Your search keyword '"host specialisation"' showing total 44 results

1. Evolution of larval gregariousness is associated with host plant specialisation, but not host morphology, in Heliconiini butterflies.

Author

McLellan, Callum F. and Montgomery, Stephen H.

Subjects

*HOST plants, *LARVAE, *CATERPILLARS, *BUTTERFLIES, *MORPHOLOGY, *PLANT evolution

Abstract

Insect herbivores, such as lepidopteran larvae, often have close evolutionary relationships with their host plants, with which they may be locked in an evolutionary arms race. Larval grouping behaviour may be one behavioural adaptation that improves host plant feeding, but aggregation also comes with costs, such as higher competition and limited resource access. Here, we use the Heliconiini butterfly tribe to explore the impact of host plant traits on the evolution of larval gregariousness. Heliconiini almost exclusively utilise species from the Passifloraceae as larval host plants. Passifloraceae display incredible diversity in leaf shape and a range of anti‐herbivore defences, suggesting they are responding to, and influencing, the evolution of Heliconiini larvae. By analysing larval social behaviour as both a binary (solitary or gregarious) and categorical (increasing larval group size) trait, we revisit the multiple origins of larval gregariousness across Heliconiini. We investigate whether host habitat, leaf defences and leaf size are important drivers of, or constraints on, larval gregariousness. Whereas our data do not reveal links between larval gregariousness and the host plant traits included in this study, we do find an interaction between host plant specialisation and larval behaviour, revealing gregarious larvae to be more likely to feed on a narrower range of host plant species than solitary larvae. We also find evidence that this increased specialisation typically precedes the evolutionary transition to gregarious behaviour. The comparatively greater host specialisation of gregarious larvae suggests that there are specific morphological and/or ecological features of their host plants that favour this behaviour. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evolution of larval gregariousness is associated with host plant specialisation, but not host morphology, in Heliconiini butterflies

Author

Callum F. McLellan and Stephen H. Montgomery

Subjects

caterpillars, gregarious behaviour, Heliconiini, host defence, host plant, host specialisation, Ecology, QH540-549.5

Abstract

Abstract Insect herbivores, such as lepidopteran larvae, often have close evolutionary relationships with their host plants, with which they may be locked in an evolutionary arms race. Larval grouping behaviour may be one behavioural adaptation that improves host plant feeding, but aggregation also comes with costs, such as higher competition and limited resource access. Here, we use the Heliconiini butterfly tribe to explore the impact of host plant traits on the evolution of larval gregariousness. Heliconiini almost exclusively utilise species from the Passifloraceae as larval host plants. Passifloraceae display incredible diversity in leaf shape and a range of anti‐herbivore defences, suggesting they are responding to, and influencing, the evolution of Heliconiini larvae. By analysing larval social behaviour as both a binary (solitary or gregarious) and categorical (increasing larval group size) trait, we revisit the multiple origins of larval gregariousness across Heliconiini. We investigate whether host habitat, leaf defences and leaf size are important drivers of, or constraints on, larval gregariousness. Whereas our data do not reveal links between larval gregariousness and the host plant traits included in this study, we do find an interaction between host plant specialisation and larval behaviour, revealing gregarious larvae to be more likely to feed on a narrower range of host plant species than solitary larvae. We also find evidence that this increased specialisation typically precedes the evolutionary transition to gregarious behaviour. The comparatively greater host specialisation of gregarious larvae suggests that there are specific morphological and/or ecological features of their host plants that favour this behaviour.

Published

2024

3. Lack of host specialization despite selective host use in brood parasitic cuckoo catfish.

Author

Reichard, Martin, Koblmüller, Stephan, Blažek, Radim, Zimmermann, Holger, Katongo, Cyprian, Bryjová, Anna, and Bryja, Josef

Subjects

*CUCKOOS, *CATFISHES, *ANIMAL clutches, *BROOD parasites, *CICHLIDS, *WATER depth, *BROOD parasitism

Abstract

Host–parasite dynamics involve coevolutionary arms races, which may lead to host specialization and ensuing diversification. Our general understanding of the evolution of host specialization in brood parasites is compromised by a restricted focus on bird and insect lineages. The cuckoo catfish (Synodontis multipunctatus) is an obligate parasite of parental care of mouthbrooding cichlids in Lake Tanganyika. Given the ecological and taxonomic diversity of mouthbrooding cichlids in the lake, we hypothesized the existence of sympatric host‐specific lineages in the cuckoo catfish. In a sample of 779 broods from 20 cichlid species, we found four species parasitized by cuckoo catfish (with prevalence of parasitism of 2%–18%). All parasitized cichlids were from the tribe Tropheini, maternal mouthbrooders that spawn over a substrate (rather than in open water). Phylogenetic analysis based on genomic (ddRAD sequencing) and mitochondrial (Dloop) data from cuckoo catfish embryos showed an absence of host‐specific lineages. This was corroborated by analyses of genetic structure and co‐ancestry matrix. Within host species, parasitism was not associated with any individual characteristic we recorded (parent size, water depth), but was costly as parasitized parents carried smaller clutches of their own offspring. We conclude that the cuckoo catfish is an intermediate generalist and discuss costs, benefits and constraints of host specialization in this species and brood parasites in general. [ABSTRACT FROM AUTHOR]

Published

2023

4. Effects of oviposition in a non‐host species on foraging behaviour of the parasitoid Cotesia glomerata.

Author

de Bruijn, Jessica A. C., Vet, Louise E. M., Smid, Hans M., and de Boer, Jetske G.

Subjects

*OVIPARITY, *SPECIES, *EGGS, *PARASITOIDS, *CATERPILLARS, *INSECTS, *INSECT eggs

Abstract

Parasitoids lay their eggs in or on a host, usually another insect. During foraging, parasitoids can encounter insects that differ in terms of host suitability and quality. At one extreme end of this spectrum are non‐hosts that are unsuitable for offspring development.Non‐hosts are generally ignored but parasitization does occur and occasionally also results in egg deposition. Here, the authors investigate how oviposition in a non‐host influences subsequent foraging behaviour of a parasitoid and whether this is mediated by learning. The study system consists of the endoparasitoid Cotesia glomerata and the presumed non‐host caterpillar Mamestra brassicae.In the presence of Pieris brassicae hosts and/or their traces (frass), C. glomerata inserted its ovipositor into M. brassicae caterpillars. Eggs were deposited, but all eggs disappeared within 96 h, confirming the non‐host status of M. brassicae. In contrast to the expectation, there was no memory retention after oviposition in a non‐host and parasitoids did not alter their behaviour with respect to non‐host contacts and ovipositions. Instead, C. glomerata became more motivated to forage on a non‐host infested leaf.The authors propose that egg deposition in non‐hosts by C. glomerata might be due to their high egg load, which is thought to make parasitoids less selective on host quality, especially when they have few reproductive opportunities. In such cases, fitness costs to individual females are low. Egg deposition in non‐hosts might ultimately lead to host range expansion if parasitoids overcome the defence response of non‐hosts over evolutionary time. [ABSTRACT FROM AUTHOR]

Published

2022

5. Interactions With Plant Defences Isolate Sympatric Populations of an Herbivorous Mite

Author

Ernesto Villacis-Perez, Juan Manuel Alba, Julien Cotte, Zeno van Loon, Johannes A. J. Breeuwer, and Thomas Van Leeuwen

Subjects

intraspecific genetic variation, sympatry, isolation by ecology, plant-herbivore interactions, host specialisation, plant defence suppression, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Host plant specialisation can promote evolutionary divergence between herbivore populations associated with different plant species. While the mechanisms by which specialist species exploit their hosts have been studied widely across taxa, less is known about the mechanisms that allow intraspecific variants to arise and to be maintained across spatial and temporal scales. To understand whether adaptations to plant defences against herbivory contribute to the co-existence of genetically distinct populations of an herbivore, we investigate the interaction between honeysuckle (Lonicera periclymenum) and sympatric specialist and generalist populations of the spider mite Tetranychus urticae. We found that mite folivory induces the production of sticky droplets on honeysuckle, which have a defensive role: they increase mite mortality directly, and potentially indirectly by increasing the arrestment of a predator. We show that droplet induction and the preference to feed on honeysuckle depend on mite genotype, where the generalist avoids this host and the specialist suppresses droplet production. These traits are heritable and dominant in F1 hybrids between generalists and specialists. Selection pressure from honeysuckle and differences in host preference likely reduce the opportunity of mating encounters on this host. We propose that the interplay between selection from host plant defences and ecological barriers to hybridisation contribute to the persistence of genetically distinct populations of a single species in sympatry.

Published

2022

6. First record from Italy of Zatypota anomala (Ichneumonidae, Ephialtini), a parasitoid of the cribellate spider Dictyna pusilla (Araneae, Dictynidae)

Author

Korenko, Stanislav

Subjects

ectoparasitoid, host parasitoid interaction, host range, host specialisation, spider web, Zoology, QL1-991

Abstract

The polysphinctine wasp Zatypota anomala (Holmgren, 1860), a koinobiont ecto-parasitoid of spiders in the family Dictynidae, was recorded in Italy for the first time. Populations of both the wasp and its host, Dictyna pusilla Thorell, 1856, its host preference and the interaction between the parasitoid and the spider were documented in the field and by laboratory observations.

