Biological Reviews, volume 95, issue 2, pages 434-448

How do herbivorous insects respond to drought stress in trees?

Publication typeJournal Article
Publication date2019-11-21
scimago Q1
SJR4.347
CiteScore21.3
Impact factor11
ISSN14647931, 1469185X
DOI:  10.1111/brv.12571
PubMed ID:  31750622
General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences
Abstract
Increased frequency and severity of drought, as a result of climate change, is expected to drive critical changes in plant-insect interactions that may elevate rates of tree mortality. The mechanisms that link water stress in plants to insect performance are not well understood. Here, we build on previous reviews and develop a framework that incorporates the severity and longevity of drought and captures the plant physiological adjustments that follow moderate and severe drought. Using this framework, we investigate in greater depth how insect performance responds to increasing drought severity for: (i) different feeding guilds; (ii) flush feeders and senescence feeders; (iii) specialist and generalist insect herbivores; and (iv) temperate versus tropical forest communities. We outline how intermittent and moderate drought can result in increases of carbon-based and nitrogen-based chemical defences, whereas long and severe drought events can result in decreases in plant secondary defence compounds. We predict that different herbivore feeding guilds will show different but predictable responses to drought events, with most feeding guilds being negatively affected by water stress, with the exception of wood borers and bark beetles during severe drought and sap-sucking insects and leaf miners during moderate and intermittent drought. Time of feeding and host specificity are important considerations. Some insects, regardless of feeding guild, prefer to feed on younger tissues from leaf flush, whereas others are adapted to feed on senescing tissues of severely stressed trees. We argue that moderate water stress could benefit specialist insect herbivores, while generalists might prefer severe drought conditions. Current evidence suggests that insect outbreaks are shorter and more spatially restricted in tropical than in temperate forests. We suggest that future research on the impact of drought on insect communities should include (i) assessing how drought-induced changes in various plant traits, such as secondary compound concentrations and leaf water potential, affect herbivores; (ii) food web implications for other insects and those that feed on them; and (iii) interactions between the effects on insects of increasing drought and other forms of environmental change including rising temperatures and CO2 levels. There is a need for larger, temperate and tropical forest-scale drought experiments to look at herbivorous insect responses and their role in tree death.
Found 139
By date By citations
Wiley
Mechanisms structuring host–parasitoid networks in a global warming context: a review
Thierry M., Hrček J., Lewis O.T.
Ecological Entomology scimago Q1 wos Q2
2019-05-20 citations by CoLab: 51 Abstract  
1. In natural communities, multiple host and parasitoid species are linked to form complex networks of trophic and non‐trophic interactions. Understanding how these networks will respond to global warming is of wide relevance for agriculture and conservation. 2. This study synthesises the emerging evidence surrounding host–parasitoid networks in the context of global warming. The suite of direct and indirect interaction types within host–parasitoid networks is summarised, as well as their sensitivity to temperature changes. The study also compiles and reviews studies investigating the responses of whole host–parasitoid networks to increasing temperatures or proxy variables. The findings reveal there is limited evidence overall for the prediction that parasitism will be reduced under global warming: approximately equal numbers of studies show elevated and reduced parasitism. 3. Increasingly, endosymbiotic bacteria are recognised as influential mediators of host–parasitoid interactions. These endosymbionts can change how individual species respond to global warming, and their effects can cascade to affect whole host–parasitoid networks. The evidence that symbiotic bacteria are likely to affect the response of host–parasitoid networks to global warming is reviewed. Symbionts can protect hosts from their parasitoids or influence thermal tolerance of their host species. Furthermore, the symbionts themselves can be impacted by global warming. 4. Finally, the study considers the most promising avenues for future research into the mechanisms structuring host–parasitoid networks in the context of global warming. Alongside the increasing availability of modern molecular methods to document the structure of real, species‐rich host–parasitoid networks, the study highlights the utility of manipulative experiments and mathematical models.
Elsevier
Perspective: Where might be many tropical insects?
Janzen D.H., Hallwachs W.
Biological Conservation scimago Q1 wos Q1
2019-05-01 citations by CoLab: 123 Abstract  
I have been watching the gradual and very visible decline of Mexican and Central American insect density and species richness since 1953 and Winnie since 1978. The loss is very real for essentially all higher taxa, and the reasons are very evident: intense forest and agricultural simplification of very large areas, massive use of pesticides, habitat fragmentation, and at least since the 1980's, ever-increasing climate change in temperature, rainfall, and synchronization of seasonal cues. There is no ecological concept suggesting that this biodiversity and habitat impoverishment is restricted to this portion of the Neotropics, and our 50 years of occasional visits to other parts of the tropics suggest the same. We are losing most of the insect community that is still in the cloud forests due to the drying of the tops of tropical mountains, just as we are losing the huge expanses of insect communities that once occupied the fertile soils, weather, and water of the lowland tropics. Today we have unimaginable access to the world's biodiversity through the internet, roads, dwellings, education, bioliterate societies, DNA barcoding, genome sequencing, and human curiosity. The wild world gains from our understanding that it needs large and diverse terrain, relief from hunting trees and animals, site-specific restoration, profit-sharing with its societies, and tolerance of humans and our extended genomes. But if our terrestrial world remains constructed through constant war with the arthropod world, along with the plants, fungi and nematodes, human society will lose very big time. The house is burning. We do not need a thermometer. We need a fire hose.
Elsevier
Simulated Herbivory: The Key to Disentangling Plant Defence Responses
Waterman J.M., Cazzonelli C.I., Hartley S.E., Johnson S.N.
