Your search keyword '"Peter A. Van Zandt"' showing total 5 results

1. COMMUNITY-WIDE IMPACTS OF HERBIVORE-INDUCED PLANT RESPONSES IN MILKWEED (ASCLEPIAS SYRIACA)

Author

Anurag Agrawal and Peter A. Van Zandt

Subjects

Herbivore, Asclepias syriaca, biology, Ecology, Weevil, media_common.quotation_subject, fungi, biology.organism_classification, Competition (biology), Rhyssomatus lineaticollis, Species richness, Ecology, Evolution, Behavior and Systematics, Plant tolerance to herbivory, Leaf beetle, media_common

Abstract

The effects of early-season herbivory and subsequent induced plant responses have the potential to affect the diversity of herbivorous insect communities. We investigated the seasonal development of the herbivore fauna on common milkweed (Asclepias syriaca) to understand the effect of early-season herbivory by different species on insect growth, natural colonization, and community composition. First, we showed that damage by an early-season stem-feeding weevil (Rhyssomatus lineaticollis) reduced growth of monarch larvae (Danaus plexippus) and leaf beetle larvae (Labidomera clivicollis), suggesting that plant quality is reduced by weevil damage. To better understand the potential for initial herbivore damage to affect subsequent colonization by herbivores in the field, we compared undamaged controls to plants experimentally damaged with one of three herbivores: weevils, monarchs, or leaf beetles. We counted seven species of naturally colonizing herbivores on all plants for the next two months to assess colonization, damage, and insect community richness. Our results showed that initial herbivory by different species altered host plant use by herbivores in two years of experiments. Similarly, induced resistance and suscep- tibility occurred in both years, but due to different initial damaging species on individual plants. Treatment effects also scaled up to alter herbivore community richness. Initial treatments varied in their persistence through the season. For example, in 2001, the influence of initial monarch damage dissipated due to subsequent damage by colonizing herbivores, but the impacts of initial weevil treatment were unaffected. This result suggests that, al- though induced responses to weevil feeding persisted through the season, monarch herbivory was more likely to affect the herbivore community via a cascade of indirect effects. In 2002, plant and insect responses were more specific, depending on the identity of both initial and colonizing herbivore species. Despite year-to-year variation, considerable con- sistency in many responses to our treatments indicates that the identity of the initially colonizing herbivore can affect subsequent plant use and community structure. Given the preponderance of influential early-season herbivores, the effects of induced plant responses similar to those presented here may be widespread and may strongly contribute to the structure of phytophagous insect communities.

Published

2004

2. Specificity of induced plant responses to specialist herbivores of the common milkweedAsclepias syriaca

Author

Anurag Agrawal and Peter A. Van Zandt

Subjects

Herbivore, Asclepias syriaca, biology, fungi, food and beverages, biology.organism_classification, Generalist and specialist species, Nymphalidae, Danaus, Botany, Plant defense against herbivory, Labidomera clivicollis, Ecology, Evolution, Behavior and Systematics, Plant tolerance to herbivory

Abstract

Induced plant responses to herbivory appear to be universal, yet the degree to which they are specific to sets of herbivores is poorly understood. The generalist/specialist hypothesis predicts that generalist herbivores are more often negatively affected by host plant defenses, wheras specialists may be either unaffected by or attracted to these same “plant defenses”. Therefore, specialists should be less predictable than generalists in their responses to induced plant resistance traits. To better understand the variation in plant responses to herbivore attack, and the impacts these responses have on specialist herbivores, we conducted a series of experiments examining pairwise interactinos between two specialaist herbivores of the common milkweed (Asclepias syriaca). We damaged plants mechnically, with swamp milkweed beetles (Labidomera clivicollis), or with monarchs (Danaus plexippus), and then asessed specificity of elicitation, both by measuring a putative defensive trait (latex volume) and by challenging plants with insects of both species in bioasays. Latex production increased by 34% and 13% following beetle and monarch herbivory, respectively, but only beetles significantly elevated latex production compared to undamaged controls. While beetle growth was negatively affected by latex across all experiments, beetles were not affected by previous damage caused by conspecifies or by monarchs. In contrast, monarchs feeding on previously damaged plants were 20% smaller, and their response was the same on plants damaged mechnically or by either herbivore. Therefore, these specialist herbivores exhibit both specificity of elicitation in plant responses and specificity of effects in response to prior damage.

