Your search keyword '"Rowsey, Dakota M."' showing total 7 results

1. The roles of phylogeny, body size and substrate use in trabecular bone variation among Philippine 'earthworm mice' (Rodentia: Chrotomyini).

Author

Smith, Stephanie M, Rowsey, Dakota M, Nations, Jonathan A, Angielczyk, Kenneth D, and Heaney, Lawrence R

Subjects

*BODY size, *RODENTS, *CANCELLOUS bone, *ANIMAL variation, *PHYLOGENY, *EARTHWORMS, *MICE, *SKELETON

Abstract

Trabecular bone is modelled throughout an animal's life in response to its mechanical environment, but like other skeletal anatomy, it is also subject to evolutionary influences. Yet the relative strengths of factors that affect trabecular bone architecture are little studied. We investigated these influences across the Philippine endemic murine rodent clade Chrotomyini. These mammals have robustly established phylogenetic relationships, exhibit a range of well-documented substrate-use types, and have a body size range spanning several hundred grammes, making them ideal for a tractable study of extrinsic and intrinsic influences on trabecular bone morphology. We found slight differences in vertebral trabecular bone among different substrate-use categories, with more divergent characteristics in more ecologically specialized taxa. This suggests that the mechanical environment must be relatively extreme to affect trabecular bone morphology in small mammals. We also recovered allometric patterns that imply that selective pressures on bone may differ between small and large mammals. Finally, we found high intrataxonomic variation in trabecular bone morphology, but it is not clearly related to any variable we measured, and may represent a normal degree of variation in these animals rather than a functional trait. Future studies should address how this plasticity affects biomechanical properties and performance of the skeleton. [ABSTRACT FROM AUTHOR]

Published

2023

2. A new genus and species of shrew-like mouse (Rodentia: Muridae) from a new center of endemism in eastern Mindanao, Philippines.

Author

Rowsey, Dakota M, Duya, Mariano Roy M, Ibañez, Jayson C, Jansa, Sharon A, Rickart, Eric A, and Heaney, Lawrence R

Subjects

*MURIDAE, *RODENTS, *COLONIZATION (Ecology), *SPECIES diversity, *SPECIES, *MICE, *AMELOBLASTS, *MENTAL foramen

Abstract

The Philippine archipelago hosts an exceptional diversity of murid rodents that have diversified following several independent colonization events. Here, we report the discovery of a new species of rodent from Mt. Kampalili on eastern Mindanao Island. Molecular and craniodental analyses reveal this species as a member of a Philippine "New Endemic" clade consisting of Tarsomys , Limnomys , and Rattus everetti (tribe Rattini). This new species of "shrew-mouse" is easily distinguished from its relatives in both craniodental and external characteristics including a long, narrow snout; small eyes and ears; short, dark, dense fur dorsally and ventrally; stout body with a tapering, visibly haired tail shorter than head and body length; stout forepaws; bulbous and nearly smooth braincase; narrow, tapering rostrum; short incisive foramina; slender mandible; and narrow, slightly opisthodont incisors. This new genus and species of murid rodent illustrates that murids of the tribe Rattini have exhibited greater species and morphological diversification within the Philippines than previously known and provides evidence that Mt. Kampalili represents a previously unrecognized center of mammalian endemism on Mindanao Island that is deserving of conservation action. [ABSTRACT FROM AUTHOR]

Published

2022

3. Molecular assessment of dietary niche partitioning in an endemic island radiation of tropical mammals.

Author

Petrosky, Anna L., Rowsey, Dakota M., and Heaney, Lawrence R.

