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In over 100 genera of tropical angiosperms, one or more species possess specialised structures for housing ants. The longevity and intimacy of these associations has often facilitated an increasing specialisation of both the ants and the plants, leading to a number of highly specific and obligate symbioses. Early literature contained only few anecdotal reports of the ant genus Cladomyrma WHEELER inhabiting (unidentified) plants. This work presents the new findings on Cladomyrma and its host plants that accumulated over the last two decades. My studies of Cladomyrma reveal that there is a largely overlooked community of south-east Asian plant-ants and their associated plants. Currently the genus consists of at least 12 species. Cladomyrma has been thought to be restricted to the ever-wet part of the West Malesian floristic region, comprising the Malay Peninsula, Borneo, and Sumatra, but recent collections from Thailand and Vietnam indicate that species of the genus penetrate the seasonal tropical forests of Continental Asia. Cladomyrma inhabits 24 plant species belonging to a surprisingly extensive range of plant taxa: Callerya, Saraca, Spatholobus (Fabaceae), Crypteronia (Crypteroniaceae), Drypetes (Putranjivaceae), Ryparosa (Achariaceae), Strychnos (Loganiaceae), Neonauclea (Rubiaceae), Luvunga (Rutaceae) and Sphenodesme (Verbenaceae). In terms of taxonomic diversity on the genus and family level the range of hosts utilised by Cladomyrma is one of the broadest ever recorded for any live stem-nesting plant-ant lineage worldwide. This work provides a species-level overview of all Cladomyrma host plants known from Borneo, the Malay Peninsula and Sumatra, including descriptions of ant-housing structures (domatia), ant inhabitant identity, onset of colonisation during plant ontogeny, nest structure, occupancy rate, and considerations of results obtained from herbarium specimens. Both the regularity of ant association and the degree of morphological specialisation toward myrmecophytism are assessed. The behavioural traits of Cladomyrma are compatible with traits exhibited by other protective plant-ants. This work demonstrates that all species of Cladomyrma investigated (dianeae, maschwitzi, yongi, petalae) confer antiherbivore protection to young leaves of its host. The ants also attack and repell or kill herbivorous insect larvae encountered on young foliage. Cleaning behaviour appears to be a trait shared by all members of the genus, and the two species tested (maschwitzi, petalae) successfully removed termite eggs experimentally placed onto young leaves. Another trait common to all known species of the genus is that the ants preferentially patrol young shoots and leaves ('neophily'). These behavioural traits of Cladomyrma likely reduce stem damage and pathogenic infection of their host. The ants prune encroaching vegetation (tested in dianeae maschwitzi, petalae, yongi, observed in crypteroniae) and attack paper tape used to mark host plants (observed in andrei, dianeae, hobbyi, nudidorsalis, maschwitzi, yongi, petalae). If these traits combined translate into a better reproductive success of the hosts has yet to be verified. Evidence for lifetime fitness benefits is particularly difficult to quantify for the long-lived woody host plants of Cladomyrma. The predominant food source of Cladomyrma appears to be the honeydew of scale insects (Coccidae and Pseudococcidae) which the ants tend inside their nest cavities. Observations on scale insect acquisition by Cladomyrma foundress queens show that hemipteran trophobionts are not transported by the queens on their nuptial flight but they nevertheless arrive on the host plant independently of the ants. Entry into nest chambers is facilitated by small holes kept open by the foundress queen. Most Cladomyrma species have been recorded from only one or two (three) host plant species (andrei, crypteroniae, hobbyi, maschwitzi, nudidorsalis, scopulosa, yongi), but two species, Cladomyrma petalae and C. dianeae, are more catholic in their host usage; the first being a 'generalist' plant-ant colonising hosts across a broad taxonomic range, the second inhabiting several members of the genus Neonauclea. First results of host-choice experiments with C. petalae are presented and the potential mechanisms promoting host specificity are discussed. My studies of the Cladomyrma/plant associations indicate that codiversification and host shifts or host expansions, rather than cospeciation, shape the pattern of species interactions in this system. Finally, I propose a scenario in which three key traits of Cladomyrma –access to live stems, utilisation of indirect food rewards via trophobionts and 'neophily'– are hypothesised to favour niche differentiation and the acquisition of new hosts over evolutionary time.
