Bothriochloa bladhii (Retz.) S.T. Blake subsp. glabra (Roxb.) B.K. Simon
Andropogon glaber Roxb.
Bothriochloa glabra (Roxb.) A. Camus
Family: Poaceae (alt. Gramineae) subfamily: Panicoideae tribe: Andropogoneae.
Australian bluestem, australian beardgrass, old world bluestem, caucasian bluestem, plains bluestem, forest bluegrass, purple plume grass, blouklosgras; desum (Palau); latoka grass, thamboni grass (Fiji).
A variable subspecies; ascending to erect, tufted perennial with foliage 40-80 cm, culms largely unbranched, 1-1.5 m high at maturity; sometimes with short stolons. Leaf blades glabrous or hairy, 20-30 (rarely -50) cm long and 5-7 (rarely -10) mm wide, linear-lanceolate, tapering gradually from the base to a fine point. Inflorescence a subdigitate panicle, comprising up to 20, mostly simple, green to purplish racemes. Seed unit comprising sessile and pedicellate spikelet, with 11-18 mm awn arising from the sessile spikelet . Distinguished from subsp. bladhii by presence of a dorsal pit in the lower glumes of the sessile spikelet. Leaves and inflorescence strongly aromatic when crushed. 1.6 million seed units/kg.
Bothriochloa bladhii (Retz.) S. T. Blake is a diverse species distributed widely through Africa, Asia and Australia. The distributional limits for subsp. glabra, which is distinguished from subsp. bladhii (syn. B. intermedia) by the presence of pits on the lower glume of the sessile spikelet , are not clear. References in the literature to Bothriochloa glabra, may correctly refer to this subspecies, or incorrectly to other members of the complex. Common names probably largely refer to the latter. It appears that subsp. glabra is largely confined to India, Indonesia, Madagascar, and south central Africa, from Zambia to north and east South Africa.
It occurs in savannas, open forest and grasslands, often on alluviums, but also in 'vleis'.
Now naturalised elsewhere, including Australia. To date, cultivated material originates (or probably originates) from India.
Primarily used as permanent pasture on lower fertility soils. Fine leaf and stem make good hay providing cut before flowering. Limited value for standover feed due to high concentration of inflorescences and loss of quality due to rust disease.
Grows on soils with textures from sandy loam to clays and hard-setting clay loams, with pH from 5.5-8.4. Grows on both fertile and infertile soils, provided exchangeable aluminium levels are fairly low.
Occurs naturally in areas with rainfall to >2,000 mm, often with a distinct dry season. A drought-hardy species, particularly if well grazed to reduce the amount of foliage and hence, water use. Cultivars have been successful mostly in areas with rainfall above 750 mm, although can tolerate as low as 600 mm/yr. Can stand temporary waterlogging and flooding, but not tolerant of permanently wet conditions.
Occurs from sea level near the equator to >2,500 m at 32º latitude, representing a difference of some 14ºC in average annual temperature over the distributional range. Grass temperatures where cultivars have been successful can be as low as -8ºC.
Low to moderate shade tolerance.
Flowers throughout the growing season , although cultivars have a flush of flowering towards the end of March in the southern hemisphere subtropics.
Tolerant of heavy grazing, including by sheep, adjusting growth habit to prostrate to accommodate pressure. Grazing should be managed to maintain as leafy a sward as possible, entailing increasing grazing pressure at flowering if necessary.
Very tolerant of fire.
Guidelines for the establishment and management of sown pastures.
Fresh seed has low germination and takes 6-7 months after harvest to reach maximum germination. Establishes well from seed broadcast onto a cultivated surface, sown at 1-3 kg/ha. This is a fluffy seed, so there may be benefit in pelleting de-awned seed to make it easier to pass through planting equipment.
Not fertility demanding. Responds to applied nitrogen on infertile soils.
Compatibility (with other species)
Grows well with legumes and other grasses. May become dominant when sown with more palatable grasses such as Digitaria eriantha .
