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9. Underwater turning movement during foraging in Hydromedusa maximiliani (Testudines, Chelidae) from southeastern Brazil

Author

Rocha-Barbosa, O, Hohl, LSL, Novelli, IA, Sousa, BM, Gomides, SC, and Loguercio, MFC

Subjects
fixed point, subaquático, ponto fixo, Hydromedusa maximiliani, underwater, turning, giro
Abstract

A type of locomotor behavior observed in animals with rigid bodies, that can be found in many animals with exoskeletons, shells, or other forms of body armor, to change direction, is the turning behavior. Aquatic floated-turning behavior among rigid bodies animals have been studied in whirligig beetles, boxfish, and more recently in freshwater turtle, Chrysemys picta. In the laboratory we observed a different kind of turning movement that consists in an underwater turning movement during foraging, wherein the animal pivoted its body, using one of the hindlimbs as the fixed-point support in the substratum. We describe, analyze and quantify this movement during foraging in Hydromedusa maximiliani, using observations made in the laboratory. We studied 3 adult specimens (2 males, 1 female) and 2 non-sexed juveniles of H. maximiliani. They were kept individually in an aquarium filled with water and small fish. They were filmed, in dorsal view, at 30 frames per second. Sequences were analyzed frame by frame and points were marked on limbs and shell to enable analysis of variation in limb flexion and extension, as well as rotation movements. While foraging, turtles frequently turned their bodies, using one hind leg as the pivot point. This underwater turning movement, in addition to slow movements with the neck stretched, or staying nearly immobile and scanning the surroundings with lateral movements of the neck (in arcs up to 180°), and fast attacks of neck, may increase prey capture rates. Um tipo de comportamento locomotor observado em animais com corpo rígido, que pode ser encontrado em muitos animais com exoesqueleto, conchas, ou outras formas de armaduras, para mudar de direção, é o girar o corpo num plano horizontal (Turning performance). O movimento de girar o corpo flutuando na água (Aquatic floated-turning performance) entre animais de corpo rígido tem sido estudado em besouros, peixe-caixa, e mais recente na tartaruga de água doce, Chrysemys picta. No laboratório nós observamos um tipo diferente de giro que consiste em um giro subaquático, não flutuando na água, durante o forrageio, onde o animal pivota seu corpo, usando uma das patas traseiras como um ponto fixo de suporte no substrato. Nós descrevemos, analisamos e quantificamos esse movimento durante o forrageio de Hydromedusa maximiliani, usando observações feitas em laboratório. Nós analisamos três adultos (2 machos, 1 fêmea) e dois juvenis não sexados. Eles foram mantidos individualmente em um aquário preenchido água e pequenos peixes. Eles foram filmados, em vista dorsal, a 30 imagens por segundo. As sequencias foram analisadas quadro a quadro, e pontos foram marcados nos membros e no casco para permitir analisar variações angulares durante a flexão e extensão, bem como movimentos de rotação. Os membros fizeram movimentos sequencias durante o movimento de giro, mantendo sempre um dos membros posteriores como ponto fixo. Esta estratégia de forrageio associada com movimentos lentos e pescoço esticado, ou permanecer praticamente imóveis apenas observando o ambiente através de movimentos laterais do pescoço, descrevendo trajetórias em um ângulo de 180°, e ataques rápidos com o pescoço, talvez aumente seu potencial na captura de presas.

Published
2014

10. Penial morphology in three species of Brazilian Tuco-tucos, Ctenomys torquatus, C. minutus, and C. flamarioni (Rodentia: Ctenomyidae)

Author

Rocha-Barbosa, O., Bernardo, JSL., Loguercio, MFC., Freitas, TRO., Santos-Mallet, JR., and Bidau, CJ.

Subjects
morfologia, Ctenomys, morphology, Baculum, microscopia eletrônica de varredura, Glans penis, scanning electron microscopy
Abstract

