Code
DTTAE
Growth form
Grass
Biological cycle
Annual
Habitat
Terrestrial
Dactyloctenium aegyptium (L.) Willd.
synonym | Aegilops saccharina Walter |
synonym | Cenchrus aegyptius (L.) P.Beauv. [Invalid] |
synonym | Cenchrus aegyptius P.Beauv., pro syn. |
synonym | Cenchrus mucronatus Pers. ex Steud. [Invalid] |
synonym | Cenchrus mucronatus Pers. ex Steud., pro syn. |
synonym | Chloris guineensis Schumach. |
synonym | Chloris guineensis Schumach. & Thonn. |
synonym | Chloris mucronata Michx. |
synonym | Chloris prostrata (Willd.) Poir. |
synonym | Ctenium nukaviense Steud. [Invalid] |
synonym | Ctenium nukaviense Steud., nom. nud. |
synonym | Cynosurus aegyptiacus Link [Invalid] |
synonym | Cynosurus aegyptiacus Link, pro syn. |
synonym | Cynosurus aegyptius L. |
synonym | Cynosurus carolinianus Willd. ex Steud. [Invalid] |
synonym | Cynosurus carolinianus Willd. ex Steud., nom. nud. |
synonym | Cynosurus cavara Dillwyn [Invalid] |
synonym | Cynosurus cavara Dillwyn, nom. nud. |
synonym | Cynosurus ciliaris Hook.f. [Invalid] |
synonym | Cynosurus ciliaris Rottler ex Hook.f., nom. inval. |
synonym | Cynosurus distachyos Rottler ex Steud. [Invalid] |
synonym | Cynosurus distachyos Rottler ex Steud., pro syn. |
synonym | Cynosurus macara Buch.-Ham. ex Wall. [Invalid] |
synonym | Cynosurus macara Buch.-Ham. ex Wall., nom. nud. |
synonym | Dactyloctenium aegyptiacum Willd. [Spelling variant] |
synonym | Dactyloctenium aegyptiacum Willd., orth. var. |
synonym | Dactyloctenium aegyptium f. viviparum Beetle |
synonym | Dactyloctenium aegyptium var. mucronatum (Michx.) Schweinf. |
synonym | Dactyloctenium aegyptius var. mucronatum (Michx.) Lanza & Mattei |
synonym | Dactyloctenium ciliare (Hook.f.) Chiov. [Invalid] |
synonym | Dactyloctenium ciliare Chiov., nom. nud. |
synonym | Dactyloctenium distachyum Trin. [Invalid] |
synonym | Dactyloctenium distachyum Trin., nom. nud. |
synonym | Dactyloctenium figarei De Not. |
synonym | Dactyloctenium meridionale Ham. |
synonym | Dactyloctenium mpuetense De Wild. |
synonym | Dactyloctenium mucronatum (Michx.) Willd. |
synonym | Dactyloctenium mucronatum var. erectum E.Fourn. |
synonym | Dactyloctenium prostratum Willd. |
synonym | Eleusine aegyptia (L.) Desf. |
synonym | Eleusine aegyptia (L.) Roxb. |
synonym | Eleusine aegyptiaca (L.) Desf. [Spelling variant] |
synonym | Eleusine ciliata Raf. [Invalid] |
synonym | Eleusine ciliata Raf., nom. nud. |
synonym | Eleusine cruciata Elliott, nom. illeg. |
synonym | Eleusine cruciata Lam. |
synonym | Eleusine cruciata Lam., nom. superfl. |
synonym | Eleusine egyptia Raf. [Spelling variant] |
synonym | Eleusine egyptia Raf., orth. var. |
synonym | Eleusine pectinata Moench [Illegitimate] |
synonym | Eleusine pectinata Moench, nom. superfl. |
synonym | Eleusine prostrata Spreng. |
synonym | Rabdochloa mucronata (Michx.) P.Beauv. |
synonym | Syntherisma aegyptiaca Schult. ex Steud. [Invalid] |
synonym | Syntherisma aegyptiaca Schult. ex Steud., pro syn. |
Bengali |
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Comorian |
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Creoles and pidgins; French-based |
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Créole Maurice |
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Créole Réunion |
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Créole Seychelles |
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English |
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Hindi |
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Malgache |
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Other |
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Urdu |
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Global description
Dactyloctenium aegyptium is a grass with a prostrate to crawling base, whose stem is first spread, rooting at the nodes, and then erected. The leaves are wavy, lined by a row of hairs arranged in comb teeth. These hairs are swollen at the base. Two to six short spikes are spread on top of the stem. Each spike, ending with a tip, has two rows of flowers. The spikelets are sessile and compressed, consisting of 3 to 5 flowers. The glumes and lemmas are more or less extended by the end of the thick and scabrous dorsal edge. The paleas are membranous and briefly apiculate. The grain is bare, globular and reddish.
