Buddleja davidii Franch.

English Butterfly-bush, summer lilac Status LU: established. 1st record: LU & ITW 1961.
Lëtzebuergesch Päiperlekstrausch Status Eur.: established. 1st record: FR 1893.
Français Buddleia de David RA: ISEIA: C2. Harmonia+: 0,41
Deutsch Schmetterlingsflieder, -strauch Wikipedia: Wikipedia - English - Butterfly-bush Wikipedia - Français - Buddleia de David Wikipedia - Deutsch - Schmetterlingsstrauch Wikipedia - Nederlands - Vlinderstruik | Wikispecies: Wikispecies - Buddleja davidii | CABI
Nederlands Vlinderstruik Back to the list of neophytes

Brief description

Buddleja davidii Franch. is a shade-intolerant woody melliferous species. The deciduous shrub mostly thrives in various ruderal areas and disturbed grounds, which it colonises rapidly, but also grows in warm semi-natural habitats with well-drained soils like gravel shores, rock outcrops or open woodlands. Climate change is likely to trigger higher invasiveness in Europe during the next decades (Branquart et al. 2010). It often blooms as soon as it reaches a few tens of centimetres in height (Lambinon & Verloove 2012: 535).

Buddleja davidii was introduced as a horticultural plant to Europe in the 1890ies and naturalized on a significant scale in the 1930s in parts of Europe, after the destruction of cities during World War II. Bombed sites and building rubble were suitable colonization habitats and therefore dense B. davidii thickets established on these sites. In the 1950s and 1960s, B. davidii became a popular garden shrub, which further contributed to its spread when it escaped from cultivation and naturalized in the wild (CABI 2019).

Status and distribution in Luxembourg

Records of Buddleja davidii Franch. in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

In Luxembourg, Buddleja was first documented in the wild by Léopold Reichling on 1961-05-02 in Luxembourg City (Grund, Verluerekascht). As only one species of Buddleja occurs in the territory of the Flore (Lambinon & Verloove 2012: 535), we can assume that Reichling reported Buddleja davidii. In the following year, Reichling found summer lilac on 1962-06-06 near Schleifmuehle upstream from Medernach.

The next observation in the wild was reported by Gérard Schmidt on 1993-08-05 in the gravel quarries of Remerschen near Wintrange, Municipality of Schengen (Schmidt 1993; MNHNL 2000-). More than 140 observations of the butterfly-bush are documented in the data portal of the Museum (MNHNL, iNaturalist & GBIF 2020).

Summer lilac is widely cultivated in gardens across Luxembourg, from where it can easily make its way into the wild. The distribution map for Luxembourg shows that the species occurs most frequently in the south of the country, while less observations of Buddleja davidii in the wild exist for the Oesling.

A survey along the national railway network of Luxembourg revealed that summer lilac is spreading along the railway tracks in the South West of the country and in the Moselle valley (Pfeiffenschneider et al. 2014a).

Buddleja davidii has been spreading continuously in recent years, especially in urban environments, on rocks and railways (Krippel et al. 2018: 60-61). The butterfly-bush is still expanding its distribution area and increasingly found in urban wastelands (Krippel et al. 2020: 34).

The first observation of this species in its subspontaneous state in Belgium and northern France dates back to 1940. It spread mainly from the 1970s onwards (Lambinon & Verloove 2012: 535).

An identification sheet of the species has been published by the MECDD in French and German.

Risk assessment

ISEIA protocol

C2 (2+2+2+2) (Ries et al. 2013: 18).

Harmonia+ protocol

Overall risk score 0,41 = (Overall Invasion score 0,81 x Overall Impact score 0,50) (Ries et al. 2020).

0,81Invasion
0,50Impact
0,41Risk

Worldwide distribution

Bibliography

  • Branquart, E., S. Vanderhoeven, W. Van Landuyt, F. Van Rossum, F. Verloove, 2010. Harmonia database:Buddleja davidii Franch. Harmonia version 1.2, Belgian Forum on Invasive Species. URL: http://ias.biodiversity.be [accessed on 2019-10-02]
  • CABI, 2019. Buddleja davidii. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2021-02-26]
  • Krippel, Y., T. Helminger & G. Colling, 2018. Notes floristiques. Observations faites au Luxembourg (2016-2017). Bull. Soc. Nat. luxemb. 120: 57-76. [PDF 265 KB]
  • Krippel, Y., T. Helminger & G. Colling, 2020. Notes floristiques. Observations faites au Luxembourg (2018-2019). Bulletin Soc. Nat. luxemb. 122 : 29-55. [PDF 132 KB]
  • Lambinon J. & F. Verloove, 2012. Nouvelle flore de la Belgique, du grand-duché de Luxembourg, du Nord de la France et des régions voisines. Sixième édition. Avec la collaboration de L. Delvosalle, B. Toussaint, D. Geerinck, I. Hoste, F. Van Rossum, B. Cornier, R. Schumacker, A. Vanderpoorten et H. Vannerom. Jardin botanique national de Belgique, Meise. CXXXIX + 1195 pp. ISBN : 9789072619884.
  • MNHNL, 2000-. Buddleja davidii Franch. in Recorder-Lux, database on the natural heritage of the Grand Duchy of Luxembourg. Musée national d’histoire naturelle, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2020-01-12]
  • MNHNL, iNaturalist & GBIF, 2019. Buddleja davidii Franch. in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-09-06]
  • Pfeiffenschneider, M., P. Gräser & C. Ries, 2014a. Distribution of selected neophytes along the national railway network of Luxembourg. Bull. Soc. Nat. luxemb. 115: 95-100. [PDF 1457 KB]
  • Pfeiffenschneider, M., P. Gräser & C. Ries, 2014b. Distribution of selected neophytes along the main rivers of Luxembourg. Bull. Soc. Nat. luxemb. 115: 101-108. [PDF 3668 KB]
  • Ries, C. & Y. Krippel, 2021. First records of 56 invasive alien vascular plants in Luxembourg. Bulletin de la Société des naturalistes luxembourgeois 123: 115-127. [PDF 241 KB]
  • Ries, C., Y. Krippel & M. Pfeiffenschneider, 2020. Risk assessment after the Harmonia+ protocol of invasive alien vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 122: 197-205. [PDF 132 KB]
  • Ries, C., Y. Krippel, M. Pfeiffenschneider & S. Schneider, 2013. Environmental impact assessment and black, watch and alert list classification after the ISEIA Protocol of non-native vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 114: 15-21. [PDF 652 KB]
  • Schmidt, G., 1993. Fiches de terrain, cartographie des biotopes de la commune de Remerschen. Fondation Oeko-Fonds, Luxembourg. Non published document.

 Page content last updated on 2023-08-17.

Aster novi-belgii L.

English Confused Michaelmas-daisy Status LU: established. 1st record: LU & ITW <1872.
Lëtzebuergesch Neibelsch Aster Status Eur.: established. 1st record: 1710, ITW 1865.
Français Aster de viriginie RA: ISEIA: C1. Harmonia+: 0,08
Deutsch Neubelgische Aster Wikipedia: Wikipedia - English - Confused Michaelmas-daisy Wikipedia - Français - Aster de viriginie Wikipedia - deutsch - Neubelgische Aster Wikipedia - Nederlands - Nieuw-Nederlandse aster | Wikispecies: Wikispecies - Symphyotrichum novi-belgii | CABI
Nederlands Nieuw-Nederlandse aster Back to the list of neophytes

Brief description

Aster novi-belgii L. thrives mostly in ruderal and waste areas, especially on rich and moist soils. It is less often observed in riparian habitats than other North American asters. The plant mainly spreads vegetatively and through fly-tipping of green waste and waste grounds. Seeds do not seem to be able to maturate under Belgian climatic conditions.1

Asters are rhizomatous species, propagating clonally. They easily form dense and wide monospecific colonies, displacing native wetland plants, and favouring the sedimentation and stabilisation of riverbanks, which reduces the ability of rivers to meander and flood (Branquart et al. 2010).

Status and distribution in Luxembourg

Records of Aster novi-belgii L. in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

Back in 1872, Eugène Fischer listed the species under its synonym Aster floribundus Willd.: “This plant, with a very apparent and late flowering, is often and vulgarly cultivated for the decoration of gardens and especially cemeteries, where it still flowers during the All Saints’ Day period. Many of our cemeteries are teeming with them. It spreads easily and is maintained with persistence. It is frequently found subspontaneously in hedges around homes, gardens and cemeteries. It is so common in the surroundings of Luxembourg that I have often been surprised that Tinant [1836] and the authors of the local flora do not mention it. It is therefore a very modern introduction. It is of American origin” (Fischer 1872: 83).2

Both Koltz (1873: 129; 1874: 30) and Krombach (1875: 345) reiterate it grows in cemeteries, gardens and often subspontaneously in the vicinity of dwellings.

On the 12th November 1906, Félix Heuertz collected Aster novi-belgii ssp. eu-novi-belgii var. tardiflorus on the Prussian riverside across Echternach (Specimen № 13911, MNHNL 2000-a).

The first documented observation of the species in Luxembourg dates from 1949. On 12th September 1949, François Léon Lefort (1917-1975) collected a specimen of Aster novi-belgii ssp. laevigatus (Lam.) Thell. pro parte on the Moselle river bank in Schengen (Specimen № 26905, MNHNL 2000-a).

According to Lambinon & Verloove (2012: 706), the species is rare to very rare (R-RR) around villages, vacant lots, wastelands, and river banks.

Currently, 14 records of the species and its subspecies are accessible through the MNHNL-mdata portal (MNHNL, iNaturalist & GBIF 2019).

Other Aster taxa

  1. Aster dumosus L. (Syn.: Symphyotrichum dumosum (L.) G. L. Nesom): the bushy aster is first reported by Tinant on the banks of the Moselle (Wirtgen 1842: 89; Lefort 1950: 41). A hybrid Aster dumosus x novi-belgii was collected by Paul Grzonka and Léopold Reichling on 29 September 1959 in Bech-Kleinmacher in the Moselle valley (MNHNL 2000-b).
  2. Aster lanceolatus Willd.: the narrow-leaved Michaelmas-daisy was first collected by Jos. Witry on 24th August 1934 in Grevenmacher in the Moselle valley (MNHNL, iNaturalist & GBIF 2019).
  3. Aster ×salignus: this hybrid between A. lanceolatus x A. novi-belgii is much confused with both its parents, particularly A. lanceolatus. The common michaelmas daisy was first mentioned by Yves Krippel in 2001 at Pällembierg (MNHNL 2000-b).

Risk assessment

ISEIA protocol

C1 (1+1+1+1) (Ries et al. 2013: 18).

Harmonia+ protocol

Overall risk score 0,08 = (Overall Invasion score 0,31 x Overall Impact score 0,30) (Ries et al. 2020).

