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1. Evolutionary history influences the microbiomes of a female symbiotic reproductive organ in cephalopods

   https://doi.org/10.1128/aem.00990-23  

   Vijayan, Nidhi; McAnulty, Sarah J; Sanchez, Gustavo; Jolly, Jeffrey; Ikeda, Yuzuru; Nishiguchi, Michele K; Réveillac, Elodie; Gestal, Camino; Spady, Blake L; Li, Diana H; et al (February 2024, Applied and Environmental Microbiology)

   Rudi, Knut (Ed.)

   ABSTRACT Many female squids and cuttlefishes have a symbiotic reproductive organ called the accessory nidamental gland (ANG) that hosts a bacterial consortium involved with egg defense against pathogens and fouling organisms. While the ANG is found in multiple cephalopod families, little is known about the global microbial diversity of these ANG bacterial symbionts. We used 16S rRNA gene community analysis to characterize the ANG microbiome from different cephalopod species and assess the relationship between host and symbiont phylogenies. The ANG microbiome of 11 species of cephalopods from four families (superorder: Decapodiformes) that span seven geographic locations was characterized. Bacteria of classAlphaproteobacteria, Gammaproteobacteria, andFlavobacteriiawere found in all species, yet analysis of amplicon sequence variants by multiple distance metrics revealed a significant difference between ANG microbiomes of cephalopod families (weighted/unweighted UniFrac, Bray–Curtis,P= 0.001). Despite being collected from widely disparate geographic locations, members of the family Sepiolidae (bobtail squid) shared many bacterial taxa including (~50%)Opitutae(Verrucomicrobia) andRuegeria(Alphaproteobacteria) species. Furthermore, we tested for phylosymbiosis and found a positive correlation between host phylogenetic distance and bacterial community dissimilarity (Mantel testr= 0.7). These data suggest that closely related sepiolids select for distinct symbionts from similar bacterial taxa. Overall, the ANGs of different cephalopod species harbor distinct microbiomes and thus offer a diverse symbiont community to explore antimicrobial activity and other functional roles in host fitness. IMPORTANCEMany aquatic organisms recruit microbial symbionts from the environment that provide a variety of functions, including defense from pathogens. Some female cephalopods (squids, bobtail squids, and cuttlefish) have a reproductive organ called the accessory nidamental gland (ANG) that contains a bacterial consortium that protects eggs from pathogens. Despite the wide distribution of these cephalopods, whether they share similar microbiomes is unknown. Here, we studied the microbial diversity of the ANG in 11 species of cephalopods distributed over a broad geographic range and representing 15–120 million years of host divergence. The ANG microbiomes shared some bacterial taxa, but each cephalopod species had unique symbiotic members. Additionally, analysis of host–symbiont phylogenies suggests that the evolutionary histories of the partners have been important in shaping the ANG microbiome. This study advances our knowledge of cephalopod–bacteria relationships and provides a foundation to explore defensive symbionts in other systems. 

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2. A framework for studying behavioral evolution by reconstructing ancestral repertoires

   https://doi.org/10.7554/eLife.61806  

   Hernández, Damián G; Rivera, Catalina; Cande, Jessica; Zhou, Baohua; Stern, David L; Berman, Gordon J (September 2021, Evolutionary BiologyPhysics of Living Systems)

   Although different animal species often exhibit extensive variation in many behaviors, typically scientists examine one or a small number of behaviors in any single study. Here, we propose a new framework to simultaneously study the evolution of many behaviors. We measured the behavioral repertoire of individuals from six species of fruit flies using unsupervised techniques and identified all stereotyped movements exhibited by each species. We then fit a Generalized Linear Mixed Model to estimate the intra- and inter-species behavioral covariances, and, by using the known phylogenetic relationships among species, we estimated the (unobserved) behaviors exhibited by ancestral species. We found that much of intra-specific behavioral variation has a similar covariance structure to previously described long-time scale variation in an individual’s behavior, suggesting that much of the measured variation between individuals of a single species in our assay reflects differences in the status of neural networks, rather than genetic or developmental differences between individuals. We then propose a method to identify groups of behaviors that appear to have evolved in a correlated manner, illustrating how sets of behaviors, rather than individual behaviors, likely evolved. Our approach provides a new framework for identifying co-evolving behaviors and may provide new opportunities to study the mechanistic basis of behavioral evolution. 

