Your search keyword '"Sonya R, Sternlieb"' showing total 3 results

1. Herbivore‐mediated negative frequency‐dependent selection underlies a trichome dimorphism in nature

Author

Jay K. Goldberg, Curtis M. Lively, Sonya R. Sternlieb, Genevieve Pintel, J. Daniel Hare, Michael B. Morrissey, and Lynda F. Delph

Subjects

balanced polymorphism, Datura wrightii, glandular trichomes, plant–herbivore interactions, Evolution, QH359-425

Abstract

Abstract Negative frequency‐dependent selection (NFDS) has been shown to maintain polymorphism in a diverse array of traits. The action of NFDS has been confirmed through modeling, experimental approaches, and genetic analyses. In this study, we investigated NFDS in the wild using morph‐frequency changes spanning a 20‐year period from over 30 dimorphic populations of Datura wrightii. In these populations, plants either possess glandular (sticky) or non‐glandular (velvety) trichomes, and the ratio of these morphs varies substantially among populations. Our method provided evidence that NFDS, rather than drift or migration, is the primary force maintaining this dimorphism. Most populations that were initially dimorphic remained dimorphic, and the overall mean and variance in morph frequency did not change over time. Furthermore, morph‐frequency differences were not related to geographic distances. Together, these results indicate that neither directional selection, drift, or migration played a substantial role in determining morph frequencies. However, as predicted by negative frequency‐dependent selection, we found that the rare morph tended to increase in frequency, leading to a negative relationship between the change in the frequency of the sticky morph and its initial frequency. In addition, we found that morph‐frequency change over time was significantly correlated with the damage inflicted by two herbivores: Lema daturaphila and Tupiochoris notatus. The latter is a specialist on the sticky morph and damage by this herbivore was greatest when the sticky morph was common. The reverse was true for L. daturaphila, such that damage increased with the frequency of the velvety morph. These findings suggest that these herbivores contribute to balancing selection on the observed trichome dimorphism.

Published

2020

2. Observational evidence of herbivore‐specific associational effects between neighboring conspecifics in natural, dimorphic populations of Datura wrightii

Author

Jay K. Goldberg, Genevieve Pintel, Lynda F. Delph, and Sonya R. Sternlieb

Subjects

0106 biological sciences, media_common.quotation_subject, Zoology, Datura wrightii, Insect, 010603 evolutionary biology, 01 natural sciences, Intraspecific competition, 03 medical and health sciences, plant–herbivore interactions, stable polymorphism, Ecology, Evolution, Behavior and Systematics, QH540-549.5, 030304 developmental biology, Nature and Landscape Conservation, media_common, Original Research, 0303 health sciences, Herbivore, biology, Ecology, fungi, food and beverages, glandular trichomes, Interspecific competition, biology.organism_classification, Trichome, Sexual dimorphism, Datura, associational effects

Abstract

Associational effects—in which the vulnerability of a plant to herbivores is influenced by its neighbors—have been widely implicated in mediating plant–herbivore interactions. Studies of associational effects typically focus on interspecific interactions or pest–crop dynamics. However, associational effects may also be important for species with intraspecific variation in defensive traits. In this study, we observed hundreds of Datura wrightii—which exhibits dimorphism in its trichome phenotype—from over 30 dimorphic populations across California. Our aim was to determine whether a relationship existed between the trichome phenotype of neighboring conspecifics and the likelihood of being damaged by four species of herbivorous insects. We visited plants at three timepoints to assess how these effects vary both within and between growing seasons. We hypothesized that the pattern of associational effects would provide rare morphs (i.e., focal plants that are a different morph than their neighbors) with an advantage in the form of reduced herbivory, thereby contributing to the negative frequency‐dependent selection previously documented in this system. We found the best predictor of herbivory/herbivore presence on focal plants was the phenotype of the focal plant. However, we also found some important neighborhood effects. The total number of plants near a focal individual predicted the likelihood and/or magnitude of herbivory by Tupiochoris notatus, Lema daturaphila, and Manduca sexta. We also found that velvety focal plants with primarily sticky neighbors are more susceptible to infestation by Tupiochoris notatus and Lema daturaphila. This does not align with the hypothesis that associational effects at the near‐neighbor scale contribute to a rare‐morph advantage in this system. Overall, the results of our study show that the number and trichome‐morph composition of neighboring conspecifics impact interactions between D. wrightii and insect herbivores., In this article, we demonstrate that intraspecific associational effects exist between neighboring plants within naturally dimorphic population of Datura wrightii. We use a generalized linear modeling approach to tease apart the relationship between the number and trichome phenotype of neighboring plants with the likelihood of herbivory present on focal plants. We find that focal plant trichome phenotype (glandular or nonglandular) was the main determinant of susceptibility differences, but also evidence for seasonal associational effects with respect to two insect herbivores: Tupiochoris notatus and Lema daturaphila.

Published

2021

3. Herbivore-mediated negative frequency-dependent selection underlies a trichome dimorphism in nature

Author

Genevieve Pintel, Sonya R. Sternlieb, J. Daniel Hare, Lynda F. Delph, Jay K. Goldberg, Curtis M. Lively, Michael B. Morrissey, University of St Andrews. School of Biology, and University of St Andrews. Centre for Biological Diversity

Subjects

0106 biological sciences, balanced polymorphism, Balanced polymorphism, Letter, animal structures, genetic structures, QH301 Biology, Frequency-dependent selection, lcsh:Evolution, Datura wrightii, Balancing selection, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, QH301, plant–herbivore interactions, Genetics, lcsh:QH359-425, Letters, plant-herbivore interactions, Plant–herbivore interactions, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), reproductive and urinary physiology, 030304 developmental biology, 0303 health sciences, Herbivore, biology, Directional selection, fungi, glandular trichomes, DAS, 15. Life on land, biology.organism_classification, Trichome, Sexual dimorphism, Evolutionary biology, Glandular trichomes, psychological phenomena and processes

Abstract

Authors are grateful for funding provided by an NSF GRFP to J.K.G. (2015195769) and DEB‐1353970 to L.F.D. Negative frequency‐dependent selection (NFDS) has been shown to maintain polymorphism in a diverse array of traits. The action of NFDS has been confirmed through modeling, experimental approaches, and genetic analyses. In this study, we investigated NFDS in the wild using morph‐frequency changes spanning a 20‐year period from over 30 dimorphic populations of Datura wrightii. In these populations, plants either possess glandular (sticky) or non‐glandular (velvety) trichomes, and the ratio of these morphs varies substantially among populations. Our method provided evidence that NFDS, rather than drift or migration, is the primary force maintaining this dimorphism. Most populations that were initially dimorphic remained dimorphic, and the overall mean and variance in morph frequency did not change over time. Furthermore, morph‐frequency differences were not related to geographic distances. Together, these results indicate that neither directional selection, drift, or migration played a substantial role in determining morph frequencies. However, as predicted by negative frequency‐dependent selection, we found that the rare morph tended to increase in frequency, leading to a negative relationship between the change in the frequency of the sticky morph and its initial frequency. In addition, we found that morph‐frequency change over time was significantly correlated with the damage inflicted by two herbivores: Lema daturaphila and Tupiochoris notatus. The latter is a specialist on the sticky morph and damage by this herbivore was greatest when the sticky morph was common. The reverse was true for L. daturaphila, such that damage increased with the frequency of the velvety morph. These findings suggest that these herbivores contribute to balancing selection on the observed trichome dimorphism. Publisher PDF

Published

2020