First leaves
The first leaves are alternate with a rolled prefoliation. The ligule is membranous, lacinated at the top. Glabrous sheath. Lamina linear, lanceolate, 2 to 5 cm long and 3 mm wide and with midrib grooved. Margin is ciliated with pectinate hairs tuberculate base.
General habit
Grass forming a small loose tuft, with the stem creeping at the start then erect, from which other clumps are formed. 10 to 60 cm high.
Underground system
The roots are fibrous.
Culm
The culm is slightly compressed, 1 to 3 mm large, smooth and glabrous, with dark nodes. It is crawling at first, but it then easily takes root at the nodes, then straightened for flowering.
Leaf
The leaves are alternate, with glabrous sheath, compressed and with a weak rounded keel. The ligule, 1.5 mm high, membranous and slightly laciniated at the top. The lamina is 4 to 8 mm large and 6 to 20 cm long, linear, with acute ending, grooved mid rib and scabrous margin. It has pectinate hairs, simple or double and with tuberculate base. Faces are glabrous to slightly hispid.
Inflorescence
The inflorescence consist of 2 to 6 digitate racemes and spread horizontally, linear, 2 to 5 cm long and ending with a bare tip. Rachis, triangular with naked upper surface.
Flower
The spikelets are sessile, laterally flattened and arranged in 2 rows on the underside of the rachis (2 to 5 mm long and wide), comprising 2 to 5 fertile flowers. Lower glume is oval lanceolate, 1.5 to 2 mm long with a dorsal glabrous vein ending in a short tip. The upper glume is oval, 1, 5 to 2 mm long, extended by a scabrous tip of 1 to 1, 5 mm long. Lemmas oval, 2.5 to 4 mm long, with thick and scabrous dorsal vein. Paleas is membranous, slightly shorter than the lemmas and ending in a short pointed tip.
Grain
The grain is orbicular, 1 mm long, transversely wrinkled and orange-brown in color.
Attributions | |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY |
References |
Life cycle
Northern Cameroon: Dactyloctenium aegyptium germinates with the first rains of May, before the late plowing. This germination period lasts 4 to 5 weeks until late June. Cultural operations such as weeding and mounding result in new emergence although these are less abundant and does not last as long as the emergence at the beginning of the crop cycle. Flowering and fruiting are not subject to photoperiod and intervene rapidly, 3-4 weeks after emergence. This rapid development allows this species to produce seeds before the first weeding, especially if the latter is late. The seeds produced at this period of time are not dormant and germinate instantly. This species is usually dry out at the end of the rainy season (September-October) after a development cycle of 3 to 4 months.
Mayotte: Dactyloctenium aegyptium flowers and fruits all year round.
Attributions | Wiktrop |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY |
References |
Dactyloctenium aegyptium is an annual species that multiplies mainly by seed, but can also propagate vegetatively by its creeping stems during the rainy season. An individual can produce up to 66,000 seeds.
Attributions | Wiktrop |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY_SA |
References |
Growth form
Leaf arrangement
Leaf type
Grass-like leaf type
Type of prefoliation
Latex
Stem section
Root type
Ligule type
Hollow or solid stem
Stipule type
Leaf attachment type
Fruit type
Lamina base
Lamina margin
Lamina apex
Upperface pilosity
Upperface hair type
Lowerface pilosity
Simple leaf type
Lamina section
Lamina Veination
Flower color
Inflorescence type
Stem pilosity
Life form
It is a weed of both arable land and waste places near the sea and, in Malaysia, it is found in sandy soils of the lowlands and on sandy beaches at the sea. It prefers light, dry soils in Java and grows mainly on sandy areas in Sudan. Despite its preference for a habitat with light soils and low moisture, it has been reported to be an important weed in many countries in the humid tropics' (Holm et al., 1977).
