Effects of Paternal Phenotype and Environmental Variability on Age and Size at Maturity in a Male Dimorphic Mite

Overview

Journal Naturwissenschaften

Specialty Science

Date 2011 Mar 10

PMID 21387173

Citations 8

Authors

Isabel M Smallegange

Affiliations

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Abstract

Investigating how the environment affects age and size at maturity of individuals is crucial to understanding how changes in the environment affect population dynamics through the biology of a species. Paternal phenotype, maternal, and offspring environment may crucially influence these traits, but to my knowledge, their combined effects have not yet been tested. Here, I found that in bulb mites (Rhizoglyphus robini), maternal nutrition, offspring nutrition, and paternal phenotype (males are fighters, able to kill other mites, or benign scramblers) interactively affected offspring age and size at maturity. The largest effect occurred when both maternal and offspring nutrition was poor: in that case offspring from fighter sires required a significantly longer development time than offspring from scrambler sires. Investigating parental effects on the relationship between age and size at maturity revealed no paternal effects, and only for females was its shape influenced by maternal nutrition. Overall, this reaction norm was nonlinear. These non-genetic intergenerational effects may play a complex, yet unexplored role in influencing population fluctuations-possibly explaining why results from field studies often do not match theoretical predictions on maternal effects on population dynamics.

Citing Articles

Developmental Plasticity and the Evolutionary Rescue of a Colonizing Mite.

Stewart K, Smallegange I Evol Dev. 2025; 27(1):e70002.

PMID: 39963932 PMC: 11833757. DOI: 10.1111/ede.70002.

No evidence for increased fitness of offspring from multigenerational effects of parental size or natal carcass size in the burying beetle Nicrophorus marginatus.

Damron E, Smith A, Jo D, Belk M PLoS One. 2021; 16(7):e0253885.

PMID: 34234367 PMC: 8263245. DOI: 10.1371/journal.pone.0253885.

Sexually selected male weapon is associated with lower inbreeding load but higher sex load in the bulb mite.

Lukasiewicz A, Niskiewicz M, Radwan J Evolution. 2020; 74(8):1851-1855.

PMID: 32519389 PMC: 7496443. DOI: 10.1111/evo.14033.

Costs of weaponry: Unarmed males sire more offspring than armed males in a male-dimorphic mite.

van den Beuken T, Duinmeijer C, Smallegange I J Evol Biol. 2018; 32(2):153-162.

PMID: 30422392 PMC: 7379726. DOI: 10.1111/jeb.13402.

Relative costs and benefits of alternative reproductive phenotypes at different temperatures - genotype-by-environment interactions in a sexually selected trait.

Plesnar-Bielak A, Skwierzynska A, Hlebowicz K, Radwan J BMC Evol Biol. 2018; 18(1):109.

PMID: 29996775 PMC: 6042425. DOI: 10.1186/s12862-018-1226-x.

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