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3. Evolution of sensitivity to warning cues from kin in plants with a structured population.

Author

Yamauchi, Atsushi, Takabayashi, Junji, Shiojiri, Kaori, and Karban, Richard

Subjects
HIPVs, induced anti‐herbivore resistance, kin competition, kin recognition
Abstract

Plants exchange a variety of information intra- and interspecifically by using various mediating cues. For example, plant individuals that are injured by herbivores release volatile chemicals, which induce receiver plants to express anti-herbivore resistance. Remarkably, some plant species were known to represent kin specificity in the response, where cues from a damaged individual induce a higher level of resistance in a kin receiver than in a non-kin receiver. Such higher sensitivity to warning cues from kin could be advantageous via two mechanisms. If each herbivore tends to attack plants with a certain genotype, plants should be more sensitive to warning cues from kin that share genetic properties. In addition, if herbivores successively attack the neighboring plant with a high probability, and if related plants tend to grow in close proximity, plants may be more sensitive to warning cues from neighboring kin under the presence of a trade-off between sensitivity to kin and non-kin. In the present study, we constructed a mathematical model including those mechanisms to investigate the evolutionary process of the higher sensitivity to warning cues from kin than sensitivities to cues from non-kin. According to the analysis of evolutionary dynamics, we revealed that both mechanisms could contribute, although higher sensitivity to cues from kin is more likely to evolve when the spatial range of competition is greater than the range of effective alarm cues. This result highlights the importance of the competition regime in the evolution of signaling among kin.

Published
2024

4. Floristic changes following the chestnut blight may be delayed for decades.

Author

Karban, Richard and Karban, Claire

Subjects
Plant Diseases, Trees, Fagaceae, Virginia, Quercus
Abstract

A survey conducted in the 1920s, prior to the chestnut blight, indicated that chestnuts and oaks were codominant canopy species in White Oak Canyon, Shenandoah National Park, Virginia. A second survey in 1977 suggested that chestnuts were being replaced by tree species present before the blight, particularly oaks. In 2021, we resurveyed the 10 sites included in our 1977 survey and also recorded canopy and understory trees that grew above remnant chestnut sprouts. The canopy changed more substantially during the second interval (since 1977). Birch and maples were now more abundant. Hemlock declined, and oaks were less common in the canopy. In general, the trees considered as early to mid-successional have replaced oaks and hemlock. Chestnut sprouts have become much less common since 1977, presumably as repeated cycles of diebacks have weakened rootstocks. Those sites where chestnut sprouts have persisted until 2021 differed from neighboring sites without them. Chestnut sprouts were rare in sites with birch and hemlock; chestnut has persisted in locations with red oaks in the canopy and with few other understory competitors. This survey has been conducted over a longer time interval than previous studies that asked similar questions and our results suggest that changes to the forest composition following the loss of the American chestnut may be greater than previously recognized although the relative contribution of losing this codominant species is unclear.

Published
2024

5. Vehicle pollution is associated with elevated insect damage to street trees

Author

Meineke, Emily K, Eng, David S, and Karban, Richard

Subjects
global change, herbivore, herbivory, plant-insect interactions, pollution, Quercus, urban ecology, urban forest, Ecological Applications, Environmental Science and Management, Ecology
Abstract

Vehicle pollution is a pervasive aspect of anthropogenic change across rural and urban habitats. The most common emissions are carbon- or nitrogen-based pollutants that may impact diverse interactions between plants and insect herbivores. However, the effects of vehicle pollution on plant-insect interactions are poorly understood. Here, we combine a city-wide experiment across the Sacramento Metropolitan Area and a laboratory experiment to determine how vehicle emissions affect insect herbivory and leaf nutritional quality. We demonstrate that leaf damage to a native oak species (Quercus lobata) commonly planted across the western US is substantially elevated on trees exposed to vehicle emissions. In the laboratory, caterpillars preferred leaves from highway-adjacent trees and performed better on leaves from those same trees. Synthesis and applications. Together, our studies demonstrate that the heterogeneity in vehicle emissions across cities may explain highly variable patterns of insect herbivory on street trees. Our results also indicate that trees next to highways are particularly vulnerable to multiple stressors, including insect damage. To combat these effects, urban foresters may consider planting trees that are less susceptible to insect herbivory along heavily travelled roadways.

Published
2023

6. Hilltopping influences spatial dynamics in a patchy population of tiger moths

Author

Pepi, Adam, Grof-Tisza, Patrick, Holyoak, Marcel, and Karban, Richard

Subjects
Animals, Ecosystem, Models, Biological, Moths, Population Dynamics, Wind, connectivity, metapopulation, hilltopping, dispersal, tiger moth, Bodega Marine Lab, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences
Abstract

Dispersal is a key driver of spatial population dynamics. Dispersal behaviour may be shaped by many factors, such as mate-finding, the spatial distribution of resources, or wind and currents, yet most models of spatial dynamics assume random dispersal. We examined the spatial dynamics of a day-flying moth species (Arctia virginalis) that forms mating aggregations on hilltops (hilltopping) based on long-term adult and larval population censuses. Using time-series models, we compared spatial population dynamics resulting from empirically founded hilltop-based connectivity indices and modelled the interactive effects of temperature, precipitation and density dependence. Model comparisons supported hilltop-based connectivity metrics including hilltop elevation over random connectivity, suggesting an effect of hilltopping behaviour on dynamics. We also found strong interactive effects of temperature and precipitation on dynamics. Simulations based on fitted time-series models showed lower patch occupancy and regional synchrony, and higher colonization and extinction rates when hilltopping was included, with potential implications for the probability of persistence of the patch network. Overall, our results show the potential for dispersal behaviour to have important effects on spatial population dynamics and persistence, and we advocate the inclusion of such non-random dispersal in metapopulation models.

Published
2022

7. Consistent individual variation in plant communication: do plants have personalities?

Author

Karban, Richard, Grof-Tisza, Patrick, and Couchoux, Charline

Subjects
Animals, Plants, Artemisia, Personality, Volatile Organic Compounds, Herbivory, Alarm call, Behavior, Plant communication, Repeatability, Volatiles, Ecology
Abstract

Animal biologists have recently focused on individual variation in behavioral traits and have found that individuals of many species have personalities. These are defined as consistent intraspecific differences in behaviors that are repeatable across different situations and stable over time. When animals sense danger, some individuals will alert neighbors with alarm calls and both calling and responding vary consistently among individuals. Plants, including sagebrush, emit volatile cues when they are attacked by herbivores and neighbors perceive these cues and reduce their own damage. We experimentally transferred volatiles between pairs of sagebrush plants to evaluate whether individuals showed consistent variation in their effectiveness as emitters and as receivers of cues, measured in terms of reduced herbivore damage. We found that 64% of the variance in chewing damage to branches over the growing season was attributable to the identity of the individual receiving the cues. This variation could have been caused by inherent differences in the plants as well as by differences in the environments where they grew and their histories. We found that 5% of the variance in chewing damage was attributable to the identity of the emitter that provided the cue. This fraction of variation was statistically significant and could not be attributed to the environmental conditions of the receiver. Effective receivers were also relatively effective emitters, indicating consistency across different situations. Pairs of receivers and emitters that were effective communicators in 2018 were again relatively effective in 2019, indicating consistency over time. These results suggest that plants have repeatable individual personalities with respect to alarm calls.

