Your search keyword '"Segar, Simon T."' showing total 25 results

1. Illuminating arthropod diversity in a tropical forest: Assessing biodiversity by automatic light trapping and DNA metabarcoding.

Author

Souto‐Vilarós, Daniel, Basset, Yves, Blažek, Petr, Laird‐Hopkins, Benita, Segar, Simon T., Navarro‐Valencia, Eduardo, Zamora, Ana Cecilia, Campusano, Yahir, Čtvrtečka, Richard, Savage, Amanda F., Perez, Filonila, Lopez, Yacksecari, Bobadilla, Ricardo, Ramírez Silva, José Alejandro, and Lamarre, Greg P. A.

Published

2024

2. Species richness of Orthoptera declines with elevation while elevational range of individual species peaks at mid elevation.

Author

Thomas, Jen, Segar, Simon T., and Cherrill, Andrew J.

Subjects

*SPECIES diversity, *ORTHOPTERA, *ALTITUDES, *NUMBERS of species, *NONLINEAR regression

Abstract

Species richness has been shown to decrease, and elevational range increase (the Rapoport effect), with elevation as a consequence of biotic and abiotic factors, but patterns are inconsistent across taxonomic groups. Despite being an important indicator taxon and a component of local communities, Orthoptera distributions at higher elevations in Europe remain unclear. We investigated the relationship of Orthoptera species richness and elevational range with elevation in the Pyrenees mountains, Europe. We conducted sweepnetting surveys supplemented by hand‐sampling, at 28 sites stratified by elevation, across three study areas. Using generalised linear models, we found that species richness declined with elevation. Elevation was an important predictor of species richness, but sampling effort and vegetation structure (height and cover) also contributed to estimates of species richness. Using a nonlinear regression to model the elevational range of species over the elevational gradient, we did not observe a Rapoport effect, with elevational range peaking at mid‐elevation instead. Smaller elevational ranges of species found at high elevations may be due to a combination of sampling over a restricted elevational range and the presence of specialist high‐elevation species. We argue that our findings are useful for understanding species distributions with elevation at the interface between local and regional scales. Clarifying the biotic and abiotic predictors of species distribution is important for informing conservation efforts and predicting consequences of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

3. High intraspecific variability and previous experience affect polyphenol metabolism in polyphagous Lymantria mathura caterpillars.

Author

Volf, Martin, Fontanilla, Alyssa M., Vanhakylä, Suvi, Abe, Tomokazu, Libra, Martin, Kogo, Ryosuke, Lilip, Roll, Kamata, Naoto, Murakami, Masashi, Novotny, Vojtech, Salminen, Juha‐Pekka, and Segar, Simon T.

Subjects

CATERPILLARS, METABOLISM, HABITUATION (Neuropsychology), NOCTUIDAE, LEPIDOPTERA, POLYPHENOLS

Abstract

Polyphagous insect herbivores feed on multiple host‐plant species and face a highly variable chemical landscape. Comparative studies of polyphagous herbivore metabolism across a range of plants is an ideal approach for exploring how intra‐ and interspecific chemical variation shapes species interactions. We used polyphagous caterpillars of Lymantria mathura (Erebidae, Lepidoptera) to explore mechanisms that may contribute to its ability to feed on various hosts. We focused on intraspecific variation in polyphenol metabolism, the fates of individual polyphenols, and the role of previous feeding experience on polyphenol metabolism and leaf consumption. We collected the caterpillars from Acer amoenum (Sapindaceae), Carpinus cordata (Betulaceae), and Quercus crispula (Fagaceae). We first fed the larvae with the leaves of their original host and characterized the polyphenol profiles in leaves and frass. We then transferred a subset of larvae to a different host species and quantified how host shifting affected their leaf consumption and polyphenol metabolism. There was high intraspecific variation in frass composition, even among caterpillars fed with one host. While polyphenols had various fates when ingested by the caterpillars, most of them were passively excreted. When we transferred the caterpillars to a new host, their previous experience influenced how they metabolized polyphenols. The one‐host larvae metabolized a larger quantity of ingested polyphenols than two‐host caterpillars. Some of these metabolites could have been sequestered, others were probably activated in the gut. One‐host caterpillars retained more of the ingested leaf biomass than transferred caterpillars. The pronounced intraspecific variation in polyphenol metabolism, an ability to excrete ingested metabolites and potential dietary habituation are factors that may contribute to the ability of L. mathura to feed across multiple hosts. Further comparative studies can help identify if these mechanisms are related to differential host‐choice and response to host‐plant traits in specialist and generalist insect herbivores. [ABSTRACT FROM AUTHOR]

Published

2024

4. Contrasting levels of β‐diversity and underlying phylogenetic trends indicate different paths to chemical diversity in highland and lowland willow species.

Author

Volf, Martin, Leong, Jing Vir, de Lima Ferreira, Paola, Volfová, Tereza, Kozel, Petr, Matos‐Maraví, Pável, Hörandl, Elvira, Wagner, Natascha D., Luntamo, Niko, Salminen, Juha‐Pekka, Segar, Simon T., and Sedio, Brian E.

Subjects

UPLANDS, WILLOWS, BOTANICAL chemistry, SPECIES, PLANT evolution, PLANT diversity

Abstract

Diverse specialised metabolites contributed to the success of vascular plants in colonising most terrestrial habitats. Understanding how distinct aspects of chemical diversity arise through heterogeneous environmental pressures can help us understand the effects of abiotic and biotic stress on plant evolution and community assembly. We examined highland and lowland willow species within a phylogenetic framework to test for trends in their chemical α‐diversity (richness) and β‐diversity (variation among species sympatric in elevation). We show that differences in chemistry among willows growing at different elevations occur mainly through shifts in chemical β‐diversity and due to convergence or divergence among species sharing their elevation level. We also detect contrasting phylogenetic trends in concentration and α‐diversity of metabolites in highland and lowland willow species. The resulting elevational patterns contribute to the chemical diversity of willows and suggest that variable selective pressure across ecological gradients may, more generally, underpin complex changes in plant chemistry. [ABSTRACT FROM AUTHOR]

Published

2023

5. Towards a functional classification of poorly known tropical insects: The case of rhinoceros beetles (Coleoptera, Dynastinae) in Panama.