Published

2017

7. Reproductive ecology of bitterling (Rhodeus sericeus Pallas) and unionid mussels

Author

Aldridge, David

Subjects

590, Cyprinid fish, Host specialisation

Published

1997

8. A Generalist Feeding on Brassicaceae: It Does Not Get Any Better with Selection

Author

Jacinta M. Zalucki, David G. Heckel, Peng Wang, Suyog Kuwar, Daniel G. Vassão, Lynda Perkins, and Myron P. Zalucki

Subjects

glucosinolates, host specialisation, forced selection, performance assays, pest status, Botany, QK1-989

Abstract

Brassicaceae (Cruciferae) are ostensibly defended in part against generalist insect herbivores by toxic isothiocyanates formed when protoxic glucosinolates are hydrolysed. Based on an analysis of published host records, feeding on Brassicas is widespread by both specialist and generalists in the Lepidoptera. The polyphagous noctuid moth Helicoverpa armigera is recorded as a pest on some Brassicas and we attempted to improve performance by artificial selection to, in part, determine if this contributes to pest status. Assays on cabbage and kale versus an artificial diet showed no difference in larval growth rate, development times and pupal weights between the parental and the selected strain after 2, 21 and 29 rounds of selection, nor in behaviour assays after 50 generations. There were large differences between the two Brassicas: performance was better on kale than cabbage, although both were comparable to records for other crop hosts, on which the species is a major pest. We discuss what determines “pest” status.

Published

2021

9. Ecological and geographical speciation in Luciliabufonivora: The evolution of amphibian obligate parasitism.

Author

Arias-Robledo, G., Wall, R., Szpila, K., Shpeley, D., Whitworth, T., Stark, T., King, R.A., and Stevens, J.R.

Abstract

Lucilia (Diptera: Calliphoridae) is a genus of blowflies comprised largely of saprophagous and facultative parasites of livestock. Lucilia bufonivora , however, exhibits a unique form of obligate parasitism of amphibians, typically affecting wild hosts. The evolutionary route by which amphibian myiasis arose, however, is not well understood due to the low phylogenetic resolution in existing nuclear DNA phylogenies. Furthermore, the timing of when specificity for amphibian hosts arose in L. bufonivora is also unknown. In addition, this species was recently reported for the first time in North America (Canada) and, to date, no molecular studies have analysed the evolutionary relationships between individuals from Eastern and Western hemispheres. To provide broader insights into the evolution of the amphibian parasitic life history trait and to estimate when the trait first arose, a time-scaled phylogeny was inferred from a concatenated data set comprising mtDNA, nDNA and non-coding rDNA (COX1 , per and ITS2 respectively). Specimens from Canada, the UK, Poland, Switzerland, the Netherlands and Germany were analysed, as well as individuals from its sister taxa, the saprophage Lucilia silvarum and a Nearctic species also implicated in amphibian myiasis, Lucilia elongata. Obligate amphibian parasitism appears to have arisen ~4 mya, likely as a result of niche displacement of a saprophagous/facultative parasite ancestor. Consistent paraphyly of L. bufonivora with respect to L. elongata across single-gene phylogenies and high mtDNA genetic distances between Nearctic and Palearctic individuals suggest on-going cryptic speciation facilitated by geographical isolation. These findings suggest that recent reports of L. bufonivora in the Nearctic do not constitute a recent introduction, but instead suggest that it remained unrecorded due to taxonomic confusion and low abundance. This is the first study to confirm the involvement of L. bufonivora in amphibian myiasis in Canada using DNA-based identification methods. Image 1 • Within Lucilia , a small genus of blowflies mostly comprised of carrion-breeding species, obligate parasitism for amphibians evolved around 4 mya. • Geographic isolation between Nearctic and Palearctic lineages is facilitating on-going cryptic speciation of Lucilia bufonivora. • First positive identification of L. bufonivora from two confirmed cases of amphibian myiasis in North America. [ABSTRACT FROM AUTHOR]

Published

2019

10. A highly resolved food web for insect seed predators in a species‐rich tropical forest.

Author

Gripenberg, Sofia, Basset, Yves, Lewis, Owen T., Terry, J. Christopher D., Wright, S. Joseph, Simón, Indira, Fernández, D. Catalina, Cedeño‐Sanchez, Marjorie, Rivera, Marleny, Barrios, Héctor, Brown, John W., Calderón, Osvaldo, Cognato, Anthony I., Kim, Jorma, Miller, Scott E., Morse, Geoffrey E., Pinzón‐Navarro, Sara, Quicke, Donald L. J., Robbins, Robert K., and Salminen, Juha‐Pekka

Subjects

*GRANIVORES, *TROPICAL forests, *INSECT food, *PLANT diversity, *PLANT species

Abstract

The top‐down and indirect effects of insects on plant communities depend on patterns of host use, which are often poorly documented, particularly in species‐rich tropical forests. At Barro Colorado Island, Panama, we compiled the first food web quantifying trophic interactions between the majority of co‐occurring woody plant species and their internally feeding insect seed predators. Our study is based on more than 200 000 fruits representing 478 plant species, associated with 369 insect species. Insect host‐specificity was remarkably high: only 20% of seed predator species were associated with more than one plant species, while each tree species experienced seed predation from a median of two insect species. Phylogeny, but not plant traits, explained patterns of seed predator attack. These data suggest that seed predators are unlikely to mediate indirect interactions such as apparent competition between plant species, but are consistent with their proposed contribution to maintaining plant diversity via the Janzen–Connell mechanism. [ABSTRACT FROM AUTHOR]

Published

2019

11. Taxonomy of the Sphaerostilbella broomeana-group (Hypocreales, Ascomycota).

Author

Põldmaa, Kadri, Bills, Gerald, Lewis, David P., and Tamm, Heidi

Abstract

Three new species, closely related to Sphaerostilbella broomeana, are described from the USA and India. These species form septate conidia from simple conidiophores with individual branches terminating in a single phialide and chlamydospores. Teleomorphs, known for S. broomeana and S. appalachiensis, are characterised by hairy perithecia and fusiform, apiculate, and conspicuously warted ascospores. This combination of characters distinguishes the S. broomeana-group from other members of Sphaerostilbella that all form gliocladium-type anamorphs and mostly grow on basidiomata of Stereum spp. Like in other species of the genus, the majority of hosts of the species described in this paper belong to wood-inhabiting taxa of Russulales. Sphaerostilbella broomeana had been recorded from a few regions in Europe and exclusively on Heterobasidion annosum. Herein, it is reported also from H. parviporum in many other localities and on H. insulare s.l. at the foothills of the Himalayas. Its sister species, found in the same region in northern India on another member of Russulales (Dichostereum effuscatum), is described as S. himalayensis. The two species described from North America colonize polypores from various taxa. Whereas S. appalachiensis occurs in eastern USA, with H. irregulare among its hosts, S. toxica is so far known only from two locations in eastern Texas, growing on Gloeophyllum striatum (Polyporales). Despite their great similarity in morphology and ITS rDNA, TEF1 sequences clearly distinguish these two North-American species. Moreover, the two strains of S. toxica appeared metabolically distinct as their organic extracts strongly inhibited the growth of human pathogenic microbes grown in vitro. Phylogenetic analysis of rDNA sequences supports monophyly of the genus Sphaerostilbella and the included S. broomeana-group, established here. [ABSTRACT FROM AUTHOR]

Published

2019

12. Effects of oviposition in a non-host species on foraging behaviour of the parasitoid Cotesia glomerata

Author

Jessica A. C. de Bruijn, Louise E. M. Vet, Hans M. Smid, Jetske G. de Boer, and Terrestrial Ecology (TE)

Subjects

Diergedrag, Ecology, fungi, Duurzame gewasbescherming, herbivore-induced plant volatiles, PE&RC, cabbage, Laboratorium voor Entomologie, host specialisation, parasitoid–host interactions, Insecten, Insect Science, Laboratory of Entomology, foraging behaviour

Abstract

Parasitoids lay their eggs in or on a host, usually another insect. During foraging, parasitoids can encounter insects that differ in terms of host suitability and quality. At one extreme end of this spectrum are non-hosts that are unsuitable for offspring development. Non-hosts are generally ignored but parasitization does occur and occasionally also results in egg deposition. Here, the authors investigate how oviposition in a non-host influences subsequent foraging behaviour of a parasitoid and whether this is mediated by learning. The study system consists of the endoparasitoid Cotesia glomerata and the presumed non-host caterpillar Mamestra brassicae. In the presence of Pieris brassicae hosts and/or their traces (frass), C. glomerata inserted its ovipositor into M. brassicae caterpillars. Eggs were deposited, but all eggs disappeared within 96 h, confirming the non-host status of M. brassicae. In contrast to the expectation, there was no memory retention after oviposition in a non-host and parasitoids did not alter their behaviour with respect to non-host contacts and ovipositions. Instead, C. glomerata became more motivated to forage on a non-host infested leaf. The authors propose that egg deposition in non-hosts by C. glomerata might be due to their high egg load, which is thought to make parasitoids less selective on host quality, especially when they have few reproductive opportunities. In such cases, fitness costs to individual females are low. Egg deposition in non-hosts might ultimately lead to host range expansion if parasitoids overcome the defence response of non-hosts over evolutionary time.

Published

2022

13. Host range, host specificity, regional host preferences and genetic variability of Korthalsella Tiegh. (Viscaceae) mistletoes in New Zealand.

Author

Sultan, Amir, Tate, Jennifer A., de Lange, Peter J., Glenny, David, Ladley, Jenny J., Heenan, Peter, and Robertson, Alastair W.

