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1. Hearing ability of prairie voles ( Microtus ochrogaster )

   https://doi.org/10.1121/10.0024357  

   New, Emily M; Hurd, Jessica A; Alarcon, Genesis A; Miller, Cameron S; Williams, Peyton A; Greene, Nathaniel T; Sergott, Casey E; Li, Ben-Zheng; Lei, Tim C; McCullagh, Elizabeth A (January 2024, The Journal of the Acoustical Society of America)

   The hearing abilities of mammals are impacted by factors such as social cues, habitat, and physical characteristics. Despite being used commonly to study social behaviors, hearing of the monogamous prairie vole (Microtus ochrogaster) has never been characterized. In this study, anatomical features are measured and auditory brainstem responses (ABRs) are used to measure auditory capabilities of prairie voles, characterizing monaural and binaural hearing and hearing range. Sexually naive male and female voles were measured to characterize differences due to sex. It was found that prairie voles show a hearing range with greatest sensitivity between 8 and 32 kHz, binaural hearing across interaural time difference ranges appropriate for their head sizes. No differences are shown between the sexes in binaural hearing or hearing range (except at 1 kHz), however, female voles have increased amplitude of peripheral ABR waves I and II and longer latency of waves III and IV compared to males. The results confirm that prairie voles have a broad hearing range, binaural hearing consistent with rodents of similar size, and differences in amplitudes and thresholds of monaural physiological measures between the sexes. These data further highlight the necessity to understand sex-specific differences in neural processing that may underly variability in responses between sexes. 

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2. Ethanol-preserved eyes provide ocular and retinal predictors of natural morphological conditions in scallops: a case study with Argopecten irradians (Bivalvia: Pectinidae)

   https://doi.org/10.1093/mollus/eyae044  

   Audino, Jorge A; Quinlan, Gerald; Ordas, Ceren; Serb, Jeanne M (October 2024, Journal of Molluscan Studies)

   usp.br Ethanol-preserved specimens represent one of the most common resources for biological research. However, little is known of how ethanol preservation may change tissue morphology and impact the interpretation of trait quantification in structures, such as eyes. While scallop eyes are an interesting system for investigating eye evolution and visual adaptations, cross-species comparisons mainly depend on museum specimens. Therefore, to test whether ethanol-preserved specimens serve as accurate indicators of natural eye morphology, we investigated the effects of preservation on selected traits, such as eye and pupil diameter, in the scallop Argopecten irradians . We also compared ethanol-preserved eyes to paraformaldehyde (PFA)-fixed eyes to investigate possible impacts on retinal morphology. Our results demonstrate that eye size does not change with short-term preservation, whereas pupil size becomes significantly larger, likely due to the contraction of actin fibers during dehydration. When comparing measurements among eyes and treatments, eye size correlates to pupil size, but is not correlated to body size. We found that ethanol-preserved eyes provide close estimates of retinal traits, with similar photoreceptor spacing distance and number of photoreceptor cells, compared to samples fixed in PFA. These findings might also be applicable in the context of other mollusks, especially bivalves and gastropods, with delicate visual systems. Our study provides evidence that ethanol- preserved eyes exhibit tissue-specific differences that should be acknowledged in morphological studies. For example, pupil size should be investigated while accounting for post-preservation effects. Other traits, such as lens shape, are inconsistent and severely impacted by preservation. Finally, eye size and some photoreceptor cell measurements can be helpful to describe natural morphology. 

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3. Ecomorphological correlates of inner and middle ear anatomy within phyllostomid bats

   https://doi.org/10.1002/ar.25178  

   Dickinson, Edwin; Tomblin, Emily; Rose, Madison; Tate, Zoe; Gottimukkula, Mihika; Granatosky, Michael C; Santana, Sharlene E; Hartstone‐Rose, Adam (November 2023, The Anatomical Record)

   Abstract Echolocation is the primary sense used by most bats to navigate their environment. However, the influence of echolocating behaviors upon the morphology of the auditory apparatus remains largely uninvestigated. While it is known that middle ear ossicle size scales positively with body mass across mammals, and that peak call frequency scales negatively with body mass among bats, there are still large gaps in our understanding of the degree to which allometry or ecology influences the morphology of the chiropteran auditory apparatus. To investigate this, we used μCT datasets to quantify three morphological components of the inner and middle ear: ossicle size, ossicle shape, and cochlear spirality. These data were collected across 27 phyllostomid species, spanning a broad range of body sizes, habitats, and dietary categories, and the relationships between these variables and ear morphology were assessed using a comparative phylogenetic approach. Ossicle size consistently scaled with strong negative allometry relative to body mass. Cochlear spirality was significantly (p = .025) associated with wing aspect ratio (a proxy for habitat use) but was not associated with body mass. From a morphological perspective, the malleus and incus exhibited some variation in kind with diet and call frequency, while stapes morphology is more closely tied to body size. Future work will assess these relationships within other chiropteran lineages, and investigate potential morphological differences in the middle and inner ear of echolocating‐vs‐non‐echolocating taxa. 

