Antipredator responses of three <i>Daphnia</i> species within the <i>D. longispina</i> species complex to two invertebrate predators

Baludo, Marjohn Yucada; Octorina, Pelita; Beckerman, Andrew; Straile, Dietmar

doi:10.1002/ece3.10841

Ecology and Evolution

2024

DOI: 10.1002/ece3.10841

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Antipredator responses of three Daphnia species within the D. longispina species complex to two invertebrate predators

Marjohn Yucada Baludo,

Pelita Octorina,

Andrew Beckerman

et al.

Abstract: Prey communities in natural environments face a diverse array of predators with distinct hunting techniques. However, most studies have focused only on the interactions between a single prey species and one or more predators and typically only one of many induced defense traits, which limits our understanding of the broader effects of predators on prey communities. In this study, we conducted a common garden experiment using five clones each of three Daphnia species (D. cucullata, D. galeata, and D. longispina… Show more

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Cited by 2 publications

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Variation in defensive spines across juvenile instars of Daphnia magna

Diel,

Kiene,

Laforsch

2024

Journal of Plankton Research

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Various species of freshwater zooplankton feature defensive spines, spikes or spinules across a comparatively wide size range. Among those is Daphnia magna, which has previously been found to express an enhanced spinescence in response to the predatory tadpole shrimp Triops cancriformis. This involves an elongated tail-spine, further protruding fornices and elongated, as well as further spread spinules along its carapace margins. Of these, the predator-induced trait changes concerning the spinules of D. magna at the age of first reproduction are known. However, their morphological development throughout the juvenile instars, in comparison to the changes of the prominent tail spine during the same periods, has thus far been unclear. Our study shows that D. magna expresses spinules across all investigated juvenile instars. Furthermore, during ontogeny, the development of D. magna’s rather small spinescence traits, i.e. the dorsal and ventral mean spinule length, as well as the dorsal spinules bearing area, in response to predation pressure, differs distinctly from that of the prominent tail-spine. Thus, our study provides further insight into the connectedness of traits contributing to the overall defensively enhanced spinescence of D. magna, with possible implications for the functional benefit of the traits at certain developmental periods.

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Variation in defensive spines across juvenile instars of Daphnia magna

Diel,

Kiene,

Laforsch

2024

Journal of Plankton Research

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A non‐monophyly of ‘crowned’ Daphnia (Ctenodaphnia) Dybowski et Grochowski, 1895 (Cladocera: Daphniidae): From genomes to morphology

Pereboev,

Garibian,

Karabanov

et al. 2024

Zoologica Scripta

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Daphnia (Crustacea: Cladocera) has been frequently used as a model taxon for studying prey antipredator defences. Among numerous representatives of this genus, there are several taxa within the subgenus Daphnia (Ctenodaphnia) with a morphological innovation unique for these cladocerans, a head plate. In some populations, the margin of this anterior projection of carapace into the head shield is adorned with a remarkable ‘crown of thorns’, which has been shown to be an antipredator adaptation against tadpole shrimps (Notostraca). This structure is phenotypically plastic, dependent on the presence of these omnivorous crustaceans in the respective water bodies. We aimed to evaluate the monophyly of Eurasian ‘crowned’ Daphnia species (i.e., those forming the ‘crown of thorns’ under some circumstance) based on genomic phylogenies and morphology. For this study, we have individually sequenced the genomes of five daphniids, four representing taxa able to form ‘crowns’ (two specimens of different clades of the D. (C.) atkinsoni complex and two specimens of D. (C.) triquetra from distant populations), and D. (C.) mediterranea distantly related to D. (C.) atkinsoni that lacks the head plate. We analysed them along with genomes obtained from GenBank, focusing on either full mitochondrial or partial nuclear datasets (BUSCO). Our main hypothesis on a monophyly of all ‘crowned’ daphnids was rejected. Genomic analyses confirmed existence of two independent lineages able to express this phenotypic trait in the Palaearctic: (1) a monophyletic D. (C.) atkinsoni s. lat. and (2) D. (C.) triquetra, formally redescribed here. These lineages form a well‐supported clade together with several other species lacking a head plate (including D. (C.) mediterranea). Genomic analyses indicate that D. (C.) atkinsoni s. lat. is closely related to D. (C.) tibetana; mitochondrial markers also suggest a close relationship of D. (D.) triquetra with D. (C.) studeri, both D. (C.) tibetana and D. (C.) studeri, are lacking this morphological feature. Molecular clock estimated the time of the differentiation of the major clade containing both ‘crowned Daphnia’ to the Late Mesozoic, confirming an antiquity of the head plate as antipredator defence.

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Antipredator responses of three Daphnia species within the D. longispina species complex to two invertebrate predators

Cited by 2 publications

References 58 publications

Variation in defensive spines across juvenile instars of Daphnia magna

Variation in defensive spines across juvenile instars of Daphnia magna

A non‐monophyly of ‘crowned’ Daphnia (Ctenodaphnia) Dybowski et Grochowski, 1895 (Cladocera: Daphniidae): From genomes to morphology

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