Published
2022

8. Why cicadas (Hemiptera: Cicadidae) develop so slowly

Author

Karban, Richard

Subjects
Good Health and Well Being, body size, Cercopidae, generation time, growth rate, life history, longevity, spittlebugs, survival, xylem feeding, Biological Sciences, Evolutionary Biology
Abstract

Cicadas have amongst the longest development times and are also amongst the largest insects. Cicadas feed exclusively on xylem fluid, which is nutritionally dilute and difficult to obtain. One possible explanation for their slow development is that poor nutrition limits their growth rate. An analysis of 30 cicada species with known development times is consistent with this hypothesis as species with more equatorial distributions grew more rapidly than those at higher latitudes. A second possible explanation is that prolonged development maximizes net reproductive rate because there is little risk of mortality once early instar cicada nymphs establish feeding sites. Extended development probably allows nymphs to store resources and produce more offspring. Spittlebugs also feed obligately on xylem fluid and grow at similarly slow rates although they attain small adult sizes. Unlike cicadas, spittlebugs do not have steep survivorship curves and have shorter development times. The life histories of cicadas and spittlebugs are therefore consistent with both hypotheses. Cicada development times may be limited if (1) the risk of nymphal mortality equals increased fecundity associated with prolonging development, (2) fluctuating conditions sometimes favour rapid development times, or (3) host plant quality changes over time and penalizes nymphs that cannot relocate feeding sites.

Published
2022

9. Risk of herbivory negatively correlates with the diversity of volatile emissions involved in plant communication

Author

Grof-Tisza, Patrick, Karban, Richard, Rasheed, Muhammad Usman, Saunier, Amélie, and Blande, James D

Subjects
Animals, Artemisia, Herbivory, Humans, Insecta, Plants, Volatile Organic Compounds, Artemisia tridentata, chemotype, eavesdropping, induced resistance, kin selection, volatile signalling, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences
Abstract

Plant-to-plant volatile-mediated communication and subsequent induced resistance to insect herbivores is common. Less clear is the adaptive significance of these interactions; what selective mechanisms favour plant communication and what conditions allow individuals to benefit by both emitting and responding to cues? We explored the predictions of two non-exclusive hypotheses to explain why plants might emit cues, the kin selection hypothesis (KSH) and the mutual benefit hypothesis (MBH). We examined 15 populations of sagebrush that experience a range of naturally occurring herbivory along a 300 km latitudinal transect. As predicted by the KSH, we found several uncommon chemotypes with some chemotypes occurring only within a single population. Consistent with the MBH, chemotypic diversity was negatively correlated with herbivore pressure; sites with higher levels of herbivory were associated with a few common cues broadly recognized by most individuals. These cues varied among different populations. Our results are similar to those reported for anti-predator signalling in vertebrates.

Published
2021

10. Effects of experimental watering but not warming on herbivory vary across a gradient of precipitation

Author

Pepi, Adam and Karban, Richard

Subjects
Biological Sciences, Ecology, Climate Action, Bodega Marine Reserve, climate gradient, Humboldt Bay National Wildlife Refuge, open-top chamber, precipitation, open‐top chamber, Evolutionary Biology, Evolutionary biology, Ecological applications
Abstract

Climate change can affect biotic interactions, and the impacts of climate on biotic interactions may vary across climate gradients. Climate affects biotic interactions through multiple drivers, although few studies have investigated multiple climate drivers in experiments. We examined the effects of experimental watering, warming, and predator access on leaf water content and herbivory rates of woolly bear caterpillars (Arctia virginalis) on a native perennial plant, pacific silverweed (Argentina anserina ssp. pacifica), at two sites across a gradient of precipitation in coastal California. Based on theory, we predicted that watering should increase herbivory at the drier end of the gradient, predation should decrease herbivory, and watering and warming should have positive interacting effects on herbivory. Consistent with our predictions, we found that watering only increased herbivory under drier conditions. However, watering increased leaf water content at both wetter and drier sites. Warming increased herbivory irrespective of local climate and did not interact with watering. Predation did not affect herbivory rates. Given predictions that the study locales will become warmer and drier with climate change, our results suggest that the effects of future warming and drying on herbivory may counteract each other in drier regions of the range of Argentina anserina. Our findings suggest a useful role for range-limit theory and the stress-gradient hypothesis in predicting climate change effects on herbivory across stress gradients. Specifically, if climate change decreases stress, herbivory may increase, and vice versa for increasing stress. In addition, our work supports previous suggestions that multiple climate drivers are likely to have dampening effects on biotic interactions due to effects in different directions, though this is context-dependent.

Published
2021

12. Feeding and damage-induced volatile cues make beetles disperse and produce a more even distribution of damage for sagebrush.

Author

Karban, Richard and Yang, Louie H

Subjects
Trirhabda, dispersion, herbivore behaviour, induced resistance, movement, over-dispersed, plant communication, spatial distribution, Trirhabda, herbivore behavior, Ecology, Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences
Abstract

Induced plant responses to herbivory are common, and we have learned a lot about the mechanisms of induced resistance and their effects on herbivore performance. We know less about their effects on herbivore behaviour and especially on spatial patterns of damage. Theoretical models predict that induced responses can cause patterns of damage to become aggregated, random or even. A recent model predicted that informed herbivore movement coupled with communication between plants would make damage more even within individual plants. We tested these predictions in the field using a specialist beetle Trirhabda pilosa that feeds on sagebrush Artemisia tridentata. Both the beetle and the plant are well-documented to respond to damage-induced volatile cues. Beetle larvae were more likely to move from damaged leaves and leaves that had been exposed to volatiles from nearby damaged leaves compared to undamaged control leaves. Previous laboratory results indicated that beetles were more likely to choose undamaged leaves compared to damaged leaves or those exposed to volatile cues of damage. A comparison of damage patterns early in the season and after completion of beetle feeding revealed that variance in damage among branches decreased as the season progressed; that is, damage became more evenly distributed among the branches within a plant. Larvae damaged many leaves on a plant but removed relatively little tissue from each leaf. Herbivore movement and the spatial patterns of damage that it creates can be important in determining effects on plant fitness and other population processes. Dispersion of damage deserves more consideration in plant-herbivore studies.

Published
2020

13. Assessing plant-to-plant communication and induced resistance in sagebrush using the sagebrush specialist Trirhabda pilosa

Author

Grof-Tisza, Patrick, Karban, Richard, Pan, Vincent S, and Blande, James D

Subjects
Artemisia tridentata, Behavioral bioassay, Plant-insect interactions, Trirhabda pilosa, Volatile-mediated communication, Volatile organic compounds, Ecology, Plant Biology, Zoology, Entomology
Abstract

Plants respond to damage by herbivores or to reliable cues of damage by changing in ways that provide greater resistance and increase their fitness. Sagebrush has been a model system for understanding induced resistance, although resistance in this system is commonly assessed by quantifying damage at the end of the season; this measure is slow and lacks accuracy and interpretability because so many other factors also affect levels of damage. Herbivore choice offers a potentially rapid and accurate alternative assay of induced resistance. Here we evaluate whether feeding behavior of a specialized Chrysomelid beetle, Trirhabda pilosa, could be used to assay induced changes in plant quality. Beetle larvae were offered the choice between two leaves in Petri dish arenas. We found that beetles avoided leaves that were naturally damaged by herbivores, experimentally clipped with scissors, and exposed to the volatiles from naturally or experimentally damaged neighboring leaves compared to control leaves. Experiments varied the source of the damage, the duration of the feeding test, and how damage was measured, still, beetles consistently preferred uninduced controls by a 2:1 ratio over leaves exposed to cues of damage. These results suggest that behavioral assays using T. pilosa larvae can be used to rapidly evaluate induced resistance in this system. More generally, movement and feeding behaviors of herbivores are an important and underappreciated component of induced plant responses.

