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Sand Lizard (sand + lizard)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

FECUNDITY AND MHC AFFECTS EJACULATION TACTICS AND PATERNITY BIAS IN SAND LIZARDS

EVOLUTION, Issue 4 2004
Mats Olsson
Abstract We demonstrate that extending copulation enhances probability of paternity in sand lizards and that determinants of copulation duration depend on a males' mating order (first or second). First males, with no information on presence of rivals, extend copulation when mating with a more fecund female. Second males, however, adjust copula duration in relation to a first male's relatedness with his female, which there is reason to believe can be deduced from the MHC-related odor of the copulatory plug. Male-female relatedness negatively influences a male's probability of paternity, and when second males are in a favored role (i.e., the first male is the one more closely related to the female), second males transfer larger ejaculates, resulting in higher probability of paternity. This result corroborates predictions from recent theoretical models on sperm expenditure theory incorporating cryptic female choice and sexual conflict. More specifically, the results conform to a "random roles" model, which depicts males as being favored by some females and disfavored by others, but not to a "constant-type" model, in which a male is either favored or disfavored uniformly by all females in a population. [source]

Space use of the spotted sand lizard (Pedioplanis l. lineoocellata) under different degradation states

AFRICAN JOURNAL OF ECOLOGY, Issue 1 2010
Bernd Wasiolka
Abstract Although the effects of grazing-induced savannah degradation on animal diversity are well documented, knowledge of how they affect space use or responding behaviour remains poor. In this study, we analysed space use of the spotted sand lizard (Pedioplanis l. lineoocellata) in degraded versus nondegraded habitats of southern Kalahari savannah habitats. Lizards were radio tracked, daily movement distances recorded and home range sizes calculated. In degraded Kalahari savannah habitats where plant diversity and perennial grass cover are low but shrub cover high, P. lineoocellata moves larger distances (40.88 ± 6.42 m versus 27.43 ± 5.08 m) and occupies larger home ranges (646.64 ± 244.84 m2 versus 209.15 ± 109.84 m2) than in nondegraded habitats (high plant diversity, high perennial grass cover and low shrub cover). We assume that this increase in daily movement distances and home range sizes is a behavioural plasticity to limited food resources in degraded savannah habitats. Although P. lineoocellata is able to adjust to resource-poor savannah habitats, the increase in the lizard's movement activities is likely to result in a higher predation risk. This is supported by the lower availability of protective vegetation i.e. perennial grass cover. Hence, we conclude that despite behavioural plasticity of P. lineoocellata, overgrazing has a severe negative impact on the space use of P. lineoocellata. Résumé Bien que les effets de la dégradation de la savane due au pâturage sur la diversité animale soient bien documentés, on sait toujours peu de choses sur la façon dont ils affectent l'utilisation de l'espace ou les comportements de réponse. Dans cette étude, nous avons analysé l'utilisation de l'espace du lézard des sables tachetéPedioplanis l. lineoocellata, dans des habitats de savane dégradés ou non du sud du Kalahari. Des lézards furent suivis par radio, les distances parcourues par jour furent enregistrées, et l'on a calculé la taille des domaines vitaux. Dans les habitats de savane dégradés du Kalahari, où la diversité végétale et la couverture herbacée pérenne sont faibles mais la couverture arbustive élevée, Pedioplanis lineoocellata couvre de plus grandes distances (40.88 ± 6.42 m versus 27.43 ± 5.08 m) et occupe de plus vastes domaines vitaux (646.64 ± 244.84 m² versus 209.15 ± 109.84 m²) que dans les habitats non dégradés (grande diversité végétale, forte couverture herbacée pérenne et faible couverture arbustive). Nous supposons que cette augmentation de la distance parcourue chaque jour et de la taille des domaines vitaux est le résultat d'une plasticité comportementale face à des ressources alimentaires limitées dans les habitats dégradés de savane. Bien que P. lineoocellata soit capable de s'adapter à des habitats de savane pauvres en ressources, l'augmentation des déplacements du lézard est susceptible d'entraîner un plus grand risque de prédation. Cette hypothèse est confortée par la faible disponibilité de végétation protectrice, c.-à-d. d'une couverture herbacée pérenne. Dès lors, nous concluons que, malgré la plasticité comportementale de P. lineoocellata, le surpâturage a un effet négatif sévère sur son utilisation de l'espace. [source]

FECUNDITY AND MHC AFFECTS EJACULATION TACTICS AND PATERNITY BIAS IN SAND LIZARDS

EVOLUTION, Issue 4 2004
Mats Olsson
Abstract We demonstrate that extending copulation enhances probability of paternity in sand lizards and that determinants of copulation duration depend on a males' mating order (first or second). First males, with no information on presence of rivals, extend copulation when mating with a more fecund female. Second males, however, adjust copula duration in relation to a first male's relatedness with his female, which there is reason to believe can be deduced from the MHC-related odor of the copulatory plug. Male-female relatedness negatively influences a male's probability of paternity, and when second males are in a favored role (i.e., the first male is the one more closely related to the female), second males transfer larger ejaculates, resulting in higher probability of paternity. This result corroborates predictions from recent theoretical models on sperm expenditure theory incorporating cryptic female choice and sexual conflict. More specifically, the results conform to a "random roles" model, which depicts males as being favored by some females and disfavored by others, but not to a "constant-type" model, in which a male is either favored or disfavored uniformly by all females in a population. [source]

Offspring-driven local dispersal in female sand lizards (Lacerta agilis)

JOURNAL OF EVOLUTIONARY BIOLOGY, Issue 6 2004
K. Ryberg
Abstract We report on a field study in which determinants of female breeding dispersal (i.e. the shift in the mean home range coordinates between successive breeding events) was investigated. Offspring were released in full sib groups (or half sib ones if there was within-clutch multiple paternity) at a separation distance from the females that varied between ,families'. This allowed for analysis of ,offspring nearness' effects on maternal dispersal. When a female's offspring were released more closely to her, she responded with greater dispersal. Furthermore, when the data set was truncated at 100 m maternal,offspring separation distance at offspring release (because perception at longer distances is likely to be unrealistic), maternal dispersal resulted in greater separation distance between female and offspring in the following year. A corresponding analysis for juveniles revealed no effect of maternal nearness on offspring dispersal but identified a significant effect of clutch size, to our surprise with dispersal declining with increasing clutch size. We discuss this result in a context of the ,public information hypothesis' (reinterpreted for juveniles in a nonsocial foraging species), suggesting that conspecific abundance perhaps acts as an indicator of local habitat quality. Thus, our analysis suggests a microgeographic structuring of the adult female population driven by genetic factors, either through inbreeding avoidance, or from simply avoiding individuals with a similar genotype regardless of their pedigree relatedness, while a nongenetic factor seems more important in their offspring. [source]