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The management of invasive alien species (IAS) in protected areas has become increasingly important in recent years. In this study, we analyse IAS management in the bilateral National Park Thayatal-Podyjí at the Austrian-Czech border. Based on two surveys from the years 2001 and 2010 and on annual management data from 2001-2010 we analyse changes in distribution and the efficiency of IAS management of three invasive alien plants (Fallopia × bohemica, Impatiens glandulifera, Robinia pseudoacacia). In 2010, the three study species had invaded 161 ha (2%) of the study area. Despite a decade of management, F. × bohemica has become widespread, whereas I. glandulifera distribution has decreased strongly. The most widespread species, R. pseudoacacia, has declined substantially in cover, but the area invaded has increased. From 2001 to 2010, annual management effort declined by about half. Management effort per hectare and decade was highest for F. × bohemica (2,657 hours), followed by R. pseudoacacia (1,473 hours) and I. glandulifera (270 hours). Management effort for achieving the same amount of reduction in population size and cover was highest for R. pseudoacacia, followed by F. × bohemica and I. glandulifera. We conclude that substantial effort and resources are necessary to successfully manage the study species and have to be provided over prolonged time periods, and thus continued management of these species is recommended. We highly recommend a systematic approach for monitoring the efficiency of IAS management projects in protected areas.
Non-native rats (Rattus spp.) threaten native island species worldwide. Efforts to eradicate them from islands have increased in frequency and become more ambitious in recent years. However, the long-term success of some eradication efforts has been compromised by the ability of rats, particularly Norway rats (Rattus norvegicus) which are good swimmers, to recolonize islands following eradications. In the Falkland Islands, an archipelago in the South Atlantic Ocean, the distance of 250 m between islands (once suggested as the minimum separation distance for an effective barrier to recolonization) has shown to be insufficient. Norway rats are present on about half of the 503 islands in the Falklands. Bird diversity is lower on islands with rats and two vulnerable passerine species, Troglodytes cobbi (the only endemic Falkland Islands passerine) and Cinclodes antarcticus, have greatly reduced abundances and/or are absent on islands with rats. We used logistic regression models to investigate the potential factors that may determine the presence of Norway rats on 158 islands in the Falkland Islands. Our models included island area, distance to the nearest rat-infested island, island location, and the history of island use by humans as driving variables. Models best supported by data included only distance to the nearest potential source of rats and island area, but the relative magnitude of the effect of distance and area on the presence of rats varied depending on whether islands were in the eastern or western sector of the archipelago. The human use of an island was not a significant parameter in any models. A very large fraction (72%) of islands within 500 m of the nearest potential rat source had rats, but 97% of islands farther than 1,000 m away from potential rat sources were free of rats.
A hybrid form of tilapia was introduced into Port Sulphur, Louisiana and was subsequently managed by treatment with rotenone and stocking of native predatory fishes. Measurements of tilapia from before this management event were compared to measurements of tilapia in the two years after the treatment. Post-management tilapia were consistently deeper in body and had greater weight per unit length (condition) when compared to pre-management fish. Procrustes generalized least squares data supported this by consistently finding post-management tilapia to be consistently deeper in body and head shape than pre-management fish. Although this could indicate the effectiveness of stocking native predators, several other factors, including two cold winters, seasonal effects, and less competition, may have contributed to this result.
Anfang Mai 2004 wurden die ersten Anzeichen für die Einschleppung einer invasiven gebietsfremden Art, des baumschädigenden Bockkäfers Anoplophora glabripennis, nach Bayern festgestellt. Ein Ahornbaum am Rande des Parkplatzes vom Friedhof in Neukirchen am Inn (Gemeinde Neuburg am Inn, Landkreis Passau) wies verdächtige Symptome wie Fehlstellen in der Belaubung und kraterförmige Vertiefungen (Eiablagegruben?) in seiner Rinde auf. In unmittelbarer Nachbarschaft zum Friedhof liegt zudem eine Spedition, bei der Granitsteine und andere Granitwaren, teilweise aus dem asiatischen Raum, umgeschlagen bzw. auf Holzpaletten auf dem Betriebsgelände längere Zeit gelagert werden. Von diesem Ahorn wurden verdächtige Aststücke entnommen und im Labor an der Landesanstalt für Landwirtschaft (LfL) in Freising vorsichtig aufgespalten. Es fanden sich Bohrgänge und Bockkäferlarven, die jedoch eine unterschiedliche Größe aufwiesen. Die dorsale Chitinplatte der Vorderbrust hatte aber die typische burgzinnenartige Form, die als morphologisches Bestimmungskriterium von A. glabripennis in der Literatur angegeben wird (HOYER et al. 2003). Zur eindeutigen Absicherung wurden die Larven an das Bundesamt und Forschungszentrum für Wald (BFW) in Wien geschickt. Die Kolleginnen und Kollegen aus Österreich hatten aufgrund des aufsehenerregenden Fundes von A. glabripennis in Braunau am Inn (Erstfund für Europa, 2001) inzwischen die größte Erfahrung in der sicheren Diagnose des Asiatischen Laubholzbockkäfers. Da bereits damals eine erhöhte Gefahr des „unerlaubten Grenzübertrittes“ ins 300 m entfernte bayerische Simbach am Inn bestand, waren schon Kontakte geknüpft und es wurde auch kollegiale Hilfe angeboten. Die schnelle und unbürokratische Hilfe führte beim Verdachtsfall in Neukirchen am Inn zu einer raschen Aufklärung. Über eine DNA-Analyse mittels PCR konnte in Wien innerhalb kürzester Zeit bestätigt werden, dass es sich bei den Larven um A. glabripennis handelte. Mit hoher Wahrscheinlichkeit stand auch fest, dass der Einschleppungsweg über die asiatischen Holzpaletten der Spedition abgelaufen sein musste. Wenn man eine einjährige Generationsdauer des Käfers in Mitteleuropa voraussetzt, dann war das Einschleppungsjahr 2003. Da aber bei den meisten Wirtsbäumen inzwischen sogar ein zweijähriger Zyklus angedacht wird, war die Einschleppung vermutlich schon 2002.