Published
2020

14. The ecology and evolution of induced responses to herbivory and how plants perceive risk

Author

Karban, Richard

Subjects
Communication, cues, defence, perception, priming, resistance, Ecological Applications, Ecology, Zoology, Entomology
Abstract

1. Plants perceive herbivore damage or increased risk and respond. These changes may increase plant fitness, although effects on fitness have often been assumed without supporting evidence. 2. Three models have been proposed to explain induced rather than constitutive defence. The optimal defence model posits that induction allow plants to reduce allocation costs; it predicts demonstrably lower costs when defences are not needed. The moving target model posits that induction increases spatial and temporal variability; it predicts that variability will be difficult for herbivores and will provide defence. The information transfer model posits that induced responses provide cues to other tissues on that individual plant and to other organisms in the community; it predicts that induced cues will provide systemic resistance, deter herbivores, and/or attract enemies of herbivores, thereby benefiting the induced plant. 3. All three models predict that cues must be reliable to be useful. In some cases, cues provide specific information about the damaged plant tissue and the herbivore and this specific information may allow plants to fine-tune responses. Recent theory posits that selection should favour plants that minimise recognition errors and reduce fitness costs associated with errors. 4. Future research should focus on exploring different modalities used by plants to perceive herbivore risk, the benefits and costs of perceiving cues and inducing resistance, and the basic natural history of these phenomena. Induced responses have great unrealised potential in agriculture, and research should focus on host plant resistance rather than attempting to involve other trophic levels.

Published
2020

15. Induction of the sticky plant defense syndrome in wild tobacco

Author

Karban, Richard, LoPresti, Eric, Pepi, Adam, and Grof‐Tisza, Patrick

Subjects
Plant Biology, Biological Sciences, Ecology, Environmental Sciences, Animals, Herbivory, Insecta, Plant Leaves, Plant Nectar, Tobacco, herbivory, induced defense, plant fitness, predators, protective mutualism, structural equation modeling, structural equation modeling, Ecological Applications, Evolutionary Biology, Zoology, Ecological applications
Abstract

Many plants engage in protective mutualisms, offering resources such as extrafloral nectar and shelters to predatory arthropods in exchange for protection against herbivores. Recent work indicates that sticky plants catch small insects and provide this carrion to predators who defend the plants against herbivores. In this study, we investigated whether wild tobacco, Nicotiana attenuata, fits this sticky plant defense syndrome that has been described for other sticky plants. We developed a bioassay for stickiness involving the number of flies that adhered to flowers, the stickiest tissues. In surveys conducted over three field seasons at four sites, we found that the number of carrion that adhered to a plant was positively correlated with the number of predators that we observed foraging over its surfaces. The number of predators was positively correlated with the number of seed capsules that the plant produced, a measure of lifetime female reproductive success. Structural equation modeling indicated strong support for the causal path linking carrion numbers to predator numbers to capsule production. We investigated whether stickiness was an inducible trait and examined two potential cues. We found that experimental clipping of rosette leaves induced greater stickiness, although clipping of neighboring sagebrush leaves did not. Damage to leaf tissue is likely to be a more reliable predictor of risk than is damage to a neighboring plant. The sticky plant defense syndrome is a widespread protective mutualism; its strength and ecological relevance can adjust as risk of herbivory changes.

Published
2019

16. The effects of pulsed fertilization and chronic herbivory by periodical cicadas on tree growth

Author

Yang, Louie H and Karban, Richard

Subjects
Environmental Sciences, Biological Sciences, Ecology, Animals, Hemiptera, Herbivory, Trees, absolute and relative growth rates, amplification, attenuation, chronic belowground herbivory, Magicicada spp, periodical cicadas, pulsed detrital subsidy, pulsed fertilization, resource pulses, root herbivores, temporally explicit ecology, tree growth, Magicicada spp., Ecological Applications, Evolutionary Biology, Zoology, Ecological applications
Abstract

Although many studies have investigated plant growth in the context of episodic herbivory and pressed resource availability, relatively few have examined how plant growth is affected by pulsed resources and chronic herbivory. Periodical cicada (Magicicada spp.) adults represent a pulsed detrital subsidy that fertilizes plants, and live cicada nymphs are long-lived root-feeding herbivores. Previous studies of cicada herbivory effects have been inconclusive, and previous studies of cicada-mediated fertilization did not examine effects on trees, or on a multiyear timescale. Here, we describe the results of a 3-yr experiment that factorially manipulated the presence and absence of cicada fertilization and herbivory in a population of 100 American sycamore (Platanus occidentalis) trees. We found that cicada fertilization strongly increased tree growth in the year of emergence, creating differences in tree size that persisted at least 2 yr later. By comparison, we did not detect reductions in tree growth associated with cicada herbivory in any year of this experiment. However, cicada herbivory reduced the densities of, and damage from, other aboveground herbivores. These results suggest that cicadas affect the size structure of forests over multiple years, and raise questions about how cicada-mediated fertilization and herbivory will affect tree growth over longer timescales.

Published
2019

17. Chewing and other cues induce grass spines that protect meristems

Author

Karban, Richard and Takabayashi, Junji

Subjects
Plant behavior, Defense, Resistance, Hairs, Prickles, Unidirectional, Anisotropic, Herbivores, Grasshoppers, Volatile, Plant communication, Ecology, Plant Biology, Zoology, Entomology
Abstract

Grasses frequently have unidirectional hairs, prickles, and spines; these leaf features have been hypothesized to move herbivores and their chewing damage away from grass meristems, which are located basally. Observations of chewing damage to two grasses, Andropogon virginicus and Phragmites australis, were consistent with this hypothesis as leaf tips received 10 × and 2 × more damage than bases. Grasshoppers were no more likely to land on leaf tips than bases although they oriented towards the tips after landing. Leaves of A. virginicus that were damaged by chewing herbivores had fewer spines than leaves on the same or neighboring plants that lacked damage. This suggests that herbivores chose less spiny leaves. At a larger spatial scale, plants in neighborhoods favorable for grasshoppers had more spines than plants in less favorable neighborhoods. We found no evidence that marginal spines allowed leaves to shed water more rapidly, a potential alternative benefit. The density of spines on new leaves increased following cues of damage. A. virginicus leaves produced after an adjacent leaf had been clipped with scissors had 13% more spines than new leaves on unclipped plants. Clipping with scissors failed to increase spine density for new P. australis leaves although experimental chewing by caterpillars led to the production of new leaves with 24% more spines than controls. Unchewed new leaves within 20 cm of a chewed neighbor had 13% more spines than controls. Grasses are capable of responding to cues of tissue damage to their own and neighboring leaves, potentially reducing herbivory to meristems.

