Thirty-four years of climatic selection in the land snail Theba pisana

Johnson, M. S.

doi:10.1038/hdy.2010.114

Cited by 35 publications

(52 citation statements)

References 35 publications

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“…Asterisks show significant differences between the colour categories within an exposure group: 0.01< p≤0.05 (*), 0.001<p≤0.01 (**); p≤0.001 (***) derbentina populations change their composition of colour morphs during the years and how different local temperatures may influence the morph frequencies within a population of these snails. However, the phenomenon of morph frequency fluctuations throughout the years has been reported for other helicoid land snails before (Cowie 1992;Johnson 2011;Silvertown et al 2011). As summarized by Ozgo and Schilthuizen (2012), the shell colour of Cepaea nemoralis was found to be associated with a gene locus coding for the different background shell colours in this species, while the banding was found to be associated with another locus, linked to the colour coding one.…”

Section: Hsp70 Analysismentioning

confidence: 95%

Hsp70 and lipid peroxide levels following heat stress in Xeropicta derbentina (Krynicki 1836) (Gastropoda, Pulmonata) with regard to different colour morphs

Dieterich

Troschinski

Schwarz

et al. 2015

Cell Stress and Chaperones

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Terrestrial snails which live under dry and hot conditions need efficient mechanisms of adaptation to counteract the problems of desiccation and over-heating. A profoundly heat tolerant snail species is the Mediterranean Xeropicta derbentina, exhibiting different shell colour morphs ranging from pale white to darkly banded. Considering that dark-pigmented snails are believed to have a disadvantage due to faster heating, we investigated possible differences in the stress markers Hsp70 and lipid peroxideation between four pre-defined colour morphs which were exposed to different temperatures for eight hours. The highest Hsp70 levels were observed in response to 38-40°C. Levels decreased when this temperature was exceeded. Snails of a pre-defined colour category 3 (with a large black band at the umbilicus side of the shell) showed the most prominent Hsp70 response. Lipid peroxideation levels also showed a maximum at 38°C but displayed a second peak at rather high temperatures at which the Hsp70 level already had decreased (45-48°C). Particularly pure white snails (category 1) and the most pigmented ones (category 4) were found to have different levels of lipid peroxidation at 38°C and 45°C compared to the other morphs. A hypothesis involving a combined two-phase defence mechanism, to which both, the Hsp70 protection system and the antioxidant defence system, may contribute, is discussed.

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Section: Hsp70 Analysismentioning

confidence: 95%

Hsp70 and lipid peroxide levels following heat stress in Xeropicta derbentina (Krynicki 1836) (Gastropoda, Pulmonata) with regard to different colour morphs

Dieterich

Troschinski

Schwarz

et al. 2015

Cell Stress and Chaperones

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“…Various authors have investigated in respect to how phenotypic diversity in polymorphic snail populations are influenced by genetic traits and environmental conditions (Jones et al 1982;Baur 1988;Baur and Raboud 1988;Cowie 1990;Johnson 2011;Di Lellis et al 2012;Köhler et al 2013). Shell colour and pattern are highly variable in pulmonate snail species such as Xeropicta derbentina (Krynicki, 1836) and Theba pisana (Müller, 1774) (Johnson 1981;Cowie 1990;Köhler et al 2009).…”

Section: Introductionmentioning

confidence: 99%

“…This might be particularly true for populations subjected to strong bottle-necks caused by, for example, high ambient temperatures. In T. pisana, high temperatures emerged either as a selective force or an epigenetically acting component of the environment (Johnson 2011(Johnson , 2012Köhler et al 2013): organisms possess various mechanisms to deal with high temperatures.…”

Section: Introductionmentioning

confidence: 99%

“…Several gene loci primarily control shell colour, presence or absence of shell banding, intensity of pigmentation, et cetera (Jones et al 1982;Cowie 1984). Habitat structure (such as shaded/exposed) and ambient temperature influence the composition of phenotypes in snail populations (Johnson 2011;Köhler et al 2013). These conditions, in turn, might also be reflected in their population structure (as inferred from their genotypic diversity).…”