The present study analyses the glans penis and baculum morphology of three Brazilian tuco-tucos, Ctenomys torquatus Lichtenstein, 1830, Ctenomys minutus Nehring, 1887 and Ctenomys flamarioni Travi, 1981, in order to identify possible variations and understand some more about this taxonomically complex group. We used fixed penis from 15 previously listed adult specimens. For a more detailed baculum analysis, the penis underwent dissection and diaphanisation, whereas to analyse the glans penis surface we used Scanning Electron Microscopy (SEM). Results showed striking differences in baculum morphology among the three species. While C. minutus have a particular V-shaped proximal baculum tip, C. flamarioni baculum is thin throughout the shaft with rounded proximal and distal tips. Ctenomys torquatus have a shorter and larger baculum, similar to what has previously been described for the species. Glans penis surface microstructure analyses also revealed inter-specific differences, with penial spines varying in shape, size and, especially density. Although C. torquatus has a relatively small penis, it has the largest penial spine density, which suggests a more complex penial ornamentation in this species. O presente estudo analisa a morfologia do glans penis e do baculum de três tuco-tucos do Brazil - Ctenomys torquatus Lichtenstein, 1830, Ctenomys minutus Nehring, 1887, e Ctenomys flamarioni Travi, 1981 - com a finalidade de identificar possíveis variações e elucidar mais sobre grupo taxonômico complexo. Foram usados pênis fixados de 15 indivíduos adultos das espécies listadas anteriormente. Para uma análise mais detalhada do baculum, o pênis foi submetido a dissecções e diafanização, enquanto que, para a análise da superfície do glans penis, foi usada a técnica de microscopia eletrônica de varredura (MEV). Os resultados exibiram significativas diferenças na morfologia do baculum entre as três espécies. Enquanto C. minutus apresenta um baculum com uma ponta em forma de V característica, o baculum de C. flamarioni é fino ao longo do osso, com as pontas proximal e distal arredondadas. Ctenomys torquatus apresenta um baculum mais curto e largo, similar ao descrito anteriormente para a espécie. Análises da microestrutura na superfície do glans penis revelaram diferenças interespecíficas, com os espinhos penianos variando em forma, tamanho e, especialmente, densidade. Apesar de C. torquatus ter um pênis relativamente pequeno, apresenta a maior densidade de espinhos penianos, o que sugere uma complexa ornamentação peniana nesta espécie.

Published
2013

11. Evaluation of a balanced fresh paste diet for maintenance of captive neotropical rattlesnakes used for venom production

Author

de Oliveria Mm, Panizzutti Mh, Barbosa Jl, Rocha-Barbosa O, and Cavalcanti Pl

Subjects
Male, General Veterinary, Animal feed, Body Weight, Crotalus, Venom, Molting, Biology, Body weight, Animal Feed, complex mixtures, Toxicology, Eating, Animal science, Weight loss, Ecdysis, Crotalid Venoms, medicine, Animals, Potency, Animal Nutritional Physiological Phenomena, Female, medicine.symptom, Moulting, Weight gain
Abstract

Objective—To evaluate efficacy of a balanced fresh paste diet for maintenance of captive neotropical rattlesnakes used for venom production. Design—Controlled clinical trial. Animals—40 healthy neotropical rattlesnakes. Procedure—Rattlesnakes were force-fed once per week (10% of body weight) for 19 weeks; 20 control snakes received dead mice, whereas 20 test snakes received a balanced fresh paste diet. Ecdysis rates were calculated, and body weight was recorded weekly. After 19 weeks, venom was extracted and analyzed. Results—Sickness or deaths were not observed; weight loss during ecdysis and weight gain overall were similar between groups. Snakes fed the balanced fresh paste diet had similar ecdysis frequency, venom potency, and protein concentration in venom as did snakes fed mice. Conclusions and Clinical Relevance—Results suggest that a balanced fresh paste diet has sufficient nutritional value to avoid weight loss and death and does not adversely affect venom quality in captive neotropical rattlesnakes. (J Am Vet Med Assoc 2001;218:912–914)

Published
2001

12. Analysis of the microstructure of Xenodontinae snake scales associated with different habitat occupation strategies

Author

Rocha-Barbosa, O. and Moraes e Silva, RB.

Subjects
serpentes, MEV, microestrutura, microstructure, SEM, scales, Xenodontinae, snakes, escamas
Abstract