0,31Invasion
0,30Impact
0,08Risk

Worldwide distribution

Bibliography

  • Beck, E., Jungblut, F., Lefort, F.L., Reichling, L., Stumper, R., 1952. Herborisations faites au Grand-Duché de Luxembourg en 1951. Bull. Soc. Nat. luxemb. 56: 67-88. [PDF 1080 KB]
  • Branquart, E., S. Vanderhoeven, W. Van Landuyt, F. Van Rossum & F. Verloove, 2010. Harmonia database: Aster novi-belgii L. Harmonia version 1.2, Belgian Forum on Invasive Species. URL: http://ias.biodiversity.be [accessed on 2019-10-23]
  • CABI, 2016. Aster novi-belgii [original text by Ilias Travlos]. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2020-02-28]
  • Fischer, E., 1872. Les plantes subspontanées et naturalisées de la flore du grand-duché de Luxembourg. Publications de l’Institut royal grand-ducal de Luxembourg, section des sciences naturelles et mathématiques XII: 1-115. Imprimerie V. Buck, Luxembourg.
  • Koltz, J.-P.-J., 1873. Prodrome de la flore du grand-duché de Luxembourg. Première partie. Plantes phanérogames. Imprimerie V. Buck, Luxembourg. 279 S.
  • Koltz, J.-P.-J., 1874. Plantes phanérogames découvertes dans le Grand-Duché depuis la publication de la flore luxembourgeoise de Tinant (1836). Recueil des mémoires et des travaux publiés par la Société de botanique du grand-duché de Luxembourg 1: 12-39.
  • Krombach, J.-H.-G., 1875. Flore du grand-duché de Luxembourg. Plantes phanérogames. 564 p. Luxembourg, Imprimerie Joris.
  • Lambinon J. & F. Verloove, 2012. Nouvelle flore de la Belgique, du grand-duché de Luxembourg, du Nord de la France et des régions voisines. Sixième édition. Avec la collaboration de L. Delvosalle, B. Toussaint, D. Geerinck, I. Hoste, F. Van Rossum, B. Cornier, R. Schumacker, A. Vanderpoorten et H. Vannerom. Jardin botanique national de Belgique, Meise. CXXXIX + 1195 pp. ISBN : 9789072619884.
  • Lefort, F. L., 1950. Contribution à l’histoire botanique du Luxembourg (av. 18 planches). Bull. Soc. Nat. luxemb. 54: 31-160. [PDF 6781 KB]
  • MNHNL, 2000-a. Aster novi-belgii L. in Recorder-Lux, database on the natural heritage of the Grand Duchy of Luxembourg. Musée national d’histoire naturelle, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-09-03]
  • MNHNL, 2000-b. Recorder-Lux, database on the natural heritage of the Grand Duchy of Luxembourg. Musée national d’histoire naturelle, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-10-24]
  • MNHNL, iNaturalist & GBIF, 2019. Aster novi-belgii L. in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-09-06]
  • Ries, C. & Y. Krippel, 2021. First records of 56 invasive alien vascular plants in Luxembourg. Bulletin de la Société des naturalistes luxembourgeois 123: 115-127. [PDF 241 KB]
  • Ries, C., Y. Krippel & M. Pfeiffenschneider, 2020. Risk assessment after the Harmonia+ protocol of invasive alien vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 122: 197-205. [PDF 132 KB]
  • Ries, C., Y. Krippel, M. Pfeiffenschneider & S. Schneider, 2013. Environmental impact assessment and black, watch and alert list classification after the ISEIA Protocol of non-native vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 114: 15-21. [PDF 652 KB]
  • Wirtgen, P., 1842. Prodromus der Flora der preussischen Rheinlande. Henry & Cohen, Bonn. 242 p.

 Page content last updated on 2021-03-02. Last proofread by Caroline Grounds on 2019-11-13.

  1. The same should apply under Luxembourgian climate.[]
  2. Original text: « Cette plante, à floraison très-apparente et tardive, est souvent et vulgairement cultivée pour l’ornementation des jardins et surtout des cimetières, où elle fleurit encore à l’époque de la Toussaint. Beaucoup de nos cimetières en fourmillent. Elle se propage avec facilité et se maintient avec persistence. On la rencontre fréquemment subspontanée dans les haies aux environs des habitations, des jardins et des cimetières. Elle est si commune dans les environs de Luxembourg, que je me suis souvent étonné de ce que Tinant et les auteurs des flores locales n’en font pas mention. Elle est donc d’introduction très moderne. Elle est d’origine américaine » (Fischer 1872: 83).[]

Acer negundo L.

English Ashleaf maple Status LU: established. 1st record: LU <1825, ITW <1875
Lëtzebuergesch Eschen-Äerchen Status Eur.: established. 1st record: UK 1688
Français Erable negundo RA: ISEIA: C1. Harmonia+: 0,23
Deutsch Eschen-Ahorn Wikipedia: Wikipedia - English - Ashleaf Maple Wikipedia - Français - Erable negundo Wikipedia - Deutsch - Eschen-Ahorn Wikipedia - Nederlands - Vederesdoorn | Wikispecies: Wikispecies - Acer negundo | CABI
Nederlands Vederesdoorn Back to the list of neophytes

Brief description

Acer negundo L. is reported to prefer moist, eutrophic and warm conditions. It readily colonises resource-rich riparian forests in Central and Southern Europe (e.g. Salicion albae and Alno-Padion). Young trees prefer moist sites, but become drought tolerant once well established. Seeds are easily dispersed by wind and running water over long distances.

In Central Europe, box-elder is tolerant to flooding and is especially competitive in wide floodplains where vegetative regrowth can be impressive. However, in the absence of flooding, it is usually replaced in the course of succession by more shade-tolerant species. In optimal conditions, its permanent and fast vegetative regrowth leads to the formation of dense clones and to the exclusion of other tree species (Salix alba) and herbaceous plants. It favours replacement of softwood by hardwood tree species and makes a threat for this endangered habitat. A more invasive behaviour is likely to be observed in the future due to climate warming (Branquart et al. 2010).

Status and distribution in Luxembourg

Records of Acer negundo L. in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

The who oldest reference to Acer negundo L. in Luxembourg are found in the floras of Krombach and Koltz: Krombach (1875: 66) reports it being grown in parks and avenues, while Koltz (1875:  27) mentions Acer negundo as “Introduced at the beginning of this century under the name of green maple [Orig.: érable vert] and subspontaneous in the vicinity of Ansembourg”. We thus deduct the 1st record as anterior to 1825 and the 1st record in the wild as anterior to 1875 (Ries & Krippel 2021).

Acer negundo as a cultivated species was first recorded in 1948 by Jos. Witry in a park in Rumelange (Specimen № 51452, MNHNL 2000-).

The first documentation of Acer negundo in the wild dates from 1958. It was recorded on 1st June 1958 by Léopold Reichling at Stromberg, a wooded hill in the municipality of Schengen (MNHNL 2000-).

14 observations are accessible via the MNHNL-mdata portal (MNHNL, iNaturalist & GBIF 2019).

The species is expanding into the territory of the flora (Lambinon & Verloove 2012: 461).

Risk assessment

ISEIA protocol

C1 (1+1+1+1) (Ries et al. 2013: 18).

Harmonia+ protocol

Overall risk score 0,23 = (Overall Invasion score 0,53 x Overall Impact score 0,43) (Ries et al. 2020).

0,53Invasion
0,43Impact
0,23Risk

Worldwide distribution

CABI 2019: https://www.cabi.org/isc/datasheet/2862#toDistributionMaps

Bibliography

  • Branquart, E., S. Vanderhoeven, W. Van Landuyt, F. Van Rossum & F. Verloove, 2012. Harmonia database: Acer negundo L. Harmonia version 1.2, Belgian Forum on Invasive Species. URL: http://ias.biodiversity.be [accessed on 2019-10-23]
  • CABI, 2019. Acer negundo L. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2019-11-26]
  • Krombach, J.-H.-G., 1875. Flore du grand-duché de Luxembourg. Plantes phanérogames. 564 p. Luxembourg, Imprimerie Joris.
  • Lambinon J. & F. Verloove, 2012. Nouvelle flore de la Belgique, du grand-duché de Luxembourg, du Nord de la France et des régions voisines. Sixième édition. Avec la collaboration de L. Delvosalle, B. Toussaint, D. Geerinck, I. Hoste, F. Van Rossum, B. Cornier, R. Schumacker, A. Vanderpoorten et H. Vannerom. Jardin botanique national de Belgique, Meise. CXXXIX + 1195 pp. ISBN : 9789072619884.
  • MNHNL, 2000-. Acer negundo L. in Recorder-Lux, database on the natural heritage of the Grand Duchy of Luxembourg. Musée national d’histoire naturelle, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2018-01-08]
  • MNHNL, iNaturalist & GBIF, 2019. Acer negundo L. in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-09-06]
  • Ries, C. & Y. Krippel, 2021. First records of 56 invasive alien vascular plants in Luxembourg. Bulletin de la Société des naturalistes luxembourgeois 123: 115-127. [PDF 241 KB]
  • Ries, C., Y. Krippel & M. Pfeiffenschneider, 2020. Risk assessment after the Harmonia+ protocol of invasive alien vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 122: 197-205. [PDF 132 KB]
  • Ries, C., Y. Krippel, M. Pfeiffenschneider & S. Schneider, 2013. Environmental impact assessment and black, watch and alert list classification after the ISEIA Protocol of non-native vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 114: 15-21. [PDF 652 KB]
  • Welter A., J.Turk & J. Trossen, 2008. Les arbres introduits au Luxembourg. Inventaire des essences arborescentes non indigènes de pleine terre présentes sur le territoire du Grand-Duché de Luxembourg. Ferrantia 53, Musée national d’histoire naturelle, Luxembourg, ISSN 1682-5519, 111 pp.

 Page content last updated on 2021-03-02. Last proofread by Caroline Grounds on 2019-11-12.

Hymenoscyphus fraxineus (T. Kowalski) Baral, Queloz, Hosoya

English n/a Status LU: established. 1st record: 2012.
Lëtzebuergesch Falsche wäisse Stillbecherchen Status Eur.: established.
Français n/a RA: ISEIA: A3. Harmonia+: 0,16.
Deutsch Falsches weißes Stängelbecherchen Wikipedia: Wikipedia - English - Hymenoscyphus pseudoalbidus Wikipedia - Français - Chalara fraxinea Wikipedia - Deutsch - Falsches Weißes Stängelbecherchen Wikipedia - Nederlands - Chalara fraxinea | Wikispecies: n/a (2020) | CABI
Nederlands Vals essenvlieskelkje Back to the list of neomyceta

Brief description

Hymenoscyphus fraxineus, Park in Colmar-Berg, June 6th 2014. Picture by Christian Ries, June 6th 2014.

Crown dieback in ash tree infected by Hymenoscyphus fraxineus near Colmar-Berg. Photo: Christian Ries, June 6th 2014.

Hymenoscyphus fraxineus (T. Kowalski) Baral, Queloz, Hosoya (Baral et al. 2014) is an ascomycete fungus that causes ash dieback, a chronic fungal disease of ash trees (Fraxinus excelsior) in Europe characterised by leaf loss and crown dieback in infected trees. It was first described in Japan (Zhao et al. 2012).