Published
2019

18. Unidirectional grass hairs usher insects away from meristems.

Author

Karban, Richard, LoPresti, Eric, Vermeij, Geerat J, and Latta, Robert

Subjects
Hair, Animals, Poaceae, Plant Leaves, Meristem, Ecosystem, Herbivory, Defense, Leaf hairs, Movement, Pubescence, Tolerance, Ecology
Abstract

Grasses are major agricultural products worldwide and they are critical to ecosystem function in many terrestrial habitats. Despite their global importance, we know relatively little about their defenses against herbivory. Grasses tend to be tolerant of leaf loss because their valuable meristems are located underground, out of reach for above ground herbivores. Many grasses have unidirectional leaf hairs, prickles, and spines that make moving up the leaf blade easy, but make moving down, toward the meristem, difficult. We tested the hypothesis that unidirectional grass hairs direct small arthropod herbivores away from the meristems. In a field survey of the distribution of herbivore damage, we found that leaf tips received five times more damage than leaf bases for Avena barbata. Early-instar grasshoppers fed three times as often on leaf tops as on leaf bases of pubescent individuals in a common garden laboratory experiment. This effect was not observed for glabrous individuals where grasshoppers damaged leaf bases as often as leaf tops. A common generalist caterpillar, Heliothus virescens, was more than twice as likely to turn in the direction of the hairs, away from the meristems, when it encountered pubescent leaves of A. barbata. However, larger caterpillars of the generalist feeder Arctia virginalis showed no directional bias when they encountered pubescent leaves. In common garden experiments, selection on pubescence was weak and inconsistent over space and time. Under some circumstances, individuals of A. barbata with pubescent leaves were more likely to produce seeds than were individuals with fewer hairs. The surveys, behavioral experiments with small insects, and estimates of lifetime reproduction all support the hypothesis that unidirectional leaf hairs on A. barbata, and perhaps other grasses, serve as an unstudied defense that direct small herbivores away from the meristems.

Published
2019

19. Plant trait covariance and nonlinear averaging: a reply to Koussoroplis et al.

Author

Wetzel, William, Kharouba, Heather, Robinson, Moria, Holyoak, Marcel, and Karban, Richard

Abstract

SADIE (Spatial Analysis by Distance Indices) is designed specifically to quantify patterns in spatially-referenced count-based data. It was developed for dealing with data that can be considered ‘patchy’. Such distributions are commonly found, for example, in insect populations where discrete patches of individuals are often evident. The distributions of such populations have ‘hard edges’, with patches and gaps occurring spatially. In these cases variance of abundance does not vary smoothly, but discontinuously. In this paper we outline the use of SADIE and provide free access to the SADIE software suite, establishing Rethinking Ecology as its permanent home. Finally, we review the use of SADIE and demonstrate its use in a wide variety of sub-disciplines within the general field of ecology.

Published
2019

22. A judgment and decision‐making model for plant behavior

Author

Karban, Richard and Orrock, John L

Subjects
Plant Biology, Biological Sciences, Behavioral and Social Science, Animals, Bayes Theorem, Biological Evolution, Herbivory, Judgment, Plants, cognition, defense, error, herbivory, information, psychology, signal, Ecological Applications, Ecology, Evolutionary Biology, Zoology, Ecological applications
Abstract

Recently plant biologists have documented that plants, like animals, engage in many activities that can be considered as behaviors, although plant biologists currently lack a conceptual framework to understand these processes. Borrowing the well-established framework developed by psychologists, we propose that plant behaviors can be constructively modeled by identifying four distinct components: (1) a cue or stimulus that provides information, (2) a judgment whereby the plant perceives and processes this informative cue, (3) a decision whereby the plant chooses among several options based on their relative costs and benefits, and (4) action. Judgment for plants can be determined empirically by monitoring signaling associated with electrical, calcium, or hormonal fluxes. Decision-making can be evaluated empirically by monitoring gene expression or differential allocation of resources. We provide examples of the utility of this judgment and decision-making framework by considering cases in which plants either successfully or unsuccessfully induced resistance against attacking herbivores. Separating judgment from decision-making suggests new analytical paradigms (i.e., Bayesian methods for judgment and economic utility models for decision-making). Following this framework, we propose an experimental approach to plant behavior that explicitly manipulates the stimuli provided to plants, uses plants that vary in sensory abilities, and examines how environmental context affects plant responses. The concepts and approaches that follow from the judgment and decision-making framework can shape how we study and understand plant-herbivore interactions, biological invasions, plant responses to climate change, and the susceptibility of plants to evolutionary traps.

Published
2018

23. As temperature increases, predator attack rate is more important to survival than a smaller window of prey vulnerability

Author

Pepi, Adam, Grof‐Tisza, Patrick, Holyoak, Marcel, and Karban, Richard

Subjects
Climate Action, Animals, Ants, Climate Change, Lepidoptera, Predatory Behavior, Temperature, ants, caterpillars, climate change, predation, temperature dependence, trophic interactions, window of vulnerability, Ecological Applications, Ecology, Evolutionary Biology
Abstract

Climate change can have strong effects on species interactions and community structure. Temperature-dependent effects on predator-prey interactions are a major mechanism through which these effects occur. To understand the net effects of predator attack rates and dynamic windows of prey vulnerability, we examined the impacts of temperature on the interaction of a caterpillar (Arctia virginalis) and its ant predator (Formica lasioides). We conducted field experiments to examine attack rates on caterpillars relative to temperature, ant abundance, and body size, and laboratory experiments to determine the effects of temperature on caterpillar growth. We modeled temperature-dependent survival based on the integrated effects of temperature-dependent growth and temperature- and size-dependent predation. Attack rates on caterpillars increased with warming and ant recruitment, but decreased with caterpillar size. Caterpillar growth rates increased with temperature, narrowing the window of vulnerability. The model predicted that net caterpillar survival would decrease with temperature, suggesting that A. virginalis populations could be depressed with future climate warming. Theoretical work suggests that the net outcome of predator-prey interactions with increasing temperature depends on the respective responses of interacting species in terms of velocity across space, whereas the present study suggests the importance of effects of temperature on prey window of vulnerability, or "velocity" across time.

Published
2018

26. Tradeoff between resistance induced by volatile communication and over-topping vertical growth

Author

Karban, Richard

Subjects
Biological Sciences, Ecology, Artemisia, Cues, Herbivory, Plant Development, Volatile Organic Compounds, Costs, cues, herbivory, plant defense, sagebrush, Artemisia tridentata, Biochemistry and Cell Biology, Plant Biology, Horticultural Production, Plant Biology & Botany, Plant biology
Abstract

Plants commonly respond to reliable cues about herbivores by inducing greater defenses. Defenses are assumed to incur costs for plants when they are not needed. Sagebrush responds to volatile cues from experimentally clipped neighbors to induce resistance against chewing herbivores. Rather than experiencing costs, sagebrush seedlings that responded to dishonest cues were previously found to have increased survival and established plants that responded produced more inflorescences and new lateral branches. Here I report that young sagebrush plants that responded to cues added less vertical growth than controls that were not presented with volatile cues. This tradeoff between induced resistance and vertical, overtopping growth may allow agronomists to increase defense without sacrificing desirable traits. Overtopping growth is often beneficial for wild plants but often detrimental in agriculture.