The morphology of many organisms seems to be related to the environment they live in. Nonetheless, many snakes are so similar in their morphological patterns that it becomes quite difficult to distinguish any adaptive divergence that may exist. Many authors suggest that the microornamentations on the scales of reptiles have important functional value. Here, we examined variations on the micromorphology of the exposed oberhautchen surface of dorsal, lateral, and ventral scales from the mid-body region of Xenodontinae snakes: Sibynomorphus mikani (terricolous), Imantodes cenchoa (arboreal), Helicops modestus (aquatic) and Atractus pantostictus (fossorial). They were metallized and analyzed through scanning electron microscopy. All species displayed similar microstructures, such as small pits and spinules, which are often directed to the scale caudal region. On the other hand, there were some singular differences in scale shape and in the microstructural pattern of each species. S. mikani and I. cenchoa have larger spinules arranged in a row which overlap the following layers on the scale surface. Species with large serrate borders are expected to have more frictional resistance from the caudal-cranial direction. This can favor life in environments which require more friction, facilitating locomotion. In H. modestus, the spinules are smaller and farther away from the posterior rows, which should help reduce water resistance during swimming. The shallower small pits found in this species can retain impermeable substances, as in aquatic Colubridae snakes. The spinules adhering to the caudal scales of A. pantostictus seem to form a more regular surface, which probably aid their fossorial locomotion, reducing scale-ground friction. Our data appear to support the importance of functional microstructure, contributing to the idea of snake species adaptation to their preferential microhabitats. A morfologia de muitos organismos parece estar relacionada ao ambiente em que eles vivem. No entanto, muitas serpentes são tão similares nos seus padrões morfológicos que se torna difícil distinguir qualquer divergência adaptativa existente. Muitos autores sugerem que as micro-ornamentações nas escamas de répteis possuem importante valor funcional. Neste trabalho, examinamos variações na micromorfologia da superfície oberhautchen exposta das escamas ventrais, laterais e dorsais da região medial de serpentes Xenodontinae: Sibynomorphus mikani (terrestre), Imantodes cenchoa (arbórea), Helicops modestus (aquática) e Atractus pantostictus (fossorial). Estas foram metalizadas e analisadas por microscopia eletrônica de varredura. Todas as espécies apresentaram microestruturas similares, tais como microcovas e espículas, que estão normalmente orientadas para a região caudal da escama. Por outro lado, houve algumas diferenças singulares em relação ao formato da escama e padrão microestrutural de cada espécie. S. mikani e I. cenchoa possuem espículas grandes arrumadas em linhas que sobrepõem as camadas seguintes da superfície da escama. Em espécies que possuem longas denticulações sobrepostas sobre as bordas posteriores das células, é esperado que haja uma maior resistência friccional da direção posterior para anterior das escamas. Isso pode favorecer a vida em ambientes que precisam de maior atrito, facilitando a locomoção. Em H. modestus, as espículas são menores e mais afastadas das linhas posteriores, o que pode reduzir o atrito com a água durante a natação. As microcovas mais rasas encontradas nesta espécie podem reter substâncias impermeáveis, como nas serpentes Colubridae aquáticas. As espículas que aderem às escamas caudais de A. pantostictus parecem formar uma superfície mais regular, o que provavelmente auxilia na locomoção fossorial, reduzindo o atrito com o solo. Nossos dados parecem corroborar a importância da microestrutura funcional, contribuindo para a hipótese de adaptação das espécies de serpentes aos seus microhabitats preferenciais.

Published
2009

13. Bipedal locomotion in Tropidurus torquatus (Wied, 1820) and Liolaemus lutzae Mertens, 1938

Author

Rocha-Barbosa, O., Loguercio, MFC., Velloso, ALR., and Bonates, ACC.

Subjects
locomotion, Tropidurus, Liolaemus, locomoção, kinematics, bipedality, bipedalismo, cinemática
Abstract

Bipedalism has evolved on numerous occasions in phylogenetically diverse lizard families. In this paper we describe, for the first time, bipedal locomotion on South American lizards, the sand-dweller Liolaemus lutzae and the generalist Tropidurus torquatus. The lizards were videotaped running on a racetrack and the sequences were analyzed frame by frame. The body posture, as a whole, diverged a lot during bipedal locomotion between the two species, even though there was no difference regarding their sprint performance. The locomotor behavior of L. lutzae is, in general, more similar to the one observed on other sand-dweller lizards. Certain particularities are common, such as the digitigrade posture at footfall and throughout stance, trunk angles; and tail posture. In contrast, T. torquatus exhibited high trunk angles and dragged its tail, in a posture compared to basilisks. This body posture could be related to certain characteristics and obstacles of a microhabitat such as the one around lakes and streams (basilisks) and the one with compact shrubby vegetation (T. torquatus). O bipedalismo apareceu em inúmeras ocasiões em famílias de lagartos filogeneticamente diversas. Neste trabalho, descrevemos, pela primeira vez, locomoção bipedal em lagartos sul-americanos, o lagarto de hábito terrestre Liolaemus lutzae e o generalista Tropidurus torquatus. Os lagartos foram filmados correndo em uma pista de corrida e as seqüências foram analisadas quadro a quadro. A postura corporal, como um todo, divergiu bastante durante a locomoção bipedal das duas espécies, mesmo quando não houve diferença significativa em relação ao desempenho locomotor. O comportamento locomotor de L. lutzae é, em geral, similar ao observado em outros lagartos especialistas em solos arenosos. Certas particularidades são comuns, como a postura digitígrada no momento de apoio e durante a fase de apoio; ângulos do corpo e postura da cauda. Em contraste, T. torquatus exibiu altos ângulos corporais e arrastava sua cauda, numa postura comparada à dos lagartos basiliscos. Este tipo de postura corporal pode estar relacionado com certas características e obstáculos de um microhabitat como ao redor de rios e riachos (basiliscos) e uma vegetação de arbustos compacta (T. torquatus).