Trends in Ecology and Evolution scimago Q1 wos Q1
2019-05-01 citations by CoLab: 77 Abstract  
Plants are subjected to a multitude of stimuli during insect herbivory, resulting in a complex and cumulative defence response. Breaking down the components of herbivory into specific stimuli and identifying the mechanisms of defence associated with them has thus far been challenging. Advances in our understanding of responses to inconspicuous stimuli, such as those induced by microbial symbionts in herbivore secretions and mechanical stimulation caused by insects, have illuminated the intricacies of herbivory. Here, we provide a synthesis of the interacting impacts of herbivory on plants and the consequential complexities associated with uncoupling defence responses. We propose that simulated herbivory should be used to complement true herbivory to decipher the mechanisms of insect herbivore-induced plant defence responses.
Public Library of Science (PLoS)
Moderate plant water stress improves larval development, and impacts immunity and gut microbiota of a specialist herbivore
Rosa E., Minard G., Lindholm J., Saastamoinen M.
PLoS ONE scimago Q1 wos Q1 Open Access
2019-02-20 citations by CoLab: 19 PDF Abstract  
While host plant drought is generally viewed as a negative phenomenon, its impact on insect herbivores can vary largely depending on the species involved and on the intensity of the drought. Extreme drought killing host plants can clearly reduce herbivore fitness, but the impact of moderate host plant water stress on insect herbivores can vary, and may even be beneficial. The populations of the Finnish Glanville fritillary butterfly (Melitaea cinxia) have faced reduced precipitation in recent years, with impacts even on population dynamics. Whether the negative effects of low precipitation are solely due to extreme desiccation killing the host plant or whether moderate drought reduces plant quality for the larvae remains unknown. We assessed the performance of larvae fed on moderately water-stressed Plantago lanceolata in terms of growth, survival, and immune response, and additionally were interested to assess whether the gut microbial composition of the larvae changed due to modification of the host plant. We found that larvae fed on water-stressed plants had increased growth, with no impact on survival, up-regulated the expression of one candidate immune gene (pelle), and had a more heterogeneous bacterial community and a shifted fungal community in the gut. Most of the measured traits showed considerable variation due to family structure. Our data suggest that in temperate regions moderate host plant water stress can positively shape resource acquisition of this specialized insect herbivore, potentially by increasing nutrient accessibility or concentration. Potentially, the better larval performance may be mediated by a shift of the microbiota on water-stressed plants, calling for further research especially on the understudied gut fungal community.
Springer Nature
Forest Insects and Climate Change
Pureswaran D.S., Roques A., Battisti A.
Current Forestry Reports scimago Q1 wos Q1
2018-04-30 citations by CoLab: 216 Abstract  
Climate change affects populations of forest insect pests in a number of ways. We reviewed the most recent literature (2013–2017) on this subject including previous reviews on the topic. We provide a comprehensive discussion of the subject, with special attention to insect range expansion, insect abundance, impacts on forest ecosystems, and effects on forest insect communities. We considered forest insects according to their major guilds and biomes. Effects of climate change on forest insects are demonstrated for a number of species and guilds, although generalizations of results available so far are difficult because of species-specific responses to climate change. In addition, disentangling direct and indirect effects of climate change is complex due to the large number of variables affected. Modeling based on climate projections is useful when combined with mechanistic explanations. Expansion of either the true range or the outbreak range is observed in several model species/groups of major insect guilds in boreal and temperate biomes. Mechanistic explanations are provided for a few species and are mainly based on increase in winter temperatures. In relation to insect abundance, climate change can either promote outbreaks or disrupt trophic interactions and decrease the severity of outbreaks. There is good evidence that some recent outbreaks of bark beetles and defoliating insects are influenced by climate change and are having a large impact on ecosystems as well as on communities of forest insects.
Wiley
Revisiting Plant-Herbivore Co-Evolution in the Molecular Biology Era
Jander G.
2018-04-19 citations by CoLab: 3 Abstract  
Abstract Important theories that define the role of secondary metabolites in the co‐evolution of plants and insect herbivores were proposed in a series of publications in the 1950s and 1960s. Now, roughly 50 years later, it is possible to revisit these early theories and determine how well they hold up in the light of sequenced genomes, molecular phylogenies, completely elucidated biosynthetic pathways and evidence for specific biochemical detoxification mechanisms in insect herbivores. Two classes of plant secondary metabolites stand out as being particularly well‐studied: the glucosinolates, which are characteristic of cruciferous plants; and the benzoxazinoids, which are found in many grass species. Using these metabolic pathways as examples, it is possible to demonstrate at the molecular level how biosynthesis of plant secondary metabolites evolved from primary metabolism, how the development of defensive chemicals can drive plant‐herbivore co‐evolution and how insects are able to respond to plant defences at the molecular level.
Springer Nature
Drought and plant neighbourhood interactively determine herbivore consumption and performance
Castagneyrol B., Moreira X., Jactel H.
Scientific Reports scimago Q1 wos Q1 Open Access
2018-04-12 citations by CoLab: 24 PDF Abstract  
Both plant neighbourhood composition and drought have well-known independent effects on insect herbivore performance, but their interactive effects remain elusive. In this study we performed a laboratory experiment to investigate the independent and combined effects of plant neighbourhood composition and drought on the performance of Gypsy moth larvae (Lymantria dispar) feeding on silver birch (Betula pendula) leaves. For this, we collected leaf samples from birch trees growing in a field experiment where we manipulated both host-tree species diversity (three levels: birch monocultures, two-species mixtures associating birch with the pedunculate oak Quercus robur or maritime pine Pinus pinaster, and three-species mixture with pedunculate oak, the maritime pine and birch) and water availability (two levels: irrigated vs. non-irrigated). In most cases, plant neighbourhood composition and irrigation treatments independently and interactively affected herbivore performance traits, especially those related to growth and food (i.e. birch leaves) processing. By addressing the interactive effects of tree species diversity and drought on insect herbivory from the herbivore’s point of view, our study builds toward a better understanding of the multiple ecological drivers of plant-insect interactions.