Published
2017

27. Precipitation affects plant communication and defense

Author

Pezzola, Enrico, Mancuso, Stefano, and Karban, Richard

Subjects
Plant Biology, Biological Sciences, Ecology, Environmental Sciences, Artemisia, Herbivory, Plants, Seasons, Volatile Organic Compounds, Artemisia tridentata, communication, eavesdropping, herbivory, precipitation, volatiles, water availability, Artemisia tridentata, Ecological Applications, Evolutionary Biology, Zoology, Ecological applications
Abstract

Anti-herbivore defense shows high levels of both inter- and intraspecific variability. Defending against herbivores may be costly to the plant when it requires a tradeoff in allocation between defense and other missed opportunities, such as reproduction. Indeed, the plastic expression of defensive traits allows the plant to invest resources in defense only when the risk of being damaged actually increases, avoiding wasted resources. Plants may assess risk by responding to volatile cues emitted by neighbors that are under attack. Most plastic responses likely depend on environmental conditions. In this experiment, we investigated the effect of water availability on resistance induced by volatile cues in sagebrush. We found that plants receiving additional water over summer and/or volatile cues from neighbor donor plants showed reduced herbivore damage compared to control plants. Interestingly, we found no evidence of interactions between additional water and volatile cues. We performed an inferential analysis comparing historical records of the levels of herbivore damage during different years that had different temperature and precipitation accumulations. Results confirmed findings from the experiment, as the regression model indicated that sagebrush was better defended during wetter and hotter seasons. Reports from the literature indicated that sagebrush is extremely sensitive to water availability in the soil. We suggest that water availability may directly affect resistance of herbivory as well as sensitivity to cues of damage. Costs and benefits of allocating resources to defensive traits may vary with environmental conditions.

Published
2017

28. Effects of a multi-year drought on a drought-adapted shrub, Artemisia tridentata

Author

Karban, Richard and Pezzola, Enrico

Subjects
Good Health and Well Being, Chemotype, Climate change, Competition, Mortality, Reproduction, Sagebrush, Shade, Water stress, Ecology, Plant Biology
Abstract

Models of climate change predict more variable precipitation for much of western North America, including more severe multi-year droughts. Droughts are known to increase mortality to trees although less is known about effects on shrubs from arid environments and about effects on reproduction. In this study, we followed a cohort of young sagebrush plants from 2010 to 2016, a period that included a severe drought from 2012 to 2015. Plants experienced little mortality preceding and during the drought. However, in the year following the drought, 14% of individuals died and 33% of branches on living plants died. There was little flowering in the years preceding the drought and flowering increased in each successive year from 2014 to 2016. Plants that produced more flowers in 2015 had more dead branches in 2016. Larger plants had fewer branches that died. Contrary to expectations, afternoon shade was not associated with greater survival or flowering, perhaps because shaded plants were in proximity to large trees which likely competed for water. Plants of the two common chemotypes had similar rates of survival and flowering. Experimental watering during the summer of 2015 did not affect survival and may have increased flowering in 2016. If multi-year droughts become more common in the future, even drought-adapted shrubs may be expected to suffer high rates of mortality.

Published
2017

30. Plant structural complexity and mechanical defenses mediate predator–prey interactions in an odonate–bird system

Author

Grof‐Tisza, Patrick, LoPresti, Eric, Heath, Sacha K, and Karban, Richard

Subjects
Climate Change Impacts and Adaptation, Biological Sciences, Ecology, Environmental Sciences, associational refuge, indirect effects of species interactions, positive facilitation, predation refuge, Red-winged Blackbirds, Red‐winged Blackbirds, Evolutionary Biology, Evolutionary biology, Ecological applications
Abstract

Habitat-forming species provide refuges for a variety of associating species; these refuges may mediate interactions between species differently depending on the functional traits of the habitat-forming species. We investigated refuge provisioning by plants with different functional traits for dragonfly and damselfly (Odonata: Anisoptera and Zygoptera) nymphs emerging from water bodies to molt into their adult stage. During this period, nymphs experience high levels of predation by birds. On the shores of a small pond, plants with mechanical defenses (e.g., thorns and prickles) and high structural complexity had higher abundances of odonate exuviae than nearby plants which lacked mechanical defenses and exhibited low structural complexity. To disentangle the relative effects of these two potentially important functional traits on nymph emergence-site preference and survival, we conducted two fully crossed factorial field experiments using artificial plants. Nymphs showed a strong preference for artificial plants with high structural complexity and to a lesser extent, mechanical defenses. Both functional traits increased nymph survival but through different mechanisms. We suggest that future investigations attempt to experimentally separate the elements contributing to structural complexity to elucidate the mechanistic underpinnings of refuge provisioning.

Published
2017

31. Alarm calls of sagebrush converge when herbivory is high.

Author

Karban, Richard, Rasheed, Muhammad Usman, Huntzinger, Mikaela, Grof-Tisza, Patrick, and Blande, James

Subjects
*SAGEBRUSH, *TELECOMMUNICATION systems, *EAVESDROPPING, *ARTEMISIA, *HERBIVORES
Abstract

Herbivory is a major threat to virtually all plants, so adaptations to avoid herbivory will generally be selected. One potential adaptation is the ability to 'listen in' on the volatile cues emitted by plants that are experiencing herbivory and to then respond by ramping up defences. The nature of these volatile cues is poorly understood. Sagebrush (Artemisia tridentata) plants that were exposed to cues of experimentally damaged neighbours experienced less herbivory; this induction was most effective if emitter and receiver plants had similar volatile emission profiles, termed chemotypes. Previously, we observed that sagebrush populations that were in locations with high herbivory exhibited little diversity of volatiles compared to populations with low herbivory. Several hypotheses could produce this correlation. High risk of herbivory could have selected for individuals that converged on a common 'alarm cue' that all individuals would respond to. In this case, individuals of locally rare chemotypes that were less able to eavesdrop would experience more damage than common chemotypes when herbivores were abundant. Alternatively, low chemotypic diversity could allow higher levels of damage to plants. In this case, rare chemotypes would experience less damage than common chemotypes. We examined the chemotypes of sagebrush individuals from multiple sites and found that rare chemotypes experienced more damage than common chemotypes when herbivores were abundant. This pattern was seen among sites and among years with different densities of herbivores. This result is consistent with the hypothesis that herbivory selects for individuals that are effective communicators and shapes the communication system. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Geographic dialects in volatile communication between sagebrush individuals

Author

Karban, Richard, Wetzel, William C, Shiojiri, Kaori, Pezzola, Enrico, and Blande, James D

Subjects
Artemisia, Demography, Plant Physiological Phenomena, Volatile Organic Compounds, Artemisia tridentata, communication, dialects, eavesdropping, herbivory, variation, Artemisia tridentata, Ecological Applications, Ecology, Evolutionary Biology
Abstract

Plants respond to volatile cues emitted by damaged neighbors to increase their defenses against herbivores. We examined whether plants communicated more effectively with local neighbors than distant neighbors in a reciprocal experiment at two sites. Three branches on focal plants were incubated with air from (1) a control, (2) an experimentally clipped "foreign" plant from 230 km away, or (3) an experimentally clipped "local" plant from the same population as the focal plant. Branches incubated with air from the controls experienced 50-80% more leaf damage than those receiving air from experimentally clipped plants. Of more interest, branches receiving volatiles from experimentally clipped "local" plants received 50-65% of the leaf damage as those receiving volatiles from experimentally clipped "foreign" plants. Sabinyl compounds and related terpinenes were found to differ consistently for plants from southern and northern sites. These results indicate that cues vary geographically in their effectiveness and suggest that sagebrush responds more strongly to local than foreign dialects.

