8 research outputs found
THE EFFECTS OF SILICA FERTILIZER AS AN ANTI-HERBIVORE DEFENSE IN CUCUMBER
This study aims to improve our understanding of silicon"s role in deterring herbivores from Cucumissativa. We hypothesized that silicon"s role in plant defense is due to the presence of silica augmenting other physical and/or chemical defenses used by the plant. Using C. sativa plants treated with either a silica fertilizer treatment (Si+) or a control solution (Si-), we monitored feeding preferences of two types of her- bivores, a chewing herbivore (Diabrotica balteata) and a piercing/sucking herbivore (Bemisia tabaci). Leaves from treatment plants were visited less and eaten less than leaves from control plants. We then assessed the differences in physical defenses by comparing the leaf structural components, nutrient and water content, and trichome density between treatment and control plants. For chemical plant defenses, we measured leaf carbon and nitrogen levels in, and volatile organic compounds (VOCs) from treatment and control plants. We found no significant difference between treatment and control plants in: lignin content, most elemental plant nutrients, water content, trichome density, and quantity of carbon and nitrogen. We did see an increase in the VOC Indole, known for plant defense priming, an increase in phosphorous levels and a decrease in cellulose levels in silica treated plants
Contents lists available at ScienceDirect Forest Ecology and Management
journal homepage: www.elsevier.com/locate/foreco Southern pine beetle regional outbreaks modeled on landscape, climate an
Arthropod Surveillance Programs: Basic Components, Strategies, and Analysis
Job file for the creation/design of stained glass from either the Charles J. Connick Studio (1912-1945) or the Charles J. Connick Associates studio (1945-1986). The job file contains a job number, location information, date of completion, size, contact information, price, and a description of the project. This particular job file contains information on a job located at: Holyoke, Massachusetts. Second Congregational Church