Published
2008

16. Penial morphology in three species of Brazilian Tuco-tucos, Ctenomys torquatus, C. minutus, and C.flamarioni (Rodentia: Ctenomyidae).

Author

Rocha-Barbosa, O., Bernardo, J. S. L., Loguercio, M. F. C., Freitas, T. R. O., Santos-Mallet, J. R., and Bidau, C. J.

Subjects
CTENOMYIDAE, BACULUM (Anatomy), SCANNING electron microscopy, MICROSTRUCTURE, SPECIES distribution, BONE density
Abstract

Copyright of Brazilian Journal of Biology is the property of Instituto Internacional de Ecologia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2013
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18. Structure of claws and toes of two tropidurid lizard species of Restinga from Southeastern Brazil: Adaptations to the vertical use of the habitat

Author

Carvalho Ribas, S., Rosario Velloso, A. L., Teixeira-Filho, P., Rocha-Barbosa, O., Evangelista, H., and Elaine Santos

Subjects
ecomorphology, claw, microhabitat use, Tropiduridae, lizard
Abstract

Tropidurus torquatus and Liolaemus lutzae, found in a restinga habitat, show some morphological differences associated with differential microhabitats use. There were made measurements of the snout-vent length, length and width of the largest toe of hand and foot, and length, width, height and curvature of the claws. We counted the number of adhesive lamellae of the largest toe of each member. T. torquatus has larger toes, greater number of adhesive lamellae and higher and more curve claws than L. lutzae. No significant differences in toe and claw widths were found. These results suggest that the differences found in the morphology of toes and claws of these two species would be associated with the differential microhabitat use. T. torquatus has morphological adaptations that allow it to use the microhabitat both vertically or horizontally, while L. lutzae use it only horizontally

20. Locomotion and morphological adaptations in the glass lizard Ophiodes cf. fragilis (Raddi, 1820) (Squamata: Anguidae).

Author

Oliveira PR, Rocha-Barbosa O, Almeida VG, Souza TT, Santos JADD, and Sousa BM

Subjects
Animals, Hindlimb anatomy & histology, Hindlimb physiology, Lizards anatomy & histology, Lizards physiology, Lizards classification, Locomotion physiology, Adaptation, Physiological physiology
Abstract

There are few studies related to the biological and ecological aspects of the glass snake, a limbless lizard and with a wide geographic distribution. The aim of this study was to analyze the locomotion mode of specimens of Ophiodes cf. fragilis in different substrates and to investigate the morphological adaptations associated with this type of behavior. We observed that the analyzed specimens presented slide-push locomotion modes and lateral undulation in different substrates, using their hind limbs to aid locomotion in three of the four substrates analyzed. The bones of the hind limbs (proximal - femur - and distal - tibia and fibula) were present and highly reduced and the femur is connected to a thin pelvic girdle. Our data support that hind limbs observed in species of this genus are reduced rather than vestigial. The costocutaneous musculature was macroscopically absent. This is the first study of locomotor behavior and morphology associated with locomotion in Ophiodes, providing important information for studies on morphological evolution in the genus.

Published
2024
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21. Camera trap surveys of Atlantic Forest mammals: A data set for analyses considering imperfect detection (2004-2020).

