Evolution of pre- and post-copulatory traits in female Drosophila melanogaster as a correlated response to selection for resistance to cold stress

Singh, K. P.; Prasad, Nagaraj Guru

doi:10.1016/j.jinsphys.2016.06.005

Cited by 12 publications

(8 citation statements)

References 48 publications

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“…It is a known fact that the flies in our population need to produce active gametes and mate in order to increase egg viability post cold shock. Accordingly, the FSB populations mate more often than the FCB populations post cold-shock (Singh et al, 2015, 2016, Singh and Prasad, 2016). Courtship and mating carry a substantial cost to both males and females (Wedell, 2010).…”

Section: Discussionmentioning

confidence: 99%

“…Thus, temperature shock can affect various important life-history traits (Huey and Berrigan, 2001, Hochachka and Somero, 2002, Sinclair et al, 2003, Angilletta, 2009). Deviation from ambient temperature (where absolute fitness of an organism is maximum) drastically affects various life-history and related traits of insects (Lee and Denlinger, 1991, Voituron et al, 2002, Hoffmann et al, 2003) such as fecundity, male fertility, lifespan (Denlinger and Yocum, 1998, Bubliy and Loeschcke, 2005, Rohmer et al, 2004, reviewed in Hance, 2007, Lieshout et al, 2013, Nguyen et al, 2013, Singh et al, 2016), reproduction (Singh et al, 2016, Singh and Prasad, 2016), mating ability (Singh et al, 2015), development time (Trotta et al, 2006, Austin and Moehring, 2013) and motility (Angilletta et al, 2002)…”

Section: Introductionmentioning

confidence: 99%

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Evolution of reproductive traits have no apparent life-history associated cost in populations ofDrosophila melanogasterselected for cold shock resistance

Singh

Prasad

2020

Preprint

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AbstractIn insect species like Drosophila melanogaster, the ability to evolve greater resistance or evolution of certain traits under specific environmental conditions leads to energy trade-offs with other important life-history traits. A number of studies from multiple fields have documented the life-history associated cost. However, no known studies have assessed the life-history associated cost with evolved reproductive traits and increase egg viability in cold shock selected population. To explore this, we used replicate populations of D. melanogaster that have evolved reproductive traits and egg viability in response to increased resistance to non lethal cold shock. To assess life-history cost; we measured longevity, life time fecundity, Larvae to adults development time, and larvae to adults survival. We found that there were no significant differences in longevity, life time fecundity, larvae to adults survival, and male body weight between the selected and control populations. However, selected populations have significantly longer pre adults developmental time compared to their control population. Females from the selected populations were bigger in size compared to the control populations. These findings suggest that there is no life-history cost associated with the evolution of greater resistance in the aspect of faster recovery of egg viability and reproductive traits post cold-shock. It quite possible the cost of the evolution of reproductive traits and egg viability in response to cold shock resistant is paid in terms of reduced resistance to other stresses

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evolution of reproductive traits have no apparent life-history associated cost in populations ofDrosophila melanogasterselected for cold shock resistance

Singh

Prasad

2020

Preprint

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“…In holometabolous insects like fruit flies, juvenile (larva and pupa) survival constitutes one of the most important components of fitness (Prasad & Joshi, ). In addition, juvenile ecology may also have a major effect on the life‐history and fitness components of the adult stage (Heat shock: Khazaeli, Tatar, Pletcher, & Curtsinger, ; cold shock: Singh, Kochar, & Prasad, ; Singh & Prasad, ; crowding: Joshi & Mueller, ; Sarangi et al, ; Shenoi et al, ). The observed paternal effect on juvenile competitive fitness therefore is extremely consequential.…”