Published
2016

33. Variability in plant nutrients reduces insect herbivore performance

Author

Wetzel, William C, Kharouba, Heather M, Robinson, Moria, Holyoak, Marcel, and Karban, Richard

Subjects
Animals, Food Chain, Herbivory, Insecta, Plants, Population Dynamics, General Science & Technology
Abstract

The performance and population dynamics of insect herbivores depend on the nutritive and defensive traits of their host plants. The literature on plant-herbivore interactions focuses on plant trait mean values, but recent studies showing the importance of plant genetic diversity for herbivores suggest that plant trait variance may be equally important. The consequences of plant trait variance for herbivore performance, however, have been largely overlooked. Here we report an extensive assessment of the effects of within-population plant trait variance on herbivore performance using 457 performance datasets from 53 species of insect herbivores. We show that variance in plant nutritive traits substantially reduces mean herbivore performance via non-linear averaging of performance relationships that were overwhelmingly concave down. By contrast, relationships between herbivore performance and plant defence levels were typically linear, with variance in plant defence not affecting herbivore performance via non-linear averaging. Our results demonstrate that plants contribute to the suppression of herbivore populations through variable nutrient levels, not just by having low average quality as is typically thought. We propose that this phenomenon could play a key role in the suppression of herbivore populations in natural systems, and that increased nutrient heterogeneity within agricultural crops could contribute to the sustainable control of insect pests in agroecosystems.

Published
2016

34. CHEMOTYPIC Variation in Volatiles and Herbivory for Sagebrush.

Author

Karban, Richard, Grof-Tisza, Patrick, and Blande, James D

Subjects
Artemisia, Ecosystem, Volatile Organic Compounds, Herbivory, Spatio-Temporal Analysis, Camphor, Cue, Eavesdropping, Herbivore, Induced resistance, Information, Priming, Thujone, Volatile organic compound, Chemical Sciences, Biological Sciences, Environmental Sciences, Entomology
Abstract

Plants that are damaged by herbivores emit complex blends of volatile compounds that often cause neighboring branches to induce resistance. Experimentally clipped sagebrush foliage emits volatiles that neighboring individuals recognize and respond to. These volatiles vary among individuals within a population. Two distinct types are most common with either thujone or camphor as the predominate compound, along with other less common types. Individuals respond more effectively to cues from the same type, suggesting that some of the informative message is contained in the compounds that differentiate the types. In this study, we characterized the chemical profiles of the two common types, and we examined differences in their microhabitats, morphologies, and incidence of attack by herbivores and pathogens. Analysis by gas chromatography coupled with mass spectrometry revealed that the camphor type had higher emissions of camphor, camphene, and tricyclene, while the thujone type emitted more α-thujone, β-thujone, (Z)-salvene, (E)-salvene, carvacrol, and various derivatives of sabinene. We were unable to detect any consistent morphological or microhabitat differences associated with the common types. However, plants of the thujone type had consistently higher rates of damage by chewing herbivores. One galling midge species was more common on thujone plants, while a second midge species was more likely to gall plants of the camphor type. The diversity of preferences of attackers may help to maintain the variation in volatile profiles. These chemical compounds that differentiate the types are likely to be informative cues and deserve further attention.

Published
2016

35. A comparison of plants and animals in their responses to risk of consumption.

Author

Karban, Richard, Orrock, John L, Preisser, Evan L, and Sih, Andrew

Subjects
Animals, Plants, Herbivory, Biochemistry and Cell Biology, Microbiology, Plant Biology, Plant Biology & Botany
Abstract

Both plants and animals reduce their risk of being eaten by detecting and responding to herbivore and predator cues. Plants tend to be less mobile and rely on more local information perceived with widely dispersed and redundant tissues. As such, plants can more easily multi-task. Plants are more tolerant of damage and use damage to their own tissues as reliable cues of risk; plants have a higher threshold before responding to the threat of herbivory. Plants also use diverse cues that include fragments of plant tissue and molecular patterns from herbivores, herbivore feeding, or microbial associates of herbivores. Instead of fleeing from attackers, plants reallocate valuable resources to organs at less risk. They minimize unnecessary defenses against unrealized risks and costs of failing to defend against actual risk. Plants can remember and learn, although these abilities are poorly understood.

Published
2016

37. Airborne signals of communication in sagebrush: a pharmacological approach

Author

Shiojiri, Kaori, Ishizaki, Satomi, Ozawa, Rika, and Karban, Richard

Subjects
Artemisia, Herbivory, Plant Leaves, Signal Transduction, Volatile Organic Compounds, airborne signals, induced response, plant volatiles, plant communication, sagebrush, 1, 8-cineol, -caryophyllene, 1, 8-cineol, β-caryophyllene, Biochemistry and Cell Biology, Plant Biology, Horticultural Production, Plant Biology & Botany
Abstract

When plants receive volatiles from a damaged plant, the receivers become more resistant to herbivory. This phenomenon has been reported in many plant species and called plant-plant communication. Lab experiments have suggested that several compounds may be functioning as airborne signals. The objective of this study is to identify potential airborne signals used in communication between sagebrush (Artemisia tridentata) individuals in the field. We collected volatiles of one branch from each of 99 sagebrush individual plants. Eighteen different volatiles were detected by GC-MS analysis. Among these, 4 compounds; 1.8-cineol, β-caryophyllene, α-pinene and borneol, were investigated as signals of communication under natural conditions. The branches which received either 1,8-cineol or β-caryophyllene tended to get less damage than controls. These results suggested that 1,8-cineol and β-caryophyllene should be considered further as possible candidates for generalized airborne signals in sagebrush.

Published
2015

38. Caterpillars escape predation in habitat and thermal refuges

Author

KARBAN, RICHARD, GROF‐TISZA, PATRICK, MCMUNN, MARSHALL, KHAROUBA, HEATHER, and HUNTZINGER, MIKAELA

Subjects
Climate change, enemy-free space, Formica lasioides, habitat, Platyprepia virginalis, predator-prey, refuge, temperature, Ecological Applications, Ecology, Zoology, Entomology
Abstract

1. Climate and, therefore, abiotic conditions, are changing rapidly, and many ecological interactions depend on them. In this study, how abiotic conditions mediate a predator-prey interaction were examined. 2. Caterpillars of Platyprepia virginalis (Boisduval) (Arctiidae) were found previously to be more abundant in wet habitats and thick litter cover compared with drier habitats and little or no litter. We hypothesised that wet litter provided caterpillars with refuges from an important ant predator, Formica lasioides. It was further hypothesised that caterpillars would be able to move at lower temperatures than ants, thus providing them with a thermal refuge. 3. In the lab, caterpillars were more likely to escape ant predation and survive on wet litter and at lower temperatures. At all temperatures, ant recruitment was lower in wet litter than dry litter although ants were more active on litter than bare soil. Thus, wet litter may serve as a habitat refuge for caterpillars from ants. 4. Caterpillars were able to maintain activity at temperatures 8-14°C lower than F. lasioides. Thus colder temperatures may serve as a thermal refuge for caterpillars from ants. 5. It was hypothesised that caterpillars can escape ant predation when precipitation causes wet litter and at temperatures that they experience commonly in the field. This mismatch between caterpillars and their predators in ability to tolerate wet litter and low temperatures may affect their field distribution and abundance. Expected future warmer and drier conditions may not provide these refuges.