Author

Franceschi IC, Dornas RADP, Lermen IS, Coelho AVP, Vilas Boas AH, Chiarello AG, Paglia AP, de Souza AC, Borsekowsky AR, Rocha A, Bager A, de Souza AZ, Lopes AMC, de Moura AS, Ferreira AS, García-Olaechea A, Delciellos AC, Bacellar AEF, Campelo AKN, Paschoal AMO, Rolim AC, da Silva ALF, Lanna AM, da Silva AP, Guimarães A, Cardoso Â, Cassol AS, da Costa-Pinto AL, do Nascimento AGS, Fernandes AS, Clyvia A, Santos ABD, Lima-Silva B, Beisiegel BM, Luciano BFL, Leopoldo BF, Krobel BN, Kubiak BB, Saranholi BH, Correa BS, Sant Anna Teixeira C, Ayroza CR, Cassano CR, Benitez-Riveros C, Gestich CC, Tedesco CD, Gheler-Costa C, Hegel CGZ, Evangelista Junior CDS, Ferreira CEMF, Grelle CEV, Esteves CF, Espinosa CDC, Leuchtenberger C, Sanchéz-Lalinde C, Machado CIC, Andreazzi C, Bueno C, Cronemberger de Faria C, Novaes C, Widmer CE, Santos CC, Ferraz DDS, Galiano D, Bôlla DAS, Behs D, Rodrigues DP, de Melo DP, Ramos DMS, de Mattia DL, Pavei DD, Loretto D, Huning DDS, Dias DM, Paetzhold ÉR, Rios E, Setz EZF, Cazetta E, Cafofo Silva EG, Pasa E, Saito EN, de Aguiar EFS, Castro ÉP, Viveiros de Castro EB, Pedó E, Pereira FA, Bolzan F, Roque FO, Mazim FD, Comin FH, Maffei F, Peters FB, Fantacini FM, da Silva FP, Machado FS, Vélez-Garcia F, Lage FSD, Perini FA, Passos FC, Carvalho F, de Azevedo FCC, Ferreira F, de Pinho FF, Chaves FG, Miranda FR, Rodrigues FHG, Ubaid FK, Gabriel FH, de Souza FL, de Oliveira FV, Cupolillo G, Moreira GAP, Mette G, Duarte GT, Beca G, Corso G, Perbiche-Neves G, Souto GHBO, Vilarroel GJDS, Batista GO, Ferreira GB, Toledo GADC, Senger G, Bergallo HG, Dos Santos HCP, Gazola HA, Melo I, Brack IV, Veríssimo I, Viana IR, Laurentino IC, Diehl JL, Zocche JJ, Martins-Silva J, Just JPG, Cherem JJ, Nascimento JL, Marinho JR, Dantas JO, de Matos JR, Pires JSR, Cerveira JF, Ruiz-Esparza J, da Silva JP, Bogoni JA, Molina KT, Pereira KDL, Ceron K, de Vleeschouwer K, Lautenschlager L, Bailey L, Fornitano L, Rampim LE, Sforza L, Bissa LG, Santucci LM, da Silva LG, Perillo LN, Correa LR, Hufnagel L, Alberti LF, Recalde Mello LJ, Bernardo LRR, Oliveira-Santos LGR, Guimarães LN, Benchimol M, Twardowschy MC, Ferreira-Riveros M, da Silva M, Jardim MMA, Fontes MAL, Tortato MA, do Nascimento MT, Sekiama ML, Nascimento-Costa MC, Dos Santos MEB, Morini MSC, Nagy-Reis MB, Kaizer MDC, Sant'Anna MJRDS, Hartmann MT, Favarini MO, Olivo MO, Montes MA, Alvaréz MRDV, Haddad MF, Costa MD, Graipel ME, Konzen MQ, Galetti M, Almeida MOS, Faria MB, Luiz MR, Baptista MNDM, Marini MÂ, Ribeiro MC, Olifiers N, de Albuquerque NM, Cantero N, Peroni N, Zanella N, Mendonça-Furtado O, Pays O, Ferretti OE, Rocha-Barbosa O, Santos PM, de Farias PM, da Rocha PA, Colas-Rosas PF, Ribeiro-Souza P, Ferracioli P, Hartmann PA, Antas PTZ, Ribeiro P, Tomasi Sarti P, Mônico PI, de Castilho PV, Pereira PBM, Crawshaw PG Jr, Renaud PC, Romagna RS, de Sousa RTM, Spagnol RS, Beltrão-Mendes R, Mariano RF, Rocha RR, Sousa-Lima R, Pagotto RV, de Faria RT, Arrais RC, Moratelli R, Sartorello R, Bianchi RC, Guimarães RC, Massara RL, Costa RT, Marques RV, Nunes RMR, Hartz SM, Silvestre de Sousa SM, Lima SR, Barbosa SL, Godoy SN, Ferrari SF, de Araújo-Piovezan TG, Góes TL, Trigo TC, de Freitas TRO, Maccarini TB, de Castro TM, Bella TR, de Oliveira Junior TM, Cunha UM, Kanaan VT, Pfannerstill V, Pimentel VS, Picinatto Filho V, Alves VN, Rojas-Bonzi V, Mottin V, Rocha VJ, Kindel A, and Coelho IP

Subjects
Animals, Photography, Biodiversity, Conservation of Natural Resources methods, Mammals physiology, Forests
Abstract

Camera traps became the main observational method of a myriad of species over large areas. Data sets from camera traps can be used to describe the patterns and monitor the occupancy, abundance, and richness of wildlife, essential information for conservation in times of rapid climate and land-cover changes. Habitat loss and poaching are responsible for historical population losses of mammals in the Atlantic Forest biodiversity hotspot, especially for medium to large-sized species. Here we present a data set from camera trap surveys of medium to large-sized native mammals (>1 kg) across the Atlantic Forest. We compiled data from 5380 ground-level camera trap deployments in 3046 locations, from 2004 to 2020, resulting in 43,068 records of 58 species. These data add to existing data sets of mammals in the Atlantic Forest by including dates of camera operation needed for analyses dealing with imperfect detection. We also included, when available, information on important predictors of detection, namely the camera brand and model, use of bait, and obstruction of camera viewshed that can be measured from example pictures at each camera location. Besides its application in studies on the patterns and mechanisms behind occupancy, relative abundance, richness, and detection, the data set presented here can be used to study species' daily activity patterns, activity levels, and spatiotemporal interactions between species. Moreover, data can be used combined with other data sources in the multiple and expanding uses of integrated population modeling. An R script is available to view summaries of the data set. We expect that this data set will be used to advance the knowledge of mammal assemblages and to inform evidence-based solutions for the conservation of the Atlantic Forest. The data are not copyright restricted; please cite this paper when using the data., (© 2024 The Ecological Society of America.)