Northern Cameroon: Dactyloctenium aegyptium is a heliophilous species that grows in Sahel-Sudanese regions where annual rainfall is between 600 and 800 mm, in the most humid Sudanese regions. It is a ruderal species, common on the roadside, in vacant lots and in fallow. This is also a very common and often abundant weed. It grows in most soils, especially in dry soils, sandy or stony and filtering, such as ferruginous soils on sandstone and ferruginous soils of dunes but also on alluvial loam soils and on fersialitic soils in dry areas. However, this species is rare on heavy clay soils like vertisols or on too humid soil such as planosols.
Comoros: ruderal species common in humid areas especially in heavy soils at low altitude. It is present in all parts of Grande Comore and Anjouan.
Madagascar: Species very common in sub-humid and semi-arid of the island (west and southwest) at low altitude: along roadsides, fallow and crop fields. It is a dominant species in sandy soils plots ("red sands").
Mauritius: Common weed, especially at low altitude, along roadsides, in vacant plot and occasionally in cultures.
Mayotte: Dactyloctenium aegyptium is a native species, common on the coast and xerophilous region, generally in degraded sites. It occursvin crops and sunny pastures.
Reunion: The species is common on loamy sands or on the heavier lands that drain well. It can form lawns of 70 cm high. It occurs mainly in sub-humid and moderately dry regions. In Reunion, it grows mostly on the northeast and southeast coast of the island, and in the western zone of average altitude (about 300 m). This plant does not exist at high altitude and humid region. It is also found in very dense populations on the coastal plains of the West and Southwest, in Savana and in Gol, with shallow water table.
Seychelles: This species is found only in coastal areas, particularly in Praslin. It prefers sandy open soils.
West Indies: Dactyloctenium aegyptium is an exotic species. It grows on most soils but is particularly fond of soils with little clay, sand and stones. It is therefore not uncommon for it to be abundant on the coast.
Attributions | Wiktrop |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY_SA |
References |
Habitat
Geographical distibution
Dactyloctenium aegyptium is native to tropical Africa and the warm to warm temperate regions of the old world.
Worldwide distribution
This species is now present in all tropical and subtropical to warm temperate regions of America, Africa, Asia and Oceania.
Attributions | dummy |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY_SA |
References |
Local harmfulness
Benin: rare but abundant when present.
Burkina Faso: frequent and generally abundant.
Northern Cameroon: Dactyloctenium aegyptium is a regional potential weed present in 85% of cultivated plots in the Sudano-Sahelian region and 50% of the plots in the humid regions. It affects all cultures, whether it is transmitted traditionally with no-tillage or with superficial tillage or intensively with deep plowing and with high fertilizer inputs. The use of pre-emergence herbicides of cotton or of corn, limits its development. This species grows mainly at the beginning or in the mid of crop cycle. Indeed, at that time, it is present in over 70% of the cultivations and often abundantly while at end of cycle, it is present in only 45% of the plots and very rarely abundant. Also, early weeding is an effective control.
Comoros: A weed present in all cultures, and common in vegetable crops.
Ivory Coast: common and scarce.
Ghana: rare but abundant when present.
Kenya: frequent and generally abundant.
Mali: rare and scarce.
Madagascar: A weed of relatively low frequency but locally abundant in small plots of light fertile soil (waterlogged reddish sands, alluvial soils) and harmful to less intensified food crops maize, groundnuts and cassava.
Mauritius: occasional weed of sugar cane where its competition is very low, but can be moderate in some vegetable crops.
Nigeria: frequent and generally abundant.
Uganda: common and generally abundant.
Reunion: A less common weed, it appears in only 10% of cultivated plots of the island and is never abundant.
Seychelles: This species can be a serious weed of vegetable crops, tubers and ornamental.
West Indies: Dactyloctenium aegyptium is a weed present in all crops but is rarely abundant and does not constitute a major constraint. In favourable soil and climatic zones, its density sometimes increases at the end of the crop cycle.
Attributions | Wiktrop |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY |
References |
Attributions | Wiktrop |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY |
References |
Global control
For advice on weeding of annual grass of irrigated rice and of lowland in Africa, visit: http://portal.wiktrop.org/document/show/31
Local control
Madagascar: Dactyloctenium aegyptium is generally relatively less invasive in cultivated fields and can often be controlled by simply wedding or hoeing. In case it becomes abundant, it may be relatively well controlled chemically with oxadiazon diuron on pre-emergence.