Wiley
Anti-herbivore defences and insect herbivory: Interactive effects of drought and tree neighbours
Castagneyrol B., Jactel H., Moreira X.
Journal of Ecology scimago Q1 wos Q1
2018-03-14 citations by CoLab: 44
Wiley
Water availability drives urban tree growth responses to herbivory and warming
Meineke E.K., Frank S.D.
Journal of Applied Ecology scimago Q1 wos Q1
2018-03-13 citations by CoLab: 54 Abstract  
Urban forests provide important ecosystem services to city residents, including pollution removal and carbon storage. Climate change and urbanization pose multiple threats to these services. However, how these threats combine to affect urban trees, and thus how to mitigate their effects, remains largely untested because multi-factorial experiments on mature trees are impractical. We used a unique urban warming experiment paired with a laboratory chamber experiment to determine how three of the most potentially damaging factors associated with global change for urban and rural trees—warming, drought, and insect herbivory—affect growth of Quercus phellos (willow oak), the most commonly planted large shade tree in the southeastern US, which is known for its resilience to these potential stressors. In a previous study, we found that the urban heat island effect was associated with reduced growth of Q. phellos and higher abundance of Parthenolecanium scale insects, key pests of oaks in cities. Here, we tested the hypothesis that tree water stress is the mechanism for these effects of warming. We found evidence that water stress is a major, interactive factor reducing urban tree growth, but found no evidence that water stress is associated with Parthenolecanium survival or abundance. Warming and Parthenolecanium only reduced growth in Q. phellos saplings that were simultaneously water stressed. Synthesis and applications. Across many temperate cities worldwide, urban trees grow less than rural trees. Our results point to water stress as the most likely driver for this pattern. Importantly, we found that water stress both reduces tree growth on its own and exacerbates effects of warming and insect pests on tree growth. Therefore, management strategies targeted at increasing tree hydration in cities may reduce effects of these three key stressors that are expected to intensify with further urbanization and climate change.
Springer Nature
Diversity and trait composition of moths respond to land-use intensification in grasslands: generalists replace specialists
Mangels J., Fiedler K., Schneider F.D., Blüthgen N.
Biodiversity and Conservation scimago Q1 wos Q2
2017-08-20 citations by CoLab: 63 Abstract  
Grasslands belong to the ecologically most relevant habitats in cultural landscapes, but also provide high economic value when used as meadows or pastures. Land-use intensification in grasslands negatively affects plant diversity as well as arthropod communities that depend on plants as food source and habitat, with important consequences for the provision and resilience of ecosystem functioning. In this study, we sampled grassland moth species and investigated whether species composition, diversity and life-history trait characteristics of moth communities respond to the type and intensity of land use, comparing 26 sites in three different regions of Germany. Consistent across the three regions, we found that pastures grazed by cattle, horses or sheep harbour fundamentally different moth communities than meadows (mown and fertilized grasslands). Overall land-use intensity (LUI)—i.e., grazing intensity, amount of fertilizer applied and mowing frequency taken together—significantly reduced abundance and species richness as well as diversity. Some 27.6% of the species showed significant negative responses to LUI. A shift towards generalist life-history traits was observed: in frequently mown and fertilized meadows, rare specialist species were replaced by ubiquist species, i.e., highly reproductive habitat generalists. These results show the sensitivity of moths, an important group of arthropod herbivores and pollinators, to land use change in grassland ecosystems. The functional homogenization of life-history traits in plants along land-use gradients is mirrored by their herbivore consumers, leaving high-intensity grasslands less diverse and potentially less resilient to environmental disturbances.
Springer Nature
Tree Diversity Drives Forest Stand Resistance to Natural Disturbances
Jactel H., Bauhus J., Boberg J., Bonal D., Castagneyrol B., Gardiner B., Gonzalez-Olabarria J.R., Koricheva J., Meurisse N., Brockerhoff E.G.
Current Forestry Reports scimago Q1 wos Q1
2017-07-04 citations by CoLab: 311 Abstract  
Forests are frequently exposed to natural disturbances, which are likely to increase with global change, and may jeopardize the delivery of ecosystem services. Mixed-species forests have often been shown to be more productive than monocultures, but it is unclear whether this results from mixed stands being in part more resistant to various biotic and abiotic disturbance factors. This review investigates the relationships between tree diversity and stand resistance to natural disturbances and explores the ecological mechanisms behind the observed relationships. Mixed forests appear to be more resistant than monocultures to small mammalian herbivores, soil-borne fungal diseases and specialized insect herbivores. Admixing broadleaves to conifers also increases the resistance to fire and windstorms when compared to pure conifer stands. However, mixed forests may be more affected by drought depending on the species in the mixture. Overall, our findings suggest that mixed forests are more resistant to natural disturbances that are relatively small-scale and selective in their effect. However, benefits provided by mixtures are less evident for larger-scale disturbances. Higher tree diversity translates into increased resistance to disturbances as a result of ecological trait complementarity among species, reduction of fuel and food resources for herbivores, enhancement of diversion or disruption processes, and multi-trophic interactions such as predation or symbiosis. To promote resistance, the selection of tree species with different functional characteristics appears more important than increasing only the number of species in the stand. Trees with different levels of susceptibility to different hazards should be intermixed in order to reduce the amount of exposed resources and to generate barriers against contagion. However, more research is needed to further improve associational resistance in mixed forests, through a better understanding of the most relevant spatial and temporal scales of species interactions and to optimize the overall provision of ecosystem services.