Subjects

*VISCACEAE, *HOST specificity (Biology), *PARASITIC plants, *RUTACEAE

Abstract

The distribution of parasitic plants is governed by the availability and distribution of suitable host species. Here we report the distributions, host associations and genetic variability of the three endemic New Zealand species of Korthalsella (Viscaceae) mistletoes. These species differ in their primary host and in the breadth of secondary and tertiary hosts. Korthalsella salicornioides is the most host-specific, with 96% of the total records from the primary (Leptospermum scoparium s.l. [Myrtaceae]) and secondary (Kunzea robusta [Myrtaceae]) hosts, but 26 host taxa (six genera in five families) recorded overall. Korthalsella clavata and K. lindsayi are more generalist species, parasitising 44 taxa (19 genera in 14 families) and 42 taxa (13 genera in 11 families), respectively. For K. clavata, Coprosma propinqua (Rubiaceae) and C. dumosa are the primary and secondary hosts, respectively, representing 66% of the total records. For K. lindsayi, Melicope simplex (Rutaceae) is the primary host (26% of records), whereas Coprosma crassifolia, Lophomyrtus obcordata (Myrtaceae), Myrsine australis (Primulaceae) and M. divaricata are secondary hosts. The only overlap among hosts is at the tertiary level, with K. clavata and K. lindsayi sharing Coprosma rigida and C. virescens, and among hosts that are rarely parasitised. Korthalsella salicornioides is the most widely distributed species occurring widely on the North and South Islands, while K. clavata is rare in the North Island and K. lindsayi is rare in the western regions of the South Island. Comparative sequencing of nuclear internal transcribed spacers and plastid trnQ-rps16 for the three mistletoes revealed that within-species genetic structure is geographic rather than host-based. Additionally, some plastid haplotypes and ITS sequence types shared between K. clavata and K. lindsayi may result from local hybridisation and introgression between the two species in a few locations. [ABSTRACT FROM AUTHOR]

Published

2018

14. Effects of oviposition in a non-host species on foraging behaviour of the parasitoid Cotesia glomerata

Author

de Bruijn, Jessica A.C., Vet, Louise E.M., Smid, Hans M., de Boer, Jetske G., de Bruijn, Jessica A.C., Vet, Louise E.M., Smid, Hans M., and de Boer, Jetske G.

Abstract

Parasitoids lay their eggs in or on a host, usually another insect. During foraging, parasitoids can encounter insects that differ in terms of host suitability and quality. At one extreme end of this spectrum are non-hosts that are unsuitable for offspring development. Non-hosts are generally ignored but parasitization does occur and occasionally also results in egg deposition. Here, the authors investigate how oviposition in a non-host influences subsequent foraging behaviour of a parasitoid and whether this is mediated by learning. The study system consists of the endoparasitoid Cotesia glomerata and the presumed non-host caterpillar Mamestra brassicae. In the presence of Pieris brassicae hosts and/or their traces (frass), C. glomerata inserted its ovipositor into M. brassicae caterpillars. Eggs were deposited, but all eggs disappeared within 96 h, confirming the non-host status of M. brassicae. In contrast to the expectation, there was no memory retention after oviposition in a non-host and parasitoids did not alter their behaviour with respect to non-host contacts and ovipositions. Instead, C. glomerata became more motivated to forage on a non-host infested leaf. The authors propose that egg deposition in non-hosts by C. glomerata might be due to their high egg load, which is thought to make parasitoids less selective on host quality, especially when they have few reproductive opportunities. In such cases, fitness costs to individual females are low. Egg deposition in non-hosts might ultimately lead to host range expansion if parasitoids overcome the defence response of non-hosts over evolutionary time.

Published

2022

15. Trade-offs in larval performance on normal and novel hosts

Author

Thompson, John N., Städler, Erich, editor, Rowell-Rahier, Martine, editor, and Bauer, Robert, editor

Published

1996

16. Use of volatiles of Aristolochia chilensis (Aristolochiaceae) in host searching by fourth-instar larvae and adults of Battus polydamas archidamas (Lepidoptera: Papilionidae: Troidini)

Author

Carlos F. PINTO, Alejandra J. TRONCOSO, Alejandro URZÚA, and Hermann M. NIEMEYER

Subjects

host finding, aristolochic acids, host specialisation, host-plant volatiles, battus polydamas archidamas, Zoology, QL1-991

Abstract

Papilionid butterflies of the tribe Troidini are specialists on plants of the family Aristolochiaceae. The role of plant volatiles in host recognition by adult and larval stages of these insects remains unknown. We used Battus polydamas archidamas (Papilionidae: Troidini) and its host-plant, Aristolochia chilensis (Aristolochiaceae), to study: (i) the olfactory and electrophysiological responses of adults to headspace volatiles of the host-plant, (ii) the chemical composition of the headspace volatiles of the host-plant, (iii) the patterns of aggregation of larvae in the field in order to ascertain the time when they leave the plant where the eggs were laid, and (iv) the olfactory responses of solitary-feeding fourth-instar larvae to headspace volatiles of the host-plant. Larvae left their initial host-plant during the third or fourth instar. Host-plant headspace volatiles attracted fourth-instar larvae as well as adults; adult females were more responsive than males. Taken together, these results reveal changes in the responsiveness to host-plant volatiles during development, and provide an insight into the host-plant specialization of this butterfly.

Published

2009

17. Ecological and geographical speciation in Lucilia bufonivora: The evolution of amphibian obligate parasitism

Author

G. Arias-Robledo, R.A. King, Terry L. Whitworth, Tariq Stark, Krzysztof Szpila, Richard Wall, D. Shpeley, and Jamie R. Stevens

Subjects

Host specialisation, 0301 basic medicine, Paraphyly, 030231 tropical medicine, Zoology, Amphibian parasitism, Lucilia, Article, Myiasis, 03 medical and health sciences, 0302 clinical medicine, Phylogenetics, Obligate parasitism, lcsh:Zoology, Lucilia bufonivora, Journal Article, lcsh:QL1-991, Calliphoridae, biology, Obligate, Phylogenetic tree, 030108 mycology & parasitology, biology.organism_classification, Infectious Diseases, Sister group, Blowfly, Animal Science and Zoology, Parasitology

Abstract

Lucilia (Diptera: Calliphoridae) is a genus of blowflies comprised largely of saprophagous and facultative parasites of livestock. Lucilia bufonivora, however, exhibits a unique form of obligate parasitism of amphibians, typically affecting wild hosts. The evolutionary route by which amphibian myiasis arose, however, is not well understood due to the low phylogenetic resolution in existing nuclear DNA phylogenies. Furthermore, the timing of when specificity for amphibian hosts arose in L. bufonivora is also unknown. In addition, this species was recently reported for the first time in North America (Canada) and, to date, no molecular studies have analysed the evolutionary relationships between individuals from Eastern and Western hemispheres. To provide broader insights into the evolution of the amphibian parasitic life history trait and to estimate when the trait first arose, a time-scaled phylogeny was inferred from a concatenated data set comprising mtDNA, nDNA and non-coding rDNA (COX1, per and ITS2 respectively). Specimens from Canada, the UK, Poland, Switzerland, the Netherlands and Germany were analysed, as well as individuals from its sister taxa, the saprophage Lucilia silvarum and a Nearctic species also implicated in amphibian myiasis, Lucilia elongata. Obligate amphibian parasitism appears to have arisen ~4 mya, likely as a result of niche displacement of a saprophagous/facultative parasite ancestor. Consistent paraphyly of L. bufonivora with respect to L. elongata across single-gene phylogenies and high mtDNA genetic distances between Nearctic and Palearctic individuals suggest on-going cryptic speciation facilitated by geographical isolation. These findings suggest that recent reports of L. bufonivora in the Nearctic do not constitute a recent introduction, but instead suggest that it remained unrecorded due to taxonomic confusion and low abundance. This is the first study to confirm the involvement of L. bufonivora in amphibian myiasis in Canada using DNA-based identification methods., Graphical abstract Image 1, Highlights • Within Lucilia, a small genus of blowflies mostly comprised of carrion-breeding species, obligate parasitism for amphibians evolved around 4 mya. • Geographic isolation between Nearctic and Palearctic lineages is facilitating on-going cryptic speciation of Lucilia bufonivora. • First positive identification of L. bufonivora from two confirmed cases of amphibian myiasis in North America.

Published

2019

18. A Generalist Feeding on Brassicaceae: It Does Not Get Any Better with Selection

Author

Suyog S. Kuwar, David G. Heckel, Myron P. Zalucki, Daniel Giddings Vassão, Peng Wang, Lynda E. Perkins, and Jacinta Zalucki

Subjects

0106 biological sciences, 0301 basic medicine, Zoology, Plant Science, pest status, Helicoverpa armigera, Generalist and specialist species, 01 natural sciences, Article, Lepidoptera genitalia, Crop, 03 medical and health sciences, forced selection, glucosinolates, Ecology, Evolution, Behavior and Systematics, Ecology, biology, Host (biology), fungi, performance assays, Botany, food and beverages, Brassicaceae, biology.organism_classification, host specialisation, Pupa, 010602 entomology, 030104 developmental biology, QK1-989, PEST analysis

Abstract

Brassicaceae (Cruciferae) are ostensibly defended in part against generalist insect herbivores by toxic isothiocyanates formed when protoxic glucosinolates are hydrolysed. Based on an analysis of published host records, feeding on Brassicas is widespread by both specialist and generalists in the Lepidoptera. The polyphagous noctuid moth Helicoverpa armigera is recorded as a pest on some Brassicas and we attempted to improve performance by artificial selection to, in part, determine if this contributes to pest status. Assays on cabbage and kale versus an artificial diet showed no difference in larval growth rate, development times and pupal weights between the parental and the selected strain after 2, 21 and 29 rounds of selection, nor in behaviour assays after 50 generations. There were large differences between the two Brassicas: performance was better on kale than cabbage, although both were comparable to records for other crop hosts, on which the species is a major pest. We discuss what determines “pest” status.

Published

2021

19. Testing for local monophagy in the regionally oligophagous Euphydryas aurinia (Lepidoptera: Nymphalidae).

Author

Meister, Hendrik, Lindman, Ly, and Tammaru, Toomas

Subjects

MARSH fritillary, LEPIDOPTERA, NYMPHALIDAE, BUTTERFLIES, LEPIDOPTEROLOGY

Abstract

Regionally oligophagous insects are often host plant specialists at smaller geographical scales, so conservation planning should preferably rely on locally derived information. Host use of the endangered butterfly Euphydryas aurinia was investigated close to the northern limit of its European distribution. We experimentally studied host preference of ovipositing females and growth performance of pre-diapause larvae on different hosts, as well as made field observations on host use by surveying larval webs. In the field, Succisa pratensis has remained the only confirmed host of E. aurinia in Estonia. Also, in the laboratory, the females consistently preferred S. pratensis as oviposition substrate. Larval performance was the highest on S. pratensis though the insects were also able to develop on Knautia arvensis. By contrast, species of Plantago, or Valeriana officinalis, were not suitable for larval development. E. aurinia appears thus to be a host specialist in Estonia, even if the regional list includes a higher number of plant species. Our results confirm a pattern repeatedly recorded in Melitaeine butterflies, i.e. geographic differences in host use and local monophagy. As a methodological contribution, we showed that different lab-based methods yield consistent information on host use, though tend to somewhat overestimate the actual host range of the species in the field. Using larval growth rate as an index of host suitability appears problematic for species not time-stressed during their larval development, and survival is a more appropriate parameter to record. [ABSTRACT FROM AUTHOR]

Published

2015

20. Genetic diversity and specialisation of Eudarluca caricis on some graminaceous Puccinia species.

Author

Kajamuhan, A., Saslis-Lagoudakis, C.H., and Shaw, M.W.