Author

Basset, Yves, Blažek, Petr, Souto‐Vilarós, Daniel, Vargas, Gersey, Ramírez Silva, José Alejandro, Barrios, Héctor, Perez, Filonila, Bobadilla, Ricardo, Lopez, Yacksecari, Ctvrtecka, Richard, Šípek, Petr, Solís, Angel, Segar, Simon T., and Lamarre, Greg P. A.

Subjects

BEETLES, RHINOCEROSES, GENETIC barcoding, INSECTS, FUNCTIONAL groups, DUNG beetles

Abstract

The population dynamics of most tropical insects are unknown and long‐term monitoring programmes are urgently needed to evaluate a possible insect decline in the tropics. In this context, functional groups can be used effectively to summarise time‐series for species‐rich taxa. Neotropical dung beetles have often been catalogued into functional groups, but close relatives also of ecological significance, the Dynastinae, are awaiting such a classification.Here, we examine the functional groups of Dynastinae at the regional (Panama: 147 species) and local (Barro Colorado Island, BCI: 56 species) scales. Our optimum classification of Panamanian species distinguished five groups, one of which is probably artificial and accounts for species ecologically poorly known.Ecological attributes or species traits mainly influencing the delineation of groups were geographical distribution, body length, seasonal aggregation, larval food and whether the adult may be present in decaying wood.Our analyses indicated that (1) missing trait values and the high percentage of 'cryptic' species (25%) influenced the delineation of groups; (2) the dendrogram similarity of functional groups versus phylogenetic tree was low, although some traits were phylogenetically conserved; and (3) the overall structure of functional groups was conserved when comparing regional and local data, suggesting no drastic loss of functional groups locally.To proceed with the functional classification of poorly known tropical insects, we recommend a cautious selection of traits a priori, inclusion of 'cryptic' species recognised by DNA barcoding, and building phylogenies, which may allow a careful taxonomic imputation to complete species‐traits matrices. [ABSTRACT FROM AUTHOR]

Published

2023

6. Changes in temperature alter competitive interactions and overall structure of fig wasp communities.

Author

Aung, Khin Me Me, Chen, Huan‐Huan, Segar, Simon T., Miao, Bai‐Ge, Peng, Yan‐Qiong, and Liu, Cong

Subjects

PRIVATE communities, GALL wasps, WASPS, SPECIES distribution, FIG, COMPETITION (Biology), HABITATS

Abstract

Copyright of Journal of Animal Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

7. Predicting distributions of Wolbachia strains through host ecological contact—Who's manipulating whom?

Author

Darwell, Clive T., Souto‐Vilarós, Daniel, Michalek, Jan, Boutsi, Sotiria, Isua, Brus, Sisol, Mentap, Kuyaiva, Thomas, Weiblen, George, Křivan, Vlastimil, Novotny, Vojtech, and Segar, Simon T.

Subjects

REPRODUCTIVE isolation, WOLBACHIA, ASSORTATIVE mating, FORECASTING, HYBRID zones, GENETIC speciation

Abstract

Reproductive isolation in response to divergent selection is often mediated via third‐party interactions. Under these conditions, speciation is inextricably linked to ecological context. We present a novel framework for understanding arthropod speciation as mediated by Wolbachia, a microbial endosymbiont capable of causing host cytoplasmic incompatibility (CI). We predict that sympatric host sister‐species harbor paraphyletic Wolbachia strains that provide CI, while well‐defined congeners in ecological contact and recently diverged noninteracting congeners are uninfected due to Wolbachia redundancy. We argue that Wolbachia provides an adaptive advantage when coupled with reduced hybrid fitness, facilitating assortative mating between co‐occurring divergent phenotypes—the contact contingency hypothesis. To test this, we applied a predictive algorithm to empirical pollinating fig wasp data, achieving up to 91.60% accuracy. We further postulate that observed temporal decay of Wolbachia incidence results from adaptive host purging—adaptive decay hypothesis—but implementation failed to predict systematic patterns. We then account for post‐zygotic offspring mortality during CI mating, modeling fitness clines across developmental resources—the fecundity trade‐off hypothesis. This model regularly favored CI despite fecundity losses. We demonstrate that a rules‐based algorithm accurately predicts Wolbachia infection status. This has implications among other systems where closely related sympatric species encounter adaptive disadvantage through hybridization. [ABSTRACT FROM AUTHOR]

Published

2022

8. Low host specificity and broad geographical ranges in a community of parasitic non‐pollinating fig wasps (Sycoryctinae; Chalcidoidea).

Author

Deng, Xiaoxia, Chen, Lianfu, Tian, Enwei, Zhang, Dayong, Wattana, Tanming, Yu, Hui, Kjellberg, Finn, and Segar, Simon T.

