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CBNPMP-Thèmes > Ecologie et géographie botanique > Chorologie, endémisme, cartographie d'espèce, atlas, catalogue, centre dispersion, région florale, migration > Plantes subspontanées, naturalisées, envahissantes
Plantes subspontanées, naturalisées, envahissantes |
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Monographs on invasive plants in Europe N° 2 : Eichhornia crassipes (Mart.) Solms / Julie A Coetzee in Botany letters, 164 (4) (12/2017)
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Titre : Monographs on invasive plants in Europe N° 2 : Eichhornia crassipes (Mart.) Solms Type de document : Imprimé Auteurs : Julie A Coetzee ; Martin P. Hill ; Trinidad Ruiz Téllez ; Uwe Starfinger ; Sarah Brunel Année de publication : 2017 Article en page(s) : 303-326 Langues : Anglais (eng) Catégories : [CBNPMP-Thèmes] Plantes subspontanées, naturalisées, envahissantes Mots-clés : Eichhornia crassipes (Mart.) Solms Résumé : Eichhornia crassipes is notorious as the world’s worst aquatic weed, and here we present all aspects of its biology, ecology and invasion behaviour within the framework of the new series of Botany Letters on Monographs on invasive plants in Europe. Native to the Amazon in South America, the plant has been spread around the world since the late 1800s through the ornamental plant trade due to its attractive lilac flowers, and is established on every continent except Antarctica. Its distribution is limited in Europe to the warmer southern regions by cold winter temperatures, but it has extensive ecological and socio-economic impacts where it invades. Its reproductive behaviour, characterised by rapid vegetative spread and high seed production, as well as its wide physiological tolerance, allows it to proliferate rapidly and persist in a wide range of environments. It has recently been regulated by the EU, under Regulation No. 1143/2014, which states that E. crassipes shall not be brought into the territory of the Union, kept, bred or transported to, from or within the Union. However, in the absence of effective control measures, such as herbicidal and biological control, it will continue to be a significant threat to European waterways, particularly in eutrophic waters, and under future climate change scenarios. Lien pérenne : DOI : 10.1080/23818107.2017.1381041 Permalink : https://biblio.cbnpmp.fr/index.php?lvl=notice_display&id=143224
in Botany letters > 164 (4) (12/2017) . - 303-326Coetzee, J.A., Hill, MP., Ruiz Téllez, T., Starfinger, U., Brunel, S. 2017. Monographs on invasive plants in Europe N° 2 : Eichhornia crassipes (Mart.) Solms. Botany letters, 164(4): 303-326.Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité R15244 P-1824 Revue Centre de documentation Revues Consultable Documents numériques
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Article (2017)URL Monographs on invasive plants in Europe N° 4: Arundo donax L. / Jesús Jiménez-Ruiz in Botany letters, 168 (1) (2021)
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Titre : Monographs on invasive plants in Europe N° 4: Arundo donax L. Type de document : Imprimé Auteurs : Jesús Jiménez-Ruiz ; Laurent Hardion ; Juan Pablo Del Monte ; Bruno Vila ; Inés Santín-Montanyá Année de publication : 2021 Article en page(s) : 131-151 Langues : Anglais (eng) Catégories : [CBNPMP-Thèmes] Plantes subspontanées, naturalisées, envahissantes Mots-clés : Arundo donax L., 1753 Résumé : Arundo donax L. (Poaceae) is considered to be one of the worst invasive plants in the world, and here, we present a synthesis of all aspects of its biology, ecology and management that are relevant to understanding its invasive behaviour. This report presents information on the taxonomy, morphology, distribution, history of introduction and spread, ecology, responses to abiotic and biotic factors, biology, negative impacts, management and uses within the framework of a series of Botany Letters on Monographs on invasive plants in Europe. Arundo donax (giant reed) originated in subtropical Asia and is invasive in other warm regions worldwide, especially in degraded riparian areas. Introduced for use in agriculture, erosion control and construction in the Mediterranean European region since ancient times, it has become naturalized in several freshwater habitats and in disturbed areas. In its introduced range, A. donax shows strong genetic uniformity and no seed production. This situation is reversed in Asia, where this taxon is fertile and morphologically and genetically polymorphic. This perennial grass combines rhizomatous clonal growth with a tolerance to a wide variety of ecological conditions, such as high salinity levels and long droughts. This tall reed can increase the risk of fire, alter the natural drainage of channels and invade very sensitive habitats, posing a serious threat to riparian habitats and freshwater ecosystems. Effective methods to control A. donax are tarps on a cleared giant reed field to completely cover the affected zone, rhizome removal using a modified backhoe bucket adapted to separate soil from the rhizomes, and herbicide application on leaves. The combined technique of herbicide treatment plus stem-cutting can be included in management programmes, and this technique needs to be monitored over the long term to assess its success and to ensure native species colonization and ecosystem recovery. Regarding biological control, A. donax is host to different insect species that have been released to control it in parts of its non-native range (North America) with some success. However, these different methods of control should continue to be studied, evaluating the risks posed to the environment and the control level achieved. In this context, scientific, political and administrative efforts as well as environmental education are effective assets to address the management of this invasive species. Lien pérenne : DOI : 10.1080/23818107.2020.1864470 Permalink : https://biblio.cbnpmp.fr/index.php?lvl=notice_display&id=146881
