effect of inbreeding on defence against multiple enemies in Datura stramonium

• Published in: Journal of evolutionary biology Vol. 24; no. 3; pp. 518 - 530
• Main Authors: BELLO-BEDOY, R, NÚÑEZ-FARFÁN, J
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.03.2011
• Subjects: Animals; Datura stramonium; Datura stramonium - genetics; Defense mechanisms; depression; Disease resistance; Feeding Behavior - physiology; Fitness; Flowers; Flowers & plants; Fruits; Genetic diversity; Genetic Fitness; Genotype & phenotype; Growth rate; Herbivores; Herbivory; Inbreeding; Inbreeding depression; Infection; Insecticides; Natural enemies; outbreeding depression; Pathogens; Plant biology; Plant diseases; Plant Diseases - genetics; Plant Diseases - virology; Progeny; resistance; seed predation; Seeds; tolerance; viral infection; Weevils - physiology
• ISSN: 1010-061X; 1420-9101
• DOI: 10.1111/j.1420-9101.2010.02185.x

The ability of plants to respond to natural enemies might depend on the availability of genetic variation for the optimal phenotypic expression of defence. Selfing can affect the distribution of genetic variability of plant fitness, resistance and tolerance to herbivores and pathogens. The hypothesis of inbreeding depression influencing plant defence predicts that inbreeding would reduce resistance and tolerance to damage by natural enemies relative to outcrossing. In a field experiment entailing experimentally produced inbred and outcrossed progenies, we assessed the effects of one generation of selfing on Datura stramonium resistance and tolerance to three types of natural enemies, herbivores, weevils and a virus. We also examined the effect of damage on relative growth rate (RGR), flower, fruit, and seed production in inbred and outcrossed plants. Inbreeding significantly reduced plant defence to natural enemies with an increase of 4% in herbivore damage and 8% in viral infection. These results indicate inbreeding depression in total resistance. Herbivory increased 10% inbreeding depression in seed number, but viral damage caused inbred and outcrossed plants to have similar seed production. Inbreeding and outcrossing effects on fitness components were highly variable among families, implying that different types or numbers of recessive deleterious alleles segregate following inbreeding in D. stramonium. Although inbreeding did not equally alter all the interactions, our findings indicate that inbreeding reduced plant defence to herbivores and pathogens in D. stramonium.