Elsie Carrillo scite author profile

Elsie Carrillo

4Publications

14Citation Statements Received

5Citation Statements Given

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130

Affiliations

Fundación Ciencias Exactas y Naturales, University of Buenos Aires

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Cytogenetics of Seven Species of Dragonflies A Novel Sex Chromosome Determining System in Micrathyria Ungulate

Mola

Papeschi

Carrillo

2004

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More than 80% of the taxonomically described species of Anisoptera (Odonata) belong to the families Libellulidae and Aeshnidae. Here the chromosome complement and male meiotic behaviour of seven species of dragonflies of these families are analyzed. Anax amazili and Coryphaeschna perrensi are 2n = 27, n = 13 + X, which is characteristic of Aeshnidae. Within Libellulidae, Planiplax erythropyga, Micrathyria spuria and M. hesperis have 2n = 25, n = 12 + X, which corresponds to the modal chromosome number of the family. Oligoclada laelitia and M. ungulata, on the other hand, have a reduced chromosome complement (n = 11 + X and n = 10 + X1X2Y, respectively). In Micrathyria ungulata an X1X2Y sex chromosome system is described, and its origin is discussed. This represents a new sex chromosome determining system in the order Odonata.

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Ecological Filtering and Exaptation in the Evolution of Marine Snakes

Gearty¹,

Carrillo²,

Payne³

2021

The American Naturalist

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Life Aquatic: A Review of Adaptations in Non‐Avian Reptiles

Carrillo¹,

Cruz²,

Kong³

et al. 2022

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Nonavian reptiles are among the many tetrapod lineages that have secondarily evolved semi‐aquatic and fully aquatic lifestyles. As thermal conformers occupying varying depths of the marine and freshwater environment, reptiles are great models for studying aquatic adaptations. The approximately 600 crocodilians, turtles, lizards and snakes enter the water for numerous reasons including to forage, mate, lay eggs and give live birth, seasonally hibernate and seek refuge from predators. Those that feed in the aquatic environment can be separated into two categories, obligate and facultative foragers, that contribute to different degrees of aquatic dependence. Morphological traits such as protruding nostrils and tentacles or chin barbels have evolved repeatedly in aquatic lineages. Aquatic nonavian reptiles must also overcome challenges associated with submersion similar to endotherms, including voluntary apnea, hydrostatic pressure at depth, and thermo‐ and osmoregulation. Some notable morphological, behavioural and physiological adaptations that facilitate movement through the water or prolonged submergence times include streamlined morphology, cutaneous respiration and depressed metabolic rates. Key Concepts Nonavian reptiles that forage for prey in the water are either facultative foragers or obligate foragers. In terms of aquatic representation, all crocodilians are semi‐aquatic, with turtles having the next largest proportion of aquatic individuals, followed by snakes and lizards, despite snakes being the only group with fully aquatic species. There are a myriad of behavioural, morphological and physiological adaptations observed in aquatic nonavian reptiles that are taxon‐specific but also others that are convergent across disparate groups. Despite the striking differences in body shapes between nonavian reptiles, aquatic members of all groups have modified their bodies to take on more streamlined shapes. Valved or protruding nostrils and piscivorous feeding habits are commonly observed across all aquatic nonavian reptile clades. Many marine inhabitants have the ability to osmoregulate and get rid of excess salt. Nonavian reptiles are great models for studying aquatic adaptations as they perform a combination of behaviours in the water including foraging, mating and seasonal hibernation despite homeostatic challenges pertaining to the aquatic environment.

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Ecological Filtering and Exaptation in the Evolution of Marine Snakes

Gearty¹,

Carrillo²,

Payne³

2021

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Elsie Carrillo

Cytogenetics of Seven Species of Dragonflies A Novel Sex Chromosome Determining System in Micrathyria Ungulate

Ecological Filtering and Exaptation in the Evolution of Marine Snakes

Life Aquatic: A Review of Adaptations in Non‐Avian Reptiles

Ecological Filtering and Exaptation in the Evolution of Marine Snakes

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