Published
2015

39. Predation and associational refuge drive ontogenetic niche shifts in an arctiid caterpillar.

Author

Grof-Tisza, Patrick, Holyoak, Marcel, Antell, Edward, and Karban, Richard

Subjects
Animals, Rodentia, Moths, Asteraceae, Lupinus, Predatory Behavior, Ecosystem, Larva, Pupa, arctiid caterpillars, associational defense, Bodega Marine Reserve, California, USA, bush lupine, Lupinus arboreus, complex life cycle, ecosystem coupling, holometabolous insects, ontogenetic habitat shift, predation refuge, pupal predation, ranchman's tiger moth, Platyprepia virginalis, thistle species, Ecological Applications, Ecology, Evolutionary Biology
Abstract

Despite the ubiquity of ontogenetic niche shifts, their drivers and consequences are poorly understood. Different nutritional requirements and stage-specific physiological limitations have often been offered as explanations for these life history features, but emerging work has demonstrated that top-down factors may also be important. We studied the roles of predation and associational refuge in ontogenetic niche shifts for a holometabolous insect (Platyprepia virginalis), which shifts habitats and host plants to pupate. We examined the effect of pupation site selection across habitats and host plants by late-instar caterpillars on the rate of predation during the relatively vulnerable pupal stage. Studying the ontogenetic transition from mobile caterpillar to non-feeding, sessile pupa allows isolation of top-down effects from bottom-up, nutritional effects. An observational study supported previous findings that feeding caterpillars preferred marsh habitats, but pupating caterpillars preferred prairie habitats. Experiments demonstrated that caterpillars preferred to pupate within a physically defended plant species. Pupation within this defended plant species resulted in reduced predation (an associational refuge), and removal of the physical defense structures negated the reduced-predation effect. This experiment shows that ontogenetic niche shifts can be driven by predation and can involve facilitation by a host plant that provides a refuge to predation. The co-option of plant chemical defenses by animals is widely established. However, finding a clear example in which an animal exploits a plant's physical defense is rare, especially in the context of ontogenetic niche shifts. This work shows that facilitation mediated by refuge from predation provided by host plants and life-stage-dependent predation risk can interact to shape species' distributions.

Published
2015

40. Deciphering the language of plant communication: volatile chemotypes of sagebrush

Author

Karban, Richard, Wetzel, William C, Shiojiri, Kaori, Ishizaki, Satomi, Ramirez, Santiago R, and Blande, James D

Subjects
Animals, Artemisia, Bicyclic Monoterpenes, Camphor, Gas Chromatography-Mass Spectrometry, Herbivory, Monoterpenes, Oils, Volatile, Plant Oils, Signal Transduction, Species Specificity, cue, eavesdropping, headspace, herbivory, heritability, signal, Biological Sciences, Agricultural and Veterinary Sciences, Plant Biology & Botany
Abstract

Volatile communication between sagebrush (Artemisia tridentata) individuals has been found previously to reduce herbivory and to be more effective between individuals that are genetically identical or related relative to between strangers. The chemical nature of the cues involved in volatile communication remains unknown for this and other systems. We collected headspace volatiles from sagebrush plants in the field and analyzed these using GC-MS. Volatile profiles were highly variable among individuals, but most individuals could be characterized as belonging to one of two chemotypes, dominated by either thujone or camphor. Analyses of parents and offspring revealed that chemotypes were highly heritable. The ecological significance of chemotypes and the genetic mechanisms that control them remain poorly understood. However, we found that individuals of the same chemotype communicated more effectively and experienced less herbivory than individuals of differing chemotypes. Plants may use chemotypes to distinguish relatives from strangers.

Published
2014

41. Volatile communication between plants that affects herbivory: a meta‐analysis

Author

Karban, Richard, Yang, Louie H, and Edwards, Kyle F

Subjects
Plant Biology, Biological Sciences, Ecology, Herbivory, Pheromones, Plant Physiological Phenomena, Plants, Volatile Organic Compounds, Eavesdropping, induced resistance, plant behaviour, plant signalling, volatiles, Ecological Applications, Evolutionary Biology, Ecological applications, Environmental management
Abstract

Volatile communication between plants causing enhanced defence has been controversial. Early studies were not replicated, and influential reviews questioned the validity of the phenomenon. We collected 48 well-replicated studies and found overall support for the hypothesis that resistance increased for individuals with damaged neighbours. Laboratory or greenhouse studies and those conducted on agricultural crops showed stronger induced resistance than field studies on undomesticated species, presumably because other variation had been reduced. A cumulative analysis revealed that early, non-replicated studies were more variable and showed less evidence for communication. Effects of habitat and plant growth form were undetectable. In most cases, the mechanisms of resistance and alternative hypotheses were not considered. There was no indication that some response variables were more likely to produce large effects. These results indicate that plants of diverse taxonomic affinities and ecological conditions become more resistant to herbivores when exposed to volatiles from damaged neighbours.

Published
2014

42. Transient habitats limit development time for periodical cicadas

Author

Karban, Richard

Subjects
Animals, Demography, Ecosystem, Female, Hemiptera, Nymph, Time Factors, Trees, 17-year cicada, abundance, habitat selection, life cycle, Magicicada, prolonged development, Ecological Applications, Ecology, Evolutionary Biology
Abstract

Periodical cicadas (Magicicada spp.) mature in 13 or 17 years, the longest development times for any non-diapausing insects. Selection may favor prolonged development since nymphs experience little mortality and individuals taking 17 years have been shown to have greater fecundity than those taking 13 years. Why don't periodical cicadas take even longer to develop? Nymphs feed on root xylem fluid and move little. Ovipositing females prefer fast-growing trees at forest edges. I hypothesized that (1) adults emerging at edges would be heavier than those from forest interiors and (2) habitat changes could limit development time. I collected newly eclosed females that had neither fed as adults nor moved from their site of development. For M. septendecim, females from edges were 4.9% heavier than those from the interior. I assumed that emergence density indicated habitat quality and measured density at eight sites in 1979, 1996, and 2013. Over three generations, variation in densities was great; densities at two sites crashed, and at one site they exploded to 579/m2 Habitat transience may limit development time because only adults can reassess habitats and reposition offspring. In conclusion, cicadas are affected by habitat characteristics, habitats change over 17 years, and cicadas may emerge, mate, and redistribute their offspring to track habitat dynamics.

Published
2014

44. Kin recognition affects plant communication and defence

Author

Karban, Richard, Shiojiri, Kaori, Ishizaki, Satomi, Wetzel, William C, and Evans, Richard Y

Subjects
Animals, Artemisia, Grasshoppers, Herbivory, Microsatellite Repeats, Volatile Organic Compounds, communication, eavesdropping, kin recognition, volatiles, Artemisia tridentata, herbivory, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences
Abstract

The ability of many animals to recognize kin has allowed them to evolve diverse cooperative behaviours; such ability is less well studied for plants. Many plants, including Artemisia tridentata, have been found to respond to volatile cues emitted by experimentally wounded neighbours to increase levels of resistance to herbivory. We report that this communication was more effective among A. tridentata plants that were more closely related based on microsatellite markers. Plants in the field that received cues from experimentally clipped close relatives experienced less leaf herbivory over the growing season than those that received cues from clipped neighbours that were more distantly related. These results indicate that plants can respond differently to cues from kin, making it less likely that emitters will aid strangers and making it more likely that receivers will respond to cues from relatives. More effective defence adds to a growing list of favourable consequences of kin recognition for plants.

