Climate-driven population divergence in sex-determining systems

Pen, Ido; Uller, Tobias; Feldmeyer, Barbara; Harts, Anna M. F.; While, Geoffrey M.; Wapstra, Erik

doi:10.1038/nature09512

Cited by 156 publications

(227 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).…”

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“…At one extreme of the species range, mountain populations experience restricted basking opportunities and short summers, while at the other extreme, coastal populations experience warm conditions with extended basking opportunities and long summers (Atkins et al, 2007;Wapstra et al, 2009;Cadby et al, 2010b;Pen et al, 2010;Uller et al, 2011). This difference in climate has resulted in considerable variation in life-history and reproductive traits between populations, reflecting a combination of phenotypic and genotypic responses to environmental variation (Wapstra et al, 1999;Melville and Swain, 2000;Wapstra et al, 2009;Cadby et al, 2010b;Wapstra et al, 2010;Pen et al, 2010;Uller et al, 2011). For example, females from cold, mountain areas are typically larger, take longer to reach maturity, and give birth 2-4 weeks later than those from warm, coastal areas Pen et al, 2010).…”

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“…This difference in climate has resulted in considerable variation in life-history and reproductive traits between populations, reflecting a combination of phenotypic and genotypic responses to environmental variation (Wapstra et al, 1999;Melville and Swain, 2000;Wapstra et al, 2009;Cadby et al, 2010b;Wapstra et al, 2010;Pen et al, 2010;Uller et al, 2011). For example, females from cold, mountain areas are typically larger, take longer to reach maturity, and give birth 2-4 weeks later than those from warm, coastal areas Pen et al, 2010).Using a reciprocal transplant experiment, we tested whether maternal basking behaviour can increase offspring fitness through maternal pre-programming or by buffering differences in basking opportunities. We further tested whether mothers from populations that have evolved in different thermal environments (i.e.…”

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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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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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“…Такого рода механизм ведет к росту числа самок, что в критических условиях способствует быстрому восстановлению численности популяции в перспективе. Также вариация вторичного соотношения полов может происходить вследствие влияния факторов среды, например у некоторых видов черепах, ящериц, крокодилов и змей пол потомства зависит от температуры инкубации яиц [25]. Другим примером являются насекомые (пчелы и другие перепончатокрылые, червецы, клещи), у которых вторичное соотношение полов определяется соотношением полов в размножающейся части популяции, так как из оплодотворенных яиц развиваются самки (или самки и самцы), а из неоплодотворенных только самцы.…”

Section: влияние вторичного соотношения половunclassified

The Sex Ratio Influence on the Dynamics of Structured Population

Ревуцкая¹,

Revutskaya²

2017

Math.Biol.Bioinf.

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This article develops and investigates a simple mathematical model that simultaneously studies influence of age and sex structure formation and sex ratio on demographic and evolutionary processes. We assume fertility depends on the population sex ratio and is described by the modified harmonic mating function with switching. The population size is regulated by limiting the juvenile survival rate when immature individual survival decreases with growth of sex-age class sizes. We received the conditions for sustainable development of the population in the parametric space of the model. The relationships between the group sizes of newborns and mature females and males are analyzed. The growth of the harem size is shown to result in higher the newborn group size in case of female numerical dominance. The offspring number demonstrates the same tendency as the sex group with the smallest number in the cases of higher female survival rate and higher newborn female proportion, and lower male survival rate. Excessive asymmetry of the sexes is shown to lead to a decrease in reproduction of polygamous species. Complex scenarios of population dynamics are studied. Transitions between different dynamic modes are caused by changes in both population parameters determining birth, survival and self-regulation rates, and the formation process of the mating pairs. The model parametric space is shown to have multistability areas in which the initial condition variation can lead to the realization of one dynamic mode or the other. The multistability is the result of both the system nonlinearity and the complex bifurcation mechanisms, and the changing pair formation principle. Consequently, even a small variation of the current population size changing the sex ratio complicates the population behavior and can give significant change in the dynamic mode observed.

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“…For example, it is well known that weather factors modify the outcome of experiments, and they may even shape the genetic composition of populations [8], yet it is rare for experiments to systematically include different weather alternatives. Accordingly, experimental results in ecology usually contain a huge amount of quantitative phenotypic variation among and within species and locations, which often makes the theoretical interpretation of many experimental results difficult.…”

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Multi-objective optimization shapes ecological variation

et al. 2011

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Ecological systems contain a huge amount of quantitative variation between and within species and locations, which makes it difficult to obtain unambiguous verification of theoretical predictions. Ordinary experiments consider just a few explanatory factors and are prone to providing oversimplified answers because they ignore the complexity of the factors that underlie variation. We used multi-objective optimization (MO) for a mechanistic analysis of the potential ecological and evolutionary causes and consequences of variation in the life-history traits of a species of moth. Optimal life-history solutions were sought for environmental conditions where different life stages of the moth were subject to predation and other known fitness-reducing factors in a manner that was dependent on the duration of these life stages and on variable mortality rates. We found that multi-objective optimal solutions to these conditions that the moths regularly experience explained most of the life-history variation within this species. Our results demonstrate that variation can have a causal interpretation even for organisms under steady conditions. The results suggest that weather and species interactions can act as underlying causes of variation, and MO acts as a corresponding adaptive mechanism that maintains variation in the traits of organisms.

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Climate-driven population divergence in sex-determining systems

Cited by 156 publications

References 24 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

The Sex Ratio Influence on the Dynamics of Structured Population

Multi-objective optimization shapes ecological variation

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