Subjects

CHALCID wasps, WASPS, FIG, POLLINATORS, COMPETITION (Biology), HOST specificity (Biology)

Abstract

Plants, phytophagous insects and their parasitoids form the most diverse assemblages of macroscopic organisms on earth. Enclosed assemblages in particular represent a tractable system for studying community assembly and diversification. Communities associated with widespread plant species are especially suitable as they facilitate a comparative approach. Pantropical fig‐wasp communities represent a remarkably well‐replicated system, ideal for studying these historical processes.We expect high dispersal ability in non‐pollinating fig wasps to result in lower geographical turnover in comparison to pollinating fig wasps. The ability of non‐pollinating wasps to utilise a number of hosts (low host specificity) is a key determinant of overall geographical range, with intraspecific competition becoming a constraining factor should diet breadth overlap among species. Finally, we expect conserved community structure throughout the host range. We aim to test these expectations, derived from population genetic and community studies, using the multi‐trophic insect community associated with Ficus hirta throughout its 3,500 km range across continental and insular Asia.We collect molecular evidence from one coding mitochondrial gene, one non‐coding nuclear gene and multiple microsatellites across 25 geographical sites. Using these data, we establish species boundaries, determine levels of host specificity among non‐pollinating fig wasps and quantify geographical variation in community composition.We find low host specificity in two genera of non‐pollinating fig wasps. Functional community structure is largely conserved across the range of the host fig, despite limited correspondence between the ranges of non‐pollinator and pollinator species. While nine pollinators are associated with Ficus hirta, the two non‐pollinator tribes developing in its figs each contained only four species.Contrary to predictions, we find stronger isolation by distance in non‐pollinators than pollinators. Long‐lived non‐pollinators may disperse more gradually and be less reliant on infrequent long‐distance dispersal by wind currents. Segregation among non‐pollinating species across their range is suggestive of competitive exclusion and we propose that this may be a result of increased levels of local adaptation and moderate, but regular, rates of dispersal. Our findings provide one more example of lack of strict codiversification in the geographical diversification of plant‐associated insect communities. [ABSTRACT FROM AUTHOR]

Published

2021

9. Macroevolution of defense syndromes in Ficus (Moraceae).

Author

Zhao, Jin, Segar, Simon T., McKey, Doyle, and Chen, Jin

Subjects

*MORACEAE, *PLANT defenses, *MACROEVOLUTION, *PLANT diversity, *INSECT communities, *PLANT species, *ARMS race

Abstract

Recursive adaptations and counter‐adaptations of plant‐feeding insects are thought to have driven chemical and physical diversity in plant defenses. Among existing theories on defensive diversity, the syndromes hypothesis predicts that plants may evolve suites of covarying defense traits along evolutionary arms races with herbivores. We use the large, phenotypically diverse angiosperm genus Ficus (Moraceae) to test the major predictions of this hypothesis: (1) plant species will form distinctive combinations of defensive traits; (2) these traits will be correlated within each syndrome. Trait combinations need not map well onto phylogenies because plant species can converge onto similar trait values, but strong phylogenetic signal driven by selection (as opposed to drift) suggests roles for escalation and coevolution. Finally, Ficus species with complementary combinations of defenses will be less susceptible to insect damage and harbor distinct insect communities. We quantified susceptibility to insect herbivory and nine leaf traits related to resource acquisition and defense in 36 Ficus species growing in a common‐garden setting in dry and wet seasons over 2 yr. We recovered a set of three syndromes defined by relatively small sets of trait combinations. Broadly speaking, these syndromes grouped fig species with different life forms. For example, epiphytic figs had nutrient‐poor, tough, tannin‐rich leaves, while free‐standing trees tended to have leaves covered in trichomes and full of alkaloid‐rich latex. When season and species identity were accounted for, the combination of two traits, higher C:N and higher latex tannin content, provided significantly stronger defense than did either trait taken singly. Several individual traits (C:N, latex tannin, and trichome density) were significantly negatively correlated with herbivore damage, while alkaloid content was positively correlated (perhaps as a result of feeding by adapted herbivores). Several defensive traits influenced insect herbivore community structure. Finally, traits followed different evolutionary trajectories. While latex tannin, C:N, and leaf tannin fit a Brownian‐motion model of evolution, the first two escalating across Ficus phylogeny, others appeared to have more limited phylogenetic signal or tended to de‐escalate. Overall, the patterns we detected support the concept of coordinated defense syndromes, demonstrating that evolutionary arms races can drive combinations of traits in this genus. [ABSTRACT FROM AUTHOR]

Published

2021

10. Contrasting patterns of fig wasp communities along Mt. Wilhelm, Papua New Guinea.

Author

Souto‐Vilarós, Daniel, Houadria, Mickal, Michalek, Jan, Sisol, Mentap, Isua, Brus, Kuyaiva, Thomas, Weiblen, George D., Novotny, Vojtech, and Segar, Simon T.

Subjects

WASPS, FIG, PARASITIC wasps, TROPICAL forests, INSECT diversity, COMMUNITY forests

Abstract

The fig (Moraceae) and pollinating fig wasp (Agaonidae) mutualism is best known as a model system for the study of coevolution in plant–pollinator interactions and its central role in shaping vertebrate communities in tropical forests. Figs also host myriad antagonistic parasitic fig wasps which impose costs on both partners threatening mutualism stability. Spatiotemporal variation in parasitic wasp abundance is a key factor in mitigating these effects. Because fig wasps are temperature sensitive and likely vary in their ability to traverse environmental gradients, we expect community assemblages and abundance of both pollinating and non‐pollinating fig wasps to respond to changes along an elevational gradient. In the present study, we compare the fig wasp communities and abundance of three fig species growing along the slopes of the Mount Wilhelm altitudinal gradient in Papua New Guinea. We quantified wasps from over 100 male fig trees and calculated seed set for 55 female trees along each of the species' distribution on the transect. Our results show that the abundance of both pollinating and non‐pollinating fig wasps follow a mid‐elevation peak, consistent with fig species richness found in the same transect. The patterns, however, are different according to the host's species distribution. Seed set remained relatively constant along the gradient for all species with some decrease along higher elevations, potentially affecting connectivity along the gradient. As suggested for insects in general, temperature and habitat diversity appear to play a fundamental role in the species richness and abundance of fig wasps. [ABSTRACT FROM AUTHOR]