American Association for the Advancement of Science (AAAS)
Higher predation risk for insect prey at low latitudes and elevations
Roslin T., Hardwick B., Novotny V., Petry W.K., Andrew N.R., Asmus A., Barrio I.C., Basset Y., Boesing A.L., Bonebrake T.C., Cameron E.K., Dáttilo W., Donoso D.A., Drozd P., Gray C.L., et. al.
Science scimago Q1 wos Q1 Open Access
2017-05-19 citations by CoLab: 390 PDF Abstract  
Risky in the tropics It is well known that diversity increases toward the tropics. Whether this increase translates into differences in interaction rates among species, however, remains unclear. To simplify the problem, Roslin et al. tested for predation rates by using a single approach involving model caterpillars across six continents. Predator attack rates were higher toward the equator, but only for arthropod predators. Science , this issue p. 742
Wiley
Temperature and rainfall interact to control carbon cycling in tropical forests
Taylor P.G., Cleveland C.C., Wieder W.R., Sullivan B.W., Doughty C.E., Dobrowski S.Z., Townsend A.R.
Ecology Letters scimago Q1 wos Q1
2017-04-17 citations by CoLab: 127 Abstract  
Tropical forests dominate global terrestrial carbon (C) exchange, and recent droughts in the Amazon Basin have contributed to short-term declines in terrestrial carbon dioxide uptake and storage. However, the effects of longer-term climate variability on tropical forest carbon dynamics are still not well understood. We synthesised field data from more than 150 tropical forest sites to explore how climate regulates tropical forest aboveground net primary productivity (ANPP) and organic matter decomposition, and combined those data with two existing databases to explore climate - C relationships globally. While previous analyses have focused on the effects of either temperature or rainfall on ANPP, our results highlight the importance of interactions between temperature and rainfall on the C cycle. In cool forests (< 20 °C), high rainfall slowed rates of C cycling, but in warm tropical forests (> 20 °C) it consistently enhanced both ANPP and decomposition. At the global scale, our analysis showed an increase in ANPP with rainfall in relatively warm sites, inconsistent with declines in ANPP with rainfall reported previously. Overall, our results alter our understanding of climate - C cycle relationships, with high precipitation accelerating rates of C exchange with the atmosphere in the most productive biome on earth.
Springer Nature
Not all droughts are created equal? The effects of stress severity on insect herbivore abundance
Sconiers W.B., Eubanks M.D.
Arthropod-Plant Interactions scimago Q2 wos Q3
2016-11-26 citations by CoLab: 37 Abstract  
Predicting interactions between drought and plant–insect interactions has been a challenge. Currently, we are unable to accurately predict herbivore abundance on stressed plants despite over 500 publications and half a dozen formal hypotheses. With drought predicted to increase in severity with climate change, determining herbivore abundance on stressed plants is critical for continued agricultural and natural system management. During drought, plants increase concentrations of nutrients and also suffer from water loss. Many empirical studies test drought on plants using severe continuous stress, but studies suggest drought may benefit herbivores when it is intermittent (pulsed). In our study, we tested intermittent and severe stress on herbivore and arthropod abundance in a cotton agro-ecosystem. Our goal was to determine how these types of drought influence herbivore abundance on stressed plants and the relationship between herbivore abundance and stress-related nutrients. We found that intermittent and severe water-deficit stress had different effects on insect herbivores, signifying that drought severity influences herbivore abundance. Piercing–sucking herbivores such as thrips, stink bugs, and leafhoppers were more abundant on intermittently stressed plants than on severely stressed plants. Drought did not significantly affect chewing herbivores, and their abundance was inconsistent on stressed and well-watered plants. Furthermore, nutrient concentrations were similar between stressed and unstressed plants, but herbivore abundance was greater on intermittently stressed plants, suggesting that other physiological characteristics of stressed plants and herbivore feeding ecology must be considered. Our study suggests that the drought severity must be considered when predicting herbivore abundance on stressed plants.
Proceedings of the National Academy of Sciences (PNAS)
The correlations and sequence of plant stomatal, hydraulic, and wilting responses to drought
Bartlett M.K., Klein T., Jansen S., Choat B., Sack L.
Proceedings of the National Academy of Sciences of the United States of America scimago Q1 wos Q1 Open Access
2016-11-02 citations by CoLab: 393 Abstract  
Significance Many plant species face increasing drought under climate change, making plant drought tolerance integral to predicting species and ecosystem responses. Many physiology traits interact to determine overall drought tolerance, but trait relationships have not been assessed for general patterns across global plant diversity. We analyzed stomatal, hydraulic, and mesophyll drought tolerance traits for 310 species from ecosystems worldwide. We evaluated the sequence of drought responses for plants under increasing water stress, and showed that coselection with environmental water stress drives most trait correlations across species, with functional coordination additionally important for some relationships. These results provide insight into how variation in multiple traits should be represented within plants and across species in models of plant responses to drought.
Found 150
By date By citations
Springer Nature
Crop pest responses to global changes in climate and land management
Ma C., Wang B., Wang X., Lin Q., Zhang W., Yang X., van Baaren J., Bebber D.P., Eigenbrode S.D., Zalucki M.P., Zeng J., Ma G.
