Ana Lilia Trujano-Alvarez scite author profile

Freshwater habitats of coastal plains are refugia for many divergent vertebrate lineages, yet these environments are highly vulnerable to sea-level fluctuations, which suggest that resident communities have endured dynamic histories. Using the fossil record and a multi-locus nuclear phylogeny, we examine divergence times, biogeography, body size evolution and patterns of community assembly of aquatic salamanders from North American coastal plains since the Late Cretaceous. At least five salamander families occurred on the extensive Western Interior Coastal Plain (WICP), which existed from the Late Cretaceous through the Eocene. Four of these families subsequently colonized the emergent Southeastern Coastal Plain (SECP) by the Early Oligocene to Late Miocene. Three families ultimately survived and underwent extensive body size evolution in situ on the SECP. This included at least two major size reversals in recent taxa that are convergent with confamilial WICP ancestors. Dynamics of the coastal plain, major lineage extinctions and frequent extreme changes in body size have resulted in significant shuffling of the size structure of aquatic salamander communities on this shifting refuge since the Cretaceous.

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Distribution, Abundance, and Genetic Diversity of Clinostomum spp. Metacercariae (Trematoda: Digenea) in a Modified Ozark Stream System

Bonett

Steffen

Trujano-Alvarez

et al. 2011

Journal of Parasitology

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Land-use alterations can have profound influences on faunal distributions, including host-parasite relationships. Yellow grub trematodes ( Clinostomum spp.) have complex life cycles involving 3 hosts: a snail, a fish or amphibian, and a bird. Here, we analyze the distribution, prevalence, intensity, abundance, and genetic diversity of encysting metacercariae of Clinostomum spp. in salamanders and fishes throughout an aquatic system that includes a natural Ozark stream and man-made ponds. We found Clinostomum sp. infecting permanently aquatic Oklahoma salamanders ( Eurycea tynerensis ; 56% prevalence) and larval grotto salamanders ( Eurycea spelaea ) immediately downstream from a man-made pond. However, Clinostomum sp. did not infect any salamanders in the spring that supplies this pond, or in sections farther downstream (~0.5 and 2 km). Metacercariae of Clinostomum sp. were present in ~90% of introduced largemouth bass ( Micropterus salmoides ) in the man-made pond adjunct to the stream. Morphological examination and phylogenetic analyses based on the mitochondrial gene cytochrome oxidase 1 ( Co1 ) and the nuclear ribosomal gene 18S show that fishes and salamanders at this site are primarily infected with Clinostomum marginatum . There is a relatively high degree of mitochondrial haplotype diversity in C. marginatum at this site but no consistent genetic difference between parasites in largemouth bass from the man-made pond and those in salamanders from the stream. Based on the microgeographic distribution and relationships of metacercariae of C. marginatum at this site, we hypothesize that the adjunct man-made pond has created an ecological situation that brings the cercariae of this parasite into contact with novel stream salamander hosts.

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Taxonomic Revision ofThomomys bottaein the Baja California Sur Lowlands

Trujano-Alvarez¹,

Álvarez-Castañeda²

2007

J Mammal

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Multiple stressors produce differential transcriptomic patterns in a stream-dwelling salamander

et al. 2019

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Background Global biodiversity is decreasing at an alarming rate and amphibians are at the forefront of this crisis. Understanding the factors that negatively impact amphibian populations and effectively monitoring their health are fundamental to addressing this epidemic. Plasma glucocorticoids are often used to assess stress in amphibians and other vertebrates, but these hormones can be extremely dynamic and impractical to quantify in small organisms. Transcriptomic responses to stress hormones in amphibians have been largely limited to laboratory models, and there have been few studies on vertebrates that have evaluated the impact of multiple stressors on patterns of gene expression. Here we examined the gene expression patterns in tail tissues of stream-dwelling salamanders ( Eurycea tynerensis ) chronically exposed to the stress hormone corticosterone under different temperature regimes. Results We found unique transcriptional signatures for chronic corticosterone exposure that were independent of temperature variation. Several of the corticosterone responsive genes are known to be involved in immune system response ( LY-6E ), oxidative stress ( GSTM2 and TRX ), and tissue repair ( A2M and FX ) . We also found many genes to be influenced by temperature ( CIRBP, HSC71, HSP40, HSP90, HSP70, ZNF593 ). Furthermore, the expression patterns of some genes ( GSTM2, LY-6E, UMOD, ZNF593, CIRBP, HSP90 ) show interactive effects of temperature and corticosterone exposure, compared to each treatment alone. Through a series of experiments we also showed that stressor induced patterns of expression were largely consistent across ages, life cycle modes, and tissue regeneration. Conclusions Outside of thermal stressors, the application of transcriptomes to monitor the health of non-human vertebrate systems has been vastly underinvestigated. Our study suggests that transcriptomic patterns harbor stressor specific signatures that can be highly informative for monitoring the diverse stressors of amphibian populations. Electronic supplementary material The online version of this article (10.1186/s12864-019-5814-y) contains supplementary material, which is available to authorized users.

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Sphyranura euryceae (Monogenoidea: Polystomatoinea: Sphyranuridae) from the Grotto Salamander, Eurycea spelaea and Oklahoma Salamander, Eurycea tynerensis (Caudata: Plethodontidae), in Northeastern Oklahoma, U.S.A.

McAllister

Bursey

Steffen

et al. 2011

Comparative Parasitology

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