Reunion Island:
Active ingredients | Commercial products | doses of commercial product | efficiency |
pre-emergence | |||
mésotrione + S-métolachlore + isoxaflutole |
Camix + Merlin | 3,75 l/ha + 100 g/ha | |
mésotrione + S-métolachlore + pendiméthaline |
Camix + Prowl 400 | 3,75 l/ha + 3,0 l/ha | |
isoxaflutole + pendiméthaline + métribuzine |
Merlin + Prowl 400 + Sencoral | 0,067 kg/ha + 1,5 l/ha + 0,625 kg/ha | |
isoxaflutole + pendiméthaline + mésotrione + S-métolachlore |
Merlin + Prowl 400 + Camix | 0,067 kg/ha + 1,5 l/ha + 2,5 l/ha | |
Good efficiency | |
Medium efficiency | |
Ineffective |
Data acquired in Reunion on the effectiveness of herbicides in the context of the sugarcane herbicide network by eRcane Network with funding from the ODEADOM and ONEMA.
Action led by the French Ministry of Agriculture, food and forest, with financial support from the National Agency for Water and Aquatic Environments, on the finance issued from the tax for the pollution diffused, attributed to the finance of the Ecophyto plan.
West Indies: Tillage operations and conventional weed control techniques are sufficient to control Dactyloctenium aegyptium.
Attributions | Wiktrop |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY |
References |
Attributions | |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY |
References |
- Holm L. G., Plucknett D. L., Pancho J. V. & Herberger J. P., 1977. The World's Worst Weeds : Distribution and Biologie. East-West Center, University Press of Hawaii, Honolulu, 609 p.
- Husson, O., H. Charpentier, F.-X. Chabaud, K. Naudin, Rakotondramanana et L. Séguy (2010). Flore des jachères et adventices des cultures. Annexe 1 : les principales plantes de jachères et adventices des cultures à Madagascar. In : Manuel pratique du semis direct à Madagascar. Annexe 1 - Antananarivo : GSDM/CIRAD, 2010 : 64 p.
- Ivens G. W., 1989. East African Weeds and Their Control. Oxford University Press, Nairobi, Kenya, 289 p.
- Akobundu I.O. & Agyakwa C.W., 1989. Guide des adventices d'Afrique de l'Ouest. Institut international d'agriculture tropicale. Ibadan, Nigeria, 521 p.
- Braun M., Burgstaller H., Hamdoun A. M. & Walter H., 1991. Common weeds of Central Sudan.GTZ, Verlag Josef Margraf ed. Scientific Book, Weikersheim, Germany, 329 p.
- Donfack P., 1993. Etude de la dynamique de la végétation après abandon de la culture au Nord-Cameroun. Thèse Dc. 3ème cycle , Faculté des sciences, Univ. de Yaoundé, Cameroun, 192 p.
- Grard, P., T. Le Bourgeois, J. Rodenburg, P. Marnotte, A. Carrara, R. Irakiza, D. Makokha, G. kyalo, K. Aloys, K. Iswaria, N. Nguyen and G. Tzelepoglou (2012). AFROweeds V.1.0: African weeds of rice. Cédérom. Montpellier, France & Cotonou, Bénin, Cirad-AfricaRice eds.
- Ivens G. W., Moody K. & Egunjobi J. K., 1978. West African Weeds. Oxford University Press, Ibadan, Nigeria, 255 p.
- Koch W., 1981. Mauvaises herbes des cultures tropicales. In Kranz J., Schmutterer H. & Koch W. : Maladies, ravageurs et mauvaises herbes des cultures tropicales. Verlag Paul Parey, Berlin, Hambourg : 587-665.
- Le Bourgeois Th., 1993. Les mauvaises herbes dans la rotation cotonnière au Nord-Cameroun (Afrique) - Amplitude d'habitat et degré d'infestation - Cycle de développement. Thèse USTL Montpellier II, Montpellier, France, 241p.
- Le Bourgeois, T., Carrara, A., Dodet, M., Dogley, W., Gaungoo, A., Grard, P., Ibrahim, Y., Jeuffrault, E., Lebreton, G., Poilecot, P., Prosperi, J., Randriamampianina, J.A., Andrianaivo, A.P., Théveny, F. 2008. Advent-OI : Principales adventices des îles du sud-ouest de l'Océan Indien.V.1.0. In Cirad [ed.]. Cirad, Montpellier, France. Cdrom.
- Le Bourgeois, T. and H. Merlier (1995). Adventrop - Les adventices d'Afrique soudano-sahélienne. Montpellier, France, Cirad. 640 p.
- Merlier H. & Montégut J., 1982. Adventices tropicales. ORSTOM-GERDAT-ENSH éd., Montpellier, France, 490p.