Published

2020

11. Are nematodes costly to fig tree–fig wasp mutualists?

Author

Shi, Rong‐Rong, Miao, Bai‐Ge, Segar, Simon T., Zeng, Yongsan, Wang, Bo, and Peng, Yan‐Qiong

Subjects

FIG, WASPS, POLLEN, NEMATODES, SEED industry, MORACEAE, PARASITOIDS, INSECT nematodes

Abstract

Most mutualisms are exploited by parasites, which must strike an evolutionary balance between virulence and long‐term persistence. Fig‐associated nematodes, living inside figs and dispersed by fig wasps, are thought to be exploiters of the fig–fig wasp mutualism. The life history of nematodes is synchronized with the fig development and adapted to particular developmental characteristics of figs. We expect host breeding systems (monoecious vs. gynodioecious figs) and seasonality to be central to this adaptation. However, the details of the adaptation are largely unknown. Here, we conducted the first field surveys on the prevalence of nematodes from monoecious Ficus microcarpa L.f. (Moraceae), gynodioecious Ficus hispida L.f., and their pollinating fig wasps in two seasons and two developmental stages of figs in Xishuangbanna, China. We followed this up by quantifying the effects of nematodes on fitness‐related traits on fig wasps (e.g., egg loads, pollen grains, and longevity) and fig trees (seed production) in gynodioecious F. hispida. The magnitude of nematode infection was compared between pre‐ and post‐dispersal pollinators to quantify the probability of nematodes being transported to new hosts. Our results showed that Ficophagus microcarpus (Nematoda: Aphelenchoididae) was the only nematode in F. microcarpa. In F. hispida, Martininema guangzhouensis (Nematoda: Aphelenchoididae) was the dominant nematode species, whereas Ficophagus centerae was rare. For both species of Ficus, rainy season and inter‐floral figs had higher rates of nematode infection than the dry‐hot season and receptive figs. Nematodes did not affect the number of pollen grains or egg loads of female wasps. We did not detect a correlation between seed production and nematode infection. However, carrying nematodes reduced the lifespan and dispersal ability of pollinator wasps, indicating higher rates of post‐emergence mortality in infected fig wasps. Severely infected fig wasps were likely 'filtered out', preventing the overexploitation of figs by wasps and stabilizing the interaction over evolutionary time. [ABSTRACT FROM AUTHOR]

Published

2019

12. Faster speciation of fig‐wasps than their host figs leads to decoupled speciation dynamics: Snapshots across the speciation continuum.

Author

Souto‐Vilarós, Daniel, Machac, Antonin, Michalek, Jan, Darwell, Clive Terence, Sisol, Mentap, Kuyaiva, Thomas, Isua, Brus, Weiblen, George D., Novotny, Vojtech, and Segar, Simon T.

Subjects

FIG, SPECIES diversity, POLLINATORS, GENETIC speciation, CHEMICAL ecology, WASPS

Abstract

Even though speciation involving multiple interacting partners, such as plants and their pollinators, has attracted much research, most studies focus on isolated phases of the process. This currently precludes an integrated understanding of the mechanisms leading to cospeciation. Here, we examine population genetic structure across six species‐pairs of figs and their pollinating wasps along an elevational gradient in New Guinea. Specifically, we test three hypotheses on the genetic structure within the examined species‐pairs and find that the hypothesized genetic structures represent different phases of a single continuum, from incipient cospeciation to the full formation of new species. Our results also illuminate the mechanisms governing cospeciation, namely that fig wasps tend to accumulate population genetic differences faster than their figs, which initially decouples the speciation dynamics between the two interacting partners and breaks down their one‐to‐one matching. This intermediate phase is followed by genetic divergence of both partners, which may eventually restore the one‐to‐one matching among the fully formed species. Together, these findings integrate current knowledge on the mechanisms operating during different phases of the cospeciation process. They also reveal that the increasingly reported breakdowns in one‐to‐one matching may be an inherent part of the cospeciation process. Mechanistic understanding of this process is needed to explain how the extraordinary diversity of species, especially in the tropics, has emerged. Knowing which breakdowns in species interactions are a natural phase of cospeciation and which may endanger further generation of diversity seems critical in a constantly changing world. [ABSTRACT FROM AUTHOR]

Published

2019

13. Insect assemblages attacking seeds and fruits in a rainforest in Thailand.

Author

BASSET, Yves, CTVRTECKA, Richard, DAHL, Chris, MILLER, Scott E., QUICKE, Donald L. J., SEGAR, Simon T., BARRIOS, Héctor, BEAVER, Roger A., BROWN, John W., BUNYAVEJCHEWIN, Sarayudh, GRIPENBERG, Sofia, KNÍŽEK, Miloš, KONGNOO, Pitoon, LEWIS, Owen T., PONGPATTANANURAK, Nantachai, PRAMUAL, Pairot, SAKCHOOWONG, Watana, and SCHUTZE, Mark

Subjects

FRUIT seeds, INSECT rearing, GRANIVORES, RAIN forests, INSECTS, INSECT pests

Abstract

Insect seed predators are important agents of mortality for tropical trees, but little is known about the impact of these herbivores in rainforests. During 3 years at Khao Chong (KHC) in southern Thailand we reared 17,555 insects from 343.2 kg or 39,252 seeds/fruits representing 357 liana and tree species. A commented list of the 243 insect species identified is provided, with details about their host plants. We observed the following. (i) Approximately 43% of identified species can be considered pests. Most were seed eaters, particularly on dry fruits. (ii) Approximately 19% of parasitoid species (all Opiinae) for which we could determine whether their primary insect host was a pest or not (all Bactrocera spp. breeding in fruits) can be considered beneficials. (iii) The seeds/fruits of approximately 28% of the plant species in this forest were free of attack. Phyllanthaceae, Rubiaceae and Meliaceae were attacked relatively infrequently; in contrast, Annonaceae, Fabaceae, Sapindaceae and Myristicaceae were more heavily attacked. There was no apparent effect of plant phylogeny on rates of attack but heavily attacked tree species had larger basal area in the KHC plot than rarely attacked tree species. (iv) Insects reared from fleshy fruits were more likely to show relatively stable populations compared to insects reared from dry fruits, but this was not true of insects reared from dipterocarps, which appeared to have relatively stable populations throughout the study period. We tentatively conclude that insects feeding on seeds and fruits have little effect on observed levels of host abundance in this forest. [ABSTRACT FROM AUTHOR]