Abstract

Eudarluca caricis is a common hyperparasite of rusts. A total of 100 cultures were isolated from six Puccinia species or forms growing on 10 species of British grasses at two sites approximately 3 km apart. 82 isolates collected in 2005 were partially sequenced at the ITS locus, and amplified fragment length polymorphism profiles generated for 86 isolates from 2005 and 12 from 2007. Partial ITS sequences of most isolates grouped closely, in a clade with previously reported graminaceous Puccinia isolates and a number of Melampsora isolates. A second clade was very distinct and contained mostly isolates from Puccinia poarum on Poa trivialis . All isolates had distinct AFLP haplotypes. The P. poarum isolates were very distinct from isolates collected from other rusts at the same site. Isolates from P. brachypodii f. sp. arrhenatheri growing on Arrhenatherum elatius in 2005 and 2007 at the same location were distinct (P < 0.001). Isolates from each rust or grass in one year and site were more similar than expected from overall variation between isolates (P < 0.001). Isolates from P. coronata on different grasses clustered together (with isolates from P. brachypodii f. sp. poae-nemoralis ), suggesting partial host rust specialisation in E. caricis . [ABSTRACT FROM AUTHOR]

Published

2015

21. Specialised host-use and phenophase tracking in restio leafhoppers (Cicadellidae: Cephalelini) in the Cape Floristic Region.

Author

Augustyn, Willem J., Anderson, Bruce, Stiller, Michael, and Ellis, Allan G.

Subjects

PLANT diversity conservation, RESTIONACEAE, SPECIES diversity, ECOLOGICAL niche, LEAFHOPPERS

Abstract

The Cape Floristic Region (CFR) has exceptionally high plant diversity, but because there are so few studies on insect diversity and diet breadth, little is known about the relationship between plant and insect diversity. One possibility is that plant and insect diversity in the CFR are linked through host specialisation. Alternatively, the nutrient-poor soils of the CFR may favour generalist feeding strategies with insects tracking the favourable phenophases of a variety of host plants. We studied Cephalelus, a genus of leafhoppers apparently specialised on the Restionaceae, a diverse and dominant plant family in the CFR. We examined patterns of Cephalelus host association at a single site during a 24 month field survey to determine whether Cephalelus diversity is related to the partitioning of host plant or temporal niches; or whether Cephalelus tracks the most nutritive phenophases of restios by temporal host-switching. Seven Cephalelus species were recorded which varied in their seasonal abundance patterns. The majority of these species exhibited specialised host use on different Restionaceae species, with the exception of C. pickeri. This species specialised on two host plants. The populations of two dominant species, C.pickeri and C.uncinatus, tracked the phenology of their primary host plants but not of the Restionaceae in general. To conclude; we find no evidence for host-switching or generalism in Cephalelus. Instead, they appear to be host-specialised, suggesting coupling between their diversity and that of their host plants; the Restionaceae in the CFR. [ABSTRACT FROM AUTHOR]

Published

2013

22. How specialised must natural enemies be to facilitate coexistence among plants?

Author

Sedio, Brian E., Ostling, Annette M., and Ris Lambers, Janneke Hille

Subjects

*BIOLOGICAL fitness, *STATISTICAL hypothesis testing, *PLANT species, *PLANT diversity, *PATHOGENIC microorganisms, *PLANT communities, *PLANT competition

Abstract

The Janzen-Connell hypothesis proposes that plant interactions with host-specific antagonists can impair the fitness of locally abundant species and thereby facilitate coexistence. However, insects and pathogens that associate with multiple hosts may mediate exclusion rather than coexistence. We employ a simulation model to examine the effect of enemy host breadth on plant species richness and defence community structure, and to assess expected diversity maintenance in example systems. Only models in which plant enemy similarity declines rapidly with defence similarity support greater species richness than models of neutral drift. In contrast, a wide range of enemy host breadths result in spatial dispersion of defence traits, at both landscape and local scales, indicating that enemy-mediated competition may increase defence-trait diversity without enhancing species richness. Nevertheless, insect and pathogen host associations in Panama and Papua New Guinea demonstrate a potential to enhance plant species richness and defence-trait diversity comparable to strictly specialised enemies. [ABSTRACT FROM AUTHOR]

Published

2013

23. Diversity and distribution of fungal foliar endophytes in New Zealand Podocarpaceae

Author

Joshee, Sucheta, Paulus, Barbara C., Park, Duckchul, and Johnston, Peter R.

Subjects

*ENDOPHYTES, *PODOCARPACEAE, *FUNGAL morphogenesis, *FUNGAL communities, *MULTIVARIATE analysis, *KUNZEA ericoides

Abstract

Abstract: The diversity and distribution of fungal endophytes in the leaves of four podocarps (Dacrydium cupressinum, Prumnopitys ferruginea, Dacrycarpus dacrydioides, and Podocarpus totara, all Podocarpaceae) and an angiosperm (Kunzea ericoides, Myrtaceae) occurring in close stands were studied. The effects of host species, locality, and season on endophyte assemblages were investigated. Host species was the major factor shaping endophyte assemblages. The spatial separation of sites and seasonal differences played significant but lesser roles. The mycobiota of each host species included both generalist and largely host-specialised fungi. The host-specialists were often observed at low frequencies on some of the other hosts. There was no clear evidence for family-level specialisation across the Podocarpaceae. Of the 17 species found at similar frequencies on several of the podocarp species, 15 were found also on Kunzea. Many of the endophytes isolated appear to represent species of fungi not previously recognised from New Zealand. [Copyright &y& Elsevier]

Published

2009

24. Use of volatiles of (Aristolochiaceae) in host searching Aristolochia chilensis by fourth-instar larvae and adults of Battus polydamas archidamas (Lepidoptera: Papilionidae: Troidini).

Author

PINTO, CARLOS F., TRONCOSO, ALEJANDRA J., URZÚA, ALEJANDRO, and NIEMEYER, HERMANN M.

Subjects

*ARISTOLOCHIACEAE, *ARISTOLOCHIALES, *INSECTS, *PAPILIONIDAE, *ENTOMOLOGY, *ZOOLOGY

Abstract

Papilionid butterflies of the tribe Troidini are specialists on plants of the family Aristolochiaceae. The role of plant volatiles in host recognition by adult and larval stages of these insects remains unknown. We used Battus polydamas archidamas (Papilionidae: Troidini) and its host-plant, Aristolochia chilensis (Aristolochiaceae), to study: (i) the olfactory and electrophysiological responses of adults to headspace volatiles of the host-plant, (ii) the chemical composition of the headspace volatiles of the host-plant, (iii) the patterns of aggregation of larvae in the field in order to ascertain the time when they leave the plant where the eggs were laid, and (iv) the olfactory responses of solitary-feeding fourth-instar larvae to headspace volatiles of the host-plant. Larvae left their initial host-plant during the third or fourth instar. Host-plant headspace volatiles attracted fourth-instar larvae as well as adults; adult females were more responsive than males. Taken together, these results reveal changes in the responsiveness to host-plant volatiles during development, and provide an insight into the host-plant specialization of this butterfly. [ABSTRACT FROM AUTHOR]

Published

2009

25. Genetic diversity of Moroccan populations of Orobanche foetida: evolving from parasitising wild hosts to crop plants.

Author

VAZ PATTO, M. C., DÍAZ-RUIZ, R., SATOVIC, Z., ROMÁN, B., PUJADAS-SALV, A. J., and RUBIALES, D.

Subjects

*PARASITIC plants, *SAPROPHYTISM, *CROPS, *GENETIC polymorphisms, *BROOMRAPES, *ORNITHOPUS, *LEGUMES, HOSTS of parasitoids

Abstract

Orobanche foetida is widely distributed in western Mediterranean countries infecting wild legumes. Recently it has been reported in Morocco infecting common vetch, presenting a further constraint for legume production in this area. Comparative studies between Orobanche populations attacking wild species and Orobanche populations growing on crops from the same region may help to clarify whether a host specialisation process occurred. In the present study, the genetic variability of five O. foetida populations, four infecting wild plants and one infecting cultivated vetch in Morocco was characterised using amplified fragment-length polymorphism (AFLP) markers to elucidate the existing genetic relationship between populations and to suggest a potential origin for the recently detected vetch-infecting population. Analysis of molecular variance suggested the existence of genotypic differentiation among populations. The most genetic divergent population by cluster analysis was the population collected on Ornithopus sativus. The vetch-infecting O. foetida population was closer to the three populations infecting Scorpiurus muricatus. The possibility of the presence of a reservoir of diversity is balanced against direct genetic adaptation and completely new introduction. The potential for this Orobanche species to shift host and become a threat to agriculture exists and has to be taken into account for future legume breeding for these areas. [ABSTRACT FROM AUTHOR]

Published

2008

26. Variation among individual butterflies along a generalist–specialist axis: no support for the ‘neural constraint’ hypothesis.

Author

WEE, BRIAN and SINGER, MICHAEL C.

