Paspalum plicatulum Michx.
Paspalum plicatulum Michx. var. glabrum Arechav.
Paspalum plicatulum Michx. var. villosissimum Pilg.
Paspalum texanum Swallen
Family: Poaceae (alt. Gramineae) subfamily: Panicoideae tribe: Paniceae group: Plicatula.
plicatulum (Australia); brown-seed paspalum, brown top paspalum, plaited paspalum (USA); capim coquerinho, felpudo, pasto-negro (Brazil); zong zi que bai (China); herbe à cheval (French); camalote, gamelotillo, gamalote, gramalote, hierba de cepa (Spanish America); ya-phlikhathiulum (Thailand).
A tufted, decumbent to upright perennial, with foliage to about 60 cm and fertile culms to 1.3 m tall; shoots often purplish colour at base. Leaf sheaths glabrous or with few hairs towards the summit; ligule membranous 1-3 mm long; leaf blades glabrous to pubescent, 10-50 (-85) cm long, and 3-10 (-15) mm wide. Inflorescence a panicle comprising (3-) 10-13 (-26) racemes, 2-6 (-10) cm long, 1.5-2 mm wide. Spikelets in pairs, obovoid-ellipsoidal, 2-3 mm long, 1.5-2 mm wide; caryopsis dark brown, shining. 530,000-660,000 "seeds"/kg and 780,000-1 million caryopses/kg.
North America: USA (Alabama [south], Florida, Georgia, Louisiana, Mississippi [south], Texas), Mexico (Aguascalientes, Chiapas, Colima, Guerrero, Jalisco, Michoacan, Morelos, Nayarit, Nuevo Leon, Oaxaca, San Luis Potosi, Sinaloa, Tabasco, Tamaulipas, Veracruz).
Central America : Belize, Costa Rica, El Salvador, Guatemala, Honduras, Nicaragua, Panama.
Caribbean: Antigua and Barbuda, Barbados, Cuba, Dominica, Grenada, Guadeloupe, Jamaica, Martinique, Montserrat, Puerto Rico, St. Kitts and Nevis, St. Lucia, St. Vincent and Grenadines.
South America: Bolivia, Argentina, Brazil, Colombia, French Guiana, Guyana, Paraguay, Peru, Suriname, Uruguay, Venezuela.
In the USA, it is found in marshy or aquatic habitats, usually growing in shallow water. In South America, it is found in moist situations in the savannah (Cerrado and Pantanal).
Used primarily as a permanent pasture in seasonally poorly drained, low fertility soils. It can be used for hay and silage , as an understorey in coconut plantations, and in ley pastures following a rice crop.
Grows on a wide range of soils from poor to well-drained sands to clays, usually of low fertility and acid reaction - pH (4-) 4.5-5.5 (-7). Less fertility demanding than Paspalum dilatatum . It is fairly tolerant of high soil aluminium. No data have been found re salinity.
While it has been collected in areas with up to 3,500 mm annual rainfall, it is mostly found in areas with rainfall between about 1,200 and 1,500 mm and is mostly used in cultivation within this same rainfall range, although some success has resulted down to about 760 mm and up to about 2,000 mm. It is moderately drought-hardy, tolerating short dry periods with little adverse effect. It is very tolerant of flooding for short periods and waterlogging .
The distribution of P. plicatulum gives little insight into species temperature adaptation. It extends from about 31ºN in southern USA to 32°S in Argentina, and from near sea level to about 1,500 m asl. This is equivalent to a range in average annual temperatures from 17-27°C. Geographically, the cultivars appear to largely originate from the warmer part of this distribution. Optimum temperature for growth of lines tested lies in the range 9-23°C. Tops are burnt off by frost, but crowns survive, and regrow the following season.
P. plicatulum is generally considered to be intolerant of shade, although it can be useful in open shade such as under coconut plantations.
The cultivars have a short-day flowering response, with floral initiation occurring at a day length of 13 hours, and flowers appearing in March in the southern hemisphere. Genotypes from Bolivia and Argentina flower from as early as January at similar latitudes. Flowering terminates with the onset of winter and does not resume until the following summer.
P. plicatulum may not be as grazing-tolerant as other members of the Plicatula group such as P. atratum and P. nicorae , and decreases in a pasture under continuous grazing. It responds to periodic 30 day rests, but care should be taken not to allow it to become rank and unpalatable. It is best grazed when it is leafy in spring and summer rather than saved for autumn grazing or haymaking.