Published

2019

14. Variation in trophic cascade strength is triggered by top–down process in an ant–wasp‐fig system.

Author

Wang, Bo, Segar, Simon T., Deng, Gui‐Zhong, Luo, Tian‐Xun, Lin, Hua, and Peng, Yan‐Qiong

Subjects

*FIG wasp, *PREDATION, *KEYSTONE species, *SPECIES distribution, *CAMOUFLAGE (Biology)

Abstract

Changes in the strength of trophic cascades over time have been associated with dramatic shifts in community structure and function. However, the pattern, process, and potential underlying mechanism of temporal variation in trophic cascades remains relatively unexplored. A top–down trophic cascade has been documented for the effects of predacious weaver ants Oecophylla smaragdina on the success of fig tree Ficus racemosa seed production. Ants cause high mortality of non‐pollinating fig wasps Sycophaga mayri that parasitize fruits, leading to greater success for the pollinating fig wasp–fig tree mutualists. Here, using a design in which pairs of branches were selected on a tree, and ants were excluded from one of each pair, we quantified the magnitude of the trophic cascade in the cool–dry, hot–dry and rainy (hot–wet) seasons in Xishuangbanna, southwest China. We also recorded the daily behavioral dynamics of ants and fig wasps in different seasons and analyzed the correlation between behavioral, activity and trophic cascade strength. We found that the strength of the trophic cascade was strong in the hot–dry season, diminished in the rainy season and disappeared in the cool–dry season in this system. The strength of species interactions between ants and non‐pollinating fig wasps, is positively correlated with trophic cascade strength, indicating that trophic cascade strength is determined by a top–down process when the community is well established. Moreover, because pollinating fig wasps, Ceratosolen fusciceps, play a central role in the establishment of fig wasp communities, when C. fusciceps wasps are absent, the community quickly disassembles as is the case in the cool–dry season. In summary, the strength of the trophic cascade is triggered by top–down processes, however, the occurrence of the trophic cascade is determined by a keystone species that plays a central role in assembly of the community. [ABSTRACT FROM AUTHOR]

Published

2019

15. High specialization and limited structural change in plant‐herbivore networks along a successional chronosequence in tropical montane forest.

Author

Redmond, Conor M., Auga, John, Gewa, Bradley, Segar, Simon T., Miller, Scott E., Molem, Kenneth, Weiblen, George D., Butterill, Philip T., Maiyah, Gibson, Hood, Amelia S. C., Volf, Martin, Jorge, Leonardo R., Basset, Yves, and Novotný, Vojtech

Subjects

TROPICAL forests, PLANT communities, PLANT defenses, SPECIES diversity, HERBIVORES, FOOD chains

Abstract

Secondary succession is well‐understood, to the point of being predictable for plant communities, but the successional changes in plant‐herbivore interactions remains poorly explored. This is particularly true for tropical forests despite the increasing importance of early successional stages in tropical landscapes. Deriving expectations from successional theory, we examine properties of plant‐herbivore interaction networks while accounting for host phylogenetic structure along a succession chronosequence in montane rainforest in Papua New Guinea. We present one of the most comprehensive successional investigations of interaction networks, equating to > 40 person years of field sampling, and one of the few focused on montane tropical forests. We use a series of nine 0.2 ha forest plots across young secondary, mature secondary and primary montane forest, sampled almost completely for woody plants and larval leaf chewers (Lepidoptera) using forest felling. These networks comprised of 12 357 plant‐herbivore interactions and were analysed using quantitative network metrics, a phylogenetically controlled host‐use index and a qualitative network beta diversity measure. Network structural changes were low and specialisation metrics surprisingly similar throughout succession, despite high network beta diversity. Herbivore abundance was greatest in the earliest stages, and hosts here had more species‐rich herbivore assemblages, presumably reflecting higher palatability due to lower defensive investment. All herbivore communities were highly specialised, using a phylogenetically narrow set of hosts, while host phylogenetic diversity itself decreased throughout the chronosequence. Relatively high phylogenetic diversity, and thus high diversity of plant defenses, in early succession forest may result in herbivores feeding on fewer hosts than expected. Successional theory, derived primarily from temperate systems, is limited in predicting tropical host‐herbivore interactions. All succession stages harbour diverse and unique interaction networks, which together with largely similar network structures and consistent host use patterns, suggests general rules of assembly may apply to these systems. [ABSTRACT FROM AUTHOR]

Published

2019

16. The insect‐focused classification of fruit syndromes in tropical rain forests: An inter‐continental comparison.

Author

Dahl, Chris, Ctvrtecka, Richard, Gripenberg, Sofia, Lewis, Owen T., Segar, Simon T., Klimes, Petr, Sam, Katerina, Rinan, Dominic, Filip, Jonah, Lilip, Roll, Kongnoo, Pitoon, Panmeng, Montarika, Putnaul, Sutipun, Reungaew, Manat, Rivera, Marleny, Barrios, Hector, Davies, Stuart J., Bunyavejchewin, Sarayudh, Wright, Joseph S., and Weiblen, George D.