- Stanfield D.P., 1970. The flora of Nigeria, Grasses. Stanfield and Lowe ed., Ibadan University Press, Ibadan, Nigeria, 118p.
- Vanden Berghen C., 1983. Matériaux pour une flore de la végétation herbacée de la Casamance occidentale, Sénégal, Fascicule 2, Gramineae. Jardin Botanique National de Belgique, 66 p.
- http://idao.cirad.fr/SpecieSheet?sheet=adventoi/especes/d/dttae/dttae_fr.html
- Berhaut J., 1967. Flore du Sénégal. 2ème éd. Clairafrique éd., Dakar, Sénégal, 485 p.
- Troupin G. (1989). Flore du Rwanda, Spermatophyte (Volume IV). Musée Royal de l'Afrique centrale, Tervuren, Belgique. 227p;
- Caton BP, Mortimer M, Hill JE, Johnson DE (2010). A practical field guide to weeds of rice in Asia. Second edition. Los Banos (Philippines), International Rice Research Institute. 51p;
- Holm, L., D. Plucknett, J. Pancho, and J. Herberger. 1977. The World's Worst Weeds: Distribution and Biology. University of Hawaii Press, Honolulu. 224p;
- Barthelat, F. 2019. La Flore illustrée de Mayotte. Meze, Paris, France, Collection Inventaires et Biodiversité, Biotope – Muséum national d’Histoire naturelle. 687 p.
- https://powo.science.kew.org/taxon/urn:lsid:ipni.org:names:397387-1
- Johnson, D.E. 1997. Weeds of rice in West Africa. ADRAO/WARDA, Bouaké, Côte-d'Ivoire. 141p; National Research Council (14 de febrero de 1996). 'Wild Grains'. Lost Crops of Africa: Volume I: Grains. Lost Crops of Africa. 1. National Academies Press. pp. 267;
- Fournet, J. 2002. Flore illustrée des phanérogames de Guadeloupe et de Martinique. Montpellier, France, Cirad, Gondwana éditions.
- Grossard, F., Le Bourgeois, T., Dumbardon-Martial, E. & Gervais, L. 2013. Adventilles - Guadeloupe & Martinique - Les adventices des Antilles françaises. Abymes, Guadeloupe, France, Les éditions du CTCS Guadeloupe. 195 p.
- Holm L. G., Plucknett D. L., Pancho J. V. & Herberger J. P., 1977. The World's Worst Weeds : Distribution and Biologie. East-West Center, University Press of Hawaii, Honolulu, 609 p.
- Husson, O., H. Charpentier, F.-X. Chabaud, K. Naudin, Rakotondramanana et L. Séguy (2010). Flore des jachères et adventices des cultures. Annexe 1 : les principales plantes de jachères et adventices des cultures à Madagascar. In : Manuel pratique du semis direct à Madagascar. Annexe 1 - Antananarivo : GSDM/CIRAD, 2010 : 64 p.
- Ivens G. W., 1989. East African Weeds and Their Control. Oxford University Press, Nairobi, Kenya, 289 p.
- Akobundu I.O. & Agyakwa C.W., 1989. Guide des adventices d'Afrique de l'Ouest. Institut international d'agriculture tropicale. Ibadan, Nigeria, 521 p.
- Braun M., Burgstaller H., Hamdoun A. M. & Walter H., 1991. Common weeds of Central Sudan.GTZ, Verlag Josef Margraf ed. Scientific Book, Weikersheim, Germany, 329 p.
- Donfack P., 1993. Etude de la dynamique de la végétation après abandon de la culture au Nord-Cameroun. Thèse Dc. 3ème cycle , Faculté des sciences, Univ. de Yaoundé, Cameroun, 192 p.
- Grard, P., T. Le Bourgeois, J. Rodenburg, P. Marnotte, A. Carrara, R. Irakiza, D. Makokha, G. kyalo, K. Aloys, K. Iswaria, N. Nguyen and G. Tzelepoglou (2012). AFROweeds V.1.0: African weeds of rice. Cédérom. Montpellier, France & Cotonou, Bénin, Cirad-AfricaRice eds.
- Ivens G. W., Moody K. & Egunjobi J. K., 1978. West African Weeds. Oxford University Press, Ibadan, Nigeria, 255 p.
- Koch W., 1981. Mauvaises herbes des cultures tropicales. In Kranz J., Schmutterer H. & Koch W. : Maladies, ravageurs et mauvaises herbes des cultures tropicales. Verlag Paul Parey, Berlin, Hambourg : 587-665.