Subjects

*BIOTIC communities, *MAMMAL communities, *MAMMALS, *MAMMAL evolution, *COEXISTENCE of species, *COMMUNITIES, *EARTHWORMS, *ADAPTIVE radiation

Abstract

Island radiations represent unique evolutionary histories in unique ecological contexts. These radiations provide opportunities to investigate ecological diversification in groups that typically exhibit niche partitioning among their constituents, including partitioning of food resources. DNA metabarcoding produces finer levels of diet identification than traditional methods, allowing us to examine dietary niche partitioning in communities or clades in which species share superficially similar diets. Here, we use DNA metabarcoding to investigate dietary niche partitioning in an endemic radiation of mammals in the Philippines. Our data reveal niche partitioning as well as phylogenetically‐uncorrelated adaptive evolution in this small mammal community. Because 70% of the focal species belong to the tribe Chrotomyini, an endemic Philippine radiation of murid rodents that feed extensively on earthworms, this study sheds light on dietary adaptation and its role in the co‐occurrence of closely related species. Our results reveal fine‐scale resource partitioning within this community; our data provide compelling evidence for niche partitioning of diet that was masked by previous diet categories and will help in further dissecting the model adaptive radiation of endemic small mammals on Luzon. This study reinforces the notion that DNA metabarcoding can be a valuable tool for investigating both ecological relationships and evolutionary ecology at the community and phylogenetic level, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

4. Dietary morphology of two island-endemic murid rodent clades is consistent with persistent, incumbent-imposed competitive interactions.

Author

Rowsey, Dakota M., Keenan, Ryan M., and Jansa, Sharon A.

Subjects

*SPECIES diversity, *RODENTS, *MORPHOLOGY

Abstract

A lineage colonizing a geographic region with no competitors may exhibit rapid diversification due to greater ecological opportunity. The resultant species diversity of this primary-colonizing (incumbent) clade may limit subsequent lineages' ability to persist unless these non-incumbent lineages are ecologically distinct. We compare the diversity in diet-related mandibular morphology of two sympatric murid rodent clades endemic to Luzon Island, Philippines—incumbent Phloeomyini and secondary-colonizing Chrotomyini—to the mandibular morphological diversity of Sahul Hydromyini, the sister clade of Chrotomyini and the incumbent murid lineage on the supercontinent of Sahul. This three-clade comparison allows us to test the hypothesis that incumbent lineages can force persistent ecological distinction of subsequent colonists at the time of colonization and throughout the subsequent history of the two sympatric clades. We find that Chrotomyini forms a subset of the diversity of their clade plus Sahul Hydromyini that minimizes overlap with Phloeomyini. We also infer that this differentiation extends to the stem ancestor of Chrotomyini and Sahul Hydromyini, consistent with a biotic filter imposed by Phloeomyini. Our work illustrates that incumbency has the potential to have a profound influence on the ecomorphological diversity of colonizing lineages at the island scale even when the traits in question are evolving at similar rates among independently colonizing clades. [ABSTRACT FROM AUTHOR]

Published

2020

5. Tempo and mode of mandibular shape and size evolution reveal mixed support for incumbency effects in two clades of island‐endemic rodents (Muridae: Murinae)*.

Author

Rowsey, Dakota M., Heaney, Lawrence R., and Jansa, Sharon A.

Subjects

*MODE shapes, *MURIDAE, *MOUNTAIN soils, *RODENTS, *BIOLOGICAL evolution, *COMPETITION (Biology)

Abstract

Existing radiations in a spatially limited system such as an oceanic island may limit the ecological opportunity experienced by later colonists, resulting in lower macroevolutionary rates for secondary radiations. Additionally, potential colonists may be competitively excluded by these incumbent (resident) species, unless they are biologically distinct (biotic filtering). The extant phenotypic diversity of secondary colonists may thus be impacted by lower rates of phenotypic evolution, exclusion from certain phenotypes, and transitions to new morphotypes to escape competition from incumbent lineages. We used geometric morphometric methods to test whether the rates and patterns of mandibular evolution of the Luzon "old endemic" rodent clades, Phloeomyini and Chrotomyini, are consistent with these predictions. Each clade occupied nearly completely separate shape space and partially separate size space. We detected limited support for decelerating and clade‐specific evolutionary rates for both shape and size, with strong evidence for a shift in evolutionary mode within Chrotomyini. Our results suggest that decelerating phenotypic evolutionary rates are not a necessary result of incumbency interactions; rather, incumbency effects may be more likely to determine which clades can become established in the system. Nonincumbent clades that pass a biotic filter can potentially exhibit relatively unfettered evolution. [ABSTRACT FROM AUTHOR]

Published

2019

6. Diversification rates of the “Old Endemic” murine rodents of Luzon Island, Philippines are inconsistent with incumbency effects and ecological opportunity.

