Potentially adaptive effects of maternal nutrition during gestation on offspring phenotype of a viviparous reptile

Cadby, C; Jones, Susan; Wapstra, Erik

doi:10.1242/jeb.057349

Cited by 22 publications

(20 citation statements)

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“…Maternal thermoregulation during gestation is thought to allow the maintenance of stable developmental temperatures (Shine, 1995) and/or to provide a buffer to embryos from unsuitable developmental temperatures (Kearney et al, 2009) as well as potentially provide fitness benefits to females through, for example, reduced basking length and the costs associated with reproduction (Schwarzkopf and Shine, 1991;Schwarzkopf and Andrews, 2012a;Schwarzkopf and Andrews, 2012b;Shine, 2012). Maternal manipulation of the offspring environment may also potentially allow females to 'pre-programme' offspring phenotype to better suit the environment the offspring will encounter (or be born into) (Marshall and Uller, 2007;Cadby et al, 2010a;Pen et al, 2010;Cadby et al, 2011;Uller et al, 2011). Maternal 'pre-programming' to future developmental temperatures could occur through maternal manipulation of offspring phenotype to fit the predicted environment and/or through embryonic acclimation to the thermal conditions experienced during development (Seebacher, 2005).…”

Section: Introductionmentioning

confidence: 99%

Geographical differences in maternal basking behaviour and offspring growth rate in a climatically widespread viviparous reptile

Cadby

Jones

Wapstra

2013

Journal of Experimental Biology

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In reptiles, the thermal environment during embryonic development affects offspring phenotypic traits and potentially offspring fitness. In viviparous species, mothers can potentially manipulate the embryonic thermal environment through their basking behaviour and, thus, may be able to manipulate offspring phenotype and increase offspring fitness. One way in which mothers can maximise offspring phenotype (and thus potentially affect offspring fitness) is by fine-tuning their basking behaviour to the environment in order to buffer the embryo from deleterious developmental temperatures. In widespread species, it is unclear whether populations that have evolved under different climatic conditions will exhibit different maternal behaviours and/or thermal effects on offspring phenotype. To test this, we provided extended or reduced basking opportunity to gravid spotted skinks (Niveoscincus ocellatus) and their offspring from two populations at the climatic extremes of the species' distribution. Gravid females finetuned their basking behaviour to the basking opportunity, which allowed them to buffer their embryos from potentially negative thermal effects. This fine-tuning of female basking behaviour appears to have led to the expression of geographical differences in basking behaviour, with females from the cold alpine regions being more opportunistic in their basking behaviour than females from the warmer regions. However, those differences in maternal behaviour did not preclude the evolution of geographic differences in thermal effects: offspring growth varied between populations, potentially suggesting local adaptation to basking conditions. Our results demonstrate that maternal effects and phenotypic plasticity can play a significant role in allowing species to cope in changing environmental conditions, which is particularly relevant in the context of climate change. KEY WORDS: Maternal effect, Maternal buffering, Climate change, Phenotypic plasticity, Population, Spotted skink INTRODUCTIONMaternal effects are the interactions between a mother and her offspring that affect offspring phenotype independently of the mother's genetic contribution. They have been described as being highly dynamic, and they vary in direction and strength depending on the environment or the context (Uller, 2008;Plaistow and Benton, 2009 et al., 2011). However, perhaps more overlooked is the fact that they can also vary between ultimate contexts (i.e. the environmental conditions under which they have evolved) and may in some cases become locally adapted (Ghalambor et al., 2007;Hof et al., 2011;Hoffmann and Sgrò, 2011). Typically, we would expect to see local adaptation in maternal effects in widespread species in which the immediate maternal environment differs consistently between populations (e.g. Räsänen et al., 2005;Doody et al., 2006;Doody, 2009).In reptiles, the temperature experienced by embryos during development can affect numerous phenotypic traits such as date of birth, size at birth, sex, locomotor performance or beh...

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Section: Introductionmentioning

confidence: 99%

Geographical differences in maternal basking behaviour and offspring growth rate in a climatically widespread viviparous reptile

Cadby

Jones

Wapstra

2013

Journal of Experimental Biology

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“…This suggests that P. entrecasteauxii may be able to simultaneously maintain their own body condition and allocate energy for embryonic development during gestation (ITONAGA et al 2012a; also see CADBY et al 2011). Indeed, WAPSTRA & SWAIN (2001 found that abdominal fat body mass in a sympatric viviparous reptile, N. ocellatus, was higher at the end of pregnancy than in early and mid pregnancy, despite the fact that they also provide relatively large placental contributions to embryonic nutrition (THOMPSON et al 2000).…”

Section: Discussionmentioning

confidence: 96%

Interpopulational variation in costs of reproduction related to pregnancy in a viviparous lizard