It survives burning.
Guidelines for the establishment and management of sown pastures.
It is normally planted from seed, but is readily established from plant "splits" if seed is not available. There is little or no post-harvest dormancy, and any dormancy can be broken by chilling seed at 7ºC for 30 days if necessary. While dried seeds re-imbibe if stored in humid conditions and rapidly lose viability , seed stored in a dry situation can last for two years. Seed germinates at 20-35°C. Seedling vigour is low, so it is best sown into a well-prepared, weed-free seedbed. It should be sown at 2-3 kg/ha, no more than 10-15 mm deep, then rolled to provide close contact with the soil.
It is mostly sown into low fertility soils, where it benefits from low applications of fertiliser, usually about 250 kg/ha of superphosphate, and other nutrients as required. Occasional dressings of 50-100 kg/ha N stimulate extra growth during the warm season. Although it responds to nitrogen, it will produce better than other grasses under low soil nitrogen supply. Calcium deficiency, which shows as tip death in young leaves has been noted but is rarely a problem if superphosphate is used.
Compatibility (with other species)
It combines well with a range of legumes to maintain a stable pasture . It should not be planted with more palatable grasses such as Setaria sphacelata since these will be selectively grazed leading to dominance of the least palatable species.
Grasses: Best planted as the only grass since animals tend to select alternative grasses, leading to P. plicatulum dominance.
Legumes: Desmodium intortum , D. uncinatum , Lotononis bainesii , Lotus uliginosus , Macroptilium atropurpureum , Stylosanthes guianensis, Trifolium repens, Vigna parkeri .
Pests and diseases
It is not subject to ergot (Claviceps paspali) attack, and has no other disease problem. It has no specific pests.
Ability to spread
It can spread quickly by seedlings.
Although P. plicatulum was planted extensively in some areas during the 1970s, there is little indication of its becoming a weed.
Nutritive value of P. plicatulum tends to be lower than that of many other sown tropical grasses, particularly once mature. CP levels range from 5-12%, and IVDMD from 39-50% for whole plant tops, and 50-70% for leaf. In one study on 'Rodd's Bay' cut at 12-weekly intervals, the average P level in the DM was 0.15%, K 1.2%, Ca 1.2%, Mg 0.4%, and Na 0.1%.
'Bryan' is more palatable than 'Rodd's Bay' and 'Hartley'. Most other commonly sown warm season grasses are more readily eaten at a similar stage of growth. Mature growth is poorly accepted by cattle, but can provide useful low-quality roughage to supplement with urea-molasses mixtures. The more pubescent genotypes are considered to provide the best forage of any native grass in Bolivian cerrado communities.
No toxicity has been reported. Oxalate levels are very low, 0.02% of the DM, compared with over 5% in Setaria sphacelata. There is a suggestion of allelopathy caused by roots of P. plicatulum on subsequent lettuce crop.
Annual DM yields are mostly of the order of 8-12 t/ha, and up to 24 t/ha. Early spring growth is slower than that of P. dilatatum and P. wettsteinii (malacophyllum).
Grass legume pasture based on 'Rodd's Bay' stocked at 1.7-2.5 beasts/ha produced annual live-weight gain of 232 kg/ha, compared with 272 kg/ha from P. dilatatum and 290 kg/ha from Digitaria eriantha over an 8-year period. 'Bryan' fertilised with 440 kg/ha N and stocked at 5 steers/ha averaged 740 kg/ha live-weight gain.
Mostly segmental allotetraploids (2n = 4x = 40) reproducing by aposporous apomixis , as well as occasional self-incompatible, sexual diploids (2n = 2x = 20). One hexaploid (2n = 6x = 60) has been identified.
It has been suggested that induced sexual tetraploids from doubling the chromosome complement of the diploid material may hold the key in crossing with natural apomictic tetraploid types, to increase variability and fix heterosis at the tetraploid level.
In the southern hemisphere, crops are usually started in mid-January for 'Bryan' and 'Rodd's Bay', and early 'February for 'Hartley'. Stands flower earlier, yield better and the seed viability is higher if nitrogen is applied at about 100 kg/ha. Crops mature in late April/early May, and timing of harvest is critical within a 4-10 day "window of opportunity", if peak yields are to be obtained. The seed turns brown at maturity, about 18-22 days after peak flowering. Although presentation seed yields approaching 1.4 t/ha seed are quoted, commercial yields are of the order of 250 kg/ha for 'Bryan', 150 kg/ha for 'Rodd's Bay', and 130 kg/ha for 'Hartley'.