Hymenoscyphus fraxineus is an invasive anamorphic fungal pathogen which comes from the Far East and has greatly expanded its reach throughout Central and Western Europe in recent years. Studies of herbarium material show that Hymenoscyphus fraxineus was already present in Central Europe in 1978 (Queloz et al. 2011). It is now entrenched in Europe. It is closely related to a native fungus Hymenoscyphus albidus, which is saprotrophic and also grows on the petioles of dead leaves of ash trees.

The entire natural range of known hosts, including North Africa, Russia and south-west Asia, is currently threatened by ash dieback, with large areas already affected. Little is known about the susceptibility of the other species of ash in temperate zones (CABI 2019).

Hymenoschyphus fraxineus, Neudorf, Luxembourg. Photo par Guy Marson, June 2012.

Hymenoschyphus fraxineus, Neudorf, Luxembourg. Photo: Guy Marson, June 2012.

Status and distribution in Luxembourg

Records of Hymenoscyphus fraxineus (T. Kowalski) Baral, Queloz, Hosoya in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

Hymenoscyphus fraxineus (T. Kowalski) Baral, Queloz, Hosoya was first recorded on 16th June 2012 in Bois de Cessange (Municipality of Luxembourg) under its synonym Hymenoscyphus pseudoalbidus (Garnier-Delcourt et al. 2013: 35-36). It was reported in 2002 in Germany (Heydeck et al. 2005) and in 2010 in Belgium (Delhaye et al. 2010). The fungus is rapidly spreading throughout Luxembourg and in 2014 it was found in all regions of Luxembourg: a considerable number of young ash trees are affected while only a part of the elder ash trees show dieback symptoms.

Only few observations have been reported to the Recorder-Lux database so that the map does not reflect the actual distribution of the species, occurring everywhere where ash occurs.

Risk assessment

ISEIA protocol

B3 (3+3+3+1) = Watch List. First assessed on 22 September 2017 by Christian Ries and Yves Krippel.

Harmonia+ protocol

Overall risk score 0,16 = (Overall Invasion score 0,79 x Overall Impact score 0,20) (Non publ. RA by C. Ries).

0,79Invasion
0,20Impact
0,16Risk

Worldwide distribution

Bibliography

  • Baral H-O, V Queloz & T Hosoya (2014) Hymenoscyphus fraxineus, the correct scientific name for the fungus causing ash dieback in Europe. IMA Fungus 5(1): 79-80.
  • CABI, 2019. Hymenoscyphus fraxineus (T. Kowalski) Baral, Queloz, Hosoya. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2020-04-28]
  • Garnier-Delcourt M, G Marson, Ch Reckinger, B Schultheis & M-T Tholl (2013) Notes mycologiques luxembourgeoises. VII. Bull. Soc. Nat. luxemb. 114: 35-54. (Pdf 6.5 MB)
  • Heydeck P, M Bemmann, H-G Kontzog (2005) Triebsterben an Gemeiner
    Esche (Fraxinus excelsior) im nordostdeutschen Tiefland. Forst und Holz 60: 505–506.
  • MNHNL, iNaturalist & GBIF, 2020. Hymenoscyphus fraxineus (T. Kowalski) Baral, Queloz, Hosoya in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [accessed 2020-04-28]
  • Queloz V, C R Grünig, R Berndt, T Kowalski, T N Sieber & O Holdenrieder (2011) Cryptic speciation in Hymenoscyphus albidus. For. Path. 41: 133–142, published online 30 March 2010 – doi:10.1111/j.1439-0329.2010.00645.x
  • Zhao Y-J, T Hosoya, H-O Baral, K Hosaka & M Kakishima (2012) Hymenoscyphus pseudoalbidus, the correct name for Lambertella albida reported from Japan. Mycotaxon 122: 25-41.

 Page content last updated on 2020-09-23. Last proofread by Caroline Grounds on 2019-12-12.

Ambrosia artemisiifolia L.

English Common Ragweed Status LU: established. 1st record: LU 1949, ITW 1950.
Lëtzebuergesch Alzem-Ambrosia Status Eur.: established. 1st record: NL 1860.
Français Ambroisie à feuilles d’armoise RA: ISEIA: C1. Harmonia+: 0.54
Deutsch Beifußblättriges Traubenkraut, Ambrosia Wikipedia: Wikipedia - English - Common ragweed Wikipedia - Français - Ambroisie à feuilles d'armoise Wikipedia - Deutsch - Ambrosia Wikipedia - Nederlands - Alsemambrosia | Wikispecies: Wikispecies - Ambrosia artemisiifolia | CABI
Nederlands Alsemambrosia Back to the list of neophytes

Brief description

Ambrosia on a private parking spot in Dalheim (08/07/2015).

Ambrosia on a private parking spot in Dalheim (08/07/2015).

Ambrosia artemisiifolia L. is an opportunistic and ruderal plant that colonises farmlands, fallow lands and road embankments. Ambrosia prefers warm areas and light, nutrient-rich soil deprived of vegetation. The common ragweed is unlikely to outcompete other plant species as it mainly colonises soil without vegetation. It is a public health hazard as it commonly causes allergies (rhinitis, asthma…) and is a weed in cereal fields (Branquart et al. 2010).

Status and distribution in Luxembourg

Records of Ambrosia artemisiifolia L. in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

In Luxembourg, the first documentation of Ambrosia artemisiifolia L. dates from 1949. It was found on 6th October 1949 in a garden in Helmsange (Municipality of Walferdange) and determined as Ambrosia elatior L. (synonym) by the Belgian botanist André Lawalrée (Beck et al. 1950).

The species was next recorded in the wild by Léopold Reichling (1921-2009) on 5 September 1950 in a waste ground in Neudorf, Luxembourg City (Obs. key: DSS004390000166M, MNHNL 2000-).

Nowadays, the species is considered as quite rare to rare (AR-R), expanding in the territory of the flora (Lambinon & Verloove 2012: 716).

Luxembourg belongs to one of the few remaining European areas with a very low distribution of Ambrosia artemisiifolia.

In his diploma thesis, Patrick Thommes (2008) had a closer look at the occurrence of common ragweed in Luxembourg, at its germination rate and its ability to produce viable seeds and at the contamination rate of bird food with Ambrosia seeds.

Contaminated bird food is the main origin of Ambrosia populations in Luxembourg. One large population (0.5 ha) of the plant was accidentally established in Kockelscheuer by a nature conservation organisation a few years ago when seeding a sunflower field for a visitor centre. Measures to eradicate the population have been ongoing since 2012, but show only partial success. Flowering meadow mixtures appear to be a new pathway, having been the source of a population discovered in 2014 in a garden in Wasserbillig.

A large population was discovered on a private parking spot in Dalheim in October 2014 – these plants might originate from seeds transported by car wheels, the owner using the spot being a frequent traveller to France.1 The population was reported again in 2015 and eradicated right away.2

Steil et al. (2015) looked again at common ragweed seeds in bird food in Luxembourg in 2014 and compared the results with earlier studies by Thommes (2008, 2009), conducted in 2007, and by Ries et al. (2013), conducted in 2012. Between 2007 and 2014, the number of contaminated samples decreased in most types of products.

The Museum represented Luxembourg in an interdisciplinary network of experts involved in the control of ragweed, health care professionals, aerobiologists, ecologists, economists, and atmospheric and agricultural modelers. More than 120 participants from 33 countries were participating in SMARTER (2013-2017), the acronym for Sustainable Management of Ambrosia artemisiifolia in Europe (http://internationalragweedsociety.org/smarter/). SMARTER was a COST project funded by the EU.

An identification sheet of the species has been published by the MECDD in French and German.

Risk assessment

ISEIA protocol

C1 (2+1+2+1) (Ries et al. 2013: 18).

Harmonia+ protocol

Overall risk score 0,54 = (Overall Invasion score 0,54 x Overall Impact score 1,00) (Ries et al. 2020).

0,54Invasion
1,00Impact
0,54Risk

Worldwide distribution

Fact sheet and leaflet

PDF fact sheet of the Nature and Forestry Administration: FR | DE

In autumn 2016 the Department for the Environment of the Luxembourg Ministry of Sustainable Development and Infrastructures published a leaflet in German and French about Ambrosia artemisiifolia, in co-operation with the National Museum of Natural History and efor-ersa ingénieurs-conseils. It can be downloaded here in PDF format (4 MB each).

flyer-cover-de   flyer-cover-fr

Other Ambrosia species

  • Ambrosia psilostachya DC. was found in a stone quarry between Bridel and “Croix des Bourgeois” in the summer of 1947 and published under the synonym Ambrosia coronopifolia Torr. & A.Gray (Beck et al. 1950: 204).
  • Ambrosia trifida L. was found on rubble in Luxembourg City on 1950-08-17 (Beck et al. 1951: 171).

Bibliography

  • Anonymous (2015) Beifussblättrige Ambrosie – Eine invasive Art mit Risiken für Allergiker. Regulus 4/2015: 14-15. [PDF 246 KB]
  • Beck, E., Jungblut, F., Lefort, F.L., Reichling, L., Stumper, R., 1950. Herborisations faites dans le Grand-Duché de Luxembourg en 1949 (av. 2 fig. et 7 planches). Bull. Soc. Nat. luxemb. 54: 161-208. [PDF 1745 KB]
  • Beck, E., Jungblut, F., Lefort, F.L., Reichling, L., Stumper, R., 1951. Herborisations faites au Grand-Duché de Luxembourg en 1950 (av. 10 planches). Bulletin de la Société des naturalistes luxembourgeois 55: 121-174. [PDF]
  • Branquart, E., S. Vanderhoeven, W. Van Landuyt, F. Van Rossum & F. Verloove, 2010. Harmonia database: Ambrosia artemisiifolia L. Harmonia version 1.2, Belgian Forum on Invasive Species. URL: http://ias.biodiversity.be [accessed on 2019-10-23]
  • CABI, 2016. Ambrosia artemisiifolia L. [original text by Duilio Iamonico]. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2020-02-28]
  • Lambinon J. & F. Verloove, 2012. Nouvelle flore de la Belgique, du grand-duché de Luxembourg, du Nord de la France et des régions voisines. Sixième édition. Avec la collaboration de L. Delvosalle, B. Toussaint, D. Geerinck, I. Hoste, F. Van Rossum, B. Cornier, R. Schumacker, A. Vanderpoorten et H. Vannerom. Jardin botanique national de Belgique, Meise. CXXXIX + 1195 pp. ISBN : 9789072619884.
  • MNHNL, iNaturalist & GBIF, 2019. Ambrosia artemisiifolia L. in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2020-02-28]
  • Ries, C., 2017. Ambrosia artemisiifolia in Luxemburg. PowerPoint-Präsentation. Fachtagung Ambrosiabekämpfung – Rechtliche Rahmenbedingungen und Praxiserfahrungen, 2. Februar 2017, Bayerische Landesregierung, München. [PDF 536 KB]
  • Ries, C. & Y. Krippel, 2021. First records of 56 invasive alien vascular plants in Luxembourg. Bulletin de la Société des naturalistes luxembourgeois 123: 115-127. [PDF 241 KB]
  • Ries, C., Y. Krippel & M. Pfeiffenschneider, 2020. Risk assessment after the Harmonia+ protocol of invasive alien vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 122: 197-205. [PDF 132 KB]
  • Ries, C., Y. Krippel, M. Pfeiffenschneider & S. Schneider, 2013. Environmental impact assessment and black, watch and alert list classification after the ISEIA Protocol of non-native vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 114: 15-21. [PDF 652 KB]
  • Ries C, Y Steil & P Thommes (2013) Common ragweed (Ambrosia artemisiifolia L.) seeds in bird food in Luxembourg in 2007 and 2012. Poster. XXXe réunion annuelle des collaborateurs scientifiques du Musée national d’histoire naturelle Luxembourg, 16.03.2013. [PDF 1.5 MB]
  • Steil, Y., H. Vetter, P. Thommes & C. Ries, 2015. Ambrosia artemisiifolia L. seeds in bird food in Luxembourg: a comparative study, 2007 to 2014. Bull. Soc. Nat. luxemb. 117: 11-15. [PDF 151 KB]
  • Thommes P (2008) Ambrosia artemisiifolia L.: Ein potentiell invasiver Neophyt für Luxemburg. Unpublished diploma thesis. 76 p. [PDF 12 MB]
  • Thommes P (2009) Ambrosia artemisiifolia L. (Asteraceae), ein potentiell invasiver Neophyt für Luxemburg. Bull. Soc. Nat. luxemb. 110: 101-107. [PDF 265 KB]

 Page content last updated on 2023-08-17. Last proofread by Caroline Grounds on 2019-11-13.

