Cultivar selection prior to introduction may increase invasiveness: evidence from Ardisia crenata

Kitajima, Kaoru; Fox, Alison M.; Satô, Tamotsu; Nagamatsu, Dai

doi:10.1007/s10530-005-5839-9

Cited by 66 publications

(65 citation statements)

References 36 publications

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“…nation for the differences in performance between the two palm species is that the native palm has not been domesticated and therefore has no history of artificial selection . In contrast, of A. cunninghamiana has been used as an ornamental, and it has probably undergone artificial selection for specific desirable traits such as vigorous individuals that could reproduce more efficiently (Kitajima et al 2006).…”

Section: Discussionmentioning

confidence: 99%

The effects of an exotic palm on a native palm during the first demographic stages: contributions to ecological management

Mengardo

Pivello

2014

Acta Bot. Bras.

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Biological invasions have negative impacts on native biota and consequently on biodiversity. In patches of Atlantic Forest in Brazil, the Australian palm tree Archontophoenix cunninghamiana has become invasive, whereas the endemic palm Euterpe edulis is threatened with extinction. The two species occupy parts of the same functional niche within the forests, which raises a question: Does the invasive species interfere with the recruitment of the native one when the two co-occur? We compared the initial demographic stages of these palms, and assumed that A. cunninghamiana would present better performance (higher rates of germination and seed viability) and would feature allelopathic properties that could influence the recruitment of the native species. We investigated indirect and direct allelopathic interference, respectively, by watering E. edulis seeds with aqueous leachate solutions of A. cunninghamiana fruits and leaves and by conducting combined germination experiments. The leachate solutions neither inhibited germination nor affected the size of E. edulis seedlings. In the direct interference experiments, depulped A. cunninghamiana seeds had higher viability and germination rates than did E. edulis seeds. In E. edulis, exposure to A. cunninghamiana seeds did not affect germination nor seedling development but slightly decreased germination speed. In conclusion, A. cunninghamiana presented no significant allelopathic impediment to E. edulis establishment. However, because A. cunninghamiana seeds are usually depulped when dispersed by birds, the potential of the species to establish itself in the community surpasses that of E. edulis. We propose management strategies to enhance E. edulis performance and to restrict the spread of A. cunninghamiana.

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Section: Discussionmentioning

confidence: 99%

The effects of an exotic palm on a native palm during the first demographic stages: contributions to ecological management

Mengardo

Pivello

2014

Acta Bot. Bras.

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“…In some cases, invasive genotypes may originate unintentionally after crossing occurs between different cultivars planted in the landscape, as in P. calleryana (described above) and Lythrum salicaria (Anderson and Ascher 1993). Cultivar selection prior to introduction itself can also increase invasiveness, as with selection for showy appearance and dense foliage of Japanese Ardisia crenata in the United States (Kitajima et al 2006). Consequently, some plant breeders have begun examining individual cultivars for invasive traits (Anderson et al 2006), such as abundant seed set and high seed germination (e.g.…”

Section: Discussionmentioning

confidence: 99%

The role of intraspecific hybridization in the evolution of invasiveness: a case study of the ornamental pear tree Pyrus calleryana

Culley

Hardiman

2008

Biol Invasions

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Hybridization between genetically distinct populations of a single species can serve as an important stimulus for the evolution of invasiveness. Such intraspecific hybridization was examined in Pyrus calleryana, a Chinese tree species commonly planted as an ornamental in residential and commercial areas throughout the United States. This selfincompatible species is now escaping cultivation and appearing in disturbed habitats, where it has the potential to form dense thickets. Using genetic techniques incorporating nine microsatellite markers, we show that abundant fruit set on cultivated trees as well as the subsequent appearance of wild individuals result from crossing between genetically distinct horticultural cultivars of the same species that originated from different areas of China. We conclude that intraspecific hybridization can be a potent but little recognized process impacting the evolution of invasiveness in certain species.

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“…Traits that might predict invasiveness include polyploidy (having multiple copies of chromosomes; te Beest et al 2011), low seed mass and short juvenile periods ( Rejmanek and Richardson 1996), and self-compatibility (not needing pollen from another individual to reproduce sexually; Hao et al 2010). In addition, human selection for desirable ornamental characteristics, such as attractive berries, may inadvertently increase urban species' potential invasiveness (Kitajima et al 2006).…”

Section: Plant Invasions In Urban Environmentsmentioning

confidence: 99%

Drivers of Vegetation Species Diversity and Composition in Urban Ecosystems

Johnson

Swan

2014

Urban Wildlife

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In terrestrial systems, plants are the base of the food web, and their population growth is generally limited by resource availability rather than by higher trophic levels (Hairston et al. 1960). Plants are also important components of the biogeochemical cycles that drive the movement of energy and resources. As primary producers, plants make energy available to higher trophic levels by converting sunlight, via photosynthesis, into biomass. Plants also create highly textured and structured habitat that provides food and cover for wildlife. Patterns of vegetation are shaped by variation in climate, soils, and disturbances, and provide the environmental template that drives patterns of species interactions throughout food webs. Where in this picture do urban areas fit? Vegetation in Terrestrial Urban SystemsEcologists increasingly recognize the pervasive impacts of human activities on the diversity, structure, and function of vegetative communities, as well as their ecosystem services (e.g. Turner 2010). With the majority of the world's growing human population living in cities (Chap. 1, Grimm et al. 2008), rapid urbanization has led to the realization that built environments must provide a diverse suite of ecological functions for both people and wildlife. Today, research foci have shifted from

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Cultivar selection prior to introduction may increase invasiveness: evidence from Ardisia crenata

Cited by 66 publications

References 36 publications

The effects of an exotic palm on a native palm during the first demographic stages: contributions to ecological management

The effects of an exotic palm on a native palm during the first demographic stages: contributions to ecological management

The role of intraspecific hybridization in the evolution of invasiveness: a case study of the ornamental pear tree Pyrus calleryana

Drivers of Vegetation Species Diversity and Composition in Urban Ecosystems

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