasive fecal DNA metabarcoding

Ando

Mukai

Komura³

et al. 2020

Environmental DNA

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106

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Molecular scatology is a genetic technique used to analyze feces in studies of animal ecology (Kohn & Wayne, 1997), and it encompasses the field of environmental DNA studies (Taberlet, Coissac, Hajibabaei, & Rieseberg, 2012). Since 1990, fecal samples have been commonly used as noninvasive genetic sources for animal populations to estimate phylogeny, home range, and population sizes (Kohn & Wayne, 1997). Simultaneously, molecular techniques to detect food items from fecal DNA have been developed to overcome the difficulties of detecting food through conventional methods. Fecal DNA analyses are able to detect prey items that are difficult to identify by direct observations of feeding behavior, and these analyses also help where a robust diagnostic tool for identifying morphological features from visual observation of gut contents and feces is lacking. The first DNA-based diet studies detected specific food by taxon-specific PCR amplification (Deagle et al., 2005; Höss, Kohn, Pääbo, Knauer, & Schröder, 1992). Then, cloning and Sanger sequencing were used to isolate food DNA sequences from a multispecies mixture of fecal DNA (Deagle et al., 2007; Jarman, Deagle, & Gales, 2004). The taxa of the obtained sequences were identified by

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DNA barcoding reveals seasonal shifts in diet and consumption of deep-sea fishes in wedge-tailed shearwaters

Cited by 15 publications

References 65 publications

Molecular Analysis of Predator Scats Reveals Role of Salps in Temperate Inshore Food Webs

Molecular Analysis of Predator Scats Reveals Role of Salps in Temperate Inshore Food Webs

Flying to the moon: Lunar cycle influences trip duration and nocturnal foraging behavior of the wedge-tailed shearwater Ardenna pacifica

Methodological trends and perspectives of animal dietary studies by noninvasive fecal DNA metabarcoding

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