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Many plants employ induced responses against generalist herbivores. Specialist herbivores, however, may employ several mechanisms to overcome the negative effects of induced plant defenses. Here we test how the behavior and development of specialist Manduca sexta larvae are affected by induced responses in their natural host plant Nicotiana attenuata. On a spatial scale relevant to both the plant and the herbivore, we first determined how methyl jasmonate (MeJA)-induced responses, such as increased nicotine production, affect the tendency of larvae to leave induced plants. When larvae were allowed to move between two plants planted in one pot, they left an MeJA-treated plant faster than a control plant. When both plants in the pot were MeJA-treated, the larvae developed more slowly than when both plants were uninduced, or when the larvae had the opportunity to move to an uninduced neighbor. The sooner larvae moved from an MeJA-treated plant to an untreated neighbor, the larger the body mass they attained. This demonstrates that M. sexta larvae can compensate behaviorally for the deleterious effects of induced plant responses. These effects were observed in plants grown under both low and high N supply rates, though the effects were more pronounced under high N. To examine the consequences of the timing and the direction of the host plant switching behavior for larval development, neonate larvae were fed leaves excised from induced and uninduced plants. Larvae confined to MeJA-treated leaves had higher mortality rates and grew slower than larvae fed only control leaves. This demonstrates that MeJA-induced responses decrease growth and development of specialist herbivores that do not have the behavioral option of moving to an uninduced plant. The sooner the larvae were switched to MeJA-treated leaves, the slower their development compared to larvae fed only uninduced leaves. In contrast, the sooner larvae fed MeJA-treated leaves were switched to control leaves, the faster they developed. Again the effects of MeJA treatment were stronger in plants grown under high N supply. We propose that induced plants growing in close competition with an uninduced conspecific may offset the fitness costs of these induced responses and perhaps obtain a fitness benefit by motivating herbivores to move to their neighboring competitors. Received: 25 March 1999 / Accepted: 8 October 1999  相似文献   

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1. The time delay associated with the activation of induced defences is thought to be a liability for this type of defence because it allows herbivores to remove biomass before the defence is fully induced. When defences are costly and plants grow with competitors, however, it may be more advantageous not to induce defences too fast and motivate the herbivore to move to the neighbour when it is most voracious. 2. Such a strategy can only work when the costs for the herbivore of moving to a neighbouring plant are smaller than the costs of staying on a fully induced plant. For lepidopteran herbivores, both the sensitivity to induced defences and the costs of moving may vary considerably between instars and this variation may constrain the plant's defensive opportunities. 3. This study was designed to examine whether the cost of moving, mimicked by a starvation period of 8 h, was larger than the cost of staying on a fully induced plant for each larval instar of the specialist Manduca sexta feeding on induced and control tissues of Nicotiana attenuata. 4. For first‐ and second‐instar larvae, the costs of moving were larger than the costs of staying on a fully induced plant. In contrast, feeding on induced plant material retarded development in third‐instar larvae more than did starvation, indicating that in this instar the costs of leaving are smaller than the costs of staying on an induced plant. More than 98% of the lifetime leaf mass consumed by a M. sexta larva is consumed during the fourth and fifth instars, and during these instars larval development was not affected by either induced defences or starvation. Thus the third instar, the stage just before larvae cause the majority of damage, represents a window of sensitivity to induced defences during which larvae can be motivated to change plants. 5. These results suggest that N. attenuata plants, which commonly compete with conspecifics in nature, have the opportunity to manipulate the behaviour of the specialist herbivore M. sexta to minimise the fitness effects of inducing defences when these defences are most costly, i.e. when plants grow under intraspecific competition.  相似文献   