Subjects

RAIN forests, FRUIT morphology, FRUIT diseases & pests, DIPTEROCARPACEAE, PLANT species

Abstract

We propose a new classification of rain forest plants into eight fruit syndromes, based on fruit morphology and other traits relevant to fruit‐feeding insects. This classification is compared with other systems based on plant morphology or traits relevant to vertebrate fruit dispersers. Our syndromes are based on fruits sampled from 1,192 plant species at three Forest Global Earth Observatory plots: Barro Colorado Island (Panama), Khao Chong (Thailand), and Wanang (Papua New Guinea). The three plots differed widely in fruit syndrome composition. Plant species with fleshy, indehiscent fruits containing multiple seeds were important at all three sites. However, in Panama, a high proportion of species had dry fruits, while in New Guinea and Thailand, species with fleshy drupes and thin mesocarps were dominant. Species with dry, winged seeds that do not develop as capsules were important in Thailand, reflecting the local importance of Dipterocarpaceae. These differences can also determine differences among frugivorous insect communities. Fruit syndromes and colors were phylogenetically flexible traits at the scale studied, as only three of the eight seed syndromes, and one of the 10 colors, showed significant phylogenetic clustering at either genus or family levels. Plant phylogeny was, however, the most important factor explaining differences in overall fruit syndrome composition among individual plant families or genera across the three study sites. Abstract in Melanesian is available with online material. [ABSTRACT FROM AUTHOR]

Published

2019

17. Pollination along an elevational gradient mediated both by floral scent and pollinator compatibility in the fig and fig‐wasp mutualism.

Author

Souto‐Vilarós, Daniel, Proffit, Magali, Buatois, Bruno, Rindos, Michal, Sisol, Mentap, Kuyaiva, Thomas, Isua, Brus, Michalek, Jan, Darwell, Clive T., Hossaert‐McKey, Martine, Weiblen, George D., Novotny, Vojtech, Segar, Simon T., and Gibson, David

Subjects

MUTUALISM (Biology), MORACEAE, AGAONIDAE, INSECT pollinators, PLANT phylogeny, WASPS, VOLATILE organic compounds, ODORS

Abstract

Copyright of Journal of Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

18. A cross‐continental comparison of assemblages of seed‐ and fruit‐feeding insects in tropical rain forests: Faunal composition and rates of attack.

Author

Basset, Yves, Dahl, Chris, Ctvrtecka, Richard, Gripenberg, Sofia, Lewis, Owen T., Segar, Simon T., Klimes, Petr, Barrios, Héctor, Brown, John W., Bunyavejchewin, Sarayudh, Butcher, Buntika A., Cognato, Anthony I., Davies, Stuart, Kaman, Ondrej, Knizek, Milos, Miller, Scott E., Morse, Geoffrey E., Novotny, Vojtech, Pongpattananurak, Nantachai, and Pramual, Pairot

Subjects

INSECT-host relationships, RAIN forest insects, FRUGIVORES, GRANIVORES, BIOGEOGRAPHY

Abstract

Abstract: Aim: Insects feeding on seeds and fruits represent interesting study systems, potentially able to lower the fitness of their host plants. In addition to true seed eaters, a suite of insects feed on the fleshy parts of fruits. We examined the likelihood of community convergence in whole insect assemblages attacking seeds/fruits in three tropical rain forests. Location: Three ForestGEO permanent forest plots within different biogeographical regions: Barro Colorado Island (Panama), Khao Chong (Thailand) and Wanang (Papua New Guinea). Methods: We surveyed 1,186 plant species and reared 1.1 ton of seeds/fruits that yielded 80,600 insects representing at least 1,678 species. We assigned seeds/fruits to predation syndromes on the basis of plant traits relevant to insects, seed/fruit appearance and mesocarp thickness. Results: We observed large differences in insect faunal composition, species richness and guild structure between our three study sites. We hypothesize that the high species richness of insect feeding on seeds/fruits in Panama may result from a conjunction of low plant species richness and high availability of dry fruits. Insect assemblages were weakly influenced by seed predation syndromes, both at the local and regional scale, and the effect of host phylogeny varied also among sites. At the driest site (Panama), the probability of seeds of a plant species being attacked depended more on seed availability than on the measured seed traits of that plant species. However, when seeds were attacked, plant traits shaping insect assemblages were difficult to identify and not related to seed availability. Main conclusions: We observed only weak evidence of community convergence at the intercontinental scale among these assemblages. Our study suggests that seed eaters may be most commonly associated with dry fruits at relatively dry tropical sites where fleshy fruits may be less prevalent. [ABSTRACT FROM AUTHOR]

Published

2018

19. Community structure of insect herbivores is driven by conservatism, escalation and divergence of defensive traits in Ficus.

Author

Volf, Martin, Segar, Simon T., Miller, Scott E., Isua, Brus, Sisol, Mentap, Aubona, Gibson, Šimek, Petr, Moos, Martin, Laitila, Juuso, Kim, Jorma, Zima, Jr, Jan, Rota, Jadranka, Weiblen, George D., Wossa, Stewart, Salminen, Juha‐Pekka, Basset, Yves, and Novotny, Vojtech

Subjects

*ALKALOIDS & the environment, *BIOLOGICAL divergence, *PROTEOLYTIC enzymes, *PHYLOGENY, *HERBIVORES, *BIOLOGICAL evolution, *BIODIVERSITY, ENVIRONMENTAL aspects

Abstract

Escalation (macroevolutionary increase) or divergence (disparity between relatives) in trait values are two frequent outcomes of the plant-herbivore arms race. We studied the defences and caterpillars associated with 21 sympatric New Guinean figs. Herbivore generalists were concentrated on hosts with low protease and oxidative activity. The distribution of specialists correlated with phylogeny, protease and trichomes. Additionally, highly specialised Asota moths used alkaloid rich plants. The evolution of proteases was conserved, alkaloid diversity has escalated across the studied species, oxidative activity has escalated within one clade, and trichomes have diverged across the phylogeny. Herbivore specificity correlated with their response to host defences: escalating traits largely affected generalists and divergent traits specialists; but the effect of escalating traits on extreme specialists was positive. In turn, the evolution of defences in Ficus can be driven towards both escalation and divergence in individual traits, in combination providing protection against a broad spectrum of herbivores. [ABSTRACT FROM AUTHOR]

Published

2018

20. The Saturniidae of Barro Colorado Island, Panama: A model taxon for studying the long-term effects of climate change?