Subjects

*COLLINSIA, *EDITH'S checkerspot, *PEDICULARIS, *BUTTERFLIES, *ANIMAL behavior, *BIOTIC communities

Abstract

1. Degree of host specialisation was a continuous variable in a population of Edith’s checkerspot butterfly ( Euphydryas editha). A novel host, Collinsia torreyi, had been added to the diet in response to anthropogenic disturbance, and then abandoned prior to the current study. Butterflies either showed no preference or preferred their traditional host, Pedicularis semibarbata. 2. Strength of preference for Pedicularis over Collinsia was measured in the field and used to estimate host specialisation of individual butterflies. Efficiency was estimated from the times taken by each insect to perform two tasks: (i) identification of a Pedicularis plant as a host, and (ii) successful initiation of oviposition after the decision to do so had been made. 3. There was no clear trend for association between host specialisation and either measure of efficiency. Generalists were not slower than specialists at identifying Pedicularis as a host or at handling it after deciding to oviposit. 4. Prior work indicated that generalists paid no detectable cost in terms of reduced discrimination among individuals of their preferred host species. 5. In contrast to other species, generalist E. editha paid in neither time nor accuracy. Why then does the diet not expand? Behavioural adaptations to the traditional host caused maladaptations to the novel host and generated short-term constraints to evolutionary expansion of diet breadth. To date, however, no long-term constraints have been found in this system. In those traits investigated to date, increased adaptation to the novel host has not caused reduced adaptation to the traditional host. [ABSTRACT FROM AUTHOR]

Published

2007

27. First record from Italy of Zatypota anomala (Ichneumonidae, Ephialtini), a parasitoid of the cribellate spider Dictyna pusilla (Araneae, Dictynidae)

Author

Stanislav Korenko

Subjects

Spider, spider web, host range, Zatypota anomala, Biology, biology.organism_classification, host specialisation, Parasitoid, Ichneumonidae, Insect Science, lcsh:Zoology, Botany, lcsh:QL1-991, Dictynidae, host parasitoid interaction, ectoparasitoid, Ecology, Evolution, Behavior and Systematics, Ephialtini

Abstract

The polysphinctine wasp Zatypota anomala (Holmgren, 1860), a koinobiont ecto-parasitoid of spiders in the family Dictynidae, was recorded in Italy for the first time. Populations of both the wasp and its host, Dictyna pusilla Thorell, 1856, its host preference and the interaction between the parasitoid and the spider were documented in the field and by laboratory observations.

Published

2017

28. Changes in morphological traits of the cabbage aphid ( Brevicoryne brassicae) associated with the use of different host plants.

Author

Ruiz-Montoya, Lorena, Nùñez-Farfán, Juan, and Domínguez, César A.

Subjects

*CABBAGE aphid, *PLANT morphology, *HOST plants, *AGRICULTURAL pests, *PLANT diseases, *CABBAGE diseases & pests

Abstract

The genetic and morphological differentiation of insect populations in relation to the use of different host plants is an important phenomenon that predates ecological specialisation and speciation in sympatric conditions. In this study, we describe the morphological variation of populations of Brevicoryne brassicae (Homoptera: Aphididae) associated with two host species, Brassica oleracea and Brassica campestris, which occur sympatrically in the highlands of Chiapas, Mexico. The study is aimed at obtaining evidence regarding phenotypic differentiation induced by, or associated with, the use of distinct but closely related host species. Seven morphological characters were measured in 696 wingless aphids collected from plants of the two host species at four localities. Morphological variation was summarised through principal components analysis (PCA). Sixty-two percent of morphological variation was explained by the first two PCs. The first component (PC1) was related to the general size of appendages, and PC2 was interpreted as the relationship between body size (body and leg size) and antenna length. Aphids growing on B. campestris were bigger than those collected from B. oleraceae. Significant differences between hosts were detected for PC1, whereas a significant effect of locality, host, and the interaction locality × host was detected for PC2. These results indicate that the average phenotype of B. brassicae individuals inhabiting different host-plant species differs as a consequence of the contrasting feeding environments the host species provide. [ABSTRACT FROM AUTHOR]

Published

2005

29. Host selection by winged colonisers within the Myzus persicae group: a contribution towards understanding host specialisation.

Author

Margaritopoulos, J. T., Tsourapas, C., Tzortzi, M., Kanavaki, O. M., and Tsitsipis, J. A.

Subjects

*GREEN peach aphid, *PEACH diseases & pests, *TOBACCO diseases & pests, *APHIDS, *INSECTS, *ENTOMOLOGY

Abstract

1. Myzus persicae sensu lato demonstrates considerable genetic variation in respect to adaptation to host plants. The subspecies M. persicae nicotianae shows a preference for tobacco, while M. persicae sensu stricto ( s. str.) for other herbaceous plants. Given that winged colonisers of several aphid species play an important role in selecting host plants, here their role in the host specialisation observed in M. persicae was examined in choice and no-choice tests conducted outdoors, in performance studies, and in DC Electrical Penetration Graph (DC-EPG) studies. 2. In outdoor choice tests, 77% of spring migrants of M. persicae nicotianae chose tobacco, whereas equal proportions of M. persicae s. str. selected tobacco and pepper. In no-choice tests, spring migrants settled more quickly after alighting on host rather than on non host plants, and significantly more alate M. persicae s. str. (27%) than M. persicae nicotianae (2%) left tobacco after walking briefly on the leaf surface, whilst no significant differences were found on pepper. Cross-host transfers significantly reduced the fecundity of both summer and spring migrants of the two subspecies. Finally, the results of no-choice tests and DC-EPG studies showed that winged aphids distinguished their host through cues located on the plant surface or in subcutaneous tissues perceived prior to the initiation of feeding. 3. This study demonstrates the important role of winged colonisers in the evolution of host specialisation in M. persicae. The multifarious divergent selection that the two host forms experience, i.e. the selection against cross-migrants and their subsequent generations, is a crucial factor involved in the development and maintenance of host specialisation and promotes the parallel evolution of improved host-recognition ability. [ABSTRACT FROM AUTHOR]

Published

2005

30. Behavioural differences during host selection between alate virginoparae of generalist and tobacco-specialist Myzus persicae.

Author

Vargas, Renzo R., Troncoso, Alejandra J., Tapia, Daniel H., Olivares-Donoso, Ruby, and Niemeyer, Hermann M.

Subjects

*GREEN peach aphid, *APHIDS, *HOMOPTERA, *INSECTS, *PHLOEM, *INSECT-plant relationships

Abstract

Host plant selection and acceptance by aphids involves four consecutive steps: (1) prealighting behaviour, (2) leaf surface exploration and probing of subepidermal tissues, (3) deep probing of plant tissues, and (4) evaluation of the phloem sap. Host specialisation in aphids may involve not only different performances on potential hosts, but also different strategies for host selection and acceptance. Myzus persicae s.s. (Sulzer) (Homoptera: Aphididae) is one of the most polyphagous aphid species, although a tobacco-adapted subspecies, M. persicae nicotianae, has been described. These two taxa constitute a good system for studying the effect of host range on host selection strategies. We studied the first two steps in the host selection process by alate virginoparae of M. persicae s.s. and M. persicae nicotianae on host and non-host plants, using three types of behavioural assays: wind tunnel, olfactometry, and video-recording. Alate virginoparae of M. persicae nicotianae recognised and chose their host plant more efficiently than M. persicae s.s., on the basis of olfactory and visual cues, and factors residing at cuticular and subcuticular levels. Host recognition was evident before phloem tissues were contacted. Olfactory cues were apparently not involved in host selection by M. persicae s.s. [ABSTRACT FROM AUTHOR]

Published

2005

31. Differences in host plant selection among three Athalia sawflies feeding on crucifers in Japan.

Author

Nagasaka, Koukichi and Ohsaki, Naota

Subjects

*INSECT-plant relationships, *ATHALIA, *SAWFLIES, *HERBIVORES

Abstract

Abstract 1. The ways of using host plants were compared among the three Athalia sawflies [A. japonica (Klug), A. rosae ruficornis Jakovlev, and A. infumata (Marlatt)] feeding on crucifers in Japan to determine whether host specialisation can explain the difference in their life-history traits. The occurrence of their larvae was examined on each crucifer species in the field, and the suitability of each crucifer species for the three successive steps of host use by the sawflies was evaluated: microhabitat selection by adult females, female oviposition, and larval growth. 2. There were 11 species of crucifer in the study area, and A. japonica , A. rosae , and A. infumata used nine, seven, and eight species respectively. Thus, sawfly host ranges overlapped. 3. Adult females of A. japonica , A. rosae , and A. infumata preferred shady clumps of crucifers, sunny clumps of crucifers, and disturbed areas respectively. 4. Unsuitable hosts for larval performance such as Brassica oleracea and Arabis plants were eliminated from the host ranges of the three sawflies. 5. Once they chose microhabitats, the suitability of each host plant for female oviposition and larval growth was similar. 6. Because of the divergent preferences for microhabitats, the host plants that were suitable for all the three steps were restricted to different sets of plants among the sawflies: Cardamine for A. japonica , cultivated crucifers (Raphanus and Brassica ) for A. rosae , and Rorippa for A. infumata . These plants could be recognised as the respective primary host plants. 7. The spatio-temporal distributions of primary hosts were consistent with and explained the pattern of diapause and migration of each sawfly, suggesting that host specialisation caused their life-history traits to differentiate. [ABSTRACT FROM AUTHOR]

Published

2002

32. A highly resolved food web for insect seed predators in a species‐rich tropical forest

Author

Marjorie Cedeño‐Sanchez, Jorma Kim, Robert K. Robbins, Héctor Barrios, Yves Basset, Scott E. Miller, Anthony I. Cognato, J. Christopher D. Terry, Owen T. Lewis, Juha-Pekka Salminen, Sofia Gripenberg, Eero J. Vesterinen, Sara Pinzón-Navarro, Donald L. J. Quicke, S. Joseph Wright, Osvaldo Calderón, Indira Simon, D. Catalina Fernández, Geoffrey E. Morse, Marleny Rivera, and John W. Brown

Subjects

0106 biological sciences, Letter, Food Chain, Insecta, interaction network, Panama, quantitative food web, Biology, Forests, 010603 evolutionary biology, 01 natural sciences, Predation, Animals, Letters, Ecology, Evolution, Behavior and Systematics, Phylogeny, Trophic level, Tropical Climate, Ecology, 010604 marine biology & hydrobiology, fungi, Species diversity, Apparent competition, food and beverages, Plant community, Biodiversity, 15. Life on land, Food web, host specialisation, seed predation, Janzen–Connell hypothesis, plant traits, Seed predation, Seeds, Species richness, Barro Colorado Island

Abstract

The top‐down and indirect effects of insects on plant communities depend on patterns of host use, which are often poorly documented, particularly in species‐rich tropical forests. At Barro Colorado Island, Panama, we compiled the first food web quantifying trophic interactions between the majority of co‐occurring woody plant species and their internally feeding insect seed predators. Our study is based on more than 200 000 fruits representing 478 plant species, associated with 369 insect species. Insect host‐specificity was remarkably high: only 20% of seed predator species were associated with more than one plant species, while each tree species experienced seed predation from a median of two insect species. Phylogeny, but not plant traits, explained patterns of seed predator attack. These data suggest that seed predators are unlikely to mediate indirect interactions such as apparent competition between plant species, but are consistent with their proposed contribution to maintaining plant diversity via the Janzen–Connell mechanism.