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Genetic variation within and among populations provides the raw material for evolution. Although many studies describe inter- and intraspecific variation of defensive metabolites, little is known about variation among plant populations within early signaling responses elicited by herbivory or by herbivore oral secretions (OS) introduced into wounds during feeding. In this study, we compare the OS-elicited early responses as well as the antiherbivore defensive metabolites in two accessions of the wild tobacco Nicotiana attenuata and show that, compared with an accession collected from Utah, an Arizona accession has lower herbivore-elicited activity of the salicylic acid-induced protein kinase, an important mitogen-activated protein kinase involved in herbivore resistance. These differences in salicylic acid-induced protein kinase activity were associated with substantially different levels of OS-elicited jasmonic acid, jasmonic acid-isoleucine conjugate, and ethylene bursts. Gene expression level polymorphism (ELP) determines phenotypic variation among populations, and we found the two accessions to have significantly different ELPs in the genes involved in early signaling responses to herbivory. In addition, we found differences between the Utah and the Arizona accessions in the concentrations of several secondary metabolites that contribute to N. attenuata's direct and indirect defenses. This study demonstrates significant natural variation in regulatory elements that mediate plant responses to herbivore attack, highlighting the role of ELP in producing a diversity of plant defense phenotypes.  相似文献   

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Knowledge of the neuroanatomy of the sucking pump of Manduca sexta (Sphingidae) is valuable for studies of olfactory learning, pattern generators, and postembryonic modification of motor circuitry. The pump comprises a cibarial valve, a buccal pump, and an esophageal sphincter valve. Cibarial opener and closer muscles control the cibarial valve. Six pairs of dilator muscles and a compressor muscle operate the buccal pump. The cibarial opener and one pair of buccal dilator muscles are innervated by paired neurons in the tritocerebrum, and the cibarial opener has double, bilateral innervation. Their tritocerebral innervation indicates that these muscles evolved from labro-clypeal muscles. The remaining paired buccal dilator muscles each are innervated by an unpaired motor neuron in the frontal ganglion. These motor neurons project bilaterally through the frontal connectives to dendritic arborizations in the tritocerebrum. These projections also have a series of dendritic-like arborizations in the connectives. The cibarial closer and buccal compressor muscles are also innervated by motor neurons in the frontal ganglion, but only the closer muscle neuron projects bilaterally to the tritocerebrum. The innervation of the pump muscles indicates that they are associated with the stomodaeum, and, therefore, the buccal pump evolved from the anterior stomodaeum rather than from the cibarium.  相似文献   

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The ultrastructure of the pericardial athrocytes of fifth instar tobacco hornworm Manduca sexta L. (Lepidoptera: Sphingidae) was examined by transmission electron microscopy. These cells are highly specialized for the maintenance of hemolymph homeostasis by synthesis and secretion of some proteins, and uptake and degradation of others. We observed a striking radial zonation with numerous labyrinthine channels extending into the cell providing a large surface area for enhanced efficiency of endocytosis. Granular material was imported into the endosomal compartment by fusion of endocytotic vesicles from the basal region. Anatomical evidence supports the hypothesis that proteins are transported from the endosome to the lysosome, by maturation of the early endosome to form the late endosome/lysosome, as opposed to vesicular transport. The presence of catalase in athrocyte lysosomes is reported for the first time. Endocytosis in the athrocytes of insects is compared with endocytosis in vertebrate systems.  相似文献   

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Central projections of neurons innervating sensory structures on the head of larval Manduca sexta were traced by using methods of anterograde cobalt-diffusion. Regions of the deutocerebrum and tritocerebrum in the brain receive input from the antenna, labrum, maxilla, labial palps, hypopharynx and other unidentified regions of the buccal cavity. Antennal, maxillary and labial inputs project to the larval antennal centre (LAC) of the deutocerebrum. Stemmatal neurons and a few antennal neurons project into the protocerebrum. The suboesophageal ganglion (SEG) receives input from mechanosensory neurons in all parts of the head and its sensory appendages. Some mechanosensory neurons project further to the first thoracic ganglion. In addition to receiving input from chemosensory neurons of the maxilla, the SEG may also receive chemosensory input from epipharyngeal sensilla of the labrum.  相似文献   