  1. The population was reported on 24 November 2014 by Claudine Gengler via email. PhD student Yan Steil visited the place several times but the owners couldn’t be reached.[]
  2. After the report of the population by Claudine Gengler via phone in the beginning of July 2015, the following people visited the population and searched the area for further occurrences on July 8th 2015: Christian Ries (MNHNL), Manou Pfeiffenschneider (efor-ersa), Tom Engel (ANF). Mr Engel and his team eradicated the population shortly later. Three plants of 30 cm height were reported by Claudine Gengler on October 14, 2015.[]

Robinia pseudoacacia L.

English Black locust, false acacia Status LU: established. 1st record: LU 1787, ITW <1836.
Lëtzebuergesch Schäinakazi Status Eur.: established. 1st record: FR 1602.1
Français Robinier faux-acacia, acacia RA: ISEIA: A3, Black List. Harmonia+: 0,53.
Deutsch Gewöhnliche Robinie, Falsche Akazie Wikipedia: Wikipedia - English - False Acacia Wikipedia - Français - Robinier faux-acacia Wikipedia - Deutsch - Gewöhnliche Robinie Wikipedia - Nederlands - Robinia | Wikispecies: Wikispecies - Robinia pseudoacacia | CABI
Nederlands Robinia, valse acacia Back to the list of neophytes

Brief description

Robinia-pseudoacacia-12-V-2007-6025Robinia pseudoacacia L. is an early successional plant, preferring full sun, well drained soils, and little competition. It reproduces both from seed and by sprouting from the roots or stump. Although this tree produces abundant seeds, germination rate is often low in our climatic conditions [Belgium]. The area potentially invaded is likely to increase considerably under a warmer climate. Once introduced, the black locust expands readily by root suckering and stump sprouting and forms dense clones creating shaded islands from which most native plants are outcompeted. It also modifies soil properties and favours the development of a nitrogen-demanding vegetation. The large, fragrant blossoms of R. pseudoacacia are sometimes reported to compete with native plants for pollinating bees (Branquart et al. 2015).

Robinier St-Julien-le-Pauvre

The first Black Locust in Europe, still standing on square René-Viviani in Paris, planted by Jean Robin in 1602.

Originally from North America, Robinia pseudoacacia was introduced to Europe at the beginning of the 17th century by Jean Robin (1550-1629), the French court gardener. One of the first European black locust trees, now over 400 years old, is still standing in Paris, near Notre-Dame (Anonymous 2020: 8). It is standing on square René-Viviani and is to date the oldest tree of Paris (Baraton 2021: 353).

Status and distribution in Luxembourg

Records of Robinia pseudoacacia L. in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

Tinant (1836: 371) mentions “Robinia Pseudo-Acacia” as a naturalised exotic tree.

In 1860, Eugène Fischer reports that Jean-Mathias de Blochausen brought back several tree species from a journey to Italy in 1669, including false acacia and Italian poplar, the latter for roadside planting (Fischer 1860: 178-181).2 Around 1872, according to the same Eugène Fischer (1872: 37-38), “it is frequently and advantageously cultivated on our slopes, poor iridescent marls, in groves, promontories, and it is sometimes even used to make fence hedges. The first Robinia trees planted in the Grand Duchy were imported from Italy around 1669 by a de Blochausen. For more than a century this tree was still rare in the country, since Mr. de la Fontaine, former governor of the Grand Duchy, mentioned, as one of the first subjects of this tree in our country, an acacia tree planted in 1787 by Mr. Baron de Maréchal in the garden dependent on Stadtbredimus castle”.3 (see also: Fontaine 1862: 89; Klein 1897: 432).

This year, 1669, mentioned by Fischer, appears to be an error: the facts related are dated in the wrong century as the Family de Blochausen only arrived in Luxembourg around 1764, when Marie-Gisberte de Blochausen bought the Domaine de Brückenberg in Colmar-berg and Jean-Mathias de Blochausen bought the Rollingen forge. We therefore guess that it should read 1769 instead of 1669, which would also be in line with two reports of first planting in 1787 in Stadtbredimus (Fischer 1872: 37-38) and at Kaaschtel near Altwies (Commune de Mondorf 2013, Wikipedia Luxembourg 2013). So we consider 1787 as the year of first record in Luxembourg until historic research brings new evidence.
One of the oldest black locust trees of Luxembourg can be admired in the village of Tétange, municipality of Kayl. The multi-stem tree has a diameter of 150 cm (Anonymous 2020: 9).

Oldest herbarium specimens at the MNHNL:

  • June 1883: Edmond Joseph Klein (1866-1942) collected a specimen in the district Pulvermühl in Luxembourg City (Specimen № 16553, MNHNL 2000-)
  • 24 May 1934: J. Witry collected a specimen in Rumelange (Specimen № 51811, MNHNL 2000-)
  • 18 May 1952: Marcel Etringer collected a specimen in Groeknapp in Graulinster, municipality of Junglinster (Specimen № 49906, MNHNL 2000-)

1346 records are accessible through the MNHNL-mdata portal (MNHNL, iNaturalist & GBIF 2019).

False acacia is a common ornamental tree in Luxembourg, and also occurs widely in the wild, mostly along roadside slopes and railway lines. The distribution map does not reflect the real distribution in the country: the species is so widespread that it is hardly reported any more. An inventory in 2013 revealed the false acacia to be one of the most common invasive alien vascular plant species along railways (Pfeiffenschneider et al. 2014b).

Until 2013 black locust was not considered an invasive alien species in Luxembourg by the Nature Conservation and Forestry Administration (Administration de la nature et des forêts – ANF).

Miscellaneous

  • The false acacia plays a role in honey production in Luxembourg.
  • Except for its flowers, black locust is highly poisonous, which is why black locust wood should not be used for grilling (Anonymous 2020: 9).
  • Acacia wood is used for various purposes: it is sought after for resistance parts, tool handles, etc. Its leaves provide excellent forage and its flowers are gleaned by bees (Krombach 1875: 115).4
  • Next to the Kaaschtel, a former oppidum across the French border southeast of Altwies on former Luxembourg territory in Lorraine, France, a few huge and very old individuals of Robinia can be found. A legend says the Lord of Preisch brought them from a pilgrimage to the Holy Land and had them planted in 1787 (Commune de Mondorf 2013, Wikipedia Luxembourg 2013).

Other Robinia cultivars and taxa

  • The flowerless cultivar ‘Umbraculifera’ has been cultivated in Luxembourg for a long time (Koltz 1873: 43; 1875) and is quite common all across the country (Welter et al. 2008: 72). A beautiful example can be seen in the court of the National Centre of Literature in Mersch.5 Koltz (1873: 43) lists Robinia pseudo-acacia var. umbraculifera Des. as a variety (Fr: Acacien boule). According to Krombach (1875: 115) the cultivar ‘Umbraculifera’ (Fr: Acacia parasol) was grown in gardens under the French names of “Acacia boule” or “Acacia fourrage”.
  • Recently there has been an increase in the cultivar ‘Unifoliola’, as more street and alignment trees have been observed (Welter et al. 2008).
  • Robinia viscosa Vent., another North American species, is very rare in Luxembourg (Welter et al. 2008).
  • Lambinon & Verloove (2012: 392) mention cultivated less spiny and less flowering intraspecific taxa, that can be combined under the name Robinia pseudoacacia var. inermis; furthermore some other pink-flowered representatives of the genus Robinia are sometimes grown for ornamental purposes in parks and especially along avenues, including R. ×ambigua Poiret (R. pseudoacacia × viscosa Vent.) and R. hispida L..
  • Koltz (1873: 43) lists Robinia viscosa Vent. (Fr: Acacien [sic!] rose). Krombach (1875: 115) mentions R. viscosa with viscous branches and pink flowers in short bunches.

Risk assessment

ISEIA protocol

A3 (2+3+3+3) = Black List (Ries et al. 2013: 19).

Harmonia+ protocol

Overall risk score 0,53 = (Overall Invasion score 0,89 x Overall Impact score 0,60) (Ries et al. 2020).