Combine-harvested and/or rapidly dried seed of Paspalum plicatulum has a relatively short shelf life under normal storage. While similarly structured, related seeds are prone to both some threshing damage and some fast-drying damage, plicatulum is particularly sensitive. Hand-cut, slow-dried seed shows normal rates of deterioration.
Susceptible to atrazine.
- Tolerates waterlogging and flooding.
- Produces fairly well on poor soils.
- Does not become sod-bound.
- Combines well with legumes.
- Moderate drought tolerance.
- Low nutritive value compared with many other tropical sown grasses.
- Becomes unpalatable with maturity.
- Barreto, I.L. (1956) Las especies afines a Paspalum plicatulum en Rio Grande del Sur (Brasil). Revisita Argentina de Agronomía, 23, 53-70.
- Bogdan, A.V. (1977) Tropical Pasture and Fodder Plants. pp. 205-212. (Longman: London and New York).
- Burson, B.L. and Bennett, H.W. (1971) Meiotic and reproductive behaviour of some introduced Paspalum species. Journal of the Mississippi Academy of Sciences, 17, 5-8.
- Cameron, A.G. and Humphreys, L.R. (1976) Nitrogen supply, CCC, and harvest time effects on Paspalum plicatulum seed production. Tropical Grasslands, 10, 205-211.
- Hacker, J.B., Williams, R.J., Vieritz, A.M., Cook, B.G. and Pengelly, B.C. (1999) An evaluation of a collection of Paspalum species as pasture plants for southeast Queensland. Genetic Resources Communication No. 32. (CSIRO Tropical Agriculture, St Lucia, Qld, Australia) ISBN 0 643 05915 6.
- Mannetje, L. 't (1961) Key on vegetative characters of Paspalum species. Technical Paper No 1. (CSIRO Division of Tropical Pastures, St Lucia, Qld, Australia).
- Mannetje, L. 't and Kersten, S.M.M. (1992) Paspalum plicatulum Michaux. In: 't Mannetje, L. and Jones, R.M. (eds) Plant Resources of South-East Asia No. 4. Forages. pp. 183-185. (Pudoc Scientific Publishers, Wageningen, the Netherlands).
- Takayama, S.Y., Freitas, P.M., Pagliarini, M.S. and Batista, L.A.R. (1998) Chromosome number in germplasm accessions of Paspalum (Plicatula group) from different regions in Brazil. Euphytica, 99, 89-94.
|Queensland, Australia (1975)||From Venezuelan lowlands. Similar to 'Rodd's Bay', but distinguished by having a larger seedhead and a distinct collar of hairs at the junction of the leaf blade and sheath on the abaxial surface; and a zone of hairs c. 1.0 mm long extending for at least 2 cm down the sheath, and tapering towards the midrib. Flowering time is similar to that of 'Rodd's Bay' but earlier than in 'Hartley'. Reputedly the most palatable of the three cultivars (none is as palatable as most other sown grasses in similar situations) and less competitive than 'Rodd's Bay' which is very competitive with legumes.|
(CPI 11826, PI 299067, PI 292191, PI 339896)
|Queensland, Australia (1963)||From Brazil. A tetraploid aposporous apomict (2n = 40). Differs from 'Rodd's Bay' and 'Bryan' in having broader leaves and no hairs on the leaf blades or sheaths of more mature plants. Tends to give slightly lower yields than 'Rodd's Bay', but is of higher nutritive value. Flowers 2-3 weeks later than 'Rodd's Bay', and produces less seed. Has high nutritive value and high intake, even after frosting, and combines well with legumes.|
|Queensland, Australia (1963)||Institutional collection from Guatemala. A tetraploid aposporous apomict (2n = 40). Differs from 'Hartley' in having slightly narrower leaves, and hairs on the leaf-blade of more mature plants. Higher DM production but lower nutritive value than 'Hartley'. Persists with legume under intermittent, rotational, and continuous grazing. Flowers 2-3 weeks earlier than 'Hartley', over a short period in late summer. Grows faster than naturalised Paspalum dilatatum in summer and autumn.|
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