Published
2024
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22. Ontogenetic skull variation in a shovel-headed amphisbaenian species.

Author

Hohl LDSL, Azorit C, Vassallo AI, Casinos A, Machado AS, Lopes RT, and Rocha-Barbosa O

Subjects
Humans, Animals, Head, Regression Analysis, Brazil, Skull anatomy & histology, Lizards anatomy & histology
Abstract

Leposternon microcephalum is a species belonging to the Amphisbaenia, a group of burrowing reptiles. Amphisbaenia present various morphological and physiological adaptations that allow them to penetrate the ground and live underground, through a system of galleries and permanent chambers that they build themselves. Among the morphological adaptations in this group, those of the skull stand out as it serves as the main excavation tool. Four basic skull shapes are recognized: rounded, keeled, shovel-shaped, and spade-shaped. The skull of L. microcephalum belongs to this last type, which is considered the most specialized. The species inhabits soils that are highly compacted and difficult to penetrate. Among the species of Leposternon present in South America, L. microcephalum has the widest distribution, being found in all Brazilian biomes and neighboring countries such as Bolivia, Argentina, Paraguay, and Uruguay. The analysis of the skull of this species was carried out using three-dimensional geometric morphometrics (3D-GMM), a technique that allows comparative analysis, through robust statistical methods, of shape and its variations, using Cartesian coordinate data from a configuration of homologous landmarks. The technique allows the size and shape components of a structure to be analyzed separately. From an ontogenetic point of view, this methodology had also been used to investigate variations in Cynisca leucura, a member of the Amphisbaenidae with a rounded head. Our hypothesis is that the patterns of morphological differentiation in the skull, mainly in the intermediate and occipital regions, are similar in different Amphisbaenia species. Therefore, the objective of this study was to analyze cranial morphological variations in an ontogenetic series of L. microcephalum using 3D-GMM. Computed Tomographic scans of 13 specimens were analyzed: juveniles (N = 8) and adults (N = 5), based on 20 landmarks that characterize the skull. Principal components and regression analyses between shape (dependent variable) and size (independent variable) showed a clear difference between the cranial morphological pattern of juvenile individuals and that of adults. For instance, young specimens tend to have a dorsoventrally tall neurocranium, with the tip of the snout more anteriorly oriented and its dorsal border subtly curved. Dorsally, the parietal region is thicker and smoothly dome-shaped in juveniles. As in C. leucura, the variation was strongly correlated with the size change from juvenile to adult, indicating a dominant role for ontogenetic allometry in determining skull shape., (© 2023 Wiley Periodicals LLC.)

Published
2023
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23. Food capture and escape behavior of Leposternon microcephalum Wagler, 1824 (Squamata: Amphisbaenia).

Author

Reiche H, Hohl LSL, and Rocha-Barbosa O

Subjects
Animals, Snakes, Species Specificity, Animal Feed, Behavior, Animal, Lizards
Abstract

Amphisbaenians are fossorial reptiles that have a cylindrical and elongated body covered with scales arranged in rings, and are all apodal, except for the three species of the genus Bipes. The amphisbaenian diet consists of a variety of invertebrates and small vertebrates. As these animals live underground, many aspects of their natural history are difficult to study. Most feeding studies of amphisbaenians have focused on the composition of the diet and feeding ecology, and the data available on feeding behavior are based on precursory observations. The present study describes the food capture behavior of Leposternon microcephalum Wagler, 1824 in captivity. In this experiment we used non-live bait (moist cat food), which was placed near a burrow opening, on the surface of the substrate. Three animals were monitored visually and filmed using cellphone cameras deployed at fixed points, to capture images from the dorsal and lateral perspectives of the study subjects. Two principal types of behavior were observed: the capture of food and defense mechanisms. The strategies used to capture the food were similar to those observed in other fossorial species. Although the backward movement has already been observed and described, we were able to record this movement being used as an escape strategy. These findings enrich our knowledge on different aspects of the natural history of the amphisbaenians.

Published
2021
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24. Skull morphology of bottlenose dolphins from different ocean populations with emphasis on South America.