Published
2013

46. The importance of host plant limitation for caterpillars of an arctiid moth (Platyprepia virginalis) varies spatially

Author

Karban, Richard, Grof-Tisza, Patrick, Maron, John L, and Holyoak, Marcel

Subjects
Animals, California, Ecosystem, Host-Parasite Interactions, Larva, Moths, Population Dynamics, Species Specificity, Bodega Marine Reserve, California, USA, bottom-up control, lambda, Lupinus arboreus, metapopulation, movement, Platyprepia virginalis, population dynamics, source-sink, trophic interaction, Ecological Applications, Ecology, Evolutionary Biology
Abstract

Spatial dynamic theories such as source-sink models frequently describe habitat-specific demographies, yet there are surprisingly few field studies that have examined how and why interacting species vary in their dynamics across multiple habitat types. We studied the spatial pattern of interaction between a chewing herbivore and its primary larval host plant in two habitat types. We found that the interaction between an arctiid caterpillar (Platyprepia virginalis) and its host (Lupinus arboreus) differed in wet vs. upland dry habitats, as did yearly population dynamics for the caterpillar. In upland sites, there was a strong positive relationship between lupine cover and the abundance of caterpillars although this relationship was not apparent in wet sites. Additionally, in wet sites, caterpillar populations were larger and less variable across years. Caterpillars appeared to exhibit source-sink dynamics, with the time-averaged finite growth rate lamda > 1 in wet sites (sources), lamda < 1 in upland dry sites (sinks), and predominant source-to-sink movement of late-instar caterpillars. Populations in upland dry sites also went locally extinct in years of low regional abundance. Emigration from wet sites could potentially explain the lack of coupling of herbivore and host plant dynamics in these sites. These results indicate that movement and other factors affecting demography are habitat-specific and have important implications for trophic control. Acknowledging such complexity makes simple models of trophic control seem overly general but may allow us to formulate more broadly applicable ecological models.

Published
2012

47. Facilitation of tiger moths by outbreaking tussock moths that share the same host plants

Author

Karban, Richard, Grof‐Tisza, Patrick, and Holyoak, Marcel

Subjects
Animals, Ecosystem, Larva, Moths, Plants, Population Dynamics, caterpillar, competition, ecosystem engineer, food web, herbivore, interactions, litter, Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Ecology
Abstract

1. Ecologists have argued about the commonness and strength of interspecific competition between insect herbivores, but facilitation between herbivores has received much less consideration. We previously found that when two species of folivorous caterpillars co-occurred on a shared host plant, feeding by early season tiger moth caterpillars reduced the growth and reproduction of later season tussock caterpillars. However, densities of tussock caterpillars in summer were positively correlated with densities of tiger moth caterpillars the following spring. 2. In this study, we experimentally manipulated numbers of feeding tussock caterpillars and found that they facilitated tiger moth caterpillars. 3. The depth of the litter layer beneath host lupine bushes was positively correlated with the number of tussock caterpillars feeding on each bush. Experimental additions of litter beneath lupine canopies during summer resulted in increased numbers of tiger moth caterpillars in the following spring, indicating a causal role of litter. Litter potentially provides food, habitat and protection from desiccation and predation. We failed to find evidence that tussock caterpillars facilitated tiger moth caterpillars by mechanisms independent of litter. 4. Our study demonstrates that facilitation may operate between insect herbivores, across life-stages through indirect interactions that are non-trophic. Facilitation operated by a novel mechanism, the accumulation of litter which was a by-product of feeding by one species was valuable to a second species. Facilitation persisted in time and space far beyond the creation of litter by tussock caterpillars which should be considered important ecosystem engineers from the point of view of tiger moths. Facilitations that involve habitat modification may generally connect species that do not interact directly or trophically, and have not previously been considered to affect one another.

Published
2012

48. Complex consequences of herbivory and interplant cues in three annual plants.

Author

Pearse, Ian S, Porensky, Lauren M, Yang, Louie H, Stanton, Maureen L, Karban, Richard, Bhattacharyya, Lisa, Cox, Rosa, Dove, Karin, Higgins, August, Kamoroff, Corrina, Kirk, Travis, Knight, Christopher, Koch, Rebecca, Parker, Corwin, Rollins, Hilary, and Tanner, Kelsey

Subjects
Asteraceae, Brassicaceae, Fabaceae, Wounds and Injuries, Cues, Ecosystem, Adaptation, Biological, Plant Physiological Phenomena, Herbivory, Adaptation, Biological, General Science & Technology
Abstract

Information exchange (or signaling) between plants following herbivore damage has recently been shown to affect plant responses to herbivory in relatively simple natural systems. In a large, manipulative field study using three annual plant species (Achyrachaena mollis, Lupinus nanus, and Sinapis arvensis), we tested whether experimental damage to a neighboring conspecific affected a plant's lifetime fitness and interactions with herbivores. By manipulating relatedness between plants, we assessed whether genetic relatedness of neighboring individuals influenced the outcome of having a damaged neighbor. Additionally, in laboratory feeding assays, we assessed whether damage to a neighboring plant specifically affected palatability to a generalist herbivore and, for S. arvensis, a specialist herbivore. Our study suggested a high level of contingency in the outcomes of plant signaling. For example, in the field, damaging a neighbor resulted in greater herbivory to A. mollis, but only when the damaged neighbor was a close relative. Similarly, in laboratory trials, the palatability of S. arvensis to a generalist herbivore increased after the plant was exposed to a damaged neighbor, while palatability to a specialist herbivore decreased. Across all species, damage to a neighbor resulted in decreased lifetime fitness, but only if neighbors were closely related. These results suggest that the outcomes of plant signaling within multi-species neighborhoods may be far more context-specific than has been previously shown. In particular, our study shows that herbivore interactions and signaling between plants are contingent on the genetic relationship between neighboring plants. Many factors affect the outcomes of plant signaling, and studies that clarify these factors will be necessary in order to assess the role of plant information exchange about herbivory in natural systems.

Published
2012

49. An air transfer experiment confirms the role of volatile cues in communication between plants.

Author

Karban, Richard, Shiojiri, Kaori, and Ishizaki, Satomi

Subjects
Animals, Artemisia, Feeding Behavior, Plant Physiological Phenomena, Volatilization, cue, eavesdropping, herbivory, Koch's postulates, plant communication, volatile, Biological Sciences, Ecology
Abstract

Previous studies reported that sagebrush plants near experimentally clipped neighbors experienced less herbivory than did plants near unclipped neighbors. Blocking air flow with plastic bags made this effect undetectable. However, some scientists remained skeptical about the possibility of volatile communication between plants since the existence and identity of a cue that operates in nature have never been demonstrated. We conducted an air transfer experiment that collected air from the headspace of an experimentally clipped donor plant and delivered it to the headspace of an unclipped assay plant. We found that assay plants treated with air from clipped donors were less likely to be damaged by naturally occurring herbivores in a field experiment. This simple air transfer experiment fulfills the most critical of Koch's postulates and provides more definitive evidence for volatile communication between plants. It also provides an inexpensive experimental protocol that can be used to screen plants for interplant communication in the field.

Published
2010

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