0,89Invasion
0,60Impact
0,53Risk

Worldwide distribution

Bibliography

  • Anonymous, 2020. Baum des Jahres 2020: Die Robinie. Regulus 5 (2020): 8-9.
  • Baraton, A., 2021. Dictionnaire amoureux des arbres. Plon. 438 pp.
  • Branquart, E., S. Vanderhoeven, W. Van Landuyt, F. Van Rossum & F. Verloove, 2015. Harmonia database: Robinia pseudoacacia L. Harmonia version 1.2, Belgian Forum on Invasive Species. URL: http://ias.biodiversity.be [accessed on 2019-10-23]
  • CABI, 2019. Robinia pseudoacacia. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2020-03-02]
  • Commune de Mondorf, 2013. Le Castel – De Kaaschtel. URL: http://www.mondorf.info/index.php?option=com_content&view=article&id=17&Itemid=86&lang=fr [2013-09-27].
  • Fischer, E., 1860. Notices historiques sur la situation agricole du grand-duché de Luxembourg. 2e édition, 254 p. Luxembourg : imprimerie Buck.
  • Fischer, E., 1872. Les plantes subspontanées et naturalisées de la flore du grand-duché de Luxembourg. Publications de l’Institut royal grand-ducal de Luxembourg, section des sciences naturelles et mathématiques XII: 1-115. Imprimerie V. Buck, Luxembourg.
  • Fontaine, G.T. I. de la, 1862. Robinier – Acacia. Bull. Soc. sci. nat. g.-d. Luxemb. 5 (1857-1862): 89.
  • Klein, E. J., 1897. Die Flora der Heimat (sowie die hauptsächlichsten bei uns kultivierten fremden Pflanzenarten biologisch betrachtet. Eine Anleitung zur selbständigen Beobachtung der Lebens- und Anpassungserscheinungen in der Pflanzenwelt). 552 S., Buchdruckerei Justin Schroell, Diekirch.
  • Koltz, J.-P.-J., 1873. Prodrome de la flore du grand-duché de Luxembourg. Première partie. Plantes phanérogames. Imprimerie V. Buck, Luxembourg. 279 S.
  • Koltz, J.-P.-J., 1875. Dendrologie luxembourgeoise. Catalogue des arbres, arbrissaux et arbustes spontanés, subspontanés ou introduits dans les cultures du Grand-Duché de  Luxembourg. Imprimerie de V. Buck, Luxembourg.
  • Krombach, J.-H.-G., 1875. Flore du grand-duché de Luxembourg. Plantes phanérogames. 564 p. Luxembourg, Imprimerie Joris.
  • Lambinon J. & F. Verloove, 2012. Nouvelle flore de la Belgique, du grand-duché de Luxembourg, du Nord de la France et des régions voisines. Sixième édition. Avec la collaboration de L. Delvosalle, B. Toussaint, D. Geerinck, I. Hoste, F. Van Rossum, B. Cornier, R. Schumacker, A. Vanderpoorten et H. Vannerom. Jardin botanique national de Belgique, Meise. CXXXIX + 1195 pp. ISBN : 9789072619884.
  • MNHNL, 2000-. Robinia pseudoacacia L. in Recorder-Lux, database on the natural heritage of the Grand Duchy of Luxembourg. Musée national d’histoire naturelle, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-09-05]
  • MNHNL, iNaturalist & GBIF, 2019. Robinia pseudoacacia L. in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-09-06]
  • Pfeiffenschneider, M., P. Gräser & C. Ries, 2014a. Distribution of selected neophytes along the main rivers of Luxembourg. Bull. Soc. Nat. luxemb. 115: 101-108. [PDF 3668 KB]
  • Pfeiffenschneider, M., P. Gräser & C. Ries, 2014b. Distribution of selected neophytes along the national railway network of Luxembourg. Bull. Soc. Nat. luxemb. 115: 95-100. [PDF 1457 KB]
  • Ries, C. & Y. Krippel, 2021. First records of 56 invasive alien vascular plants in Luxembourg. Bulletin de la Société des naturalistes luxembourgeois 123: 115-127. [PDF 241 KB]
  • Ries, C., Y. Krippel & M. Pfeiffenschneider, 2020. Risk assessment after the Harmonia+ protocol of invasive alien vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 122: 197-205. [PDF 132 KB]
  • Ries, C., Y. Krippel, M. Pfeiffenschneider & S. Schneider, 2013. Environmental impact assessment and black, watch and alert list classification after the ISEIA Protocol of non-native vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 114: 15-21. [PDF 652 KB]
  • Schneider, N. & T. Walisch, 2009. Sur la présence au Luxembourg d’Obolodiplosis robiniae (Haldeman, 1847) (Insecta, Diptera, Cecidomyiidae). Bull. Soc. Nat. luxemb. 110: 161-166.
  • Tinant, F. A., 1836. Flore luxembourgeoise, ou, Description des plantes phanérogames, recueillies et observées dans le grand-duché de Luxembourg, classées d’après le système sexuel de Linnée. 512 p. Luxembourg, J. P. Kuborn.
  • Welter A., J. Turk & J. Trossen, 2008. Les arbres introduits au Luxembourg. Inventaire des essences arborescentes non indigènes de pleine terre présentes sur le territoire du Grand-Duché de Luxembourg. Ferrantia 53, Musée national d’histoire naturelle, Luxembourg, 111 p. [pdf 9,9 MB]
  • Wikipedia Luxembourg, 2013. Kaaschtel. URL: http://lb.wikipedia.org/wiki/Kaaschtel [2013-09-27].

 Page content last updated on 2021-08-04. Last proofread by Caroline Grounds on 2019-11-21.

  1. Baraton 2021: 353. CABI 2019 mentions 1604.[]
  2. ”Il paraît que les premiers peupliers d’Italie plantés dans le Grand-Duché, l’ont été sur le domaine de Berg vers 1669, où ils avaient été apportés d’Italie par Jean-Mathias de Blochausen. Ce dernier les a importés lors d’un voyage qu’il a fait en Italie, et à l’occasion duquel il a aussi introduit les premiers acacias dans le pays.”[]
  3. Original text: “Il est fréquemment et avantageusement cultivé sur nos talus, les marnes irisées pauvres, dans les bosquets, les promeandes, et il sert même quelquefois à faire des haies de clôture. Les premiers sujets de robinier plantés dans le Grand-Duché ont été importés d’Italie vers 1669 par un de Blochausen. Pendant plus d’un siècle cet arbre était encore rare dans le pays, attendu que M. de la Fontaine, ancien gouverneur du Grand-Duché, a cité comme l’un des premiers sujets de cet arbre chez nous, un acacia planté en 1787 par M. le baron de Maréchal dans le jardin dépendant du château de Stadtbredimus.” (Fischer 1872: 37-38).[]
  4. Original text: “Le bois d’acacia sert à divers usages: il est recherché pour pièce de résistance, manches d’outils etc. Ses feuilles donnent un excellent fourrage et ses fleurs sont butinées par les abeilles” (Krombach 1875: 115).[]
  5. Address: Centre national de littérature, 2, rue Emmanuel-Servais, L-7565 Mersch. http://www.cnl.public.lu []

Fallopia sachalinensis (F. Schmidt Petrop.) Ronse Decr.

English Giant knotweed, Sakhalin knotweed Status LU: established. 1st record: LU & ITW 1959.
Lëtzebuergesch Sachalin-Knuetkraut Status Eur.: established. 1st record: UK 1860s.
Français Renouée de Sakhaline RA: ISEIA: B1 – Watch List. Harmonia+: 0,59.
Deutsch Sachalin-Staudenknöterich, Riesen-Knöterich Wikipedia: Wikipedia - English - Giant knotweed Wikipedia - Deutsch - Riesen-Knöterich Wikipedia - Nederlands - Sachalinse duizendknoop | Wikispecies: Wikispecies - Giant knotweed | CABI
Nederlands Sachalinse duizendknoop Back to the list of neophytes

Brief description

Giant knotweed bordering the Alzette river in Lux.-Grund.

Giant knotweed bordering the Alzette river in Luxembourg City.

Like other Asiatic knotweeds, Fallopia sachalinensis (F. Schmidt Petrop.) Ronse Decr. colonises a wide range of environments, with a predilection for moist and nitrogen-rich soils. It prefers sunny places or semi-shaded habitats. This pioneer plant proliferates both in ruderal and semi-natural habitats, including riparian areas and open forests. Stem and rhizomes may easily split into small pieces; fragments are able to regenerate a plant, provided a node is present. Giant knotweed produces a small number of viable seeds, but seedlings are seldom observed in the wild. Transport of garden waste and soil contaminated with rhizomes are the major dispersal modes. Where the plant is widely consolidated on river banks it is also spread by floods and can easily colonise downstream.

Fallopia sachalinensis is able to monopolise space and to form dense and persistent populations. It can outcompete most of native herbaceous plant species thanks to early seasonal development, high growth rate and productivity, abundant leaf cover, allelochemical production and clonal spread associated with an extraordinarily high rate of proliferation of below-ground organs. It can even outcompete Fallopia japonica on alluvial riverbanks. Its development reduces plant and invertebrate species diversity, alters habitats for fish and wildlife, change light and energy conditions of the ecosystem, and favours river bank erosion during the winter. It can also break through tarmac and thin layers of concrete, and can penetrate some flood defences (Branquart et al. 2011).

Status and distribution in Luxembourg

Records of Fallopia sachalinensis (F. Schmidt Petrop.) Ronse Decr. in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

Fallopia sachalinensis (F. Schmidt Petrop.) Ronse Decr. was first documented on 14th May 1959 in Lëtschet (Municipality of Steinsel) by Léopold Reichling (1921-2009) (MNHNL 2000-).

108 records of this melliferous species are listed in the MNHNL-mdata online portal (MNHNL, iNaturalist & GBIF 2019).

Giant knotweed is less common and less widespread in Luxembourg than its relatives Bohemian knotweed (Fallopia ×bohemica), and Japanese knotweed (Fallopia japonica). It sometimes builds huge colonies along riparian ecosystems, as can be seen along the river Alzette in Luxembourg City (beside the Neumünster Abbey in the Grund district) and along the Sûre east of Diekirch. It is mostly found as an ornamental plant in private gardens. Populations in the wild are the result of people fly-tipping their knotweed clippings.

Sometimes grown for ornamental purposes in parks. Naturalised here and there: rare. The frequency of male-sterile and male-fertile colonies, distinguishable by the morphology of the inflorescence, should be specified (Lambinon & Verloove 2012: 193).

Risk assessment

ISEIA protocol

B1 (2+2+3+3) = Watch List (Ries et al. 2013: 18).

Harmonia+ protocol

Overall risk score 0,59 = (Overall Invasion score 0,84 x Overall Impact score 0,70) (Ries et al. 2020).