Published

2019

33. Evoluce hostitelské specializace blanokřídlých parazitoidů rodu Torymus

Author

Bubeníková, Kristýna, Janšta, Petr, and Bogusch, Petr

Subjects

fungi, hostitelská specializace, Chalcidoidea, fylogeneze, phylogeny, host specialisation, parasitoid, Torymus, Chalcidoide, parazitoid

Abstract

The genus Torymus (Chalcidoidea: Torymidae) has very diversified parasitic strategies and adaptations to its hosts. Its larvae are ectoparasitoids and attack mostly larvae of various gall wasps (Hymenoptera: Cynipidae) and gall midges (Diptera: Cecidomyiidae). However, few species prefer also other insect groups as a host or are even phytophagous. Many hypotheses concerning evolution of insect host associations were published, but have not been satisfactorily tested using parasitic insects as a model. In this thesis I studied coevolution of the genus Torymus and its hosts. The main questions are what kind of host shifts occurred during the evolution of host strategies and whether sister species of parasitoids are specific to the related hosts/or nonrelated hosts living in the same type of habitat. I also studied changes at morphological adaptations to its hosts. To test critically these hypotheses, I constructed phylogenetic tree of selected Torymus species based on 5 genes and compared their host association within and between clades of Torymus. Key words: Torymus, Chalcidoide, parasitoid, phylogeny, host specialisation

Published

2018

34. A Generalist Feeding on Brassicaceae: It Does Not Get Any Better with Selection.

Author

Zalucki, Jacinta M., Heckel, David G., Wang, Peng, Kuwar, Suyog, Vassão, Daniel G., Perkins, Lynda, Zalucki, Myron P., and Stout, Michael J.

Subjects

KALE, NOCTUIDAE, BRASSICACEAE, HELICOVERPA armigera, GLUCOSINOLATES

Abstract

Brassicaceae (Cruciferae) are ostensibly defended in part against generalist insect herbivores by toxic isothiocyanates formed when protoxic glucosinolates are hydrolysed. Based on an analysis of published host records, feeding on Brassicas is widespread by both specialist and generalists in the Lepidoptera. The polyphagous noctuid moth Helicoverpa armigera is recorded as a pest on some Brassicas and we attempted to improve performance by artificial selection to, in part, determine if this contributes to pest status. Assays on cabbage and kale versus an artificial diet showed no difference in larval growth rate, development times and pupal weights between the parental and the selected strain after 2, 21 and 29 rounds of selection, nor in behaviour assays after 50 generations. There were large differences between the two Brassicas: performance was better on kale than cabbage, although both were comparable to records for other crop hosts, on which the species is a major pest. We discuss what determines "pest" status. [ABSTRACT FROM AUTHOR]

Published

2021

35. Biocontrol of blackberry (Rubus fruticosus L. agg.) by Phragmidium violaceum (Schultz) Winter

Author

Pay, Judith M.

36. Population genetic structure and host specialization in the fungal plant pathogen Zymoseptoria tritici

Author

Gout, Lilian, Confais, Johann, Massot, M., Ducasse, Aurélie, Valade, R., BIOlogie et GEstion des Risques en agriculture (BIOGER), AgroParisTech-Institut National de la Recherche Agronomique (INRA), and ARVALIS - Institut du végétal [Paris]

Subjects

Septoria tritici, [SDV]Life Sciences [q-bio], bread wheat, food and beverages, durum wheat, host specialisation, Zymoseptoria tritici, wheat, blé, structure des populations, Zymoseptoria tritci, spécialisation d'hôte, population genetic structure, host specialization, ComputingMilieux_MISCELLANEOUS

Abstract

National audience; Zymoseptoria tritici causes Septoria tritici blotch of wheat, one of the most important diseases of this crop worldwide. Yield losses can reach 50% in disease-conducive climates and epidemics occur regularly both on hexaploid bread wheat (Triticum aestivum) and tetraploid durum wheat (Triticum turgidum ssp. durum). Isolates of Z. tritici exhibit both cultivar specificity (ability to infect only some cultivars of either bread or durum wheat) and host species specificity (ability to only infect one or the other wheat species). In France, the major bread wheat growing areas are located in the northern regions of the country whereas durum wheat is mainly cropped in the southern regions. Besides these traditional growing regions, both species are also cultivated in the ‘Centre’ region and in the southwestern region of France. In this study, we exploited these contrasted agrosystems to investigate, at a population level, the extent of host specialization in Z. tritici and to test whether this specificity towards bread or durum wheat had a significant effect on the genetic structure of the fungal populations. A set of 700 isolates were sampled from naturally infected fields of bread and durum wheat in four main French growing regions and genotyped using 12 microsatellite markers. The level of host specialization of 72 isolates from these populations was also determined by cross inoculation experiments on a panel of bread and durum wheat varieties.

Published

2016

37. Colletotrichum – current status and future directions

Author

Ulrike Damm, Bevan S. Weir, Peter R. Johnston, and Paul F. Cannon

Subjects

Systematics, anamorph-teleomorph linkages, Glomerella, Plant Science, phylogeny, Barcode, law.invention, species concepts, Phylogenetics, law, Colletotrichum, systematics, Clade, database, Phylogenetic tree, biology, Ecology, fungi, Articles, biology.organism_classification, barcoding, Agricultural and Biological Sciences (miscellaneous), host specialisation, Cladistics, Evolutionary biology, Taxonomy (biology)

Abstract

A review is provided of the current state of understanding of Colletotrichum systematics, focusing on species-level data and the major clades. The taxonomic placement of the genus is discussed, and the evolution of our approach to species concepts and anamorph-teleomorph relationships is described. The application of multilocus technologies to phylogenetic analysis of Colletotrichum is reviewed, and selection of potential genes/loci for barcoding purposes is discussed. Host specificity and its relation to speciation and taxonomy is briefly addressed. A short review is presented of the current status of classification of the species clusters that are currently without comprehensive multilocus analyses, emphasising the orbiculare and destructivum aggregates. The future for Colletotrichum biology will be reliant on consensus classification and robust identification tools. In support of these goals, a Subcommission on Colletotrichum has been formed under the auspices of the International Commission on Taxonomy of Fungi, which will administer a carefully curated barcode database for sequence-based identification of species within the BioloMICS web environment.

Published

2012

38. Use of volatiles of Aristolochia chilensis (Aristolochiaceae) in host searching by fourth-instar larvae and adults of Battus polydamas archidamas (Lepidoptera: Papilionidae: Troidini)

Author

Hermann M. Niemeyer, Carlos F. Pinto, Alejandro Urzúa, and Alejandra J. Troncoso

Subjects

Larva, animal structures, biology, host-plant volatiles, Host (biology), fungi, battus polydamas archidamas, host finding, food and beverages, biology.organism_classification, Aristolochia chilensis, host specialisation, Lepidoptera genitalia, QL1-991, Insect Science, Botany, Instar, Aristolochiaceae, aristolochic acids, Zoology, Battus polydamas, Troidini

Abstract

Papilionid butterflies of the tribe Troidini are specialists on plants of the family Aristolochiaceae. The role of plant vola- tiles in host recognition by adult and larval stages of these insects remains unknown. We used Battus polydamas archidamas (Papili- onidae: Troidini) and its host-plant, Aristolochia chilensis (Aristolochiaceae), to study: (i) the olfactory and electrophysiological responses of adults to headspace volatiles of the host-plant, (ii) the chemical composition of the headspace volatiles of the host-plant, (iii) the patterns of aggregation of larvae in the field in order to ascertain the time when they leave the plant where the eggs were laid, and (iv) the olfactory responses of solitary-feeding fourth-instar larvae to headspace volatiles of the host-plant. Larvae left their initial host-plant during the third or fourth instar. Host-plant headspace volatiles attracted fourth-instar larvae as well as adults; adult females were more responsive than males. Taken together, these results reveal changes in the responsiveness to host-plant volatiles during development, and provide an insight into the host-plant specialization of this butterfly.

Published

2009

39. Wirtsspezialisierung des pflanzenpathogenen Pilzes Zymoseptoria tritici

Author

Poppe, Stephan and Stukenbrock, Eva (Prof. Dr.)