Itonaga

Edwards

Wapstra

et al. 2012

Ethology Ecology & Evolution

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Interpopulational variation in reproductive costs may affect variation in life history traits including reproductive investment (i.e. clutch mass relative to either maternal body mass or length). While the relationships between reproductive investment and costs of reproduction, especially costs to mobility, have been well studied in squamate reptiles, how these costs relate to investment and explain patterns within and between populations is not always straightforward. In the present study, we examined the relationship between reproductive investment and costs of reproduction (gravid and postpartum sprint speeds and maternal postpartum body condition) in two populations of a viviparous skink, Pseudemoia entrecasteauxii living in different habitat types. We found that costs of reproduction (i.e. impact on gravid and postpartum sprint speeds) depended on the interaction between relative reproductive burden (RRB) and population. There was no link between relative clutch mass (RCM) and maternal sprint speeds. Maternal postpartum body condition was not related to either RRB or RCM for either population. Gravid females living in the open habitat population showed significantly slower sprint speed compared with the same females immediately postparturition, and other gravid females living in a closed habitat population. Such females are likely to experience a higher cost of reproduction in terms of changes in sprint speed as well as exposure to predators and may show a behavioural shift to crypsis in order to compensate for locomotor impairment and to reduce the risk of predation. We suggest that factors which relate to costs of reproduction (i.e. sprint speeds) are complex and may involve multiple factors such as reproductive investment and habitat characteristics.

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“…Matrotrophy allows maternal effects on offspring phenotype to respond to more than one environmental factor [20], [22], in this case basking opportunity and/or food intake during gestation. Trade-offs between fitness costs and benefits related to maternal net energy availability during gestation may have been an important determinant for the evolution of matrotrophy in P. entrecasteauxii .…”

Section: Discussionmentioning

confidence: 99%

“…This model developed for fish has largely been ignored in studies of the evolution of viviparity and subsequent evolution of matrotrophy in reptiles. Past studies generally concentrated on the key selective force of maternal effects mediated through temperature [11], however maternal food availability may be important [20]–[22]. This is because in reptiles net energy gain is strongly associated with the interaction between body temperature and food intake [23], [24].…”

Section: Introductionmentioning

confidence: 99%

“…Matrotrophy may benefit offspring development (and fitness) when maternal net energy is high during gestation [19], [31], by enhancing fitness-related offspring phenotypic traits such as date of birth, body size, performance ability and amount of fat reserves [5], [20], [32]–[34]. Conversely, matrotrophy may be costly to offspring development (and fitness) when maternal net energy is low during gestation [35], [36].…”

Section: Introductionmentioning

confidence: 99%

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Effects of Maternal Basking and Food Quantity during Gestation Provide Evidence for the Selective Advantage of Matrotrophy in a Viviparous Lizard

2012

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The evolution of matrotrophy (i.e., direct supply of nutrients by the mother during gestation) may be associated with high maternal energy availability during gestation. However, we lack knowledge about the selective advantages of matrotrophic viviparity (live-bearing) in reptiles. In reptiles, the interaction between body temperature and food intake affect maternal net energy gain. In the present study, we examined the effects of basking and food availability (2 by 2 factorial design) during gestation on offspring phenotype in a matrotrophic viviparous lizard (Pseudemoia entrecasteauxii). Subsequently, we investigated if the maternal effects were context-dependent using offspring growth rate as an indicator of the adaptive significance of matrotrophy. Offspring were exposed either to the same thermal conditions as their mothers experienced or to thermal conditions different from those experienced by their mothers. We provide the first evidence that an interaction between maternal thermal and maternal food conditions during gestation strongly affects offspring phenotype, including date of birth, body size and performance ability, which affect offspring fitness. Offspring growth rate was dependent on offspring thermal conditions, but was not influenced by maternal effects or offspring sex. Matrotrophic viviparity provided gravid females with the means to enhance offspring fitness through greater energetic input to offspring when conditions allowed it (i.e., extended basking opportunity with high food availability). Therefore, we suggest that selective advantages of matrotrophic viviparity in P. entrecasteauxii may be associated with high maternal energy availability during gestation.

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Potentially adaptive effects of maternal nutrition during gestation on offspring phenotype of a viviparous reptile

Cited by 22 publications

References 60 publications

Geographical differences in maternal basking behaviour and offspring growth rate in a climatically widespread viviparous reptile

Geographical differences in maternal basking behaviour and offspring growth rate in a climatically widespread viviparous reptile

Interpopulational variation in costs of reproduction related to pregnancy in a viviparous lizard

Effects of Maternal Basking and Food Quantity during Gestation Provide Evidence for the Selective Advantage of Matrotrophy in a Viviparous Lizard

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