Latest Articles

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  Section: Evolutionary Biology ; Topics: Ecology, Evolution, Genetics/genomics

  Cryptic species and hybridisation in corals: challenges and opportunities for conservation and restoration

  Riginos, Cynthia;  Popovic, Iva;  Meziere, Zoe;  Garcia, Vhon;  Byrne, Ilha;  Howitt, Samantha M.;  Ishida, Hisatake;  Bairos-Novak, Kevin;  Humanes, Adriana;  Scharfenstein, Hugo;  Richards, Thomas;  Briggs, Ethan;  Clark, Vanessa;  Lei, Chuan;  Khan, Mariam;  Prata, Katharine E. 

  10.24072/pcjournal.492 - Peer Community Journal, Volume 4 (2024), article no. e106.

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  The conservation and management of coral reef ecosystems will benefit from accurate assessments of reef-building coral species diversity. However, the true diversity of corals may be obfuscated by cryptic yet genetically distinct groups, which are likely more pervasive than currently recognised. Here, we investigate the prevalence of cryptic coral groups and assess evidence for their permeability to gene flow (hybridisation) via a structured literature review of genomic studies. Using reproducible criteria to detect distinct genetic groups that are sympatric, we find that 68% of nominal species represented in population genomic studies show evidence for comprising partially reproductively isolated groups and that these distinct groups are often linked by gene flow. Cryptic genetic groups frequently segregate by environment, especially depth, and may differ by phenotypic characteristics including resilience to heat stress. This hidden biodiversity creates challenges for coral conservation and restoration planning that are not well appreciated, including hiding true population declines, biasing estimates for species’ phenotypic breadth, overestimating the resilience of species to stressors, yielding uncertainty in evolutionary dynamics inferred from past studies, and implying that reproductive barriers may limit mating between local and translocated corals. Incorporating the expectation that coral cryptic taxa with incomplete species boundaries will frequently be encountered is critical to the long-term success of coral conservation and restoration programs. Studying these phenomena in more detail will directly benefit conservation and restoration goals. Thus, we detail recommendations for best practice and strategies for identifying cryptic taxa and hybridisation. In addition, cryptic coral taxa present an untapped resource for studying speciation which could provide rich opportunities for collaboration among coral and speciation biologists and fill key knowledge gaps relevant to conservation and restoration.

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  Section: Animal Science ; Topics: Agricultural sciences, Applied biological sciences, Applied mathematics

  From data on gross activity to the characterization of animal behaviour: which metrics for which purposes?

  van Dixhoorn, Ingrid;  Aubé, Lydiane ;  van Zyl, Coenraad;  de Mol, Rudi;  van der Werf, Joop;  Lardy, Romain ;  Mialon, Marie-Madeleine ;  van Reenen, Kees;  Veissier, Isabelle  

  10.24072/pcjournal.489 - Peer Community Journal, Volume 4 (2024), article no. e105.

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  The behaviour of an animal is closely linked to its internal state. Various metrics can be calculated from activity data. Complex patterns of activity within or between individuals, such as cyclic patterns and synchrony, can inform on the biological functioning, the health status, or the welfare of an animal. These patterns are now available thanks to sensors that continuously monitor the activity of individual animals over long periods. Data processing and calculations, however, should be clarified and harmonised across studies for the results to be comparable. We present metrics describing activity patterns, we discuss their significance, relevance and limitations for behavioural and welfare studies, and we detail how they can be calculated. Four groups of metrics are distinguished: metrics related to overall activity (e.g., time spent in each activity per unit of time), metrics related to fluctuations around mean activity, metrics related to the cyclicity of activity, and metrics related to the synchrony between animals. Metrics may take statistical approaches (e.g., average and variance) or modelling approaches (e.g., Fourier Transform). Examples are taken essentially from cattle for who individual activity sensors are easily available at present. The calculations, however, can be applied to other species and can be performed on data obtained from sensors as well as visual observations. The present methodological article will help researchers to obtain the most benefit from activity data and will support the decision of which metric can be used to address a given purpose.