Nature Reviews Earth & Environment scimago Q1 wos Q1
2025-04-08 citations by CoLab: 0
Wiley
Insect Herbivory Releases More Nutrients in Warmer and Drier Forests
Hwang B.C., Giardina C.P., Barrios‐Garcia M.N., Diao H., Duboscq‐Carra V.G., Hemp A., Hemp C., Jiménez‐Castillo M., Lobos‐Catalán P., Mumladze L., Palma A.C., Petritan I.C., Rodriguez‐Cabal M.A., Andersson T., Francisco K.S., et. al.
Global Biogeochemical Cycles scimago Q1 wos Q1
2025-04-05 citations by CoLab: 0 Abstract  
AbstractClimate, forest successional stage, and soil substrate age can alter herbivore communities and their effects on biogeochemical cycling, but the size and spatial variability of these effects are poorly quantified. To address this knowledge gap, we established a globally distributed network of 50 broadleaved old‐growth forests across six continents, encompassing well‐constrained local‐scale gradients in mean annual temperature (MAT), mean annual precipitation (MAP), succession, and soil substrate age. We used this network to investigate how these variables impact insect foliar herbivory and the associated carbon, nitrogen, phosphorus, and silica fluxes in forest ecosystems. Over 1 to 2 years, we measured stand‐level foliar biomass production, leaf‐level herbivory, and foliar element concentrations. At the global scale, insect herbivores liberated higher amounts of elements from the canopies of warmer and drier sites than those of cooler and wetter sites with patterns for phosphorus being most pronounced. MAT exerted a stronger influence over insect‐mediated element fluxes than MAP. Foliar biomass production and leaf‐level herbivory responses to MAT and MAP were mainly responsible for the observed changes in insect‐mediated element fluxes; we also observed minor effects of foliar phosphorus concentration on phosphorus fluxes. Local‐scale trends were mixed and successional stage or soil substrate age did not appear to influence insect herbivore‐mediated element fluxes. These results demonstrate that climate effects on plant‐herbivore interactions are stronger at large than small scales, at which herbivory rates and nutrient fluxes appear to be more strongly affected by a diversity of non‐climate factors.
Springer Nature
Specimen preparation for X-ray micro-computed tomography of forest pests
Ahn E.J., Kim K.W.
Applied Microscopy scimago Q3 Open Access
2025-04-02 citations by CoLab: 0 PDF Abstract  
Abstract X-ray micro-computed tomography (XCT) is an X-ray-based three-dimensional (3D) imaging technique that enables non-destructive imaging of both external and internal structures. It is widely used for studying biological specimens such as animals and plants. In this review, we discuss various specimen preparation methods for the technique, particularly focusing on forest pests, with six representative cases. Specimen preparation methods for forest pests can be broadly categorized into three groups based on mounting types: (i) simple mounting, (ii) liquid-cell mounting, and (iii) dry-cell mounting. The simple mounting method is particularly suitable for adult beetles due to their exoskeleton. The dehydration process minimizes specimen movement during scanning, ensuring better imaging quality. In the case of liquid-cell mounting, the specimen is immersed in a liquid medium for scanning, which effectively preserves the soft tissues of larvae and pupae. The dry-cell mounting does not involve fixation or dehydration and is particularly useful for analyzing immobilized specimens. To enhance the quality of 3D images, selecting an appropriate preparation method is essential. Since forest pests display varying sizes and types, the choice of preparation method should be based on the specific characteristics of the specimens of interest and research objectives. This review provides valuable insights for researchers and practitioners seeking to identify the most suitable and effective mounting method for XCT scanning of forest pests.
Elsevier
Deciphering the role of metabolites and phytohormones in plant resilience to drought and herbivory
Sahu M., Giri A.P.
Plant Stress scimago Q1 wos Q1 Open Access
2025-03-01 citations by CoLab: 0
Springer Nature
Herbivory legacy modifies leaf economic spectrum and drought tolerance in two tree species
Gordaliza G.G., García-Rovés J.C., López R., Aranda I., Gil L., Perea R., Rodríguez-Calcerrada J.
Oecologia scimago Q1 wos Q2
2025-02-26 citations by CoLab: 0 Abstract  
Abstract The concurring effect of herbivory by wild ungulates and drought events is experiencing a notable increase in Mediterranean and temperate forests. While many studies have addressed the influence of drought on plant susceptibility to herbivory, it appears crucial to comprehend the impact of prolonged browsing on the physiological response of plants to increasing water deficit. To this end, we analyzed the effect of long-term recurrent herbivory by ungulates on physiological, biochemical, anatomical and morphological variables of Ilex aquifolium and Fagus sylvatica saplings during the growing seasons of 2018 and 2019 in a mixed sub-Mediterranean forest. We compared plants growing within an exclosure fence since 2006 (unbrowsed) with plants growing outside (browsed) that were also fenced during the study to investigate herbivory legacy. Twelve years of herbivory pressure modified significantly plant functional performance. Independently of the species, browsed plants showed higher root-to-shoot ratio, stem cross-sectional area-to-leaf area ratio, predawn leaf water potential, leaf nitrogen concentration and leaf gas exchange rates than unbrowsed plants. Moreover, browsed plants had lower leaf bulk modulus of elasticity, and higher osmotic potential at full turgor and turgor loss point. Thus, herbivory modified the leaf economic spectrum towards a more resource-acquisitive and less water stress tolerant type. These results suggest that, once browsing has subsided, plants continue to reflect some legacy effects that make them more vulnerable to further abiotic and biotic stresses, which has implications for forest regeneration.