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4. Systematic paleontology of macroalgal fossils from the Tonian Mackenzie Mountains Supergroup

   https://doi.org/10.1017/jpa.2023.4  

   Maloney, Katie M; Maverick, Dakota P; Schiffbauer, James D; Halverson, Galen P; Xiao, Shuhai; Laflamme, Marc (March 2023, Journal of Paleontology)

   Abstract Proterozoic eukaryotic macroalgae are difficult to interpret because morphological details required for proper phylogenetic studies are rarely preserved. This is especially true of morphologically simple organisms consisting of tubes, ribbons, or spheres that are commonly found in a wide array of bacteria, plants, and even animals. Previous reports of exceptionally preserved Tonian (ca. 950−900 Ma) fossils from the Dolores Creek Formation of Northwestern Canada feature enough morphological evidence to support a green macroalgal affinity. However, the affinities of two additional forms identified on the basis of the size distribution of available specimens remain undetermined, while the presence of three unique algal forms supports other reports of increasing algal diversity in the early Neoproterozoic.Archaeochaeta gunchonew genus new species is described as a green macroalga on the basis of its well-preserved morphology consisting of an unbranching, uniseriate thallus with uniform width throughout and possessing an elliptical to globose anchoring holdfast. A larger size class of ribbon-like forms is interpreted asVendotaeniasp. A third size class is significantly smaller thanArchaeochaetan. gen. andVendotaenia,but in the absence of clear morphological characters, it remains difficult to assign. AsArchaeochaetan. gen. andVendotaeniarepresent photoautotrophic taxa, these findings support the hypothesis of increasing morphological complexity and phyletic diversification of macroalgae during the Tonian, leading to dramatic changes within benthic marine ecosystems before the evolution of animals. 

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5. First digital study of the frontal sinus of stem-Canini (Canidae, Carnivora): evolutionary and ecological insights throughout advanced diagnostic in paleobiology

   https://doi.org/10.3389/fevo.2023.1173341  

   Frosali, Samuele; Bartolini-Lucenti, Saverio; Madurell-Malapeira, Joan; Urciuoli, Alessandro; Costeur, Loïc; Rook, Lorenzo (May 2023, Frontiers in Ecology and Evolution)

   IntroductionThe phylogenetic and ecological importance of paranasal sinuses in carnivorans was highlighted by several previous authors, mostly in extant species. Nevertheless, no specific study on this feature on extant canids, and no one on fossil representatives of the family, has been published up to now. Here, we analyze for the first time the paranasal sinus of extant and fossil canids through computed tomographic techniques to characterize them morphologically and morphometrically, making ecological inferences. MethodsTo do so, we applied for the first time an innovative deformation-based morphometric approach. ResultsThe results obtained for extant species highlight a remarkable correlation between morphology and ecomorphotypes previously defined by some scholars (namely hypercarnivorous group-hunters; small-prey hypercarnivores, mesocarnivores, hypocarnivores). Our results thus support the direct relationship between diet preferences and the development of frontal sinus in canids. Regarding fossil specimens, we reconstructed for the first time the frontal sinus of threeEucyonspecies and compared it to those of living forms. DiscussionThe best-preserved specimen, the only known cranium ofEucyon adoxusdated to the Late Pliocene of Saint-Estève (France), displayed similarities with hypercarnivorous group-hunter canids by the large sinus prominences. Given that the overall craniodental morphology ofE. adoxussuggests that it acted as a small prey hypercarnivore—similar to extantCanis simensis—the aforementioned affinities might have evolved independently, in relation to high stresses during feeding. Overall, our study demonstrates that morphological inspection and deformation-based geometric morphometrics complement each other and allow a thorough investigation of sinus shape variability, thus enabling the study of sinus morphology in other fossil carnivorans with the ultimate goal of inferring their ecological preferences. 

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