Author

Basset, Yves, Lamarre, Greg P.A., Ratz, Tom, Segar, Simon T., Decaëns, Thibaud, Rougerie, Rodolphe, Miller, Scott E., Perez, Filonila, Bobadilla, Ricardo, Lopez, Yacksecari, Ramirez, José Alejandro, Aiello, Annette, and Barrios, Héctor

Subjects

SATURNIIDAE, OVIPARITY, CLIMATE change, POPULATION dynamics, RAIN forests

Abstract

We have little knowledge of the response of invertebrate assemblages to climate change in tropical ecosystems, and few studies have compiled long-term data on invertebrates from tropical rainforests. We provide an updated list of the 72 species of Saturniidae moths collected on Barro Colorado Island ( BCI), Panama, during the period 1958-2016. This list will serve as baseline data for assessing long-term changes of saturniids on BCI in the future, as 81% of the species can be identified by their unique DNA Barcode Index Number, including four cryptic species not yet formally described. A local species pool of 60 + species breeding on BCI appears plausible, but more cryptic species may be discovered in the future. We use monitoring data obtained by light trapping to analyze recent population trends on BCI for saturniid species that were relatively common during 2009-2016, a period representing >30 saturniid generations. The abundances of 11 species, of 14 tested, could be fitted to significant time-series models. While the direction of change in abundance was uncertain for most species, two species showed a significant increase over time, and forecast models also suggested continuing increases for most species during 2017-2018, as compared to the 2009 base year. Peaks in saturniid abundance were most conspicuous during El Niño and La Niña years. In addition to a species-specific approach, we propose a reproducible functional classification based on five functional traits to analyze the responses of species sharing similar functional attributes in a fluctuating climate. Our results suggest that the abundances of larger body-size species with good dispersal abilities may increase concomitantly with rising air temperature in the future, because short-lived adults may allocate less time to increasing body temperature for flight, leaving more time available for searching for mating partners or suitable oviposition sites. [ABSTRACT FROM AUTHOR]

Published

2017

21. Determinants of litter decomposition rates in a tropical forest: functional traits, phylogeny and ecological succession.

Author

Szefer, Piotr, Carmona, Carlos P., Chmel, Kryštof, Konečná, Marie, Libra, Martin, Molem, Kenneth, Novotný, Vojtěch, Segar, Simon T., Švamberková, Eva, Topliceanu, Theodor‐Sebastian, and Lepš, Jan

Subjects

PLANT litter decomposition, FOREST litter, TROPICAL forests, EUPHORBIACEAE, PHYLOGENY, ECOLOGICAL succession, NUTRIENT cycles

Abstract

Plant litter decomposition is one of the most important processes in terrestrial ecosystems, as it is a key factor in nutrient cycling. Decomposition rates depend on environmental factors, but also plant traits, as these determine the character of detritus. We measured litter decomposition rate for 57 common tree species displaying a variety of functional traits within four sites in primary and four sites in secondary tropical forest in Madang Province, Papua New Guinea. The phylogenetic relationships between these trees were also estimated using molecular data. The leaves collected from different tree species were dried for two days, placed into detritus bags and exposed to ambient conditions for two months. Nitrogen, carbon and ash content were assessed as quantitative traits and used together with a phylogenetic variance- covariance matrix as predictors of decomposition rate. The analysis of the tree species composition from 96 quadrats located along a successional gradient of swidden agriculture enabled us to determine successional preferences for individual species. Nitrogen content was the only functional trait measured to be significantly positively correlated with decomposition rate. Controlling for plant phylogeny did not influence our conclusions, but including phylogeny demonstrated that the mainly early successional family Euphorbiaceae is characterized by a particularly high decomposition rate. The acquisitive traits (high nitrogen content and low wood density) correlated with rapid decomposition were characteristic for early successional species. Decomposition rate thus decreased from early successional to primary forest species. However, the decomposition of leaves from the same species was significantly faster in primary than in secondary forest stands, very probably because the high humidity of primary forest environments keeps the decomposing material wetter. [ABSTRACT FROM AUTHOR]

Published

2017

22. Between-species facilitation by male fig wasps in shared figs.

Author

WANG, RONG, SEGAR, SIMON T., HARPER, MAXIMILIAN, YU, HUI, QUINNELL, RUPERT J., and COMPTON, STEPHEN G.

Subjects

*FIG wasp, *INSECT-plant relationships, *POLLINATION, *HERBIVORES, *INSECT communities, *ANIMAL behavior

Abstract

1. Facilitation is recorded from diverse plant-insect interactions, including pollination and herbivory. 2. The significance of facilitation resulting from the behavior of males of multiple fig wasp species inside figs was investigated. Female fig wasps emerge from natal figs via exit holes dug by males, especially male pollinators. When no males are present, the females struggle to escape and may die. 3. Ficus microcarpa L. is a widely-established invasive fig tree from Southeast Asia. Its pollinator is absent in South Africa, so the tree cannot reproduce, but two Asian non-pollinating fig wasps ( NPFW) Walkerella microcarpae and Odontofroggatia galili occupy its figs. Abundance patterns of the two NPFW and the proportion of male-free figs in South Africa, Spain (where the pollinator is introduced), and in China, where the native fig wasp community is diverse, were compared to determine the consequences of reduced species richness for insect survival. 4. Female fig wasps in male-free figs were found to be trapped, and small clutch sizes contributed to the absence of males in both species. The presence of pollinators in Spain allowed most NPFW to develop in figs containing males. Far more male-free figs were present in South Africa, elevating mortality rates among female NPFW. Facilitation of female release by males of other NPFW species nonetheless benefitted the rarer species. 5. Selection pressures in South Africa currently favour greater aggregation of NPFW offspring and/or less female biased sex ratios. [ABSTRACT FROM AUTHOR]

Published

2015

23. Convergent structure of multitrophic communities over three continents.

Author

Segar, Simon T., Pereira, Rodrigo A. S., Compton, Steve G., and Cook, James M.