Grasses: Bothriochloa pertusa , B. insculpta , Heteropogon contortus .
Legumes: Aeschynomene falcata , Chamaecrista rotundifolia , Lotononis bainesii , Stylosanthes hamata , S. scabra , Trifolium subterraneum.
Pests and diseases
In Australia, the same pests and diseases attack introduced varieties, as are found on the native ecotypes of Bothriochloa bladhii. Seed crops can be adversely affected by a leafhopper, Balclutha rubrostriata (Cicadellidae) that infests the inflorescence . Leaf rust caused by Puccinia duthiae is often severe late in the growing season, and is favoured by wet weather. The combination of rust affected leaf and the high stem component at flowering renders the forage unpalatable to livestock late in the growing season in lightly summer-grazed stands.
Ability to spread
Shows indications of becoming a weed of turf.
CP levels of 7-14% and IVDMD of up to 58% have been recorded. The higher levels decline rapidly with age of regrowth and with the onset of flowering.
Cultivars and elite accessions are well accepted by all grazing livestock when young and leafy. Less acceptable as leaf ages, and with flowering and attack by rust disease. Not as palatable as Digitaria eriantha or Bothriochloa pertusa at the same stage of growth, but 50-80 % of available forage consumed. Indonesian ecotypes appear to be unpalatable at all stages.
No record of toxicity.
Yields of rain-grown forage between 5 and 10 t/ha DM, and >20 t/ha DM under fully irrigated conditions.
90-135 kg/hd LWG and 0.5-0.9 kg/hd/day over 5-6 month growing season. In a seasonally cold, sub-humid environment, can raise carrying capacity from 1.5 sheep/ha to 4 sheep/ha when used in association with legume .
Facultative apomict . While Bothriochloa bladhii is recorded as having chromosome number of 2n = 40, 50, 60, 80, there is no record of the chromosome number for subsp. glabra specifically. Introgresses with Dichanthium and Capillipedium in native populations.< /EM >
Possible to obtain a light crop early in the growing season , and a heavy crop later in the season. Balclutha rubrostriata can be controlled with dimethoate if numbers become excessive. Small plot yields of up to 500 kg/ha clean seed have been achieved.
Tolerant of pre- and post-emergent (2-3-leaf stage) applications of metsulfuron methyl and triasulfuron. Susceptible to imazapic in both pre- and post-emergent treatments.
- Grows on low fertility soils.
- Drought tolerant.
- Tolerates heavy grazing.
- Less palatable than some other C4 grasses.
- Susceptible to leaf rust.
- Becomes unpalatable with maturity and rust.
Cultivars have much in common with Bothriochloa ischaemum (L.) Keng and Bothriochloa caucasica (Trin.) C. E. Hubb., the latter now being considered synonymous with Bothriochloa bladhii (Retz.) S. T. Blake. Ecologically comparable with B. decipiens var. decipiens and B. macra in Australia.
|Australia (1994)||Introduced as Andropogon ischaemum (subsequently revised to B. ischaemum , and then to current status). From Guyana Highlands (4ºN). Similar in most respects to 'WW-B. Dahl', suggesting northern Indian origin. Selected for persistence in low fertility, hard setting, upland soils in the sub-humid subtropics where few other C4 grasses survive.|
(PI 300857, A-8965, WW-857))
|USA (1994)||From Manali, India (32ºN, 2,600 m asl, rainfall 1,600 mm, 7 months dry season). Erect, lower-growing, leafy, multi-culmed type, foliage usually about 50 cm high, becoming prostrate under heavy grazing. Extensively tested in Texas. Higher yielding but less winter hardiness than other old world bluestems.|
|CPI 52194||Australia||From Mampikony, Madagascar (16ºS, 130 m asl, rainfall 1,600 mm). More robust tussock type, well grazed.|
|CPI 104802A||Australia||From Madhya Pradesh, India (23ºN, 450 m asl, rainfall 1,420 mm. Shortly stoloniferous type, well grazed.|
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