0,84Invasion
0,70Impact
0,59Risk

Worldwide distribution

Bibliography

  • Albers, M., S. Kohn, J. Steng & M. Pfeiffenschneider, 2001. – Problematik der Bioinvasion. Kartierung von Japan-Knöterich, Riesenbärenklau und Indischem Springkraut an Woltz, Clerve und Wiltz. Ergebnisse der Kartierung. – Studie des Büros ERSA im Auftrag von: Administration des eaux & forêts, arrondissement nord. August 2001. 7S. + Anhang.
  • Bailey, J.P. & A.P. Conolly, 2000. Prize-winners to pariahs – A history of Japanese Knotweed s.l. (Polygonaceae) in the British Isles. Watsonia. 23: 93–110.[PDF]
  • Branquart, E., S. Vanderhoeven, W. Van Landuyt, F. Van Rossum, F. Verloove & A. Vervoort, 2011. Harmonia database: Fallopia sachalinensis (F. Schmidt Petrop.) Ronse Decr. Harmonia version 1.2, Belgian Forum on Invasive Species. URL: http://ias.biodiversity.be [accessed on 2019-10-11]
  • CABI, 2019. Fallopia sachalinensis. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2020-03-02]
  • Glesener, B., M. Pfeiffenschneider & C. Ries, 2009. Die Verbreitung von Impatiens glandulifera, Fallopia japonica, F. sachalinensis, F. ×bohemica und Heracleum mantegazzianum entlang der Hauptfließgewässer Luxemburgs. Bull. Soc. Nat. luxemb. 110 : 69-73. (pdf)
  • Lambinon J. & F. Verloove, 2012. Nouvelle flore de la Belgique, du grand-duché de Luxembourg, du Nord de la France et des régions voisines. Sixième édition. Avec la collaboration de L. Delvosalle, B. Toussaint, D. Geerinck, I. Hoste, F. Van Rossum, B. Cornier, R. Schumacker, A. Vanderpoorten et H. Vannerom. Jardin botanique national de Belgique, Meise. CXXXIX + 1195 pp. ISBN : 9789072619884.
  • MNHNL, 2000-. Fallopia sachalinensis (F. Schmidt Petrop.) Ronse Decr. in Recorder-Lux, database on the natural heritage of the Grand Duchy of Luxembourg. Musée national d’histoire naturelle, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-10-11]
  • MNHNL, iNaturalist & GBIF, 2019. Fallopia sachalinensis (F. Schmidt Petrop.) Ronse Decr. in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-10-11]
  • Pfeiffenschneider, M., 2001. – Problematik der Bioinvasion. Nationales Inventar von Riesenbärenklau, Indischem Springkraut und exotischen Knötericharten. Ergebnisse einer Umfrage und Konzept zur Bekämpfung der Riesenbärenklaubestände. – Studie des Büros ERSA im Auftrag von: Administration des eaux & forêts, Service de la conservation de la nature, November 2001. 23 S. + Anhang, Luxembourg.
  • Pfeiffenschneider, M., 2007. Über die Verbreitung von Heracleum mantegazzianum, Impatiens glandulifera, Fallopia japonica und F. sachali­nensis entlang der Gewässer Obersauer, Woltz, Clerve, Wiltz und ihrer Nebengewässer (Luxemburg). Bull. Soc. Nat. luxemb. 108 : 7-10. (pdf)
  • Pfeiffenschneider, M., 2008. Neophyten in Luxemburg – Projekt Bioinvasion 2007. Arbeitsbericht. 18 S. (pdf)
  • Pfeiffenschneider, M. & M. Owaller, 2000. – Kartierung von Japan-Knöterich, Riesenbärenklau und Indischem Springkraut an der Obersauer. Theoretische Grundlagen und Ergebnisse der Kartierung.. – Studie des Büros ERSA im Auftrag von: Administration des eaux & forêts, acrrondissement nord. August 2000. 37S. + Anhang, Luxembourg.
  • Ries, C. & Y. Krippel, 2021. First records of 56 invasive alien vascular plants in Luxembourg. Bulletin de la Société des naturalistes luxembourgeois 123: 115-127. [PDF 241 KB]
  • Ries, C., Y. Krippel & M. Pfeiffenschneider, 2020. Risk assessment after the Harmonia+ protocol of invasive alien vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 122: 197-205. [PDF 132 KB]
  • Ries, C., Y. Krippel, M. Pfeiffenschneider & S. Schneider, 2013. Environmental impact assessment and black, watch and alert list classification after the ISEIA Protocol of non-native vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 114: 15-21. [PDF 652 KB]

 Page content last updated on 2021-04-12. Last proofread by Caroline Grounds on 2019-11-18.

Impatiens glandulifera Royle

English Himalayan Balsam Status LU: established. 1st record: LU <1897, ITW 1958.
Lëtzebuergesch Drüse-Sprangkraut Status Eur.: established. 1st record: UK 1839.1 IAS of EU concern (2017).
Français Impatiente de l’Inde, balsamine de l’Himalaya RA: ISEIA: A3, Black List. Harmonia+: 0,52.
Deutsch Drüsiges Springkraut, Indisches S., Emscherorchidee Wikipedia: Wikipedia - English - Himalayan Balsam Wikipedia - Français - Impatiente de l'Inde Wikipedia - Deutsch - Indisches Springkraut Wikipedia - Nederlands - Reuzenbalsemien | Wikispecies: Wikispecies - Impatiens glandulifera | CABI
Nederlands Reuzenbalsemien Back to the list of neophytes

Brief description

Impatiens glandulifera Royle occurs in many different habitats, but it thrives best on moist and nutrient-rich alluvial soils. It occurs on meadows, along rivers and brooks, and in floodplain forests, especially in areas disturbed by people. Long-distance dispersal of seeds is aided by flowing water, with fresh seeds transported in sediment on the beds of rivers, and buoyant dry seeds are able to float over large distances. The species may form dense stands that cover the soil, shade and replace native annual and even perennial plant species because of early germination and rapid growth. In some conditions, it can strongly reduce local species richness but this reduction is often temporary and concerns mostly widespread weeds and even other non–native species in ground-water table and flooding conditions. It may also displace native species through competition for pollinators, e.g. Stachys palustris. Its development can facilitate river bank erosion (Branquart et al. 2010).

IAS of Union concern

In 2017, Impatiens glandulifera was added to the list of invasive alien species of Union concern (Anonymous 2017) which implies that member states shall take all necessary steps to prevent it’s unintentional introduction or spread.

For Luxembourg, an action plan in accordance with Article 13(2) of Regulation 1143/2014 (Anonymous 2014a) has been finalised in 2020 (Pfeiffenschneider & Hoppe 2020).

Status and distribution in Luxembourg

Records of Impatiens glandulifera Royle in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

Impatiens glandulifera Royle was first mentioned in Luxembourg under its synonym Impatiens glanduligera (Royle) as cultivated ornamental in the flora of Klein (1897: 249).

Impatiens glandulifera Royle was first documented in the wild under its synonym Impatiens roylei Walp. on 1958-10-06 by Jean-Jacques Kariger (1925-2018) in Hautcharage (Kariger 1961: 101, Krippel & Proess 2017). The next record was made by Léopold Reichling (1921-2009) on 4th August 1966 in Koetschette, municipality of Rambrouch (MNHNL 2000-).

With over 7.500 records of the species listed in the MNHNL-mdata online portal (2024), the species is established in Luxembourg and widespread throughout the country’s riparian ecosystems (MNHNL, iNaturalist & GBIF 2024). Most of these data have been collected during systematic inventories along the main watercourses in 2006-2008 (Glesener et al. 2009), 2013 (Pfeiffenschneider et al. 2014) and 2019.

The melliferous Himalayan balsam is one of the most common and widespread invasive neophytes in Luxembourg. It builds huge colonies along riparian ecosystems, often together with colonies of Bohemian knotweed. Several major rivers of Luxembourg are being affected. Huge populations can for example be seen along the river Sure between Ettelbruck and Michelau.

Spread into forest ecosystems

Since the end of the first decade of the 21st century, Himalayan balsam is increasingly spreading throughout the countryside, leaving the riverbanks and colonising other habitats like roadsides and forests. An example can be seen in the Our valley between Stolzembourg and Dasbourg-Pont, where the Himalayan Balsam managed to “jump” across the main road, to “climb” up the steep slopes and to “enter” the oak forests. Meanwhile Impatiens glandulifera occurs in many forests across the country.

Recent new records have confirmed that this invasive species is increasingly being observed far from any watercourse, often at the edge of forests (Krippel et al. 2020: 39).

Over the past 20 years, the dissemination of I. glandulifera in forest habitats has accelerated, and could be facilitated by (1) the strong pressure of propagules from widely spread riparian populations, (2) major disturbances, anthropogenic or natural, of forest ecosystems, (3) the increased use of forestry machinery capable of transporting seeds and (4) the high environmental tolerance of the species. The impacts of I. glandulifera in forest habitats can include negative impacts on the diversity of native plants and mycorrhizal fungi. I. glandulifera can also have a negative impact on the growth of planted forest plants. Measures listed to prevent the spread of I. glandulifera towards the forests: limitation of the disturbances of the ground and the transport of soil contaminated by seeds, logging before the release of the seeds of I. glandulifera in order to minimize any further spread (Čuda et al. 2020).

Management

Action plan

An action plan concerning the Himalayan Balsam has been published in 2020:

Finalised Action Plan for Impatiens glandulifera (Pfeiffenschneider & Hoppe 2020)

Valley of the Syr (Gutland)

In 2016, the federation of municipalities SIAS launched an eradication campaign along the river Syr. The shores of the Syr and its tributaries are partially covered with Himalayan Balsam. Since 2016, the affected parts of the water have been inspected annually and the plants removed if necessary in order to stem the further spread of the plants. In 2018, neophytes were removed over a length of approximately 3.9 km, where around 1.5 km between Moutfort and Oetrange was more severely infested, the 2.4 km from Oetrange towards Schuttrange less so. The annual removal of the balsam seems to improve the water sections (Anonymous 2014b: 4; “Aktionsplan Neophyten” in Anonymous 2019: 4).

Valley of the Blees (Oesling)

On 4 July 2009, the Nature Park Our took his first steps in the management of Impatiens glandulifera on the river Blees under the coordination of Béatrice Casagranda, involving a dozen volunteers, amongst others staff from Foundation “Hëllef fir d’Natur”. At the time, this action was strongly criticized by several beekeepers.

In summer 2017 the Nature Park of the Our Valley launched a pilot project to free the small river Blees (20 km) from Himalayan Balsam, in co-operation with the National Museum of Natural History (Ehl & Gengler 2018; Ehl 2019). At the beginning, the project focused on the first 4 km of the river Blees, in order to avoid new upstream invasions. Several habitats along the river were heavily impacted by the presence of Himalayan Balsam. In the starting year of the project, the management was exclusively done manually, which turned out to be not efficient enough for most impacted zones. The collected biomass is transported for treatment to the biogas plant in Hosingen (Klein 2019).

In 2018, the management was significantly improved through the use of brushcutters beside the manual management in less accessible zones. This led to a significantly lower presence of individuals at the beginning of the 2019 management season. Thus, the management workload could be reduced by half, which allowed extension of the management by an extra 2 km downstream. We expect more tangible results in the years to come (Klein 2019).

In the course of 2019, the successes achieved so far in the control of Himalayan balsam on the Blees from the previous year have been confirmed. In addition to a large-scale reduction in linear stands, fewer punctual stands were also detected. It also became apparent that the control of dense stands, which were not very successfully collected by hand in 2017, can lead to lasting success with mechanical measures. For example, after the large-scale expansion in July 2018, the populations in the ‘Iwwer Ehlerhämicht’ area had already declined significantly or even disappeared completely by October after the first mechanical work; even in 2019, only small residual populations were found in this area. However, manual collection, which is a less invasive control method, was successful in the less densely overgrown areas and should continue to be used in such low-density stands or as a follow-up measure after multi-annual mowing (Ehl 2020).

Despite the declines in population observed so far, it is urgently not advisable to stop the systematic control of Himalayan balsam in the northern study area in the upper reaches of the Blees. As described in the literature and confirmed in our observations, incomplete control (even with 99% population decline) is almost as ineffective as if no measures had been implemented at all (Wadsworth et al. 2002). In the Stommert and Ënner Fuusselach areas, larger populations have developed again in 2019 from the existing seed bank or from individual plants remaining in the control areas. Successful control is therefore only possible if every single plant of the Himalayan balsam is removed during control so that the existing seed bank cannot renew itself. In addition to the recommended combination of mechanical work in the case of extensive stands and manual collection in the case of smaller stands or in the case of follow-up maintenance, the work must be carried out systematically over a longer period of time (Ehl 2020, Ehl at al 2023).