Subjects

*CONVERGENT evolution, *MULTITROPHIC interactions (Ecology), *BIOTIC communities, *PHYLOGENY, *BIOLOGICAL evolution, *SPECIES diversity, *ECOLOGICAL niche

Abstract

Astract Ecological theory predicts that communities using the same resources should have similar structure, but evolutionary constraints on colonisation and niche shifts may hamper such convergence. Multitrophic communities of wasps exploiting fig fruits, which first evolved about 75 MYA, do not show long-term 'inheritance' of taxonomic (lineage) composition or species diversity. However, communities on three continents have converged ecologically in the presence and relative abundance of five insect guilds that we define. Some taxa fill the same niches in each community (phylogenetic niche conservatism). However, we show that overall convergence in ecological community structure depends also on a combination of niche shifts by resident lineages and local colonisations of figs by other insect lineages. Our study explores new ground, and develops new heuristic tools, in combining ecology and phylogeny to address patterns in the complex multitrophic communities of insect on plants, which comprise a large part of terrestrial biodiversity. [ABSTRACT FROM AUTHOR]

Published

2013

24. The dominant exploiters of the fig/pollinator mutualism vary across continents, but their costs fall consistently on the male reproductive function of figs.

Author

SEGAR, SIMON T. and COOK, JAMES M.

Subjects

*MORACEAE, *MALE reproductive organs, *POLLINATION, *POLLINATORS, *WASPS, *MUTUALISM (Biology)

Abstract

1. Fig trees (Moraceae: Ficus) are keystone species, whose ecosystem function relies on an obligate mutualism with wasps (Chalcidoidea: Agaonidae) that enter fig syconia to pollinate. Each female flower produces one seed (fig female reproductive function), unless it also receives a wasp egg, in which case it supports a wasp. Fig male reproductive function requires both male flowers and pollinator offspring, which are the only vectors of fig pollen. 2. The mutualism is exploited by other wasps that lay eggs but provide no pollination service. Most of these non-pollinating fig wasps (NPFWs) do not enter syconia, but lay eggs through the wall with long ovipositors. Some are gall-makers, while others are parasitoids or lethal inquilines of other wasps. 3. Ficus is pan-tropical and contains >750 fig species. However, NPFW communities vary across fig lineages and continents and their effects on the mutualism may also vary. This provides a series of natural experiments to investigate how the costs to a keystone mutualism vary geographically. 4. We made the first detailed study of the costs of NPFWs in a fig ( Ficus obliqua G. Forst) from the endemic Australasian section Malvanthera. In contrast to the communities associated with section Americana in the New World, wasps from the subfamily Sycoryctinae (Chalcidoidea: Pteromalidae) dominated this community. 5. These sycoryctine wasps have a negative impact on pollinator offspring numbers, but not on seed production. Consequently, while the NPFW fauna varies greatly at high taxonomic levels across continents, we show that the consistent main effect of locally dominant exploiters of the mutualism is to reduce fig male reproductive function. [ABSTRACT FROM AUTHOR]

Published

2012

25. Speciation in fig wasps.

Author

COOK, JAMES M. and SEGAR, SIMON T.

Subjects

*WASPS, *SPECIES, *INFLORESCENCES, *POLLINATORS, *LARVAE

Abstract

1. There are over 700 species of fig trees in the tropics and several thousand species of fig wasps are associated with their syconia (inflorescences). These wasps comprise a monophyletic family of fig pollinators and several diverse lineages of non-pollinating wasps. The pollinator larvae gall fig flowers, while larvae of non-pollinating species either initiate their own galls or parasitise the galls of other wasps. 2. A single fig species has one to four pollinator species and also hosts up to 30 non-pollinating wasp species. Most wasps show a high degree of host-plant specificity and are known from only a single fig species. However, in some cases wasps may be shared across closely related fig species. 3. There is impressive morphological co-evolution between figs and fig wasps and this, combined with a high degree of partner specificity, led to the expectation that figs and pollinators have cospeciated extensively. Comparison of deep phylogenies supports long-term codivergence of figs and pollinators, but also suggests that some host shifts have occurred. 4. Phylogenies of more closely related species do not match perfectly and may even be incongruent, suggesting significant roles for processes other than strict cospeciation. Combined with recent evidence on host specificity patterns, this suggests that pollinator wasps may often speciate by host shifts between closely related figs, or by duplication (the wasp speciates but the fig doesn't). The frequencies and biological details of these different modes of speciation invite further study. 5. Far less is known about speciation in non-pollinating fig wasps. Some lineages have probably co-evolved with figs and pollinators for most of the evolutionary history of the symbiosis, while others appear to be more recent colonisers. Many species appear to be highly host-plant specific, but those that lay eggs through the fig wall without entering the syconium (the majority of species) may be subject to fewer constraints on host shifting than pollinators. There is evidence for substantial host shifting in at least one genus, but also evidence for ecological speciation on the same host plant by niche shifts in other cases. 6. Finally, recent work has begun to address the issue of ‘community phylogeny’ and provided evidence for long-term co-divergence of multiple pollinating and non-pollinating wasp lineages with their host figs. [ABSTRACT FROM AUTHOR]

Published

2010