Published

2004

3. Loberus Impressus (LeConte) (Coleoptera: Erotylidae) Fungal Associations and Presence in the Seed Capsules of Iris Hexagona

Author

Christopher E. Carlton, Peter A. Van Zandt, Susan Mopper, Victor R. Townsend, and Meredith Blackwell

Subjects

Fusarium, Larva, Hypha, Inoculation, fungi, food and beverages, Biology, biology.organism_classification, Spore, Insect Science, Botany, Iris hexagona, Erotylidae, Cladosporium

Abstract

Adults and larvae of the loberine erotylid beetle Loberus impressus (LeConte) were found associated with fungi growing on corolla and seed capsule tissue of the blue flag iris, Iris hexagona. We examined adult beetle specimens using light and scanning electron microscopy to determine if specialized structures (mycangia) may function in transporting fungi. Two pairs of deep pits on the ventral aspect of the gena between the eyes and the maxillae of both sexes contained fungal spores and hyphae, suggesting a possible role as mycangia in addition to their role as glandular outlets. Inoculation from the surface of cleaned beetle specimens produced colonies of Cladosporium and Fusarium. These genera are widespread, usually air-dispersed conidial fungi that sometimes are associated with insects.

Published

2003

4. Delayed and carryover effects of salinity on flowering in Iris hexagona (Iridaceae)

Author

Susan Mopper and Peter A. Van Zandt

Subjects

Soil salinity, Phenology, fungi, food and beverages, Outcrossing, Plant Science, Biology, Intraspecific competition, Salinity, Iridaceae, Horticulture, Pollinator, Botany, Genetics, Iris hexagona, Ecology, Evolution, Behavior and Systematics

Abstract

Saltwater intrusion into wetland ecosystems has destroyed or damaged many native plant populations. Iris hexagona is a salt-sensitive species that exhibits intraspecific variation in salinity tolerance. To investigate the effect of salinity on flowering, we exposed I. hexagona collected from natural populations to salt treatments in a common garden. Experimental salinity additions strongly delayed flowering phenology, but the effect was not apparent until the second year, when less than 4 g/L NaCl delayed flowering up to 3 d. In the field, soil salinity and flowering phenology varied substantially within I. hexagona populations. Iris flowers are receptive to pollinators for 2 d or less, therefore a 3-d delay could affect outcrossing dynamics, and ultimately, the evolutionary ecology of iris populations. Salinity also had a carryover effect; prior salinity exposure delayed flowering in irises that had been replanted in freshwater conditions for 6 mo. This is an important result because it suggests that episodic stress (such as tropical storms) can influence performance well after the stress has disappeared. Our research further underscores the importance of long-term studies because a 1-yr experiment would have failed to reveal the strong effects of salinity that emerged in the second year.

Published

2011

5. Plant defense, growth, and habitat: a comparative assessment of constitutive and induced resistance

Author

Peter A. Van Zandt

Subjects

Phenotypic plasticity, Herbivore, Ecology, media_common.quotation_subject, fungi, food and beverages, Plant Development, Feeding Behavior, Herbaceous plant, Biology, Environment, Generalist and specialist species, Adaptation, Physiological, Models, Biological, Competition (biology), Plant ecology, Predatory Behavior, Plant defense against herbivory, Animals, Adaptation, Ecology, Evolution, Behavior and Systematics, Ecosystem, Plant Physiological Phenomena, media_common

Abstract

The growth rate (GR) hypothesis relates the evolution of plant defense to resource availability and predicts that plants that have evolved in abiotically stressful environments grow inherently more slowly and are more constitutively resistant to herbivory than plants from more productive habitats. Stress-adapted plants are also predicted to have reduced inducibility, but this prediction has not been previously tested. To evaluate this hypothesis, I compared the growth of nine species of herbaceous plants from Missouri glade habitats to congeners from more productive non-glade habitats. I also conducted bioassays using larvae of the generalist herbivore Spodoptera exigua to estimate constitutive and inducible resistance in these congeners. Glade congeners tended to grow more slowly and have higher constitutive resistance and lower inducibility than non-glade species. However, none of these comparisons was statistically significant due to the conflicting response of one congeneric pair (Salvia azurea and S. lyrata). Analyses without this genus were consistent with the GR hypothesis, as were analyses that categorized congeners by relative growth rate. These results highlight the complexity in searching for factors that determine plant growth rates and resistance traits across multiple genera and support the hypothesis that both constitutive and induced resistance may be influenced by selection on traits that alter plant growth rates. Future studies should attempt to determine whether variation in inducibility is better explained by habitat or relative plant growth rates.

Published

2007