Section: Introductionmentioning

confidence: 99%

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Phenotypic diversity, population structure and stress protein-based capacitoring in populations of Xeropicta derbentina, a heat-tolerant land snail species

Lellis

Sereda

Geißler

et al. 2014

Cell Stress and Chaperones

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The shell colour of many pulmonate land snail species is highly diverse. Besides a genetic basis, environmentally triggered epigenetic mechanisms including stress proteins as evolutionary capacitors are thought to influence such phenotypic diversity. In this study, we investigated the relationship of stress protein (Hsp70) levels with temperature stress tolerance, population structure and phenotypic diversity within and among different populations of a xerophilic Mediterranean snail species (Xeropicta derbentina). Hsp70 levels varied considerably among populations, and were significantly associated with shell colour diversity: individuals in populations exhibiting low diversity expressed higher Hsp70 levels both constitutively and under heat stress than those of phenotypically diverse populations. In contrast, population structure (cytochrome c oxidase subunit I gene) did not correlate with phenotypic diversity. However, genetic parameters (both within and among population differences) were able to explain variation in Hsp70 induction at elevated but nonpathologic temperatures. Our observation that (1) population structure had a high explanatory potential for Hsp70 induction and that (2) Hsp70 levels, in turn, correlated with phenotypic diversity while (3) population structure and phenotypic diversity failed to correlate provides empirical evidence for Hsp70 to act as a mediator between genotypic variation and phenotype and thus for chaperone-driven evolutionary capacitance in natural populations.

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“…The land snail Theba pisana is genetically polymorphic for shell banding, and variation of morph frequencies indicates adaptation to local climate: snails with paler, unbanded shells are favoured in exposed habitats (Johnson, 1980(Johnson, , 2011aHeller, 1981) and in hot, sunny summers (Johnson, 2011a), and they select more exposed aestivation sites in summer than their banded counterparts (Johnson, 1981;Hazel and Johnson, 1990). The banding polymorphism is complex, and effectively unbanded (EUB) shells may be either genetically unbanded or banded with genetic suppression of bands on the upper portion of the shell (Cain, 1984;Cowie, 1984).…”

Section: Introductionmentioning

confidence: 99%

Epistasis, phenotypic disequilibrium and contrasting associations with climate in the land snail Theba pisana

Johnson

2011

Heredity

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Hotter conditions favour effectively unbanded (EUB) shells in the snail Theba pisana. T. pisana is also polymorphic for colour of the shell's apex, determined by a pair of alleles at a locus linked to the banding locus. Apex colour is epistatic to shell banding, such that banded snails with a dark apex have darker bands. Annual censuses over 22 years across an ecotone between a sheltered Acacia thicket and open dune vegetation showed a persistent association of both EUB shells and pale apex with the Open habitat. The parallel variation was due partly to strong phenotypic disequilibrium, as the combination of EUB with dark apex was rare. Nevertheless, in fully banded shells the frequency of pale apex was also higher in the Open habitat, confirming independent, parallel associations of the two contributors to paleness. Within the Acacia habitat, temporal variation of the frequencies of banding morphs was much greater than for apex colour, and EUB shells were associated with hotter summers. Consistent with its primary effect only on the very small snails, apex colour did not vary with summer conditions, but instead, higher frequencies of pale apices were associated with sunnier winters. The intensity of selection was lower on apex colour than shell banding, due partly to the constraint of phenotypic disequilibrium. The shell traits in T. pisana are an example of complex responses to climatic variation, in which phenotypic disequilibrium constrains evolution of apex colour, but separate mechanisms of selection are evident.

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Thirty-four years of climatic selection in the land snail Theba pisana

Cited by 35 publications

References 35 publications

Hsp70 and lipid peroxide levels following heat stress in Xeropicta derbentina (Krynicki 1836) (Gastropoda, Pulmonata) with regard to different colour morphs

Hsp70 and lipid peroxide levels following heat stress in Xeropicta derbentina (Krynicki 1836) (Gastropoda, Pulmonata) with regard to different colour morphs

Phenotypic diversity, population structure and stress protein-based capacitoring in populations of Xeropicta derbentina, a heat-tolerant land snail species

Epistasis, phenotypic disequilibrium and contrasting associations with climate in the land snail Theba pisana

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