Nature park Mullerthal (Gutland)

On July 27, 2019, a management action against Himalayan Balsam took place around the Consdorf Mill and the upstream ponds. About ten people participated in the action, which also raised awareness among people walking on the trails adjacent to the managed sites. The green waste generated by the action was evacuated to the Miny biogas facility in Nommern. A problem with the removed biomass was the relatively large volume of soil attached to the roots. In order to avoid this problem in the future, it is recommended to leave the roots on the site (Pfeiffenschneider 2019: 1).

Neighbouring countries

Successful management of Himalayan Balsam has been reported from two regions in France: the catchment areas of the river Risle (Eure) (Royer & Blottière 2019) and the river Graine (Haute-Vienne et Charente) (Fernandez 2015).

Risk assessment

ISEIA protocol

A3 (3+3+2+3) = Black List (Ries et al. 2013: 18).

Harmonia+ protocol

Overall risk score 0,52 = (Overall Invasion score 0,87 x Overall Impact score 0,60) (Ries et al. 2020).

0,87Invasion
0,60Impact
0,52Risk

Worldwide distribution

Alien Impatiens taxa

Six alien balsam species have been reported in Luxembourg, Impatiens noli-tangere L. being the only native species.

  • Impatiens balfourii Hook.f.: Balfour’s touch-me-not, first observed in 2016 in the wild in Luxembourg.
  • Impatiens balsamina L.: the garden balsam is already mentioned in Krombach’s flora of 1875 as “Introduced from the East Indies and grown in all gardens” (Krombach 1875: 56).
  • Impatiens capensis Meerb. is an annual plant native to eastern North America that is currently spreading across Europe. In Luxembourg, it was first reported on 2021-10-11 from the Moselle valley.
  • Impatiens glandulifera Royle: the invasive Himalayan Balsam, which is widespread in riparian ecosystems and forests across Luxembourg.
  • Impatiens parviflora DC.: the small balsam, which is widespread in forests across Luxembourg.
  • Impatiens walleriana Hopok. f. was reported once as cultivated in Rumelange in 1946.

In 2011 the annual hybrid Impatiens parviflora × I. balfourii was discovered in the canton of Ticino in Switzerland. The fertile hybrid with alternating leaves can be up to 60 cm high. Considerable populations of the hybrid were observed in 2014 in the canton of Ticino in the absence of the parent species (Van Valkenburg et al. 2019).

Fact sheet and leaflet

PDF fact sheet of the Nature and Forestry Administration: FR | DE

In early spring 2020 the Department for the Environment of the Luxembourg Ministry for environment, climate and sustainable development edited leaflets in German and French about Fallopia japonica, in co-operation with the National Museum of Natural History and efor-ersa ingénieurs-conseils. They can be downloaded here in PDF format (~ 4 MB each).

 

Bibliography

  • Albers, M., S. Kohn, J. Steng & M. Pfeiffenschneider, 2001. – Problematik der Bioinvasion. Kartierung von Japan-Knöterich, Riesenbärenklau und Indischem Springkraut an Woltz, Clerve und Wiltz. Ergebnisse der Kartierung. – Studie des Büros ERSA im Auftrag von: Administration des eaux & forêts, arrondissement nord. August 2001. 7S. + Anhang.
  • Anonymous, 2014. Regulation (EU) No 1143/2014 of the European Parliament and of the Council of 22 October 2014 on the prevention and management of the introduction and spread of invasive alien species. Official Journal of the European Union L 317: 35-55 (4.11.2014).
  • Anonymous, 2014. Naturschutz in den SIAS-Gemeinden 2014. La sauvegarde du patrimoine naturel dans les communes du SIAS. n.p. Biologische Station – Naturzenter SIAS. URL: http://www.sias.lu/dl/Infoblad_2014_1404503.pdf [accessed 2019-10-11]
  • Anonymous, 2017. Commission implementing regulation (EU) 2017/1263 of 12 July 2017 updating the list of invasive alien species of Union concern established by Implementing Regulation (EU) 2016/1141 pursuant to Regulation (EU) No 1143/2014 of the European Parliament and of the Council. Official Journal of the European Union L 182: 37-39 (13.7.2017).
  • Anonymous, 2019. Tätigkeitsbericht 2018. Biologische Station SIAS. URL: http://www.sias.lu/dl/Taetigkeitsbericht2018.pdf [accessed 2019-10-11]
  • Branquart, E., S. Vanderhoeven, W. Van Landuyt, F. Van Rossum, F. Verloove & A. Vervoort, 2010. Harmonia database: Impatiens glandulifera Royle. Harmonia version 1.2, Belgian Forum on Invasive Species. URL: http://ias.biodiversity.be [accessed on 2019-10-09]
  • CABI, 2021. Impatiens glandulifera. In: Invasive Species Compendium. Wallingford, UK: CAB International. URL: www.cabi.org/isc [accessed 2021-03-04]
  • Čuda J., H. Skálova & P. Pyšek, 2020. Spread of Impatiens glandulifera from riparian habitats to forests and its associated impacts: insights from a new invasion. Weed Research 60: 8-15.
  • Ehl, S. & C. Gengler, 2018. Pilotprojekt zur systematischen Bekämpfung von Impatiens glandulifera an der Blees [Bericht 2017]. Projektbericht, EFOR-ERSA, 21 S. + Anhang.
  • Ehl, S., 2019. Bekämpfung von Impatiens glandulifera an der Blees – Bericht 2018. Projektbericht, EFOR-ERSA, 25 S. + Anhang.
  • Ehl, S., 2020. Bekämpfung vom Impatiens glandulifera an der Blees – Bericht 2019. Projektbericht, EFOR-ERSA, 37 S. + Anhang.
  • Ehl, S., A. Klein & C. Ries, 2023. It’ s a marathon, not a sprint: The management of Impatiens glandulifera at the upper reaches of the river Blees in the Naturpark Our (Luxembourg). Bulletin de la Société des naturalistes luxembourgeois 125: 25-36.
  • Fernandez, S., 2015. Interventions de gestion de la Balsamine de l’Himalaya sur le bassin versant de la Graine. URL: http://www.especes-exotiques-envahissantes.fr/wp-content/uploads/2018/10/balsamine_r.pdf [accessed 2019-10-22]
  • Glesener, B., M. Pfeiffenschneider & C. Ries, 2009. Die Verbreitung von Impatiens glandulifera, Fallopia japonica, F. sachalinensis, F. ×bohemica und Heracleum mantegazzianum entlang der Hauptfließgewässer Luxemburgs. Bull. Soc. Nat. luxemb. 110 : 69-73. (pdf)
  • Kariger, J.-J., 1961. Plantes intéressantes, rares ou nouvelles pour le Grand-Duché de Luxem­bourg, trouvées en 1957 et 1958. Bull. Soc. Nat. luxemb. 63: 100-103.
  • Klein, A., 2019. Personal communication giving a résumé of the project by email to C. Ries on 18 October 2019.
  • Klein, E.J., 1897. Die Flora der Heimat : Sowie die hauptsächlichster bei uns kultivierten fremden Pflanzenarten biologisch betrachtet : Eine Anleitung zur selbständigen Beobachtung der Lebens- und Anpassungserscheinungen in der Pflanzenwelt. Diekirch: J. Schroell., 552 pp.
  • Krippel, Y., T. Helminger & G. Colling, 2020. Notes floristiques. Observations faites au Luxembourg (2018-2019). Bulletin Soc. Nat. luxemb. 122 : 29-55. [PDF 132 KB]
  • Krippel, Y. & R. Proess, 2017. Impatiens balfourii Hook. f. (Balsaminaceae), nouvelle espèce subspontanée au Luxembourg ?. Bull. Soc. Nat. luxemb. 119: 55-61.
  • Krombach, J.-H.-G., 1875. Flore du grand-duché de Luxembourg. Plantes phanérogames. 564 p. Luxembourg, Imprimerie Joris.
  • Lambinon J. & F. Verloove, 2012. Nouvelle flore de la Belgique, du grand-duché de Luxembourg, du Nord de la France et des régions voisines. Sixième édition. Avec la collaboration de L. Delvosalle, B. Toussaint, D. Geerinck, I. Hoste, F. Van Rossum, B. Cornier, R. Schumacker, A. Vanderpoorten et H. Vannerom. Jardin botanique national de Belgique, Meise. CXXXIX + 1195 pp. ISBN : 9789072619884.
  • MNHNL, 2000-. Impatiens glandulifera Royle in Recorder-Lux, database on the natural heritage of the Grand Duchy of Luxembourg. Musée national d’histoire naturelle, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-10-09]
  • MNHNL, iNaturalist & GBIF, 2019. Impatiens glandulifera Royle in MNHNL-mdata, online portal combining species observation from Recorder-Lux, iNaturalist and GBIF. National Museum of Natural History, Luxembourg. URL: https://mdata.mnhn.lu [Accessed 2019-10-09]
  • Pfeiffenschneider, M., 2001. – Problematik der Bioinvasion. Nationales Inventar von Riesenbärenklau, Indischem Springkraut und exotischen Knötericharten. Ergebnisse einer Umfrage und Konzept zur Bekämpfung der Riesenbärenklaubestände. – Studie des Büros ERSA im Auftrag von: Administration des eaux & forêts, Service de la conservation de la nature, November 2001. 23 S. + Anhang, Luxembourg.
  • Pfeiffenschneider, M., 2007. Über die Verbreitung von Heracleum mantegazzianum, Impatiens glandulifera, Fallopia japonica und F. sachali­nensis entlang der Gewässer Obersauer, Woltz, Clerve, Wiltz und ihrer Nebengewässer (Luxemburg). Bull. Soc. Nat. luxemb. 108 : 7-10. (pdf)
  • Pfeiffenschneider, M., 2008. Neophyten in Luxemburg – Projekt Bioinvasion 2007. Arbeitsbericht. 18 S. (pdf)
  • Pfeiffenschneider, M., 2019. Plan d’action pour la lutte contre les principales plantes exotiques envahissantes dans les parcs naturels de l’Our et du Mullerthal. Procès verbal de la réunion du 24 septembre 2019. 3p.
  • Pfeiffenschneider, M. & F. Hoppe 2020. Plan d’action pour espèces exotiques envahissantes au Grand-Duché de Luxembourg : Impatiente de l’Inde, Impatiens glandulifera (Royle). Version du 2020-06-15. Administration de la nature et des forêts, Luxembourg. 19 pp.
  • Pfeiffenschneider, M. & M. Owaller, 2000. – Kartierung von Japan-Knöterich, Riesenbärenklau und Indischem Springkraut an der Obersauer. Theoretische Grundlagen und Ergebnisse der Kartierung.. – Studie des Büros ERSA im Auftrag von: Administration des eaux & forêts, acrrondissement nord. August 2000. 37S. + Anhang, Luxembourg.
  • Pfeiffenschneider, M., P. Gräser & C. Ries, 2014. Distribution of selected neophytes along the main rivers of Luxembourg. Bull. Soc. Nat. luxemb. 115: 101-108. [PDF 3668 KB]
  • Ries, C. & Y. Krippel, 2021. First records of 56 invasive alien vascular plants in Luxembourg. Bulletin de la Société des naturalistes luxembourgeois 123: 115-127. [PDF 241 KB]
  • Ries, C., Y. Krippel & M. Pfeiffenschneider, 2020. Risk assessment after the Harmonia+ protocol of invasive alien vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 122: 197-205. [PDF 132 KB]
  • Ries, C., Y. Krippel, M. Pfeiffenschneider & S. Schneider, 2013. Environmental impact assessment and black, watch and alert list classification after the ISEIA Protocol of non-native vascular plant species in Luxembourg. Bull. Soc. Nat. luxemb. 114: 15-21. [PDF 652 KB]
  • Royer, R. & D Blottière, 2019. Éradication de la Balsamine de l’Himalaya par arrachage manuel sur plusieurs sites de la Risle (Eure). URL: http://especes-exotiques-envahissantes.fr/wp-content/uploads/2019/10/rex_balsamine-eure_vf.pdf [accessed 2019-10-22]
  • Wadsworth, R.A., Collingham, Y.C., Willis, S.G., Huntley, B. & Hulme, P.E. (2002): Simulating the spread and management of alien riparian weeds: are they out of control? British Ecological Society. Journal of Applied Ecology 37: 28-38.