Author

Hohl LSL, Sicuro FL, Wickert JC, Moreno IB, Rocha-Barbosa O, and Barreto AS

Subjects
Anatomic Landmarks, Animals, Discriminant Analysis, Geography, Regression Analysis, Sample Size, South America, Bottle-Nosed Dolphin anatomy & histology, Oceans and Seas, Skull anatomy & histology
Abstract

The bottlenose dolphin, genus Tursiops, is cosmopolitan occurring in tropical and temperate regions, with morphological variation between and within different oceans. Since the genus' taxonomy has been under discussion for a long time, this work aimed at analyzing the cranial variability of T. truncatus from different regions of the world. Geometric Morphometrics analyses were performed in 201 skulls of adult specimens, on dorsal, ventral, and lateral views, from the Eastern North Pacific, Eastern North Atlantic, Eastern South Atlantic, and Western South Atlantic oceans. The results indicate differences between individuals that inhabit the Atlantic and Pacific oceans. Within the Atlantic Ocean, there is an evident longitudinal differentiation of specimens from the eastern and western regions. A latitudinal separation was also observed, considering specimens from the North and South Atlantic Ocean. In the Western South Atlantic statistical differences were found between two morphological groups, identified as T. gephyreus (sensu Lahille, 1908) and T. truncatus, and the cross-validation presented 98% as minimum confidence for correct classification of these two groups. The present study provides strong morphological support to consider these two lineages as separate species., (© 2020 Wiley Periodicals, Inc.)

Published
2020
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25. Variation in the skull morphometry of four taxonomic units of Thrichomys (Rodentia: Echimyidae), from different Neotropical biomes.

Author

Carvalhaes JG, Cordeiro-Estrela P, Hohl LSL, Vilela RV, D'Andrea PS, and Rocha-Barbosa O

Subjects
Animals, Ecosystem, Rodentia anatomy & histology, Skull anatomy & histology
Abstract

The echimyid rodents of the genus Thrichomys vary considerably in their behavior and feeding ecology, reflecting their occurrence in environments as different as the Caatinga, Cerrado, Pantanal, and Chaco biomes. While the genus was originally classified as monospecific, a number of Thrichomys species have been recognized in recent decades, based on morphometric, cytogenetic, and molecular analyses. While Thrichomys is well studied, the variation found in its cranial morphology is poorly understood, given the taxonomic and ecological complexities of the genus. Using a geometric morphometric approach, we characterized the differences found in the cranial morphology of four Thrichomys taxonomic units, including three established species, Thrichomys apereoides, Thrichomys fosteri, and Thrichomys laurentius, and one operational taxonomic unit (OTU), Thrichomys aff. laurentius. No significant differences were found among these units in cranium size, but significant variation was found in skull shape. The Procrustes distances provided a quantification of the differences in the shape of the skull, with the largest distances being found between T. aff. laurentius and T. fosteri in the dorsal view, and between T. aff. laurentius and T. apereoides in the ventral view. A Discriminant Function Analysis (DFA) with cross-validation determined that the pairings with the highest correct classification were T. aff. laurentius vs. T. apereoides and T. aff. laurentius vs. T. fosteri, in both views. The principal variation in skull shape was found in the posterior region and the zygomatic arch, which may be related to differences in diet., (© 2019 Wiley Periodicals, Inc.)

Published
2019
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26. Skull variation in a shovel-headed amphisbaenian genus, inferred from the geometric morphometric analysis of five South American Leposternon species.

Author

Hohl LSL, Barros-Filho JD, and Rocha-Barbosa O

Subjects
Anatomic Landmarks, Animals, Body Size, Least-Squares Analysis, Phylogeography, Principal Component Analysis, Regression Analysis, South America, Species Specificity, Lizards anatomy & histology, Skull anatomy & histology
Abstract

Amphisabenia is a group of squamates adapted for a fossorial lifestyle. The skull is the animal's the main digging tool, and can present one of four principal shapes. The shovel-headed shape is considered to be the most specialized for digging. The South American genus Leposternon presents a shovel-headed morphotype, and is widely distributed on this continent. The general shovel-headed skull pattern may vary considerably, even within the same genus, and we hypothesized that this variation may be influenced primarily by body size and geographical factors. This study investigated the variation in skull size and shape among five Leposternon species, and examined the potential relationship between this variation and the size of the specimens and bioclimatic variables, through a geometric morphometric approach. Significant morphological variation was found among the species, and was also related systematically to body size and the geographical distribution of the specimens. As even subtle differences in the skull size or shape may represent significant modification in bite force and digging capacity and digging speed, the cranial variation found among the Leposternon species and specimens may have a direct influence on their diet and locomotor performance. Our results, together with direct observations of some of these species, suggest that shovel-headed amphisbaenians may be able to penetrate different soil types under a range of climatic conditions, especially considering the ample, but often sympatric distribution of the species studied here., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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27. Body and skull morphometric variations between two shovel-headed species of Amphisbaenia (Reptilia: Squamata) with morphofunctional inferences on burrowing.