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3. Orientations of Mistaken Point Fronds Indicate Morphology Impacted Ability to Survive Turbulence

   https://doi.org/10.3389/feart.2021.762824  

   Vixseboxse, Philip B.; Kenchington, Charlotte G.; Dunn, Frances S.; Mitchell, Emily G. (December 2021, Frontiers in Earth Science)

   The Ediacaran fossils of the Mistaken Point E surface have provided crucial insight into early animal communities, including how they reproduced, the importance of Ediacaran height and what the most important factors were to their community dynamics. Here, we use this iconic community to investigate how morphological variation between eight taxa affected their ability to withstand different flow conditions. For each ofBeothukis,Bradgatia,Charniodiscus procerus,Charniodiscus spinosus,Plumeropriscum,Primocandelabrum,ThectardisandFractofususwe measured the orientation and length of their stems (if present) and their fronds. We statistically tested each taxon’s stem and frond orientation distributions to see whether they displayed a uniform or multimodal distribution. Where multimodal distributions were identified, the stem/frond length of each cohort was tested to identify if there were differences in size between different orientation groups. We find thatBradgatiaandThectardisshow a bimodal felling direction, and infer that they were felled by the turbulent head of the felling flow. In contrast, the frondose rangeomorphs includingBeothukis, Plumeropriscum, Primocandelabrum, and the arboreomorphs were felled in a single direction, indicating that they were upright in the water column, and were likely felled by the laminar tail of the felling flow. These differences in directionality suggests that an elongate habit, and particularly possession of a stem, lent greater resilience to frondose taxa against turbulent flows, suggesting that such taxa would have had improved survivability in conditions with higher background turbulence than taxa likeBradgatiaandThectardis, that lacked a stem and had a higher centre of mass, which may have fared better in quieter water conditions. 

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4. Roadside Dining: The Collective Movement Behavior of Sulawesi Moor Macaques in a Provisioning Context

   https://doi.org/10.1002/ajp.23727  

   Trinidad, Joshua; Scharf, Henry R; Ngakan, Putu Oka; Riley, Erin P (January 2025, American Journal of Primatology)

   ABSTRACT How group‐living primates come to a consensus about navigating their environment is a result of their decision‐making processes. Although decision‐making has been examined in several primate taxa, it remains underexplored for primates living in anthropogenic landscapes. To shed light on consensus decision‐making and flexibility in this process, we examined collective movement behavior in a group of wild moor macaques (Macaca maura) experiencing a risk‐reward tradeoff as a result of roadside provisioning within Bantimurung Bulusaraung National Park in South Sulawesi, Indonesia. Our goal was to determine whether individual characteristics (e.g., sex, dominance rank, and/or social network centrality) predict the likelihood of initiating a collective movement and if the opportunity to receive food provisions along the road alters these patterns. Using the all‐occurrences method, we recorded the location, time, and identity of initiators and followers of each collective movement observed from April to June 2023 (N = 61). We used conditional logistic regression models to examine which individual characteristics predicted initiation overall and based on two destination categories: forest‐ and road‐directed collective movements. Initiation was distributed amongst most of the group, indicating a partially‐shared decision‐making style. Overall, adult males were more likely to initiate collective movements than adult females. However, for collective movements directed toward the risky roadside, dominance, rather than sex, was a better predictor of initiation, with higher ranked individuals being more likely to initiate collective movements. Examining the decision‐making processes in this species through collective movements can provide insight into how primates come to a consensus and the extent to which anthropogenic factors shape these processes. By shedding light on how moor macaques navigate the risk‐reward tradeoff at this site, our results can also inform the management of human‐macaque interfaces. 

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5. Architecture of the insect society: comparative analysis of collective construction and social function of nests

   https://doi.org/10.1007/s00040-025-01057-7  

   Caine, P_B; Robertson, A_T; Treers, L_K; Goldman, D_I; Goodisman, M_A_D (September 2025, Insectes Sociaux)

   Abstract Many social insects construct nests, which are fundamentally important to the success and survival of the colony. We review recent work on understanding the construction and function of social insect nests and attempt to identify general principles of collective construction and nest architecture in insect societies. We look across taxa, including termites, ants, social bees, and social wasps, specifically focusing on experimental studies that have elucidated the mechanisms by which insect nests are successfully built. We find that selecting materials and nest sites are crucial decisions made by social insects that impact both the resulting nest architecture and colony survival. Social insects utilize cohesive, malleable material to build nests. Often, nests are constructed in a modular manner, allowing social insects to exploit a variety of materials while growing to accommodate population explosions from a few individuals to millions. We note that the regulatory principles that coordinate building behaviors are consistent across taxa. Specifically, encounter rate, positive and negative feedback cycles, stigmergy, and genetic influence all govern the actions of multiple builders and result in a cohesive, functional structure. We further consider empirical studies that demonstrate how nests impact collective behaviors and help insect societies flourish. We find that all social insect nests serve the same key functions: to protect residents and to offer a means of organizing their collective behaviors. Ultimately, we expand our analysis to experiments utilizing robot models of societies, which aim to uncover unifying themes of construction and space use by collectives. Overall, we show that social insect nests represent engineering and construction marvels that provide fundamental insights into how biological collectives succeed in the natural environment, and we suggest that the use of robotic models may provide insight into these fascinating behaviors and structures. 

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