 Page content last updated on 2024-07-31. Last proofread by Caroline Grounds on 2019-11-19.

  1. Cf. CABI 2021.[]

Heracleum mantegazzianum Somm. et Lev.

English Giant hogweed Status LU: established. 1st record: LU ~1934, ITW 1980.
Lëtzebuergesch Rise-Biereklo Status Eur.: established. 1st record: UK 1817. IAS of EU concern (2017).
Français Berce du Caucase, berce de Mantegazzi RA: ISEIA: A3, Black List. Harmonia+: 0,64.
Deutsch Riesen-Bärenklau, Herkulesstaude Wikipedia: Wikipedia - English - Giant hogweed Wikipedia - Français - Berce du Caucase Wikipedia - Deutsch - Riesen-Bärenklau Wikipedia - Nederlands - Reuzenberenklauw | Wikispecies: Wikispecies - Giant hogweed | CABI
Nederlands Reuzenberenklauw, Perzische berenklauw Back to the list of neophytes

Brief description

Giant hogweed in flower.

Flowering giant hogweed (in Luxembourg/Merl).

Heracleum mantegazzianum Somm. et Lev. inhabits moist and nutrient-rich soils in ruderal places, along roadsides, riverbanks and forest margins, in abandoned or neglected grasslands and in tall-herb communities. It is poorly represented in old successional stages but can occur in open alluvial forests. It usually invades sites with a low management intensity. Seeds are usually dispersed in the vicinity of mother plants except when growing near rivers. In that case, they may be transported over several kilometres.

The enormous height and leaf area of the giant hogweed enable it to overtop most indigenous herbaceous plant species typical of early stages of natural successions. It may form dense populations that absorb up to 80% of the incoming light and out-compete most light-demanding species. However, its abundance decreases in old successional stages due to competition with trees. Besides the ecological problems, tall invasive hogweed species also represent a serious health hazard for humans. The plant exudes a clear watery sap, which contains several photosensitising furanocoumarins. Upon contact with human skin and in combination with ultraviolet radiation, these compounds cause severe burning of the skin (Branquart et al. 2010).

IAS of Union concern

In 2017, Heracleum mantegazzianum Somm. et Lev. was added to the list of invasive alien species of Union concern (Anonymous 2017) which implies that member states shall take all necessary steps to prevent it’s unintentional introduction or spread.

Status and distribution in Luxembourg

Records of Heracleum mantegazzianum Somm. et Lev. in Luxembourg. Data source: Recorder-Lux, iNaturalist & GBIF, 2024-11-28.

The melliferous plant Heracleum mantegazzianum Somm. et Lev. was introduced to Luxembourg by the Luxembourg botanist Edmond Joseph Klein (1866-1942) in the 1930s. In 1935, a flowering giant hogweed made his front garden in avenue Grande-Duchesse-Charlotte in Luxembourg City an attraction for naturalists and beekeepers, who collected seeds to grow the plant in their gardens or near their beehives (Reichling 2008). This explains why many large populations of this plant in Luxembourg are a result of plantation by beekeepers. As the species is perennial and needs at least one year to develop before flowering, we can assume that Klein introduced seeds of the species to Luxembourg before 1934 and sowed them in or before 1934, which we consider the first record of the species in Luxembourg.

The south-west Asian species was first documented in 1980 near Garnich by Léopold Reichling (1921-2009): “A colony of about a hundred feet is known to be located N of the Luxembourg-Arlon railway line east of the Garnich-Windhof road. Recent road works have reduced its importance.” (Reichling 1990: 62; MNHNL 2000-). Cultivated for ornamental use in parks and gardens. Subspontaneous or naturalized, quite rare, mostly widespread in urban areas and along highways; often abundant in its stations. Introduced in Brussels in the 1930s, this species has experienced, especially since the 1980s, a strong expansion in the Flora territory, as in other regions of Europe (Lambinon & Verloove 2012: 524).

Giant hogweed was getting very common and widespread in Luxembourg during the period 2000-2010. It generally occurred in small clusters along river banks, several major rivers of Luxembourg having been affected. Sometimes the species formed dense stands along rivers, bicycle ways and rail roads or on waste land. Since 2008 many stakeholders are involved in control measures resulting in the decline of the species. This might result in the downgrade of the ISEIA-code of the species (A3) in future risk assessments.

End of 2023, 560 records of this melliferous species were listed in the MNHNL-mdata online portal (MNHNL, iNaturalist & GBIF 2019). As is the case for many species, the shown map doesn’t reflect the actual status of the species, but its historical distribution accumulated in time.

Hybrids and other taxa

It is known that Heracleum mantegazzianum can hybridise with H. sphondylium (Heracleum mantegazzianum Somm. and Lev. × H. sphondylium L. var. dissectum Le Gall).

In Luxembourg, the hybrid has so far been detected 3 times in the north of the country: Harlange in 2014 (Krippel & Colling 2016: 37), Kuborn in 2016 (Krippel et al. 2018: 64), and Nothum in 2018 (Krippel et al. 2020: 39).

Other taxa that are more or less neighbouring are also sometimes cultivated for ornamental purposes. Thus, the subspontaneous state of Heracleum laciniatum Hornem. (Syn. Heracleum giganteum Hort.) has been reported in the territory of the Flora, but it has been hypothesized that they would actually be hybrids of Heracleum mantegazzianum × sphondylium. The taxonomy of large Asian Heracleum species introduced into Europe should be re-examined (Lambinon & Verloove 2012: 524).

Management

Since 2008, the Luxembourg Water Management Authority is systematically controlling giant hogweed on the river banks of the major rivers of Luxembourg and is running special units for this purpose.

The Upper-Sûre Nature Park in the north-west of Luxembourg (Ardennes) runs a monitoring and management plan on giant hogweed since 2009 in the frame of the national action plan “Heracleum mantegazzianum” (Krippel & Richarz 2013). The inventories show a prevalence of H. mantegazzianum populations in two valleys i.e. Harelerbaach and Dirbech, where the plants are growing predominately on riversides and alluvial meadows. Since 2009, the management plan is annually reviewed and consequently executed in the Upper-Sûre region. Giant hogweed is controlled by root cutting and, in the case of flowering plants, by umbel removal. These simple mechanical methods give excellent results, but have to be continued for several years, until the soil seed bank is depleted, especially in the valleys of the Surbich and Harelerbaach (Krippel & Colling 2014, 2016; Krippel et al. 2018: 64). At Tutschemillen, this invasive exotic species remains despite its regular elimination by the services of the Haute-Sûre Nature Park (Krippel et al. 2020: 39).

Since 2009, after a sensitisation campaign by the Nature and Forest Agency, several foresters systematically control giant hogweed in their areas.

Since 2010, the city of Luxembourg systematically controls hogweed on its grounds, especially along the Alzette river.

In 2012, three workers of the national railway company CFL were burned by giant hogweed while cleaning up an overgrown area of a railway station. A survey of several neophyte species on the national railway network (Pfeiffenschneider et al. 2014d) resulted in four sites identified with Heracleum, which were subsequently controlled in the same year.

Action plan

An action plan regarding Giant Hogweed has been published in 2020:

Finalised Action Plan for Heracleum mantegazzianum (Pfeiffenschneider & Hoppe 2020)

Giant hogweed auger

In order to facilitate the control, an auger was developed by a Dutch company (https://www.eijkelkamp.com). The giant hogweed auger removes the roots of the giant hogweed ergonomically and effectively, preventing the plant from germinating again. For effective control, it is advisable to remove the roots from the non-flowering specimens both in the spring before flowering and in the autumn. The auger body is 33 cm long, with a diameter of 89 mm. The one-piece auger has a total length of 111.4 cm. The auger is easily emptied using a bent spatula.

Burn cases in Luxembourg

The Department of Ecology of the National Museum of Natural History made two surveys among physicians in Luxembourg on burns caused in 2008 and in 2011 and 2012 (cf. Ries et al. 2013). Results showed that there have been at least 60 cases of burns in 2011 and 2012, while the previous survey back in 2008 resulted in no feedback on burn cases. These features are in line with the ongoing spread of the species in that period in Luxembourg. Most victims were aged between 18 and 60 and have been affected by burns in summer. The severity of burns ranged from not severe to medium.

Special observations:

  • When controlling giant hogweed during full flowering, the dust generated during removal of the flowers can penetrate between the protective clothing and the throat of a worker and cause a line or strip of burned skin (Adm. de la gestion de l’eau, personal communication, 2013).
  • In 2013, children suffered burns when playing with the previous year’s withered stems in early spring (Danièle Dammé, personal communication, May 20, 2014).

Useful documents

Risk assessment

ISEIA protocol

A3 (3+3+2+3) = Black List (Ries et al. 2013: 18).

Harmonia+ protocol

Overall risk score 0,64 = (Overall Invasion score 0,77 x Overall Impact score 0,83) (Ries et al. 2020).

0,77Invasion
0,83Impact
0,64Risk

Worldwide distribution

Bibliography

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 Page content last updated on 2024-07-31. Last proofread by Caroline Grounds on 2019-11-11.

Common ragweed (Ambrosia artemisiifolia L.) seeds in bird food in Luxembourg in 2007 and 2012

Ambrosia-in-bird-seed-in-Luxembourg-2012_300pxThis study looks at the presence of common ragweed seeds in bird food in Luxembourg in 2012 and compares the results with an earlier study conducted in 2007. The study has been conducted by Christian Ries, Yan Steil and Patrick Thommes at the Department of Ecology in the National Museum of Natural History in Luxembourg,

The poster was presented on March 16th 2013 at the “XXXe réunion annuelle des collaborateurs scientifiques du Musée national d’histoire naturelle Luxembourg”.

Download the poster in pdf format (1.5 MB)

 Page content last updated on 2013-04-17.