in Botany letters > 168 (1) (2021) . - 131-151Jiménez-Ruiz, J., Hardion, L., Del Monte, J.P., Vila, B., Santín-Montanyá, I. 2021. Monographs on invasive plants in Europe N° 4: Arundo donax L. Botany letters, 168(1): 131-151.Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité R20639 P-1824 Revue Centre de documentation Revues Consultable Monographs on invasive plants in Europe N° 5: Ambrosia trifida L. / Bruno Chauvel in Botany letters, 168 (2) (2021)
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Titre : Monographs on invasive plants in Europe N° 5: Ambrosia trifida L. Type de document : Imprimé Auteurs : Bruno Chauvel ; Guillaume Fried ; Swen Follak ; Daniel S Chapman ; Yuliana Kulakova ; Thomas Le Bourgeois ; Dragana Marisavljevic ; Arnaud Monty ; Jean-Pierre Rossi ; Uwe Starfinger ; Rob Tanner ; Xavier Tassus ; Johannes Leonardus Cornelis Hendrikus van Valkenburg (1964) ; Emilie Regnier Année de publication : 2021 Article en page(s) : 167-190 Langues : Anglais (eng) Catégories : [CBNPMP-Thèmes] Plantes subspontanées, naturalisées, envahissantes Mots-clés : Ambrosia trifida L., 1753 Résumé : Ambrosia trifida L. (giant ragweed, Asteraceae) is native to the North American continent and was introduced into Europe and Asia at the end of the 19th century. In its native range, this tall annual species is common in riparian and ruderal habitats and is also a major weed in annual cropping systems. For nearly a century, A. trifida has also been of great concern in the U.S. for its highly allergenic pollen, necessitating targeted control measures to reduce its impact on human populations. Based on the distribution of A. trifida in North America and in its introduced range, riparian systems in the rest of the world may be particularly at risk to invasion, with potential negative consequences for their biodiversity. Currently, A. trifida has invaded Asia more widely than Europe, likely due to the more favourable local conditions in Asia. Throughout its introduced range, A. trifida is host to a limited number of invertebrates and pathogens and only a few biological agents are available for its control. The main impacts of A. trifida at a global level are on crop yield and human health, resulting in significant socio-economic impacts. The success of A. trifida invasion in areas in which it has been introduced is still unclear, but climate change may increase climate suitability, increasing the potential for A. trifida to spread. While effective management in cultivated fields seems potentially possible, the development and control of A. trifida in natural riparian habitats is of great concern due to the difficulty of management in these areas. Lien pérenne : DOI : 10.1080/23818107.2021.1879674 Permalink : https://biblio.cbnpmp.fr/index.php?lvl=notice_display&id=146882
in Botany letters > 168 (2) (2021) . - 167-190Chauvel, B., Fried, G., Follak, S., Chapman, D.S., Kulakova, Y., Le Bourgeois, T., Marisavljevic, D., Monty, A., Rossi, J.P., Starfinger, U., Tanner, R., Tassus, X., Valkenburg, J.L.C.H.v., Regnier, E. 2021. Monographs on invasive plants in Europe N° 5: Ambrosia trifida L. Botany letters, 168(2): 167-190.Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité R20638 P-1824 Revue Centre de documentation Revues Consultable Morphological strategies of Cabomba (Cabombaceae), a genus of aquatic plants / Carla Teixeira de Lima in Acta botanica brasílica, 28 (3) (2014)
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Titre : Morphological strategies of Cabomba (Cabombaceae), a genus of aquatic plants Type de document : Imprimé Auteurs : Carla Teixeira de Lima ; Fransisco de Assis Ribeiro dos Santos ; Ana Maria Giulietti Année de publication : 2014 Article en page(s) : 327-338 Langues : Bresilien (brz) Catégories : [CBNPMP-Thèmes] Plantes subspontanées, naturalisées, envahissantes Mots-clés : Cabomba Résumé : This paper describes the vegetative and reproductive morphology of Cabombaceae species in Brazil, discussing its strategies for survival in an aquatic habitat. Through studies in the field, in cultivation and in the herbarium, we examined the following species: Cabomba aquatica, C. caroliniana, C. furcata and C. haynesii. In cultivation, only C. aquatica, C. furcata and C. haynesii produced flowers. In those three species, the flowers opened during the day on two consecutive days, submerging during the night, although the stigmata of the first two were receptive only on the first day, their anthers dehiscing on the following day. The flowers of C. haynesii remained unreceptive on the first day of anthesis, the stigmata and anthers maturing only on the second day, at different times. Fruit developed when the flowers were submerged. The data provided here are useful for the identification of these species, as well as laying the groundwork for future taxonomic and ecological studies. Lien pérenne : DOI : 10.1590/0102-33062014abb3439 Permalink : https://biblio.cbnpmp.fr/index.php?lvl=notice_display&id=151057