Subjects

Host specialisation, Septoria tritici, Phytopathology, Evolution, food and beverages, Phytopathologie, Positive selection, Biowissenschaften, Biologie, Spezialisierung, ddc:570, Wheat, Biowissenschaften, Biologie -- Life sciences, Weizen, 2015

Abstract

The three closely related plant pathogenic species Zymoseptoria tritici (synonym: Mycosphaerella graminicola), Z. pseudotritici and Z. ardabiliae are hemi-biotrophic, ascomycete fungi with different host ranges. Z. tritici emerged at the onset of agriculture and is specialized to its host Triticum aestivum (bread wheat). In contrast Z. pseudotritici and Z. ardabiliae infect different wild grass species at the center of origin and diversification of the Zymoseptoria grass pathogens and are unable to infect wheat. Accelerated evolution of single genes is a key feature of pathogen adaptation following a host shift. Genes under positive selection exhibit an elevated ratio of non-synonymous (replacement) mutations to synonymous (silent) mutations. A ratio above 1 is indicative of positive selection and these positively selected genes can be identified by comparative genome analyses of closely related species that infect different hosts. From a comparative genome study of Zymoseptoria species the four positively selected genes Zt80707, Zt89160, Zt103264, and Zt110804 were chosen without a priori information about gene function or structure. In this study it was shown that the four selected genes are up-regulated in planta. The genes are not involved in axenic growth of Z. tritici as shown by an in vitro assay, supporting a pathogenicity related role of the four gene products. The virulence of Z. tritici on wheat was significantly reduced for the two deletion mutants (Zt80707 and Zt103264) and both showed an impaired development of the asexual fruiting bodies (pycnidia) on wheat. The deletion of Zt89160 caused a hypervirulent reaction in wheat while the fourth mutant (Zt110804) showed no detectable change in virulence-phenotype. The protein Zt80707 was moreover shown to be exclusively secreted in Z. tritici indicating that positive selection in this protein most likely relates to a novel extracellular function. Adaptation to the host plant wheat was shown for the proteins Zt80707 and Zt89160 as both deletion phenotypes could not or only partially be restored when the genes in Z. tritici were replaced with their orthologs of Z. pseudotritici. The presented results demonstrate that evolutionary predictions provide a strong tool for the identification of genes involved in host adaptation and pathogen development. In addition it was shown that adaptive evolution during host specialization also strongly affects non-secreted proteins without effector function (Zt89160, Zt103264, and Zt110804)., Die drei nah verwandten Ascomyceten Zymoseptoria tritici (Synonym: Mycosphaerella graminicola), Z. pseudotritici und Z. ardabiliae sind hemibiotrophe Pflanzenpathogene mit verschieden Wirtsspektren. Z. tritici tritt seit den Anfängen der Landwirtschaft auf und ist auf die Wirtspflanze Weizen (Triticum aestivum) spezialisiert. Hingegen können Z. pseudotritici und Z. ardabiliae Weizen nicht infizieren und befallen verschiedene Wildgräser. Beschleunigte Evolution von einzelnen Genen ist ein Hauptmerkmal der Anpassung von pathogenen nach einem Wirtswechsel. Positiv selektionierte Gene zeigen eine erhöhte Rate von nicht-synonymen (sinnverändernden) Mutationen zu synonymen (stillen) Mutationen. Eine Rate über 1 deutet auf positive Selektion hin und diese positiv selektionierten Gene können durch Genomvergleiche von nah verwandten Arten mit verschiedenen Wirtsspektren identifiziert werden. Durch einen Genomvergleich der beschriebenen Zymoseptoria Arten wurden die vier positiv selektionierten Gene Zt80707, Zt89160, Zt103264, und Zt110804 ausgesucht. In dieser Arbeit wurde gezeigt das die vier identifizierten Gene in planta hochreguliert sind und durch ein in vitro Stress-Assay konnte belegt werden, dass diese Gene keinen Einfluss auf das axenische Wachstum von Z. tritici haben. Beide Ergebnisse unterstützen eine mögliche Rolle der Gene in der Pathogenität von Z. tritici. Die Deletion von Zt80707 und Zt103264 führte zu einer signifikanten Reduktion der Virulenz von Z. tritici auf Weizen und beide Deletionsmutanten zeigten eine beeinträchtigte Entwicklung der asexuellen Fruchtkörper (Pyknidien). Die Deletion von Zt89160 führte zu einer Hypervirulenz auf Weizen während der vierte Deletionsstamm (Zt110804) keine Veränderung der Virulenz zeigte. Ferner wurde gezeigt, dass das Protein Zt80707 ausschließlich in Z. tritici sekretiert ist, was darauf hindeutet, dass die positive Selektion dieses Proteins mit der neuen extrazellulären Funktion in Verbindung steht. Eine Anpassung an die Wirtspflanze Weizen konnte für die Proteine Zt80707 und Zt89160 demonstriert werden, da beide Deletions-Phänotypen nicht oder nur teilweise wiederhergestellt werden konnten, wenn die korrespondierenden Gene durch deren Orthologe von Z. pseudotritici ersetzt werden. Die präsentierten Ergebnisse verdeutlichen, dass evolutionäre Voraussagen ein hervorragendes Mittel sind um Gene zu identifizieren, die in der Anpassung an den Wirt und die Entwicklung von Pathogenen involviert sind. Zusätzlich wurde gezeigt, dass adaptive Evolution durch die Anpassung an einen Wirt auch nicht sekretierte Proteine beeinflusst.

Published

2015

40. Ecological and geographical speciation in Lucilia bufonivora : The evolution of amphibian obligate parasitism.

Author

Arias-Robledo G, Wall R, Szpila K, Shpeley D, Whitworth T, Stark T, King RA, and Stevens JR

Abstract

Lucilia (Diptera: Calliphoridae) is a genus of blowflies comprised largely of saprophagous and facultative parasites of livestock. Lucilia bufonivora , however, exhibits a unique form of obligate parasitism of amphibians, typically affecting wild hosts. The evolutionary route by which amphibian myiasis arose, however, is not well understood due to the low phylogenetic resolution in existing nuclear DNA phylogenies. Furthermore, the timing of when specificity for amphibian hosts arose in L. bufonivora is also unknown. In addition, this species was recently reported for the first time in North America (Canada) and, to date, no molecular studies have analysed the evolutionary relationships between individuals from Eastern and Western hemispheres. To provide broader insights into the evolution of the amphibian parasitic life history trait and to estimate when the trait first arose, a time-scaled phylogeny was inferred from a concatenated data set comprising mtDNA, nDNA and non-coding rDNA ( COX1 , per and ITS2 respectively). Specimens from Canada, the UK, Poland, Switzerland, the Netherlands and Germany were analysed, as well as individuals from its sister taxa, the saprophage Lucilia silvarum and a Nearctic species also implicated in amphibian myiasis, Lucilia elongata . Obligate amphibian parasitism appears to have arisen ~4 mya, likely as a result of niche displacement of a saprophagous/facultative parasite ancestor. Consistent paraphyly of L. bufonivora with respect to L. elongata across single-gene phylogenies and high mtDNA genetic distances between Nearctic and Palearctic individuals suggest on-going cryptic speciation facilitated by geographical isolation. These findings suggest that recent reports of L. bufonivora in the Nearctic do not constitute a recent introduction, but instead suggest that it remained unrecorded due to taxonomic confusion and low abundance. This is the first study to confirm the involvement of L. bufonivora in amphibian myiasis in Canada using DNA-based identification methods., (Crown Copyright © 2019 Published by Elsevier Ltd on behalf of Australian Society for Parasitology.)

Published

2019

41. Effet de l'écologie d'un hôte sur l'évolution de son principal parasitoïde

Author

Emilie Dion, Biologie des organismes et des populations appliquées à la protection des plantes (BIO3P), AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Recherche Agronomique (INRA), Agrocampus - Ecole nationale supérieure d'agronomie de rennes, Jean-Christophe Simon et Yannick Outreman, Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, and Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST

Subjects

genetic cascading host-associated differentiation, [SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE], [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], symbiont-mediated resistance, experimental evolution, adaptation abilities, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, behavioural defences, microsatellites, host specialisation, Parasitoid, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis

Abstract

Each living organism is an active actor of a complex interaction web. Interactions between species imply selective pressures on their raits, driving their coevolution dynamics. As in an 'arms race', in host-parasitoid coevolution, host traits implied in resistance are selected, whereas host-exploitation abilities are selected in parasitoids. The host is itself member of other interactions, which may influence its traits, and consequently, impacts on parasitoid fitness. This thesis aimed to evaluate the influence of the pea aphid Acyrthosiphon pisum interactions web on the evolution and ecology of its dominant parasitoid Aphidius ervi. The interaction between the pea aphid and its host plant should impact on parasitoid populations because A. pisum populations exhibit host plant specialization, being a complex of genetically and phenotypically distinguished sympatric populations. However, we showed that there is no cascading genetic host-associated differentiation of A. ervi populations, in respect with host races. The parasitoids seem to equally exploit aphids from different host plants. As A. ervi have great dispersal ability and is a generalist species, gene flows are favoured between landscape compartments. Additionally, some pea aphid individuals harbour a facultative symbiont Hamiltonella defensa that provides protection against parasitoids. By analysing aphid behaviours in the presence of parasitoids, we showed that hosts infected with H. defensa exhibited reduced aggressiveness and escape reactions compared with uninfected aphids. The aphid and the symbiont should both benefit from these behavioural changes: both partners reduced the fitness decrements associated with the behavioural defences. We conducted also an experimental evolution procedure, selecting A. ervi on either high-resistant aphid populations harbouring H. Defensa, or low-resistant aphid populations free of H. defensa. The parasitoids performance selected on high-resistant host populations increased through generations. During selection process, host resistance induced a diminution of the allelic variability in A. ervi selected populations, leading to genetic divergence between populations exposed or not to high-resistant hosts. This experimentation highlighted the genetic and adaptive potential of this parasitoid species when faced with the symbiont mediated resistance of their hosts. The results of these studies are then discussed in respect to the fundamental and applied fields associated. Perspectives of this work are also given.; Chaque être vivant interagit avec une ou plusieurs espèces et est membre d'un réseau complexe d'interactions qui influencent les traits des individus, exerçant de fait des pressions sélectives sur leurs populations. Chaque espèce étant dépendante de la nature et de la diversité des interactions dans lesquelles elle est impliquée, son évolution est donc en partie liée aux autres espèces avec lesquelles elle interagit. Un hôte et son parasitoïde vivent dans une dynamique coévolutive, prenant part à une véritable 'course aux armements', où les différentes stratégies d'attaque peuvent être sélectionnés chez le parasitoïde en réponse aux différentes formes de défenses chez l'hôte. Ce dernier interagit également avec d'autres organismes qui modifient ses traits, impactant les aptitudes du parasitoïde, perturbant leur dynamique coévolutive. L'objectif de ce travail est ainsi d'identifier l'influence du réseau d'interactions du puceron du pois Acyrthosiphon pisum sur l'évolution et l'écologie des populations de son principal parasitoïde Aphidius ervi. Le puceron du pois est lui-même parasite de sa plante hôte, leur coévolution aboutissant à une spécialisation de cet aphide cette espèce hôte végétale. Les populations de pucerons sont donc structurées en races d'hôtes sympatriques, divergeant génétiquement et phénotypiquement. Notre étude montre une absence de structuration génétique des populations de parasitoïdes selon les races d'hôte. A. ervi exploite indifféremment les A. pisum issus de différentes plantes hôtes, excluant la présence d'un effet cascade associé à la spécialisation alimentaire chez ce puceron. La dispersion et le caractère généraliste du parasitoïde semblent favoriser les flux de gènes entre les différents éléments d'un paysage agricole. A. pisum peut également abriter le symbiote Hamiltonella defensa qui lui confère une résistance à A. ervi. Ces microorganismes symbiotiques induisent une réduction des défenses comportementales chez les pucerons porteurs. Cette diminution de l'expression des comportements défensifs favorise à la fois le puceron et son symbiote car elle réduit les coûts associés à ces comportements. Enfin, une évolution expérimentale sur des populations de parasitoïdes soumises à des populations d'hôtes portant H. defensa (résistantes) ou non (sensibles) montre une adaptation des parasitoïdes soumis aux hôtes résistants. Cette adaptation s'accompagne d'une réduction de la variabilité génétique dans les populations exposées à la résistance. On observe également une divergence génétique entre les populations exposées ou non à la résistance conférée par le symbiote, H. defensa. Cette expérimentation met en évidence le potentiel évolutif des populations d'A. ervi et donc leurs capacités d'adaptation face à des pucerons résistants. Les intérêts fondamentaux et appliqués de ces travaux sont discutés et replacés dans un contexte général.