Author

Rowsey, Dakota M., Heaney, Lawrence R., and Jansa, Sharon A.

Subjects

*COLONIZATION (Ecology), *BIODIVERSITY, *ADAPTIVE radiation, *COMPETITION (Biology), *NATURAL selection, *ENDEMIC animals, *BIOLOGICAL evolution, *RODENTS

Abstract

Abstract: Diversity‐dependent cladogenesis occurs when a colonizing lineage exhibits increasing interspecific competition as it ecologically diversifies. Repeated colonization of a region by closely related taxa may cause similar effects as species within each lineage compete with one another. This may be particularly relevant for secondary colonists, which could experience limited diversification due to competition with earlier, incumbent colonists over evolutionary time. We tested the hypothesis that an incumbent lineage may diminish the diversification of secondary colonists in two speciose clades of Philippine “Old Endemic” murine rodents—Phloeomyini and Chrotomyini—on the relatively old oceanic island of Luzon. Although phylogenetic analyses confirm the independent, noncontemporaneous colonization of Luzon by the ancestors of these two clades, we found no support for arrested diversification in either. Rather, it appears that diversification of both clades resulted from constant‐rate processes that were either uniform or favored the secondary colonists (Chrotomyini), depending on the method used. Our results suggest that ecological incumbency has not played an important role in determining lineage diversification among Luzon murines, despite sympatric occurrence by constituent species within each lineage, and a substantial head start for the primary colonists. [ABSTRACT FROM AUTHOR]

Published

2018

7. Using archived and biocollection samples towards deciphering the DNA virus diversity associated with rodent species in the families cricetidae and heteromyidae.

Author

Lund, Michael C., Larsen, Brendan B., Rowsey, Dakota M., Otto, Hans W., Gryseels, Sophie, Kraberger, Simona, Custer, Joy M., Steger, Laura, Yule, Kelsey M., Harris, Robin E., Worobey, Michael, Van Doorslaer, Koenraad, Upham, Nathan S., and Varsani, Arvind

Subjects

*VIRUS diversity, *CRICETIDAE, *VIRAL genomes, *RODENTS, *DNA viruses, *CIRCULAR DNA

Abstract

Rodentia is the most speciose order of mammals, and they are known to harbor a wide range of viruses. Although there has been significant research on zoonotic viruses in rodents, research on the diversity of other viruses has been limited, especially for rodents in the families Cricetidae and Heteromyidae. In fecal and liver samples of nine species of rodents, we identify 346 distinct circular DNA viral genomes. Of these, a large portion are circular, single-stranded DNA viruses in the families Anelloviridae (n = 3), Circoviridae (n = 5), Genomoviridae (n = 7), Microviridae (n = 297), Naryaviridae (n = 4), Vilyaviridae (n = 15) and in the phylum Cressdnaviricota (n = 13) that cannot be assigned established families. We also identified two large bacteriophages of 36 and 50 kb that are part of the class Caudoviricetes. Some of these viruses are clearly those that infect rodents, however, most of these likely infect various organisms associated with rodents, their environment or their diet. • Subsampled rodent material collected as part biocollections and researchers. • 346 distinct circular viral genomes in rodent fecal (n = 10) and liver (n = 3) samples. • ∼86% of these new viral genomes are microviruses. • 93% of these identified viral genomes represent new species. • 15 viral genomes cannot be assigned to currently established families. [ABSTRACT FROM AUTHOR]

Published

2023