Section: Discussionmentioning

confidence: 99%

Intergenerational paternal effect of adult density inDrosophila melanogaster

Dasgupta

Sarkar

Das

et al. 2019

Ecology and Evolution

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Notwithstanding recent evidences, paternal environment is thought to be a potential but unlikely source of fitness variation that can affect trait evolution. Here we studied intergenerational effects of males’ exposure to varying adult density in Drosophila melanogasterlaboratory populations. We held sires at normal (N), medium (M) and high (H) adult densities for 2 days before allowing them to mate with virgin females. This treatment did not introduce selection through differential mortality. Further, we randomly paired males and females and allowed a single round of mating between the sires and the dams. We then collected eggs from the dams and measured the egg size. Finally, we investigated the effect of the paternal treatment on juvenile and adult (male) fitness components. We found a significant treatment effect on juvenile competitive ability where the progeny sired by the H‐males had higher competitive ability. Since we did not find the treatment to affect egg size, this effect is unlikely to be mediated through variation in female provisioning. Male fitness components were also found to have a significant treatment effect: M‐sons had lower dry weight at eclosion, higher mating latency, and lower competitive mating success. While being the first study to show both adaptive and non‐adaptive effect of the paternal density in Drosophila, our results highlight the importance of considering paternal environment as important source of fitness variation.

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“…Maintenance and derivation details of the experimental populations (FSB and FCB) are described previously [1,2,3,4,5] Experimental flies were generated from standardized flies, as explained previously in [1,2]. Briefly, flies from both FSB and FCB regimes were not subjected to any selection for one generation.…”

Section: Methodsmentioning

confidence: 99%

“…Therefore, insects have evolved a number of mechanisms to protect themselves when subjected to external environmental fluctuations. Thermal stress (hot or cold) is known to affect multiple traits, including fecundity, egg viability, mating ability, and pre- and post-copulatory traits, and it also reportedly affects the physiology of the insect (reviewed by [1,2,3,4,5]. A number of studies suggested that thermal stress causes damage to various molecules like proteins and lipids and damage to cell membranes, protein transport machinery, etc [6,7,8,9].…”

Section: Introductionmentioning

confidence: 99%

Cold stress upregulates the expression of heat shock and Frost genes, but the evolution of cold stress resistance is apparently not mediated through either heat shock or Frost genes in the cold stress selected populations of Drosophila melanogaster

Singh

Prasad

2022

Preprint

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The ability to thermal adaptation can involve altering the reproductive traits and physiologic response. In insects, it reported that the higher levels expression of Heat shock proteins (Hsps) and Frost (Fst) genes during the recovery phase of cold shock and suggested higher levels of expression of these genes help repair the injury caused by cold stress. The changes in the lipids, trehalose, and glycogen can also protect from cold stress. Therefore, we examined the levels of lipid and expression patterns of Hsps and Frost genes under cold stress or the benign condition in the populations of Drosophila melanogaster selected for increased resistance to cold shock. We observed the significant up-regulation of Hsp22, Hsp23, Hsp40, Hsp68and Fst genes in both the FSB and FCB populations during the recovery phase post-cold stress compared to the no shock condition. However, we did not find a significant change in the transcript levels of these genes between FSB and FCB under both the cold stress or under the benign condition. Additionally, we noticed the higher levels of total lipid levels in the females cold shock treated compared to no shock treated females. Suggesting that cold selected populations have different mechanisms to sustain cold stress.

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Evolution of pre- and post-copulatory traits in female Drosophila melanogaster as a correlated response to selection for resistance to cold stress

Cited by 12 publications

References 48 publications

Evolution of reproductive traits have no apparent life-history associated cost in populations ofDrosophila melanogasterselected for cold shock resistance

Evolution of reproductive traits have no apparent life-history associated cost in populations ofDrosophila melanogasterselected for cold shock resistance

Intergenerational paternal effect of adult density inDrosophila melanogaster

Cold stress upregulates the expression of heat shock and Frost genes, but the evolution of cold stress resistance is apparently not mediated through either heat shock or Frost genes in the cold stress selected populations of Drosophila melanogaster

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