Analysis of fatty acid composition revealed differences in the diets of tadpoles of two amphibian species

Dgebuadze, Yu. Yu.; Sushchik, Nadezhda N.; Bashinskiy, I. V.; Makhutova, Olesia N.; Калачева, Г. С.; Осипов, В. В.; Gladyshev, Michail I.

doi:10.1134/s1607672917010082

Cited by 5 publications

(9 citation statements)

References 11 publications

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“…The large, bell‐shaped secretory area and the pits with bacteria in R. vampyrus are puzzling. Presence of bacteria in tadpole digestive tract can be related to opportunistic environmental colonization, feeding habits, or host–microbe interaction (e.g., Dgebuadze et al, 2017; Lyra et al, 2018). Gut microbiota is known in several tadpoles, and includes numerous phyla of commensal and symbiotic bacteria involved in digestion, development, and immunity (reviewed in Colombo et al, 2015 and Colston & Jackson, 2016).…”

Section: Discussionmentioning

confidence: 99%

Anatomical features of the phytotelma dwelling, egg‐eating, fanged tadpoles of Rhacophorus vampyrus (Anura: Rhacophoridae)

Candioti

Dias

Rowley

et al. 2021

Journal of Morphology

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Tadpoles of the Vampire tree frog Rhacophorus vampyrus differ substantially from other rhacophorid tadpoles, by having profound modifications in external morphology. The morphological peculiarities of this species likely correlate with their arboreal microhabitat and strict oophagous diet. In this work, we examine buccal and musculoskeletal anatomy and compare them to other rhacophorid and egg‐eating larvae. The shape and arrangement of cartilages of the lower jaw are unique among tadpoles, and the lack of a palatoquadrate suspensorium is only known in the distantly related macrophagous tadpoles of the dicroglossid Occidozyga baluensis. The cranial musculature is massive, and the morphology of several mandibular, hyoid, and abdominal muscles could be related to the ingestion and transit of large eggs. In the buccal cavity, conspicuous aspects are the absence of ridges and papillae, and the development of a unique glandular zone in the buccal floor. Finally, observations of the skeletal support of keratinized mouthparts allow us to present a topography‐based hypothesis of homology of the conspicuous fangs of these tadpoles.

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Section: Discussionmentioning

confidence: 99%

Anatomical features of the phytotelma dwelling, egg‐eating, fanged tadpoles of Rhacophorus vampyrus (Anura: Rhacophoridae)

Candioti

Dias

Rowley

et al. 2021

Journal of Morphology

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“…FAs contain mono-and polyunsaturated essential fats that can only be synthesised by producers before they are assimilated by consumers. A separate study analysing FAs suggests that bacteria associated with detritus or sediments can be important food resources that are assimilated by tadpoles (Dgebuadze et al, 2017). FA analyses are often expensive and require more sample preparation time than stable isotope analysis (Altig et al, 2007), but the examination of FA profiles in food-web components has a notable advantage over stable isotopes because consumers with selective feeding habits may exhibit different FA profiles that cannot easily be resolved by stable isotope analyses alone (Lau, Leung, & Dudgeon, 2008).…”

Section: Fatty Acid Analysesmentioning

confidence: 99%

“…As consumers typically assimilate large quantities of FAs from their animal prey, FAs can be used as tracers to quantify trophic transfers (Napolitano, 1999). Dgebuadze et al (2017) found that bacteria associated with plant detritus contributed to the FA composition of Rana arvalis, whereas the FA profiles of Pelobates fuscus indicated that cyanobacteria, green algae, diatoms, and possibly higher plants were more important diet components. used FAs to examine trophic relationships of three common tadpole species (Pseudacris crucifer, L. clamitans, and F I G U R E 4 Mean trophic position (± standard deviation) of tadpole species along a gradient of pond permanency (semipermanent, permanent, and temporary) in Neotropical (a) and Nearctic (b) regions.…”

Section: Fatty Acid Analysesmentioning

confidence: 99%

“…are omnivores that can derive substantial amounts of energy from heterotrophic sources and may display a high degree of opportunistic plasticity in their feeding habits. A separate study analysing FAs suggests that bacteria associated with detritus or sediments can be important food resources that are assimilated by tadpoles (Dgebuadze et al, 2017). Dgebuadze et al (2017) found that bacteria associated with plant detritus contributed to the FA composition of Rana arvalis, whereas the FA profiles of Pelobates fuscus indicated that cyanobacteria, green algae, diatoms, and possibly higher plants were more important diet components.…”

Section: Fatty Acid Analysesmentioning

confidence: 99%

“…A separate study analysing FAs suggests that bacteria associated with detritus or sediments can be important food resources that are assimilated by tadpoles (Dgebuadze et al, 2017). Dgebuadze et al (2017) found that bacteria associated with plant detritus contributed to the FA composition of Rana arvalis, whereas the FA profiles of Pelobates fuscus indicated that cyanobacteria, green algae, diatoms, and possibly higher plants were more important diet components. Major variation in the FA profile of these two species was driven by the difference in the percentage of eicosapentaenoic and myristic acids consumed.…”

Section: Fatty Acid Analysesmentioning

confidence: 99%

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Revisiting “what do tadpoles really eat?” A 10‐year perspective

et al. 2019

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Tadpoles are diverse and abundant consumers, and knowledge of their feeding ecology and trophic status is essential in understanding their functional roles within aquatic habitats. Here we revisit Altig, Whiles, and Taylor (2007)'s paper, which highlighted the knowledge gaps in tadpole feeding ecology and the application of modern techniques, such as stable isotope and fatty acid analyses to better quantify dominant food resources, food assimilation, and the trophic status of tadpoles. We reviewed the ecological studies that have been published since 2007 that used stable isotopes and fatty acid analyses, also metagenomics and ecological stoichiometry analyses. We describe the ecological roles of tadpoles in freshwater ecosystems and identify knowledge gaps regarding tadpole feeding ecology across biogeographic regions. Worldwide declines in amphibian abundance and diversity create an urgent need to document their feeding ecology and trophic status. As consumers, tadpoles play important functional roles in nutrient cycling, energy flow, and bioturbation. They also exhibit context‐dependent trophic plasticity in response to abiotic and biotic gradients, which complicates understanding of their trophic roles. Most studies of tadpole trophic ecology have been conducted primarily on species from the families Ranidae, Bufonidae, and Hylidae from Neotropic and Nearctic regions, while species in tropical regions such as Africa and Asia lack ecological information for tadpoles. There continues to be a need for studies of tadpole diets and/or trophic ecology in Africa and Southeast Asia regions where species endemism is threated by the growth of anthropogenic activities. The majority of studies have focused on trophic ecology of tadpoles from the perspective of single species or at relatively small spatial and temporal scales. Studies that address questions from an ecosystem perspective were scarce, but are critical for conservation and management. Future research should aim to address the role of tadpoles as consumers across broader spatiotemporal scales.

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Trophic positions and niche segregation of two anuran species in the ecosystem of a forest lake

et al. 2021

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Analysis of fatty acid composition revealed differences in the diets of tadpoles of two amphibian species

Cited by 5 publications

References 11 publications

Anatomical features of the phytotelma dwelling, egg‐eating, fanged tadpoles of Rhacophorus vampyrus (Anura: Rhacophoridae)

Anatomical features of the phytotelma dwelling, egg‐eating, fanged tadpoles of Rhacophorus vampyrus (Anura: Rhacophoridae)

Revisiting “what do tadpoles really eat?” A 10‐year perspective

Trophic positions and niche segregation of two anuran species in the ecosystem of a forest lake

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