Effects of polyploidy and reproductive mode on life history trait expression

Larkin, Katelyn; Tucci, Claire F.; Neiman, Maurine

doi:10.1002/ece3.1934

Cited by 35 publications

(47 citation statements)

References 80 publications

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“…A stoichiometric perspective leads us to speculate that genome size and ploidal level are important but often ignored functional traits. For example, very large genomes in plants could be selected against in many ecosystems due to their higher demands for N and P. In animals, there may also be selection against larger genomes due to the reduced fitness associated with relatively low developmental rates and the relatively high demand for P invested in RNA (as much as 50-80% of cellular P) for protein synthesis (Hessen and Persson, 2009;Neiman et al, 2013a, but see Larkin et al, 2016). A definitive answer to the question of the extent to which larger genome sizes and higher ploidal levels translate into N and P costs will require characterization of organismlevel consequences.…”

Section: Future Research Prioritiesmentioning

confidence: 99%

Impacts of Nitrogen and Phosphorus: From Genomes to Natural Ecosystems and Agriculture

et al. 2017

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Nitrogen (N) and/or phosphorus (P) availability can limit growth of primary producers across most of the world's aquatic and terrestrial ecosystems. These constraints are commonly overcome in agriculture by applying fertilizers to improve yields. However, excessive anthropogenic N and P inputs impact natural environments and have far-reaching ecological and evolutionary consequences, from individual species up to entire ecosystems. The extent to which global N and P cycles have been perturbed over the past century can be seen as a global fertilization experiment with significant redistribution of nutrients across different ecosystems. Here we explore the effects of N and P availability on stoichiometry and genomic traits of organisms, which, in turn, can influence: (i) plant and animal abundances; (ii) trophic interactions and population dynamics; and (iii) ecosystem dynamics and productivity of agricultural crops. We articulate research priorities for a deeper understanding of how bioavailable N and P move through the environment and exert their ultimate impacts on biodiversity and ecosystem services.

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Section: Future Research Prioritiesmentioning

confidence: 99%

Impacts of Nitrogen and Phosphorus: From Genomes to Natural Ecosystems and Agriculture

et al. 2017

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“…Females brood their offspring and give birth to crawl-away juveniles. In laboratory conditions, the snails reach maturity in 4-12 months (Winterbourn 1970;Larkin et al 2016). In natural populations, juveniles born in the spring may reach maturity in late summer, and before the next summer season, if born later in the season.…”

Section: Study Systemmentioning

confidence: 99%

Parasite resistance predicts fitness better than fecundity in a natural population of the freshwater snailPotamopyrgus antipodarum

et al. 2019

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The cost of males should give asexual females an advantage when in competition with sexual females. In addition, high‐fecundity asexual genotypes should have an advantage over low‐fecundity clones, leading to reduction in clonal diversity over time. To evaluate fitness components in a natural population, we measured the annual reproductive rate of individual sexual and asexual female Potamopyrgus antipodarum, a New Zealand freshwater snail, in field enclosures that excluded competitors and predators. We used allozyme genotyping to assign the asexual females to particular clonal genotypes. We found that the most fecund asexual clones had similar or higher fecundity as the top 10% of sexual families, suggesting that fecundity selection, even without the cost of males, would lead to replacement of the sexual population by clones. Consequently, we expected that the clones with the highest fecundity would dominate the natural population. Counter to this prediction, we found that high annual reproductive rates did not correlate with the frequency of clones in the natural population. When we exposed the same clones to parasites in the laboratory, we found that resistance to infection was positively correlated with the frequency of clones in the population. The correlation between fecundity and parasite resistance was negative, suggesting a trade‐off between these two traits. Our results thus suggest that parasite resistance is an important short‐term predictor of the success of asexual P. antipodarum in this population.

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“…Polyploidy is an important evolutionary phenomenon that causes the wholegenome multiplication and a consequent genomic redundancy. Both higher and lower growth rates are expected in polyploid species, based on a positive correlation with the major RNA content, and a slower metabolic rate and longer cell cycle duration, respectively (Larkin, Tucci, & Neiman, 2016;Otto, 2007). In a large-scale study of evolution of genome size in amphibians, Liedtke, Gower, Wilkinson, and Gomez-Mestre (2018) found that more rapid growth rates are associated with smaller genomes.…”

Section: Last the Relationship Between Ploidy Levels And Developmentalmentioning

confidence: 99%

Embryonic ontogeny of three species of Horned Frogs, with a review of early development in Ceratophryidae

Grosso

Baldo

Costa

et al. 2019

Journal of Morphology

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Horned Frogs of the family Ceratophryidae are conspicuous anurans represented by three endemic South American genera. Most ceratophryids inhabit semiarid environments, but three species of Ceratophrys occupy tropical or temperate humid areas. Several morphological and behavioral characters of larvae and adults are conserved across the family. Based on examination of specimens and accounts in the literature, the embryonic development of C. ornata, C. cranwelli, and the monotypic genus Chacophrys are described and compared with that of species of Lepidobatrachus. Ceratophryid embryos share a suite of morphological features and heterochronic shifts during development. Most features, such as gill structure, ciliation, early hatching, and precocious differentiation of the gut and hind limbs, are shared by all the species regardless the differences in the habitats that occupy. This is consistent with previous observations of some adult characters, and likely supports the hypothesis of an early diversification of ceratophryids in semiarid environments. Other embryonic features, such as the morphology and ontogeny of the oral disc and digestive tract, are correlated with larval feeding habits and vary within the family. The evolutionary and ecological significance of some conserved characters (e.g., gastrulation pattern, Type‐A adhesive glands) and other taxon‐specific features (e.g., nasal appendix) remain to be explored in the group.

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Effects of polyploidy and reproductive mode on life history trait expression

Cited by 35 publications

References 80 publications

Impacts of Nitrogen and Phosphorus: From Genomes to Natural Ecosystems and Agriculture

Impacts of Nitrogen and Phosphorus: From Genomes to Natural Ecosystems and Agriculture

Parasite resistance predicts fitness better than fecundity in a natural population of the freshwater snailPotamopyrgus antipodarum

Embryonic ontogeny of three species of Horned Frogs, with a review of early development in Ceratophryidae

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