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  Section: Network Science ; Topics: Ecology, Environmental sciences, Computer sciences

  A single changing hypernetwork to represent (social-)ecological dynamics

  Gaucherel, Cédric;  Cosme, Maximilian; Noûs, Camille; Pommereau, Franck

  10.24072/pcjournal.482 - Peer Community Journal, Volume 4 (2024), article no. e104.

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  To understand and manage (social-)ecological systems, we need an intuitive and rigorous way to represent them. Recent ecological studies propose to represent interaction networks into modular graphs, multiplexes and higher-order interactions. Along these lines, we argue here that non-dyadic (non-pairwise) interactions are common in ecology and environmental sciences, necessitating fresh concepts and tools for handling them. In addition, such interaction networks often change sharply, due to appearing and disappearing species and components. We illustrate in a simple example that any ecosystem can be represented by a single hypergraph, here called the ecosystem hypernetwork. Moreover, we highlight that any ecosystem hypernetwork exhibits a changing topology summarizing its long term dynamics (e.g., species extinction/invasion, pollutant or human arrival/migration). Qualitative and discrete-event models developed in computer science appear suitable for modeling hypergraph (topological) dynamics. Hypernetworks thus also provide a conceptual foundation for theoretical as well as more applied studies in ecology (at large), as they form the qualitative backbone of ever-changing ecosystems.

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  Section: Zoology ; Topics: Agricultural sciences, Ecology, Genetics/genomics

  Cross-transmission of resistant gastrointestinal nematodes between wildlife and transhumant sheep

  Beaumelle, Camille; Toïgo, Carole; Papet, Rodolphe; Benabed, Slimania; Beurier, Mathieu; Bordes, Léa; Brignone, Anaïs; Curt-Grand-Gaudin, Nadine; Garel, Mathieu; Ginot, Justine; Jacquiet, Philippe; Miquel, Christian; Poirel, Marie-Thérèse; Serafino, Anna; Vannard, Eric; Bourgoin, Gilles; Yannic, Glenn

  10.24072/pcjournal.477 - Peer Community Journal, Volume 4 (2024), article no. e103.

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  Wild and domestic ungulates can be infected with the same species of gastrointestinal parasitic nematodes. These parasites have free-living stages in the environment that contribute to the ease of transmission among different host species. In addition, gastrointestinal nematodes have developed resistance to anthelmintics which is now considered a major problem for the livestock sector. In a context where wild and domestic ungulates share the same pastures, the maintenance and circulation of resistant gastrointestinal nematodes between species have rarely been explored. In the European Alps, domestic sheep are driven to high-altitude summer pastures and live in sympatry with wild ungulates for several months each year. In this study, we investigated the nemabiome of domestic sheep and Alpine ibex, Capra ibex, in three different areas of the French Alps to evaluate parasite circulation between the two host species. The Alpine ibex is a protected mountain ungulate that is phylogenetically related to sheep and hosts nematode species common to sheep. Using internal transcribed spacer 2 (ITS-2) nemabiome metabarcoding, we found sheep and ibex share similar gastrointestinal nematodes, except for a few species such as Marshallagia marshalli and Trichostrongylus axei. This suggests that the long-term co-occurrence of sheep and ibex on mountain pastures has promoted the exchange of gastrointestinal nematodes between the two hosts. Based on the sequencing of the isotype 1 of the beta tubulin gene, associated with benzimidazole resistance, we found resistant nematodes in all sheep flocks and in all ibex populations. Our results demonstrated that ibex can host and shed resistant strains before transhumant sheep arrive on pastures, and thus could act as a refuge or even contribute to maintaining resistant gastrointestinal nematodes. The relative role of ibex in the maintenance and circulation of resistant strains in sheep remain to be determined.

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The network image was drawn by Martin Grandjean: A force-based network visualization CC BY-SA