Why aggregate?

Gillmeister, Andrea Brigitta

January 1999

No description available.

577

Drosophila; Oviposition behaviour

Direct and indirect effects of roe deer (Capreolus capreolus) herbivory on an island population of Chequered blue butterfly (Scolitantides orion).

Johansson, Alexandra

January 2021

Herbivory by ungulates is a known agent of disturbance in many ecological systems around the globe. At high abundances and through a selective foraging behaviour herbivory may inflict significant direct and indirect effects on local plant and animal communities. Direct effects referto ungulates directly interacting with another species by foraging on plants and incidentally on insect eggs, larvae and/or adults. Indirect effects in this context describes ungulate feeding on plants which indirectly alters the availability and quality of food resources utilized by local insect fauna. Ungulates have even been considered as a potential conservation threat topersistence of some insect species. This aim of this thesis was to study the interaction between a common ungulate, the roe deer (Capreolus capreolus), and the rare butterfly Scolitantides orion by sharing the same plant resource, orpine (Hylotelephium telephium).  S. orion is a butterfly species of high conservation concern in Sweden. It is classified as endangered (EN) and has over the last decades experienced significant decrease in population size, mainly as a result of habitat loss and fragmentation. Roe deer has been considered as a potential threat to the population, but the magnitude of the threat has not been studied in detail. The objective of this thesis was to analyse the direct and indirect consequences of roe deer herbivory on S. orion population in the island of Mörtö, Stockholm archipelago. I predicted that roe deer alters the abundance of suitable host plants for oviposition and consumes egg and/or larvae, producing significant differences between protected and unprotected plants. The study was conducted in May-June 2020 in seven selected sites in Mörtö. At the onset of the butterfly season, 47 mesh cages were established sheltering 10.4% of the 1310 plants included in the study. Five inventories were conducted over a five-week time period, where each plant was examined by measuring the height, number of leaves, plant damage and the number of eggs and larvae. These data were used to examine the direct and indirect effect of roe deer foraging.  The results of this study could not confirm that roe deer has a significant direct or indirect effect on S. orion population in Mörtö. Hence, roe deer may not pose as large of a threat as initially expected, at least in this island at this time period. However, this was not the only result from this study. Plant properties such as leaf number and plant height (although not significant) as well as plant quality influenced the host choice for oviposition, with significantly more eggsbeing found on plants with more leaves and less plant damage. Hence, it seems that roe deer and other herbivores indirectly affects the host choice of S. orion by altering plant attractiveness. The reason for this behaviour needs to be studied in detail, but a proposed reason was that females choose plants with less damage to avoid competition and/or predation. Another finding was that a substantial number of eggs were lost over the season, some of which due to incidental feeding by roe deer and other herbivores. However, many eggs were lost without an identified reason, which likely is a result of disease or predators, but this needs to be studiedfurther. Finally, the cage experiment was successful in keeping the roe deer out but not able to cause a difference in egg survival between protected and unprotected plants. This was likely due to low roe deer herbivory in general.  Even though the effect of roe deer on S. orion population was not as significant as expected, it is still important to consider roe deer as a potential threat to the species at its most vulnerable stages as the species is dependent on the host plant for its survival. Hence, it would be interesting to do a similar experiment in a locality with higher deer density to further investigate the effect of roe deer on S. orion populations.

Scolitantides orion

Chequered blue butterfly

oviposition

oviposition behaviour

Indirect and direct effects

herbivory

Ecology

Ekologi

"Foraging and oviposition behaviour in the predatory hoverfly Episyrphus balteatus DeGeer (Diptera:Syrphidae): a multitrophic approach/Le comportement de recherche et de ponte des femelles du syrphe ceinturé, Episyrphus balteatus DeGeer (Diptère, Syrphidae) : approche multitrophique".