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Flying insects rely on the integration of feedback signals from multiple sensory modalities. Thus, in addition to the visual input, mechanosensory information from antennae is crucial for stable flight in the hawkmoth Manduca sexta. However, the nature of compensatory reflexes mediated by mechanoreceptors on the antennae is unknown. In this study we describe an abdominal flexion response mediated by the antennal mechanosensory input during mechanical body rotations. Such reflexive abdominal motions lead to shifts in the animal’s center of mass, and therefore changes in flight trajectory. Moths respond with abdominal flexion both to visual and mechanical rotations, but the mechanical response depends on the presence of the mass of the flagellum. In addition, the mechanically mediated flexion response is about 200° out of phase with the visual response and adds linearly to it. Phase-shifting feedback signals in such a manner can lead to a more stable behavioral output response when the animal is faced with turbulent perturbations to the flight path.  相似文献   

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Most studies linking dietary variation with insect fitness focus on a single dietary component and late larval growth. We examined the effects of variation in multiple dietary factors over most life stages of the sphingid moth, Manduca sexta. Larvae received artificial diets in which protein, sucrose, and water content were varied. The relationship between larval size, growth and consumption rates differed significantly across diets. Larvae on control and low-sucrose diets grew most rapidly and attained the largest pupal and adult sizes. Conversely, larvae on low-water and low-protein diets initially grew slowly, but accelerated in the fifth instar and became pupae and adults comparable to control animals in size. There were no fundamental differences in protein:carbohydrate consumption patterns or strategies among experimental diets and larval instars. However, inadequate dietary water appeared to be more important for early than late instar larvae. Larvae on all artificial diets showed increasing fat content throughout all stages, including wandering and metamorphosis. Compensatory feeding among low-water and low-protein larvae was correlated with significantly higher fat content in larvae, pupae and adults, whereas low-sucrose animals were substantially leaner than those on the control diet. These differences may have strong effects on adult physiology, reproduction, and foraging patterns.  相似文献   

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Morphology of the ventral nerve cord of the hawkmoth, Manduca sexta (Lepidoptera : Sphingidae), changes at the larval-pupal transition as several separate larval ganglia fuse to form single ganglia characteristic of the adult. We examined in detail the time course of ganglionic fusion. Changes in the relative positions of the ganglia were studied by staining the tissue with methylene or toluidine blue. Alterations in the positions and structure of individual neurons were studied by filling neurons with a cobalt-lysine complex. The first gross morphological change, anterior movement of the first abdominal ganglion, is visible within the first 24 hr after pupal ecdysis. Adult ventral nerve cord morphology is recognizable 6 days later, approximately 12 days before the adult will emerge. The sequence in which the individual ganglia fuse is invariant. During ganglionic fusion, the neuronal cell bodies and associated neuropil move out of their former ganglionic sheath and through the sheath covering the connectives. Axons between the fusing ganglia form loops in the shortening connectives. The presence of looping axons is a morphological feature that identifies the boundaries between ganglia during intermediate stages of fusion. Some individual adult neurons also show looped axons at the boundaries of fused ganglia. These axonal loops may be a valuable morphological marker by which neurons can be characterized as conserved neurons.  相似文献   

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Scanning electron microscopy of the developing Manduca sexta (Lepidoptera : Sphingidae) embryo reveals that the body wall of the insect undergoes considerable morphogenesis beginning at 20 hr post-oviposition. The elongated 19 hr embryo contracts in length, which gives rise to the formation of rudimentary segments. By 33 hr, many of the appendage anlagen are visible, the presumptive spiracles appear as bifurcate pits and the proctodeum begins invagination. During this same period, prior to katatrepsis, the body walls become established, and the segments and appendages develop. Between 50 and 60 hr post-oviposition, involution of the oral cavity and reorientation of the associated gnathal appendages occurs. During this same period, katatrepsis and provisional dorsal closure take place. Developmental polarity is evident as a distinctive wave of specialization proceeding posterior to anterior in the thorax/abdomen, and anterior to posterior in the head. Configuration of the oral cavity is strikingly prognathous until just prior to eclosion. Two embryonic molts are apparent, as determined by the remnants of ecdysed “embryonic cuticles”.  相似文献   

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