Der Westliche Maiswurzelbohrer (WCR) Diabrotica virgifera virgifera LeConte 1868 (Coleoptera, Chrysomelidae) ist einer der bedeutendsten Maisschädlinge weltweit. Alleine in den USA verursacht der Kosten (Schäden und Bekämpfungsmaßnahme von Larven und Adulten) von über 1 Mrd. US-Dollar Jahr. Der Hauptschaden wird durch die Larven verursacht, welche an den Wurzeln fressen und somit massive Ernteverluste herbeiführen können. Bei starkem Befall können auch die Adulten schädlich werden, sie durch Fraß an den Narbenfäden die Kornausbildung beeinträchtigen. Der Käfer stammt ursprünglich Mittelamerika und wurde Anfang der 90er Jahre in Europa (Balkangebiet) eingeschleppt. Es ist bekannt, dass sich die Larven des WCR auch an anderen monokotylen Pflanzen als Mais entwickeln können (Branson & Ortman 1967a & 1970, Moeser 2003, Oyediran & al 2004, Breitenbach & al 2005 / 2006). Dikotyle Pflanzen gehören nach heutigen Erkenntnissen nicht in das Wirtspflanzenspektrum Larven. Diese Untersuchungen fanden allerdings entweder in den USA oder im Labor statt und sind nur bedingt auf die europäische Feldsituation übertragbar. In 2004 wurden erstmals Freilandversuche Wirtspflanzenspektrum in Rumänien unter europäischen Freilandbedingungen durchgeführt (Breitenbach & al 2005). Diese Versuche wurden in 2005 und 2006 fortgeführt. Bis jetzt wurden 5 verschiedene Ungräser als mögliche Wirtspflanzen für die Larven des WCR unter Freilandbedingungen nachgewiesen.
Die Entwicklung einer Population des Kalifornischen Blütenthrips (Frankliniella occidentalis) in neuen oder ungewohnten Kulturpflanzenbeständen ist häufig anfangs sehr verhalten, um dann schlagartig zu kulminieren. Nicht selten werden dadurch Bekämpfungsmaßnahmen zu spät eingeleitet, was sich nachteilig auf deren Erfolg auswirkt. Anhand eines standardisierten Biotests im Labor sollte der Einfluss von verschiedenen Wirtspflanzen auf die Populationsentwicklung des Schädlings betrachtet werden.
Deanolis sublimbalis SNELLEN (Lepidoptera: Pyralidae), the red banded mango caterpillar (RMBC), is a Southeast Asian insect species. It is now widely distributed throughout this region (India, Burma, Thailand, China, Brunei, Philippines, Indonesia, and Papua New Guinea) and was recently detected for the first time on mainland Australia, but so far has not been recorded in Pakistan, Nepal, and Malaysia (WATERHOUSE 1998). In Papua New Guinea (PNG) it is nowadays widely distributed throughout the mainland and islands (WATERHOUSE 1998). Although infestation levels of 40 – 50 % were recorded in the Philippines (TIPON 1979), very little is known about the biology of this pest, and there are only few references in the literature, the results differing significantly (WATERHOUSE 1998). Due to the contradictory opinions on the biology published, the following study was undertaken to obtain the basic information required for the development of an appropriate management technique for this pest. In particular, the fundamental data to clarify in the course of this study were: 1. life history and behaviour of RMBC, especially when mango is out of season. 2. search for other host plants of RMBC. 3. search for natural enemies of RMBC.
Schon Ende der 60er Jahre fanden in den USA Untersuchungen zum Wirtsspektrum der Larven des Westlichen Maiswurzelbohrers (Diabrotica virgifera virgifera LECONTE (Coleoptera, Chrysomelidae)) statt (BRANSON & ORTMAN 1967 & 1970). Dort wurden annähernd zwanzig ausschließlich monocotyledone Wirtspflanzen für Larven des Maiswurzelbohrers festgestellt. Dicotyledone Pflanzen scheinen als Wirtspflanzen dagegen nicht geeignet zu sein. Trotz der Bedeutung des Themas besonders im Hinblick auf die Fruchtfolge als IPM-Maßnahme fand dies bisher nur wenig Beachtung. Allerdings gewinnt dieses Thema im Zusammenhang mit der EU-Entscheidung zur Eradikation und Eindämmung des Käfers zusätzliches Interesse.