in Acta botanica brasílica > 28 (3) (2014) . - 327-338Teixeira de Lima, C., Assis Ribeiro dos Santos, F.d., Giulietti, A.M. 2014. Morphological strategies of Cabomba (Cabombaceae), a genus of aquatic plants. Acta botanica brasílica, 28(3): 327-338.Documents numériques
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Article (2014)URL Mountain roads shift native and non-native plant species' ranges / Jonas J. Lembrechts in Ecography, 40 (3) (2017)
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Titre : Mountain roads shift native and non-native plant species' ranges Type de document : Imprimé Auteurs : Jonas J. Lembrechts ; Jake Alexander (1980-) ; Lohengrin A. Cavieres ; Sylvia Haider ; Jonathan Lenoir ; Christoph Kueffer ; Keith McDougall ; Bridgett J. Naylor ; Martin A. Nuñez ; Aníbal Pauchard ; Lisa J. Rew ; Ivan Nijs ; Ann Milbau Année de publication : 2017 Article en page(s) : 353-364 Langues : Français (fre) Catégories : [CBNPMP-Thèmes] Plantes subspontanées, naturalisées, envahissantes Résumé : Roads are known to act as corridors for dispersal of plant species. With their variable microclimate, role as corridors for species movement and reoccurring disturbance events, they show several characteristics that might influence range dynamics of both native and non-native species. Previous research on plant species ranges in mountains however seldom included the effects of roads. To study how ranges of native and non-native species differ between roads and adjacent vegetation, we used a global dataset of plant species composition along mountain roads. We compared average elevation and range width of species, and used generalized linear mixed models (GLMMs) to compile their range optimum and amplitude. We then explored differences between roadside and adjacent plots based on a species’ origin (native vs non-native) and nitrogen and temperature affinity. Most non-native species had on average higher elevational ranges and broader amplitudes in roadsides. Higher optima for non-native species were associated with high nitrogen and temperature affinity. While lowland native species showed patterns comparable to those in non-native species, highland native species had significantly lower elevational ranges in roadsides compared to the adjacent vegetation. We conclude that roadsides indeed change the elevational ranges of a variety of species. These changes are not limited to the expansion of non-native species along mountain roads, but also include both upward and downward changes in ranges of native species. Roadsides may thus facilitate upward range shifts, for instance related to climate change, and they could serve as corridors to facilitate migration of alpine species between adjacent high-elevation areas. We recommend including the effects of mountain roads in species distribution models to fine-tune the predictions of range changes in a warming climate. Lien pérenne : DOI : 10.1111/ecog.02200 Permalink : https://biblio.cbnpmp.fr/index.php?lvl=notice_display&id=150113
in Ecography > 40 (3) (2017) . - 353-364Lembrechts, JJ., Alexander, J., Cavieres, LA., Haider, S., Lenoir, J., Kueffer, C., McDougall, K., Naylor, BJ., Nuñez, MA., Pauchard, A., Rew, LJ., Nijs, I., Milbau, A. 2017. Mountain roads shift native and non-native plant species' ranges. Ecography, 40(3): 353-364.Documents numériques
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Article (2017)URL PermalinkMyriophyllum heterophyllum Michaux / Organisation européenne et méditerranéenne pour la protection des plantes in Bulletin OEPP, 46 (1) (2016)
PermalinkMyriophyllum rubricaule sp. nov., a M. aquaticum look-alike only known in cultivation / Johannes Leonardus Cornelis Hendrikus van Valkenburg in European Journal of Taxonomy, 828 (2022)
PermalinkLa mystérieuse reproduction de "la plante à la ouate" (Asclepias syriaca) et des Asclépiadacées / Jean-Louis Cheype in Bulletin mycologique et botanique Dauphiné-Savoie, 233 (06/2019)
PermalinkNational regulatory control systems : Heracleum mantegazzianum, Heracleum sosnowskyi and Heracleum persicum / Organisation européenne et méditerranéenne pour la protection des plantes in Bulletin OEPP, 39 (2009)
PermalinkNational regulatory control systems : Sicyos angulatus / Organisation européenne et méditerranéenne pour la protection des plantes in Bulletin OEPP, 40 (2010)
PermalinkNaturalisation du Cyperus vegetus Willd. dans le Sud-Ouest / Joseph Lamic in Journal d'histoire naturelle de Bordeaux et du Sud-Ouest, 3 (1884)
PermalinkNaturalisation du Lepidum Virginicum dans le Sud-Ouest / Joseph Lamic in Journal d'histoire naturelle de Bordeaux et du Sud-Ouest, 2 (1883)
PermalinkNaturalised Hakea. What species are we actually talking about in Europe? / Johannes Leonardus Cornelis Hendrikus van Valkenburg in Botany letters, (2024)
PermalinkNaturalization and invasion of alien plants : concepts and definitions / David Mark Richardson (2000)
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