Wiley
Trouble follows the needy: More severe leaf herbivory in the resource‐poor temperate oak forest than in the birch forest
Zhao C., Tian D., Mo Y., Yu G., Ji C., Fan D., Wang X., Fang J.
Functional Ecology scimago Q1 wos Q1
2025-02-13 citations by CoLab: 0 Abstract  
Abstract Plant–insect herbivore interactions are essential in shaping forest ecosystem health. The resource availability hypothesis (RAH) and the leaf economics spectrum (LES) theory predict that species in high‐resource environments tend to adopt a ‘fast’ strategy but are more susceptible to herbivory. However, this contradicts the reports of increased insect herbivory in the context of global drought intensification and hinders accurate prediction about how different plant species respond to herbivorous insect feeding. To fill this knowledge gap, we conducted an observational study in two temperate forests dominated by Quercus mongolica and Betula platyphylla in eastern China to compare their leaf herbivory patterns and explore possible mechanisms. We measured three leaf herbivory proxies (consumed leaf area, percent consumed and herbivory frequency), some leaf traits (leaf area [LA], specific leaf area [SLA], leaf water content [LWC], leaf nitrogen, phosphorus and non‐structural carbohydrate contents) and soil properties (pH, soil water content [SWC], soil organic carbon content, soil nitrogen and phosphorus contents). We found that Q. mongolica, growing in poorer soil environments with lower water and nutrient contents, experienced higher leaf herbivory than B. platyphylla. Regarding leaf traits, Q. mongolica had a higher LA and non‐structural carbohydrate content, but lower SLA, leaf nutrient and water contents, than B. platyphylla. At the leaf level, LA, rather than SLA, of both tree species was positively correlated with leaf herbivory. At the tree level, species‐specific patterns emerged, that is, leaf herbivory of B. platyphylla was positively related to LA and negatively related to leaf nitrogen and water contents and soil phosphorus content, whereas that of Q. mongolica was only positively affected by soil phosphorus content. These findings challenge the predictions of RAH and LES theory, as Q. mongolica that grows in resource‐poor soil environments with a conservative strategy suffers higher leaf herbivory than B. platyphylla, shedding some light on the proverb that trouble follows the needy. Moreover, water‐related factors (i.e. LWC and SWC) and LA showed an important effect on driving interspecific and intraspecific leaf herbivory variations here, implying that climate‐induced droughts may exacerbate herbivore pressure in temperate forests. Read the free Plain Language Summary for this article on the Journal blog.
Elsevier
Negative long-term effects of changed water availability on auchenorrhynchan communities in dry grassland reserves
Schuch S., Wesche K.
Biological Conservation scimago Q1 wos Q1
2025-02-01 citations by CoLab: 0
Elsevier
Sap-feeding insects do not respond uniformly to urbanization: the role of urban green spaces and species characteristics
Korányi D., Kőrösi Á., Orosz A., Markó V.
Global Ecology and Conservation scimago Q1 wos Q1 Open Access
2025-01-01 citations by CoLab: 0
Oxford University Press
Herbivory and water availability interact to shape the adaptive landscape in the perennial forb, Boechera stricta
Jameel M.I., Duncan L., Mooney K., Anderson J.T.
Evolution; international journal of organic evolution scimago Q1 wos Q2
2024-12-23 citations by CoLab: 2 Abstract  
Abstract Abiotic and biotic factors interact to influence phenotypic evolution; however, identifying the causal agents of selection that drive the evolution and expression of traits remains challenging. In a field common garden, we manipulated water availability and herbivore abundance across three years, and evaluated clinal variation in functional traits and phenology, plasticity, local adaptation, and selection using diverse accessions of the perennial forb, Boechera stricta. Consistent with expectations, drought stress exacerbated damage from herbivores. Foliar traits exhibited greater plasticity than phenological traits, which displayed more consistent genetic clines. Water availability and herbivory interacted to exert selection, even on traits like flowering duration, which showed no clinal variation and limited plasticity. Furthermore, the direction of selection on specific leaf area in response to water availability mirrored the genetic cline and plasticity, suggesting that variation in water levels across the landscape influences the evolution of this trait. Finally, both herbivory and water availability likely contribute to local adaptation. This work emphasizes the additive and synergistic roles of abiotic and biotic factors in shaping phenotypic variation across environmental gradients.
MDPI
Synthesis and Perspectives on Disturbance Interactions, and Forest Fire Risk and Fire Severity in Central Europe
Leonardos L., Gnilke A., Sanders T.G., Shatto C., Stadelmann C., Beierkuhnlein C., Jentsch A.
Fire scimago Q1 wos Q1 Open Access
2024-12-09 citations by CoLab: 1 PDF Abstract  
Wildfire risk increases following non-fire disturbance events, but this relationship is not always linear or cumulative, and previous studies are not consistent in differentiating between disturbance loops versus cascades. Previous research on disturbance interactions and their influence on forest fires has primarily focused on fire-prone regions, such as North America, Australia, and Southern Europe. In contrast, less is known about these dynamics in Central Europe, where wildfire risk and hazard are increasing. In recent years, forest disturbances, particularly windthrow, insect outbreaks, and drought, have become more frequent in Central Europe. At the same time, climate change is influencing fire weather conditions that further intensify forest fire dynamics. Here, we synthesize findings from the recent literature on disturbance interactions in Central Europe with the aim to identify disturbance-driven processes that influence the regional fire regime. We propose a conceptual framework of interacting disturbances that can be used in wildfire risk assessments and beyond. In addition, we identify knowledge gaps and make suggestions for future research regarding disturbance interactions and their implications for wildfire activity. Our findings indicate that fire risk in the temperate forests of Central Europe is increasing and that non-fire disturbances and their interactions modify fuel properties that subsequently influence wildfire dynamics in multiple ways.
