Seedling establishment, mortality, tree growth rates and vigour of <i>Acacia nilotica</i> in different <i>Astrebla</i> grassland habitats: Implications for invasion

Radford, Ian J.; Nicholas, Michael; Tiver, Fleur; Brown, Joel R.; Kriticos, Darren J.

doi:10.1046/j.1442-9993.2002.01176.x

Cited by 19 publications

(15 citation statements)

References 17 publications

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“…Our field observations suggest that ramet production could be more common in relatively more disturbed conditions (e.g. with higher soil erosion levels); as other authors have suggested, root exposure and meristem activation, which increase in frequency with increasing soil erosion, may be responsible for active vegetative spread under these circumstances (Radford et al, 2002). This highlights the importance of addressing clonal propagation in semi-desert shrubs and trees in order to fully understand their population dynamics.…”

Section: Article In Pressmentioning

confidence: 64%

“…In many desert trees seed germination is high in disturbed sites, apparently due to the stimulating effect of high temperatures under these conditions (Smith and Goodman, 1986;Bush and Van Auken, 1990;Teketay, 1998;Flores, 2001). Their ability to germinate and establish over a wide range of ecological conditions may confer these species a competitive advantage in the use of space and resources over other vegetation elements (Smith and Shackleton, 1988;Radford et al, 2002).…”

Section: Article In Pressmentioning

confidence: 99%

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Population dynamics of the shrub Acacia bilimekii in a semi-desert region in central Mexico

Jiménez-Lobato

Valverde

2006

Journal of Arid Environments

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Section: Article In Pressmentioning

confidence: 64%

Section: Article In Pressmentioning

confidence: 99%

Population dynamics of the shrub Acacia bilimekii in a semi-desert region in central Mexico

Jiménez-Lobato

Valverde

2006

Journal of Arid Environments

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“…species that lack nectar, including A. nilotica (Stone et al. , 1998) – the most invasive African acacia in Australia (Radford et al. , 2002).…”

Section: Literature Review: Reproductive Biology Of Australian Acaciasmentioning

confidence: 99%

Reproductive biology of Australian acacias: important mediator of invasiveness?

Gibson

Richardson

Marchante

et al. 2011

Diversity and Distributions

163

168

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Aim Reproductive traits are important mediators of establishment and spread of introduced species, both directly and through interactions with other life-history traits and extrinsic factors. We identify features of the reproductive biology of Australian acacias associated with invasiveness.Location Global.Methods We reviewed the pollination biology, seed biology and alternative modes of reproduction of Australian acacias using primary literature, online searches and unpublished data. We used comparative analyses incorporating an Acacia phylogeny to test for associations between invasiveness and eight reproductive traits in a group of introduced and invasive (23) and non-invasive (129) species. We also explore the distribution of groups of trait 'syndromes' between invasive and non-invasive species.Results Reproductive trait data were only available for 126 of 152 introduced species in our data set, representing 23/23 invasive and 103/129 non-invasive species. These data suggest that invasives reach reproductive maturity earlier (10/ 13 within 2 years vs. 7/26 for non-invasives) and are more commonly able to resprout (11/21 vs. 13/54), although only time to reproductive maturity was significant when phylogenetic relationships were controlled for. Our qualitative survey of the literature suggests that invasive species in general tend to have generalist pollination systems, prolific seed production, efficient seed dispersal and the accumulation of large and persistent seed banks that often have fire-, heat-or disturbance-triggered germination cues.Conclusions Invasive species respond quicker to disturbance than non-invasive taxa. Traits found to be significant in our study require more in-depth analysis involving data for a broader array of species given how little is known of the reproductive biology of so many taxa in this species-rich genus. Sets of reproductive traits characteristic of invasive species and a general ability to reproduce effectively in new locations are widespread in Australian acacias. Unless there is substantial evidence to the contrary, care should be taken with all introductions.

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“…, 2000; Inderjit, 2005; Richardson & Pyšek, 2006) and in general, individual habitats differ in the number of alien species they contain (e.g. Crawley, 1987; Alvarez & Cushman, 2002; Byers, 2002; Radford et al. , 2002; García‐Robledo & Murcia, 2005; Sádlo et al.…”

Section: Introductionmentioning

confidence: 99%

Contrasting patterns in the invasions of European terrestrial and freshwater habitats by alien plants, insects and vertebrates

Pyšek

Bacher

Chytrý

et al. 2010

Global Ecology and Biogeography

174

142

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Aim To provide the first comparative overview on the current numbers of alien species that invade representative European terrestrial and freshwater habitats for a range of taxonomic groups. Location Europe.Methods Numbers of naturalized alien species of plants, insects, herptiles, birds and mammals occurring in 10 habitats defined according to the European Nature Information System (EUNIS) were obtained from 115 regional data sets. Only species introduced after ad 1500 were considered. Data were analysed by ANCOVA and regression trees to assess whether differences exist among taxonomic groups in terms of their habitat affinity, and whether the pattern of occurrence of alien species in European habitats interacts with macroecological factors such as insularity, latitude or area. ResultsThe highest numbers of alien plant and insect species were found in human-made, urban or cultivated habitats; if controlled for habitat area in the region, wetland and riparian habitats appeared to support relatively high numbers of alien plant species too. Invasions by vertebrates were more evenly distributed among habitats, with aquatic and riparian, woodland and cultivated land most invaded. Mires, bogs and fens, grassland, heathland and scrub were generally less invaded. Habitat and taxonomic group explained most variation in the proportions of alien species occurring in individual habitats related to the total number of alien species in a region, and the basic pattern determined by these factors was fine-tuned by geographical variables, namely by the mainland-island contrast and latitude, and differed among taxonomic groups.Main conclusions There are two ecologically distinct groups of alien species (plants and insects versus vertebrates) with strikingly different habitat affinities. Invasions by these two contrasting groups are complementary in terms of habitat use, which makes an overall assessment of habitat invasions in Europe possible. Since numbers of naturalized species in habitats are correlated among taxa within these two groups, the data collected for one group of vertebrates, for example, could be used to estimate the habitat-specific numbers of alien species for other vertebrate groups with reasonable precision, and the same holds true for insects and plants.

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Seedling establishment, mortality, tree growth rates and vigour of Acacia nilotica in different Astrebla grassland habitats: Implications for invasion

Cited by 19 publications

References 17 publications

Population dynamics of the shrub Acacia bilimekii in a semi-desert region in central Mexico

Population dynamics of the shrub Acacia bilimekii in a semi-desert region in central Mexico

Reproductive biology of Australian acacias: important mediator of invasiveness?

Contrasting patterns in the invasions of European terrestrial and freshwater habitats by alien plants, insects and vertebrates

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