Al-Mohamad, Raki

10 September 2010

"Summary: The larvae of predatory hoverfly Episyrphus balteatus DeGeer (Diptera: Syrphidae), have limited dispersal ability to forage. The selection of the oviposition site by gravid females is crucial for the survival larvae. Therefore hoverfly females should optimise their foraging behaviour by choosing suitable oviposition sites. The aim of this PhD thesis was to understand how hoverfly females assess aphid patch quality during their egg-laying behaviour. The impact of several factors on the oviposition response of E. balteatus females including host plant, aphid species, aphid colony size, semiochemicals emitted from aphids or their association with host plants, presence of intra- or interspecific competitors and females age, was clearly demonstrated during this research. In the first part, we have shown that E. balteatus females select their oviposition site according to aphid-host plant and aphid species, which is also shown to be related to offspring performance (fitness). Aphid species Myzus persicae (Sulzer) infested-Solanum tuberosum L. was the most preferred aphid-plant combination as an oviposition site by syrphid females. The E. balteatus survival was enhanced in this system and females laid numerous eggs when larvae were reared with M. persicae as prey, especially when the host plant was potato. Broad bean plants Vicia faba infested with Megoura viciae (Buckton) or Acyrthosiphon pisum (Harris) were equally attractive for E. balteatus females. Aphis fabae (Scopoli) was the least preferred aphid. Higher hoverfly fitness was also observed when larvae were reared on M. viciae or A. pisum compared to those reared on A. fabae. Moreover, it was also demonstrated that foraging hoverfly females is guided by different infochemical cues emitted by aphid host plant, such as (E)-β-farnesene, enabling them to locate aphid infested plant and to select an adequate oviposition site. In the second part, the leaf disc system was found to be a practical and efficient method to assess the hoverfly reproductive behaviour under different laboratory conditions. Results also showed that there was a significant quadratic relationship between the released (E)-β-farnesene amounts and aphid colony size, which means that this molecule play important role in oviposition decision made by hoverfly females in response to aphid colony size. In the third part, we have highlighted that the E. balteatus females avoid aphid colonies in which conspecific larvae or their tracks were already present. Similar response was also shown by females to the presence of Harmonia axyridis (Pallas) larval tracks. This oviposition deterring stimulus was also shown to be mediated by odourant cues emitted from larval tracks extracts. It was also demonstrated that the foraging behaviour of hoverfly females was modified by the presence of parasitoids Aphidius ervi (Haliday) in aphid colonies. Females did not exhibit any preference for plants infested with unparasitised or parasitised aphids for 7 days, but they are reluctant to lay eggs in response to the presence of mummies or their exuvia on broad bean plants. Oviposition preference of predatory hoverfly females according to the developmental state of the parasitoid larvae in aphid prey was also found to be related with larval performance. Finally, the age of hoverfly females was found to be an important factor affecting their reproduction ability, suggesting that younger E. balteatus females (2 to 5 weeks old) could be have potential to play a role in biological control of aphids because of their higher reproductive efficiency. All experiments were performed in a laboratory environment and most results obtained are discussed in relation to the context of biological control efforts/Résumé : Les larves du syrphe aphidiphage Episyrphus balteatus (Diptère, Syrphidae) ont une capacité de déplacement limitée. Le choix du site doviposition des femelles est donc crucial pour la survie larvaire. Pour cela, les femelles de ce diptère devraient optimiser leurs choix de sites doviposition pour maximiser les chances de survie de leurs progénitures. Le but de cette thèse de doctorat était de comprendre comment les femelles dE. balteatus évaluent la qualité de patches de pucerons au cours de leur comportement de ponte. La réponse de ponte des femelles dE. balteatus observées à travers plusieurs facteurs a été réalisée, parmi lesquels: la plante hôte, lespèce de pucerons, la taille de la colonie de pucerons, les substances sémiochimiques émises par les pucerons et leurs associations avec leurs plantes hôtes, la présence de compétiteurs intra- ou interspécifiques et l'âge de la femelle. Dans la première partie de ce travail, les résultats obtenus ont permis de mettre en évidence que les femelles dE. balteatus sélectionnent le site de ponte en fonction de la plante hôte et lespèce de puceron, et ce comportement a été aussi montré comme étant lié avec la performance du prédateur (fitness). La combinaison puceron/plante M. persicae/Solanum tuberosum a été la plus préférée par les femelles dE. balteatus, et le fitness de ce prédateur était plus élevé en particulier lorsque les larves sont nourries avec M. persicae élevées sur une plante de pomme de terre. De même, les femelles dE. balteatus ont montré une même préférence pour les deux combinaisons M. viciae/V. faba et A. pisum /V. faba, et un fitness supérieur du prédateur adulte a été aussi observé lorsque les larves sont nourries avec les deux espèces de pucerons. De plus, nous avons aussi montré que les femelles dE. balteatus en recherche de site de ponte sont guidées par des substances volatiles, en particulier le E-(β)-farnésène, émises par les pucerons infestant leur plante hôte. Dans la deuxième partie, le système feuille-disque est démontré comme étant une méthode pratique et efficace pour évaluer le comportement de ponte dE. balteatus au laboratoire sous différentes conditions. Les résultats ont aussi démontré quil y a une relation quadratique entre lémission du E-(β)-farnésène et la taille de colonie de pucerons, ce qui permet de seffectuer que cette molécule a un rôle important dans le comportement de ponte des femelles dE. balteatus en réponse à la taille de la colonie de pucerons. Les résultats obtenus dans la troisième partie, nous ont permis de montrer que les femelles dE. balteatus réduisent leurs pontes dans une colonie de pucerons contenant préalablement des larves de leur propre espèce ou leurs traces. Une réponse similaire a été aussi montrée en présence des substrats préalablement visitées par les larves de coccinelle Harmonia axyridis. Ainsi, la réduction de la ponte des femelles dE. balteatus est provoquée par des substances volatiles émises par les substrats des larves de syrphe. Nous avons aussi démontré que la présence du parasitoïde Aphidius ervi dans une colonie de pucerons a un effet significatif sur le comportement de ponte des femelles dE. balteatus. Les femelles dE. balteatus ne distinguent pas les plants infestées par les pucerons parasités ou non parasités, cependant les femelles réduisent leur pontes en réponse à la présence des pucerons momifiés ou des exuvies de momies. De plus, un fitness supérieur du prédateur a été aussi observé lorsque les larves sont nourries avec lespèce de pucerons A. pisum parasités ou non parasités. Enfin dans la dernière partie, lâge de la femelle dE. balteatus influence significativement leur reproduction, ce qui permet de proposer que les jeunes femelles (2 à 5 semaines) peuvent être plus efficaces dans la lutte biologique contre les pucerons car elles ont une grande efficacité de reproduction. Toutes les expériences ont été effectuées au laboratoire et la plupart des résultats obtenus sont discutés en relation avec le contexte de la lutte biologique".

Syrphidae/Syrphidae

host choice/choix de lhote

potato plant/plante de pomme de terre

semiochemicals/ semiochimiques

Aphids/pucerons

broad bean plant/plante de feve

prey patch quality/ qualite de la proie

female age/age de la femelle