Your search keyword '"Da-De Xu"' showing total 3 results

1. Maternal warming influences reproductive frequency, but not hatchling phenotypes in a multiple-clutched oviparous lizard

Author

Wei Dang, Da-De Xu, Hong-Liang Lu, and Jie Wang

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Avian clutch size, Physiology, Offspring, Climate Change, Oviposition, media_common.quotation_subject, Embryonic Development, Climate change, Zoology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, 03 medical and health sciences, biology.animal, Takydromus sexlineatus, Animals, Hatchling, media_common, biology, Lizard, Reproduction, Temperature, Lizards, Clutch Size, biology.organism_classification, Phenotype, 030104 developmental biology, Oviparity, Maternal Exposure, Female, sense organs, General Agricultural and Biological Sciences, Developmental Biology

Abstract

The understanding of life-history responses to increased temperature is helpful for evaluating the potential of species for tackling future climate change. Herein, adult southern grass lizards, Takydromus sexlineatus, were maintained under two thermal regimes simulating current thermal environment and a 4 °C warming scenario to determine the effects of experimental warming on female reproduction and offspring phenotypes. Experimental warming caused females to oviposit earlier and more frequently; however, it did not affect other reproductive traits, including clutch size, egg mass and clutch mass. Accelerated embryonic development and energy accumulation rate might have occurred in warmed females. Maternal warming appeared to increase early embryonic mortality, but did not shift hatchling size and locomotor performance. Embryos of oviparous lizards might be more vulnerable to climate change at early stages than at later stages. The impacts of climate change in oviparous lizards might be adverse in the longer term because of the shift in pre-ovipositional embryo viability, which possibly led to a decreased number of hatchlings.

Published

2018

2. Selection for increased maternal body volume does not differ between two Scincella lizards with different reproductive modes

Author

Tian-Boa Fu, Jing Yang, Xiang Ji, Yan-Yan Sun, and Da-De Xu

Subjects

Male, Scincella reevesii, biology, Ecology, Zoology, Lizards, Body size, biology.organism_classification, Scincella modesta, Sexual dimorphism, Oviparity, Viviparity, Nonmammalian, Animals, Body Size, Fecundity selection, Female, Animal Science and Zoology, Selection, Genetic, Maternal body, Scincella

Abstract

Body size and shape are among the most important determinants of reproductive output in diverse animal taxa. We compared morphology and reproductive output between two Scincella lizards (Scincidae), Scincella modesta (oviparous) and Scincella reevesii (viviparous), to examine whether viviparous females compensate for their lower reproductive output by modifying maternal body size and/or shape. As predicted, reproductive output was lower in S. reevesii than in S. modesta when corrected for body size. The two lizards differed morphologically, but were similar in three aspects: females were the larger sex, the relative head size was greater in adult males, and the relative abdomen size was greater in adult females. Sexual dimorphism in abdomen length (AL) was more evident in S. reevesii than in S. modesta, but this difference was attributable to a smaller sexual difference in AL in S. modesta, rather than to the greater relative maternal AL in S. reevesii. Female S. reevesii on average were larger than female S. modesta in snout-vent length (SVL), but this increase in overall body size cannot be viewed as a way of allowing female S. reevesii to compensate for lower reproductive output, as the linear slope of reproductive output against maternal SVL did not differ between the two species. Our data show that selection for increased maternal body volume does not differ between the two Scincella lizards with different reproductive modes.

Published

2012

3. Sexual dimorphism, female reproduction and egg incubation in the oriental leaf-toed gecko (Hemidactylus bowringii) from southern China

Author

Da-De Xu and Xiang Ji

Subjects

Male, China, media_common.quotation_subject, Population, Zoology, Biology, Nesting Behavior, Seasonal breeder, Animals, Body Size, education, Incubation, Hatchling, Egg incubation, media_common, Ovum, education.field_of_study, Sex Characteristics, Ecology, Temperature, Lizards, biology.organism_classification, Sexual dimorphism, Hemidactylus bowringii, embryonic structures, Animal Science and Zoology, Female, Seasons, Reproduction

Abstract

We studied sexual dimorphism, female reproduction and egg incubation of the oriental leaf-toed gecko (Hemidactylus bowringii) from a population in southern China. The largest male and female in our sample were 60 and 57 mm snout-vent length (SVL), respectively. Males are the larger sex; sexual dimorphism in head size and tail length (TL) is evident in juveniles and adults, with males having larger heads as well as longer tails than females. Oviposition occurred between late May and late July. Females switched from laying two eggs early in the breeding season to 1-2 eggs later in the season. Clutch mass and egg mass were both independent of female SVL, whereas relative clutch mass was negatively correlated with female SVL. The previous conclusion that female H. bowringii lay a single clutch of eggs per breeding season is unlikely to be true. Thermal environments experienced by H. bowringii eggs affect incubation length as well as morphological and locomotor phenotypes of hatchlings. Hatchlings from eggs incubated at 30 degrees C were larger (SVL, tail length and body mass) and performed better in the racetrack than their counterparts from eggs incubated at 24 degrees C. Temperatures suitable for embryonic development are relatively high in H. bowringii, primarily as a consequence of the adaptive response to warm environments in southern China.

Published

2006