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Historical Spread (historical + spread)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Carp (Cyprinus carpio) as a powerful invader in Australian waterways

FRESHWATER BIOLOGY, Issue 7 2004
John D. Koehn
Summary 1. The invasion of carp (Cyprinus carpio L.) in Australia illustrates how quickly an introduced fish species can spread and dominate fish communities. This species has become the most abundant large freshwater fish in south-east Australia, now distributed over more than 1 million km2. 2. Carp exhibit most of the traits predicted for a successful invasive fish species. In addition, degradation of aquatic environments in south-east Australia has given them a relative advantage over native species. 3. Derivation of relative measures of 13 species-specific attributes allowed a quantitative comparison between carp and abundant native fish species across five major Australian drainage divisions. In four of six geographical regions analysed, carp differed clearly from native species in their behaviour, resource use and population dynamics. 4. Climate matching was used to predict future range expansion of carp in Australia. All Australian surface waters appear to be climatically suitable for carp. 5. This assessment strongly reinforces the need for immediate management of carp in Australia to include targeted control of human-assisted dispersal, such as use of carp as bait by anglers, distribution to new locations by anglers and the use of the ,Koi' strain in the aquarium industry. 6. Given their historical spread, dispersal mechanisms and ecological requirements, the expansion of carp across most of the remainder of Australia is to be expected. [source]

Spatial and temporal dynamics of rabies virus variants in big brown bat populations across Canada: footprints of an emerging zoonosis

MOLECULAR ECOLOGY, Issue 10 2010
SUSAN A. NADIN-DAVIS
Abstract Phylogenetic analysis of a collection of rabies viruses that currently circulate in Canadian big brown bats (Eptesicus fuscus) identified five distinct lineages which have emerged from a common ancestor that existed over 400 years ago. Four of these lineages are regionally restricted in their range while the fifth lineage, comprising two-thirds of all specimens, has emerged in recent times and exhibits a recent demographic expansion with rapid spread across the Canadian range of its host. Four of these viral lineages are shown to circulate in the US. To explore the role of the big brown bat host in dissemination of these viral variants, the population structure of this species was explored using both mitochondrial DNA and nuclear microsatellite markers. These data suggest the existence of three subpopulations distributed in British Columbia, mid-western Canada (Alberta and Saskatchewan) and eastern Canada (Quebec and Ontario), respectively. We suggest that these three bat subpopulations may differ by their level of female phylopatry, which in turn affects the spread of rabies viruses. We discuss how this bat population structure has affected the historical spread of rabies virus variants across the country and the potential impact of these events on public health concerns regarding rabies. [source]

Daphnia comes of age: an ecological model in the genomic era

MOLECULAR ECOLOGY, Issue 7 2008
SARAH SCHAACK
Abstract Scientists in various subdisciplines of biology have long relied on model organisms to push the frontiers of knowledge forward as far as possible in their specific field. Today, interdisciplinary science requires model organisms that can push our understanding on multiple frontiers and help us formulate and address more complex questions. Members of the genus Daphnia represent just such an interdisciplinary model. Daphnia are aquatic microcrustaceans (also known as waterfleas) that have long been central to the study of ecology and toxicology and have recently been developed as a genomic model. A recent survey of both nuclear and mitochondrial markers in populations of the Daphnia pulex complex from high-altitude lakes in South America (Mergeay et al. 2008, this issue) provides an excellent example of how genetic data and ecological information can be used to push the boundaries of our understanding in molecular ecology. In this species complex, extensive hybridization has occurred resulting in polyploidization and, consequently, asexuality. Their data reveal high levels of genetic diversity, incongruence in phylogenetic signal among genomes (nuclear and mitochondrial), cryptic species in the complex, and a new model for the historical spread of the species throughout the Americas. Their data indicate that genome-level changes have occurred in this species which have profound consequences in an ecological context, the implications of which can be more fully appreciated because of our extensive knowledge of the ecology and natural history of the genus Daphnia. [source]

Exotic plant invasions in an endemic-rich habitat: The spread of an introduced Australian grass, Agrostis avenacea J. F. Gmel., in California vernal pools

AUSTRAL ECOLOGY, Issue 5 2004
PAUL H. ZEDLER
Abstract The present abundance and historical spread of an exotic grass, Agrostis avenacea, is documented for California, USA, and for the vernal pools of San Diego County in particular. Agrostis avenacea is native to Australia where it is a common grass of ephemeral and fluctuating wetlands. California vernal pools, by reason of their extreme variability and high endemism, have been thought to be relatively resistant to invasion. The recent expansion of A. avenacea in San Diego County demonstrates, however, that the alleged resistance is probably a function of a relatively small pool of invaders and a low probability of targeted dispersal. Although A. avenacea is now abundant in pools with little current disturbance, human disturbance appears to have been a major factor that facilitated its initial establishment. This specific instance adds to the mounting evidence that there are probably few, if any, habitats immune to invasion. [source]