Public Library of Science (PLoS)
Different dry-wet pulses favor different functional strategies: A test using tropical dry forest tree species
Vega-Ramos F., Cifuentes L., Pineda-García F., Dawson T., Paz H.
PLoS ONE scimago Q1 wos Q1 Open Access
2024-12-03 citations by CoLab: 1 PDF Abstract  
In many terrestrial habitats, plants experience temporal heterogeneity in water availability both at the intra and inter annual scales, creating dry-wet pulse scenarios. This variability imposes two concomitant challenges for plants: surviving droughts and efficiently utilizing water when it becomes available, whose responses are closely interconnected. To date, most studies have focused on the response to drought following static designs that do not consider consequences of repeated transitions from one state to the other. In principle, different dry-wet pulse scenarios among years may differentially affect species performance, plant strategies, and promote coexistence through temporal niche separation. We predicted that short frequent droughts would disfavor drought-avoidant species, as rapid leaf loss and production could disrupt their carbon balance, whereas tolerant species, which maintain carbon gain during droughts, should thrive in such conditions. Prolonged droughts might harm tolerant species by causing severe cavitation. We assessed the survival and growth responses of seedlings from 19 tropical dry forest tree species to simulated natural dry-wet pulse scenarios, examining their relationships with the continuum of species’ functional strategies under field conditions, and used greenhouse experiments to accompany the field experiment. As expected, different dry-wet pulse scenarios favored different plant functional strategies. Contrary to predictions, the most tolerant outperformed the most avoiders under all drought scenarios, while rapid water-exploiters thrived under non-drought conditions. The superiority of tolerant over avoider species was reverted in the greenhouse, suggesting that in addition to physiology, the fate of species may depend on extrinsic factors as natural enemies. The interplay between the marked variability of dry-wet pulse scenarios across the years and the diversity of water use strategies may contribute to species coexistence in the tropical dry forests. This research is relevant in predicting changes in dominant tree species under future climate scenarios characterized by increased temporal variation in water availability.
Wiley
Substantial Insect Herbivory in a South African Savanna‐Forest Mosaic: A Neglected Topic
Maraia H., Charles‐Dominique T., Tomlinson K., Staver A., Jorge L., Gélin U., Jancuchova‐Laskova J., Sam L., Hattas D., Freiberga I., Sam K.
Ecology and Evolution scimago Q1 wos Q2 Open Access
2024-11-09 citations by CoLab: 0 PDF Abstract  
ABSTRACTInsect herbivory plays a crucial role in shaping plant communities in many terrestrial ecosystems. However, in African savannas, insect herbivory has been relatively understudied compared to large mammalian herbivory. In this study, we examined the impact of insect herbivory, focusing on leaf chewers and miners, in a South African savanna‐forest mosaic (including patches of forest, thicket and savanna) in Hluhluwe iMfolozi Park, South Africa. Our investigation spanned gradients of rainfall, fire frequency and mammal density. We surveyed a total of 864 woody plants from 48 plant species in 38 plots. Insects consumed 6% of leaf biomass, which is comparable to their impact in temperate broadleaf forests, but the extent of herbivory damage varied between vegetation types. Overall, leaf loss was 70% higher in forests and savanna than that in thicket. Plants in the forests experienced greater damage from chewing insects, whereas miners caused relatively more damage in savannas. Rates of insect herbivory also varied among plant species, declining with carbon and dry matter content but increasing with specific leaf area. Although no significant trade‐off was detected between insect and mammal herbivory, plant species with limited physical defences against mammals tended to experience high levels of insect herbivory. Our findings highlight the intricate dynamics of insect herbivory in different vegetation types and suggest that insect leaf herbivory, alongside mammalian herbivory, could play a significant role in influencing plant community composition and overall savanna ecosystem functioning.
Elsevier
Growth trends clustering: A novel method for detecting forest disturbances and extracting climate signals in tree rings
Jiang Y., Wang Z., Girardin M.P., Zhang Z., Ding X., Campbell E., Huang J.
Science of the Total Environment scimago Q1 wos Q1
2024-11-01 citations by CoLab: 0 Abstract  
Tree-ring widths contain valuable historical information related to both forest disturbances and climate variability and changes within forests. However, current methods are still unable to accurately distinguish between disturbances and climate signals in tree rings, especially in the case of climate anomalies. To address this issue, we developed a novel method, called Growth Trends Clustering (GTC) that uses the distribution characteristics of tree-ring widths within a stand to distinguish the effects of climate and other forest disturbances. GTC employed a Gaussian mixture model to fit the probability density distribution of annual ring-width index (RWI) in a stand. Discriminative criteria were established to cluster diverse sub-distributions from the Gaussian mixture model into categories of growth release, suppression, or normal trends. This approach allowed us to identify the occurrence, duration, and severity of forest disturbances based on percentage changes in the growth release or suppression categories of trees. And the effect of climate on tree growth was assessed according to the mean statistics of the growth normal categories. Using common forest disturbances such as defoliating insects and thinning as examples, we validated our method using tree-ring collections from six sites in British Columbia and Quebec, Canada. We found that the GTC method was superior to traditional time-series analysis methods (e.g., Radial Growth Averaging, Boundary Line, Absolute Increase, and Curve Intervention Detection) for detecting past forest disturbances and was able to significantly enhance climate signals. In summary, the GTC method presented in this study introduces a novel statistical approach for accurately distinguishing between forest disturbances and climate signals in tree rings. This is particularly important for understanding forest disturbance regimes under climate change and for developing future disturbance mitigation strategies.