Author

Dos Santos Lima Hohl L, Loguercio MFC, Sicuro FL, Duarte de Barros-Filho J, and Rocha-Barbosa O

Abstract

Background: Morphological descriptions comparing Leposternon microcephalum and L. scutigerum have been made previously. However, these taxa lack a formal quantitative morphological characterization, and comparative studies suggest that morphology and burrowing performance are be related. The excavatory movements of L. microcephalum have been described in detail. However, there is a lack of studies comparing locomotor patterns and/or performance among different amphisbaenids sharing the same skull shape. This paper presents the first study of comparative morphometric variations between two closely related amphisbaenid species, L. microcephalum and L. scutigerum, with functional inferences on fossorial locomotion efficiency., Methods: Inter-specific morphometric variations were verified through statistical analyses of body and cranial measures of L. microcephalum and L. scutigerum specimens. Their burrowing activity was assessed through X-ray videofluoroscopy and then compared. The influence of morphological variation on the speed of digging was tested among Leposternon individuals., Results: Leposternon microcephalum and L. scutigerum are morphometrically distinct species. The first is shorter and robust with a wider head while the other is more elongated and slim with a narrower head. They share the same excavatory movements. The animals analyzed reached relatively high speeds, but individuals with narrower skulls dug faster. A negative correlation between the speed and the width of skull was determined, but not with total length or diameter of the body., Discussion: The morphometric differences between L. microcephalum and L. scutigerum are in accord with morphological variations previously described. Since these species performed the same excavation pattern, we may infer that closely related amphisbaenids with the same skull type would exhibit the same excavatory pattern. The negative correlation between head width and excavation speed is also observed in others fossorial squamates. The robustness of the skull is also related to compression force in L. microcephalum . Individuals with wider heads are stronger. Thus, we suggest trade-offs between excavation speed and compression force during burrowing in this species., Competing Interests: The authors declare there are no competing interests.

Published
2017
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28. Comparative study on the forefoot and hindfoot intrinsic muscles of some cavioidea rodents (Mammalia, Rodentia).

Author

Rocha-Barbosa O, Loguercio MF, Renous S, and Gasc JP

Subjects
Animals, Phylogeny, Forelimb anatomy & histology, Hindlimb anatomy & histology, Muscle, Skeletal anatomy & histology, Rodentia anatomy & histology
Abstract

The present study compares the forefoot and hindfoot musculature of five representative species of Cavioidea rodents. In all species, the musculature of both forefeet and hindfeet have the same array regardless of the absence of digit I in the manus of Hydrochaeris hydrochaeris and Cavia porcellus. Our results suggest a tendency in these species towards a three-digit system, with a functional loss of digit V and a predominance of digit III in their forefeet. In the same way, the muscular reduction of digit I in the other rodents analyzed indicates a four-digit system with predominance of digit II in Myoprocta acouchy and Dasyprocta leporina and of digit V in Agouti paca. There seems to be an association between the muscular arrangement and functional axis of the foot, raising the general question why this axis runs between the third and forth digit, or along the third digit.

Published
2007
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29. Evaluation of a balanced fresh paste diet for maintenance of captive neotropical rattlesnakes used for venom production.

Author

Panizzutti MH, de Oliveria MM, Barbosa JL, Cavalcanti PL, and Rocha-Barbosa O

Subjects
Animals, Body Weight, Eating physiology, Female, Male, Molting, Animal Feed, Animal Nutritional Physiological Phenomena, Crotalid Venoms analysis, Crotalus physiology
Abstract

Objective: To evaluate efficacy of a balanced fresh paste diet for maintenance of captive neotropical rattlesnakes used for venom production., Design: Controlled clinical trial., Animals: 40 healthy neotropical rattlesnakes., Procedure: Rattlesnakes were force-fed once per week (10% of body weight) for 19 weeks; 20 control snakes received dead mice, whereas 20 test snakes received a balanced fresh paste diet. Ecdysis rates were calculated, and body weight was recorded weekly. After 19 weeks, venom was extracted and analyzed., Results: Sickness or deaths were not observed; weight loss during ecdysis and weight gain overall were similar between groups. Snakes fed the balanced fresh paste diet had similar ecdysis frequency, venom potency, and protein concentration in venom as did snakes fed mice., Conclusions and Clinical Relevance: Results suggest that a balanced fresh paste diet has sufficient nutritional value to avoid weight loss and death and does not adversely affect venom quality in captive neotropical rattlesnakes.

Published
2001
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