Published

2011

42. Effet de l'écologie d'un hôte sur l'évolution de son principal parasitoïde

Author

Dion, Emilie, Biologie des organismes et des populations appliquées à la protection des plantes (BIO3P), AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Recherche Agronomique (INRA), Agrocampus - Ecole nationale supérieure d'agronomie de rennes, Jean-Christophe Simon et Yannick Outreman, Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), and Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST

Subjects

genetic cascading host-associated differentiation, [SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE], [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], symbiont-mediated resistance, experimental evolution, adaptation abilities, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, behavioural defences, microsatellites, host specialisation, Parasitoid, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis

Abstract

Each living organism is an active actor of a complex interaction web. Interactions between species imply selective pressures on their raits, driving their coevolution dynamics. As in an 'arms race', in host-parasitoid coevolution, host traits implied in resistance are selected, whereas host-exploitation abilities are selected in parasitoids. The host is itself member of other interactions, which may influence its traits, and consequently, impacts on parasitoid fitness. This thesis aimed to evaluate the influence of the pea aphid Acyrthosiphon pisum interactions web on the evolution and ecology of its dominant parasitoid Aphidius ervi. The interaction between the pea aphid and its host plant should impact on parasitoid populations because A. pisum populations exhibit host plant specialization, being a complex of genetically and phenotypically distinguished sympatric populations. However, we showed that there is no cascading genetic host-associated differentiation of A. ervi populations, in respect with host races. The parasitoids seem to equally exploit aphids from different host plants. As A. ervi have great dispersal ability and is a generalist species, gene flows are favoured between landscape compartments. Additionally, some pea aphid individuals harbour a facultative symbiont Hamiltonella defensa that provides protection against parasitoids. By analysing aphid behaviours in the presence of parasitoids, we showed that hosts infected with H. defensa exhibited reduced aggressiveness and escape reactions compared with uninfected aphids. The aphid and the symbiont should both benefit from these behavioural changes: both partners reduced the fitness decrements associated with the behavioural defences. We conducted also an experimental evolution procedure, selecting A. ervi on either high-resistant aphid populations harbouring H. Defensa, or low-resistant aphid populations free of H. defensa. The parasitoids performance selected on high-resistant host populations increased through generations. During selection process, host resistance induced a diminution of the allelic variability in A. ervi selected populations, leading to genetic divergence between populations exposed or not to high-resistant hosts. This experimentation highlighted the genetic and adaptive potential of this parasitoid species when faced with the symbiont mediated resistance of their hosts. The results of these studies are then discussed in respect to the fundamental and applied fields associated. Perspectives of this work are also given.; Chaque être vivant interagit avec une ou plusieurs espèces et est membre d'un réseau complexe d'interactions qui influencent les traits des individus, exerçant de fait des pressions sélectives sur leurs populations. Chaque espèce étant dépendante de la nature et de la diversité des interactions dans lesquelles elle est impliquée, son évolution est donc en partie liée aux autres espèces avec lesquelles elle interagit. Un hôte et son parasitoïde vivent dans une dynamique coévolutive, prenant part à une véritable 'course aux armements', où les différentes stratégies d'attaque peuvent être sélectionnés chez le parasitoïde en réponse aux différentes formes de défenses chez l'hôte. Ce dernier interagit également avec d'autres organismes qui modifient ses traits, impactant les aptitudes du parasitoïde, perturbant leur dynamique coévolutive. L'objectif de ce travail est ainsi d'identifier l'influence du réseau d'interactions du puceron du pois Acyrthosiphon pisum sur l'évolution et l'écologie des populations de son principal parasitoïde Aphidius ervi. Le puceron du pois est lui-même parasite de sa plante hôte, leur coévolution aboutissant à une spécialisation de cet aphide cette espèce hôte végétale. Les populations de pucerons sont donc structurées en races d'hôtes sympatriques, divergeant génétiquement et phénotypiquement. Notre étude montre une absence de structuration génétique des populations de parasitoïdes selon les races d'hôte. A. ervi exploite indifféremment les A. pisum issus de différentes plantes hôtes, excluant la présence d'un effet cascade associé à la spécialisation alimentaire chez ce puceron. La dispersion et le caractère généraliste du parasitoïde semblent favoriser les flux de gènes entre les différents éléments d'un paysage agricole. A. pisum peut également abriter le symbiote Hamiltonella defensa qui lui confère une résistance à A. ervi. Ces microorganismes symbiotiques induisent une réduction des défenses comportementales chez les pucerons porteurs. Cette diminution de l'expression des comportements défensifs favorise à la fois le puceron et son symbiote car elle réduit les coûts associés à ces comportements. Enfin, une évolution expérimentale sur des populations de parasitoïdes soumises à des populations d'hôtes portant H. defensa (résistantes) ou non (sensibles) montre une adaptation des parasitoïdes soumis aux hôtes résistants. Cette adaptation s'accompagne d'une réduction de la variabilité génétique dans les populations exposées à la résistance. On observe également une divergence génétique entre les populations exposées ou non à la résistance conférée par le symbiote, H. defensa. Cette expérimentation met en évidence le potentiel évolutif des populations d'A. ervi et donc leurs capacités d'adaptation face à des pucerons résistants. Les intérêts fondamentaux et appliqués de ces travaux sont discutés et replacés dans un contexte général.

Published

2011

43. Biocontrol of blackberry (Rubus fruticosus L. agg.) by Phragmidium violaceum (Schultz) Winter

Author

Pay, Judith M.

Subjects

weed control, Phragmidium violaceum, Rubus fruticosus L. agg., host specialisation, physiological races, insects, blackberries, biocontrol agents, Canterbury, New Zealand, pathogens

Abstract

Blackberry (Rubus fruticosus L. agg.) is a serious weed in Australia and New Zealand. Control is both difficult and costly. Spores of the rust pathogen Phragmidium violaceum (Schultz) Winter were released in Victoria, Australia in 1984 as a biological control agent specific to this weed. P. violaceum was first reported on blackberry in Canterbury, New Zealand in February 1990. It has subsequently been reported as being widespread over both main islands and as far east as the Chatham Islands. Nothing is known about either the races of the rust that have become established in New Zealand or the host/pathogen interactions. The life-cycle of P. violaceum on blackberry in New Zealand was similar to that described in Chile and Australia and all spore stages were produced Susceptibility of four hosts differed depending on species and age of leaf. R. echinatus was the most common species in Canterbury and was the most infected species in the field. It was only moderately infected in detached leaf studies. In contrast, R. laciniatus was the least common species and only moderately infected in the field. However, it was the most infected species in detached leaf studies. R. ulmifolius was never infected in the field but was susceptible to two isolates of urediospores, collected from Farewell Spit and Seddonville, in detached leaf studies. Of the three ages of leaves tested, the youngest, fully expanded leaves were the most susceptible to infection (P

Published

1996

44. Colletotrichum - current status and future directions.

Author

Cannon PF, Damm U, Johnston PR, and Weir BS

Abstract

A review is provided of the current state of understanding of Colletotrichum systematics, focusing on species-level data and the major clades. The taxonomic placement of the genus is discussed, and the evolution of our approach to species concepts and anamorph-teleomorph relationships is described. The application of multilocus technologies to phylogenetic analysis of Colletotrichum is reviewed, and selection of potential genes/loci for barcoding purposes is discussed. Host specificity and its relation to speciation and taxonomy is briefly addressed. A short review is presented of the current status of classification of the species clusters that are currently without comprehensive multilocus analyses, emphasising the orbiculare and destructivum aggregates. The future for Colletotrichum biology will be reliant on consensus classification and robust identification tools. In support of these goals, a Subcommission on Colletotrichum has been formed under the auspices of the International Commission on Taxonomy of Fungi, which will administer a carefully curated barcode database for sequence-based identification of species within the BioloMICS web environment.

Published

2012