Tapio van Ooik scite author profile

Abstract. Population genetic theory predicts that in small populations, random genetic drift will fix and accumulate slightly deleterious mutations, resulting in reduced reproductive output. This genetic load due to random drift (i.e., drift load) can increase the extinction risk of small populations. We studied the relationship between genetic variability (indicator of past population size) and reproductive output in eight isolated, natural populations of the hermaphroditic snail Lymnaea stagnalis. In a common laboratory environment, snails from populations with the lowest genetic variability mature slower and have lower fecundity than snails from genetically more variable populations. This result suggests that past small population size has resulted in increased drift load, as predicted. The relationship between genetic variability and reproductive output is independent of the amount of nonrandom mating within populations. However, reproductive output and the current density of snails in the populations were not correlated. Instead, data from the natural populations suggest that trematode parasites may determine, at least in part, population densities of the snails.

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The effect of overwintering temperature on the body energy reserves and phenoloxidase activity of bumblebee Bombus lucorum queens

Vesterlund

Lilley

Ooik

et al. 2014

Insect. Soc.

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Diet-mediated effects of heavy metal pollution on growth and immune response in the geometrid moth Epirrita autumnata

Ooik

Rantala

Saloniemi

2007

Environmental Pollution

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Direct effects of heavy metal pollution on the immune function of a geometrid moth, Epirrita autumnata

2008

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A short‐lived herbivore on a long‐lived host: tree resistance to herbivory depends on leaf age

Ruusila¹,

Morin²,

Ooik

et al. 2004

Oikos

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A short-lived herbivore on a long-lived host: tree resistance to herbivory depends on leaf age. Á/ Oikos 108: 99 Á/104.Short-lived insect herbivores should be able to adapt to the resistance mechanisms of their long-lived woody hosts because the life span of a single host will encompass numerous generations of herbivores. However, adaptation may be slowed down if host genotypes can create, in a single genotype, such large phenotypic variation in traits relevant for the herbivore that it matches variance among host genotypes. We tested this hypothesis by measuring leaf consumption by, and growth of, half-sibs of the geometrid moth Epirrita autumnata on individual birch trees, during three instars. The instar )/tree interaction, rather than tree identity alone, was a significant variance component for both consumption and growth, indicating that different larval instars ranked individual trees differently. Both consumption and growth varied most between the 3rd and the later (4th and 5th) instars, coinciding with rapid seasonal changes in numerous nutritive and phenolic traits of maturing leaves. Thus, developmental variance in the leaf quality of individual trees may reduce the likelihood of E. autumnata genotypes adapting to the defenses of their host trees. We did not find evidence of in the ability of different half-sibs to utilize individual trees or leaf stages, indicating that E. autumnata larvae are generalists over a wide variety of host traits.

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Tapio van Ooik

Genetic Variability and Drift Load in Populations of an Aquatic Snail

The effect of overwintering temperature on the body energy reserves and phenoloxidase activity of bumblebee Bombus lucorum queens

Diet-mediated effects of heavy metal pollution on growth and immune response in the geometrid moth Epirrita autumnata

Direct effects of heavy metal pollution on the immune function of a geometrid moth, Epirrita autumnata

A short‐lived herbivore on a long‐lived host: tree resistance to herbivory depends on leaf age

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