- Le Bourgeois Th., 1993. Les mauvaises herbes dans la rotation cotonnière au Nord-Cameroun (Afrique) - Amplitude d'habitat et degré d'infestation - Cycle de développement. Thèse USTL Montpellier II, Montpellier, France, 241p.
- Le Bourgeois, T., Carrara, A., Dodet, M., Dogley, W., Gaungoo, A., Grard, P., Ibrahim, Y., Jeuffrault, E., Lebreton, G., Poilecot, P., Prosperi, J., Randriamampianina, J.A., Andrianaivo, A.P., Théveny, F. 2008. Advent-OI : Principales adventices des îles du sud-ouest de l'Océan Indien.V.1.0. In Cirad [ed.]. Cirad, Montpellier, France. Cdrom.
- Le Bourgeois, T. and H. Merlier (1995). Adventrop - Les adventices d'Afrique soudano-sahélienne. Montpellier, France, Cirad. 640 p.
- Merlier H. & Montégut J., 1982. Adventices tropicales. ORSTOM-GERDAT-ENSH éd., Montpellier, France, 490p.
- Stanfield D.P., 1970. The flora of Nigeria, Grasses. Stanfield and Lowe ed., Ibadan University Press, Ibadan, Nigeria, 118p.
- Vanden Berghen C., 1983. Matériaux pour une flore de la végétation herbacée de la Casamance occidentale, Sénégal, Fascicule 2, Gramineae. Jardin Botanique National de Belgique, 66 p.
- http://idao.cirad.fr/SpecieSheet?sheet=adventoi/especes/d/dttae/dttae_fr.html
- Berhaut J., 1967. Flore du Sénégal. 2ème éd. Clairafrique éd., Dakar, Sénégal, 485 p.
- Troupin G. (1989). Flore du Rwanda, Spermatophyte (Volume IV). Musée Royal de l'Afrique centrale, Tervuren, Belgique. 227p;
- Caton BP, Mortimer M, Hill JE, Johnson DE (2010). A practical field guide to weeds of rice in Asia. Second edition. Los Banos (Philippines), International Rice Research Institute. 51p;
- Holm, L., D. Plucknett, J. Pancho, and J. Herberger. 1977. The World's Worst Weeds: Distribution and Biology. University of Hawaii Press, Honolulu. 224p;
- Barthelat, F. 2019. La Flore illustrée de Mayotte. Meze, Paris, France, Collection Inventaires et Biodiversité, Biotope – Muséum national d’Histoire naturelle. 687 p.
- https://powo.science.kew.org/taxon/urn:lsid:ipni.org:names:397387-1
- Johnson, D.E. 1997. Weeds of rice in West Africa. ADRAO/WARDA, Bouaké, Côte-d'Ivoire. 141p; National Research Council (14 de febrero de 1996). 'Wild Grains'. Lost Crops of Africa: Volume I: Grains. Lost Crops of Africa. 1. National Academies Press. pp. 267;
- Fournet, J. 2002. Flore illustrée des phanérogames de Guadeloupe et de Martinique. Montpellier, France, Cirad, Gondwana éditions.
- Grossard, F., Le Bourgeois, T., Dumbardon-Martial, E. & Gervais, L. 2013. Adventilles - Guadeloupe & Martinique - Les adventices des Antilles françaises. Abymes, Guadeloupe, France, Les éditions du CTCS Guadeloupe. 195 p.
Etude floristique et phytoécologique des adventices des complexes sucriers de Ferké 1 et 2, de Borotou-Koro et de Zuenoula, en Côte d'Ivoire
Plantes envahissantes et dégradation des pâturages et des espaces pastoraux en Nouvelle-Calédonie
La flore des mauvaises herbes de la Canne à Sucre à La Réunion. Caractérisation à partir des témoins des essais d’herbicides. 2005-2016
Weeds of tropical rainfed cropping systems: are there patterns at a global level of perception?
Herbarium pictures ReCOLNAT: https://explore.recolnat.org/search/botanique/simplequery=Dactyloctenium%2520aegyptium
Attributions | |
Contributors | |
Status | UNDER_CREATION |
Licenses | CC_BY |
References |
Root | Root |
Kingdom | Plantae |
Phylum | Tracheophyta |
Class | Liliopsida |
Order | Poales |
Family | Poaceae |
Genus | Dactyloctenium |
Species | Dactyloctenium aegyptium (L.) Willd. |