Forest health under climate change: impact of insect pests
Bracalini M., Balacenoiu F., Panzavolta T.
IForest scimago Q2 wos Q2 Open Access
2024-10-31 citations by CoLab: 2
Wiley
Tree species and drought: Two mysterious long‐standing counterparts
Cisse E.H., Pascual L.S., Gajanayake K.B., Yang F.
Physiologia Plantarum scimago Q1 wos Q1
2024-10-28 citations by CoLab: 0 Abstract  
AbstractAround 252 million years ago (Late Permian), Earth experienced one of its most significant drought periods, coinciding with a global climate crisis, resulting in a devastating loss of forest trees with no hope of recovery. In the current epoch (Anthropocene), the worsening of drought stress is expected to significantly affect forest communities. Despite extensive efforts, there is significantly less research at the molecular level on forest trees than on annual crop species. Would it not be wise to allocate equal efforts to woody species, regardless of their importance in providing essential furniture and sustaining most terrestrial ecosystems? For instance, the poplar genome is roughly quadruple the size of the Arabidopsis genome and has 1.6 times the number of genes. Thus, a massive effort in genomic studies focusing on forest trees has become inevitable to understand their adaptation to harsh conditions. Nevertheless, with the emerging role and development of high‐throughput DNA sequencing systems, there is a growing body of literature about the responses of trees under drought at the molecular and eco‐physiological levels. Therefore, synthesizing these findings through contextualizing drought history and concepts is essential to understanding how woody species adapt to water‐limited conditions. Comprehensive genomic research on trees is critical for preserving biodiversity and ecosystem function. Integrating molecular insights with eco‐physiological analysis will enhance forest management under climate change.

Top-30

Journals

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Forest Ecology and Management
Forest Ecology and Management, 7, 4.67%
Forests
Forests, 4, 2.67%
Journal of Pest Science
Journal of Pest Science, 4, 2.67%
Arthropod-Plant Interactions
Arthropod-Plant Interactions, 4, 2.67%
Science of the Total Environment
Science of the Total Environment, 4, 2.67%
Oikos
Oikos, 4, 2.67%
Frontiers in Plant Science
Frontiers in Plant Science, 3, 2%
Frontiers in Forests and Global Change
Frontiers in Forests and Global Change, 3, 2%
Current Opinion in Insect Science
Current Opinion in Insect Science, 3, 2%
Agricultural and Forest Entomology
Agricultural and Forest Entomology, 3, 2%
New Phytologist
New Phytologist, 3, 2%
Biotropica
Biotropica, 3, 2%
Ecological Entomology
Ecological Entomology, 3, 2%
Ecology Letters
Ecology Letters, 2, 1.33%
Proceedings of the Royal Society B: Biological Sciences
Proceedings of the Royal Society B: Biological Sciences, 2, 1.33%
Current Forestry Reports
Current Forestry Reports, 2, 1.33%
Agronomy
Agronomy, 2, 1.33%
Scientific Reports
Scientific Reports, 2, 1.33%
Urban Forestry and Urban Greening
Urban Forestry and Urban Greening, 2, 1.33%
Environmental and Experimental Botany
Environmental and Experimental Botany, 2, 1.33%
Ecology
Ecology, 2, 1.33%
Global Change Biology
Global Change Biology, 2, 1.33%
Annual Review of Entomology
Annual Review of Entomology, 2, 1.33%
Journal of Plant Ecology
Journal of Plant Ecology, 2, 1.33%
PLoS ONE
PLoS ONE, 2, 1.33%
eLife
eLife, 2, 1.33%
Life
Life, 1, 0.67%
Theoretical Ecology
Theoretical Ecology, 1, 0.67%
Journal of Chemical Ecology
Journal of Chemical Ecology, 1, 0.67%
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Publishers

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Wiley
Wiley, 40, 26.67%
Elsevier
Elsevier, 33, 22%
Springer Nature
Springer Nature, 25, 16.67%
MDPI
MDPI, 11, 7.33%
Cold Spring Harbor Laboratory
Cold Spring Harbor Laboratory, 9, 6%
Oxford University Press
Oxford University Press, 7, 4.67%
Frontiers Media S.A.
Frontiers Media S.A., 6, 4%
Annual Reviews
Annual Reviews, 3, 2%
The Royal Society
The Royal Society, 2, 1.33%
Taylor & Francis
Taylor & Francis, 2, 1.33%
Public Library of Science (PLoS)
Public Library of Science (PLoS), 2, 1.33%
eLife Sciences Publications
eLife Sciences Publications, 2, 1.33%
Northeast Forestry University, 1, 0.67%
Crop Science Society of America
Crop Science Society of America, 1, 0.67%
Cambridge University Press
Cambridge University Press, 1, 0.67%
American Association for the Advancement of Science (AAAS)
American Association for the Advancement of Science (AAAS), 1, 0.67%
Italian Society of Sivilculture and Forest Ecology (SISEF), 1, 0.67%
Biology Centre, AS CR, 1, 0.67%
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  • We do not take into account publications without a DOI.
  • Statistics recalculated only for publications connected to researchers, organizations and labs registered on the platform.
  • Statistics recalculated weekly.

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