Peter R. Atsatt scite author profile

Optimal plant defense should incorporate any mechanisms that influence the feeding behavior of potential pests. From a diverse collection of examples suggesting that the defense of a plant may be improved in the company of specific neighbors, we discuss a framework of operational mechanisms that begin to clarify some aspects of the recognized influence of species diversity on herbivory. Neighbors serve as insectary plants for herbivore predators and parasites, and influence herbivore feeding behavior by repelling, masking, attracting, and decoying. Insectary plants lower the numerical response of herbivores by increasing the efficiency of their predators and parasites. Repellent plants primarily lower functional response by causing the predator to fail to locate or reject its normal prey. Attractant-decoy plants dilute herbivore impact by drawing off herbivores, either increasing or decreasing their numerical and functional response (or either). The concept of gene conservation guilds adds diversionary and delaying tactics to the adaptation-counteradaptation view of plant-herbivore coevolution. The useful life of a given gene for resistance may best be extended by mechanisms that disrupt genetic tracking (specialization) by herbivores. Some plants may remain inedible not because their chemistry or morphology represents an evolutionary impasse, but because they live in an environment that provides acceptable options of variable quality. Feeding environments that provide little or no choice promote specialization by forcing physiological adaptation. Conversely, the evolutionary momentum of specializing herbivores may be lowered by enhancing their susceptibility, either by selection against virulent individuals, or by decreasing the exposure frequency of susceptible genotypes. The latter mechanism of conserving susceptible individuals takes advantage of herbivore behavioral sensitivity to variable plant quality. Direct selection against virulent genotypes requires temporal cycling of the herbivore population between resistant and nonresistant hosts. Both events may occur within defense guilds that provide acceptable feeding options of similar but distinctive quality.

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Parasite Mediation in Ecological Interactions

Price¹,

Westoby²,

Rice³

et al. 1986

Annu. Rev. Ecol. Syst.

296

110

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The brighter side of soils: Quantum dots track organic nitrogen through fungi and plants

Whiteside¹,

Treseder

Atsatt

2009

Ecology

145

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Soil microorganisms mediate many nutrient transformations that are central in terrestrial cycling of carbon and nitrogen. However, uptake of organic nutrients by microorganisms is difficult to study in natural systems. We assessed quantum dots (fluorescent nanoscale semiconductors) as a new tool to observe uptake and translocation of organic nitrogen by fungi and plants. We conjugated quantum dots to the amino groups of glycine, arginine, and chitosan and incubated them with Penicillium fungi (a saprotroph) and annual bluegrass (Poa annua) inoculated with arbuscular mycorrhizal fungi. As experimental controls, we incubated fungi and bluegrass samples with substrate-free quantum dots as well as unbound quantum dot substrate mixtures. Penicillium fungi, annual bluegrass, and arbuscular mycorrhizal fungi all showed uptake and translocation of quantum dot-labeled organic nitrogen, but no uptake of quantum dot controls. Additionally, we observed quantum dot-labeled organic nitrogen within soil hyphae, plant roots, and plant shoots using field imaging techniques. This experiment is one of the first to demonstrate direct uptake of organic nitrogen by arbuscular mycorrhizal fungi.

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Lycaenid Butterflies and Ants: Selection for Enemy-Free Space

Atsatt¹

1981

The American Naturalist

146

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Ant-dependent food plant selection by the mistletoe butterfly Ogyris amaryllis (Lycaenidae)

Atsatt¹

1981

Oecologia

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A quantitative study of the relationship between antoccupied mistletoes and oviposition by Ogyris amaryllis (Lycaenidae) revealed diet selection to be ant-dependent. Chemical toxins apparently prohibit the use of ant-occupied Lysiana plants. Nearly all of the 5106 censused eggs were laid on Amyema individuals with ants, independent of plant abundance or relative quality. On the average, only 32% of these nutritionally acceptable individuals were actually suitable for oviposition. The selection of Amyema maidenii with ants over nutritionally superior A. preissii without ants clearly identifies the secondary importance of food quality to O. amaryllis. Oviposition normally occurs after tactile stimulation by ants. Under experimental conditions without ants, females often laid clutches of 1-3 eggs, but significantly increased clutch size after contact with ants. Eggs laid in the presence of ants had lower parasitism rates than eggs laid away from ants.

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Peter R. Atsatt

Plant Defense Guilds

Parasite Mediation in Ecological Interactions

The brighter side of soils: Quantum dots track organic nitrogen through fungi and plants

Lycaenid Butterflies and Ants: Selection for Enemy-Free Space

Ant-dependent food plant selection by the mistletoe butterfly Ogyris amaryllis (Lycaenidae)

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