Leucaena spp. artificial hybrids
Leucaena pallida x Leucaena leucocephala ssp. glabrata
Leucaena diversifolia x Leucaena leucocephala ssp. glabrata Leucaena esculenta x Leucaena leucocephala ssp. glabrata
Leucaena trichandra x Leucaena leucocephala ssp. glabrata
Leucaena leucocephala ssp. glabrata x Leucaena leucocephala ssp. glabrata
These artificial, interspecific hybrids have been produced for forage and fuelwood production. Two naturally occurring hybrids are described by Hughes (1998), but are not listed here. Leucaena xspontanea (L. diversifolia x L. leucocephala ) and Leucaena xmixtec (L. esculenta x L. leucocephala ) are common in parts of Mexico.
Family: Fabaceae (alt. Leguminosae) subfamily: Mimosoideae tribe: Mimoseae. Also placed in: Mimosaceae.
KX2, Ohana (L. pallida x L. leucocephala ssp. glabrata)
KX3, Bharu (L. diversifolia x L. leucocephala ssp. glabrata)
Rendang (L. trichandra x L. leucocephala ssp. glabrata)
LxL (L. leucocephala ssp. glabrata x L. leucocephala ssp. glabrata)
K1000 (L. esculenta x L. leucocephala ssp. glabrata)
In general, the morphological traits of hybrid accessions are intermediate between the parental accessions. Where hybrids have parents of different ploidy levels the morphology will generally be biased towards the parent of higher ploidy level due to the recognised dosage effect. See fact sheets for morphological details of parental species.
The hybrids reported in this section have been artificially produced for specific purposes and have no natural distribution.
KX2 F1, Ohana, KX3, Rendang and Bharu are used primarily for forage production but also for fuelwood production and as shade trees.
The L. leucocephala x L. esculenta hybrid, K1000, is used as amenity shade tree .
In their native range, Leucaena spp. grows on shallow limestone soils, coastal sands and seasonally dry, self-muching vertisol soils of pH 7.0-8.5. In exotic locations they require well-drained soils with pH (H2 O) above 5.5, or above 5.0 where aluminium saturation is very low. Some hybrids have improved acid soil tolerance c.v. L. leucocephala , but, in general, the hybrids are intolerant of soils with low pH, low P, low Ca, high aluminium saturation, and are sensitive to high salinity and waterlogging .
The artificial hybrids require adequate soil moisture to express their improved growth potential and are unlikely to achieve this in very dry environments. Optimum growth will be achieved in subhumid and humid climates of 1,000-2,500 mm and up to 3,500 mm annual rainfall in environments with no distinct dry season. Reasonable growth will be achieved in drier environments (above 600 mm/year).
KX2, KX3 and K1000 hybrids generally possess some cold adaptation in comparison to L. leucocephala , although light frosts will kill leaf and very heavy frosts will kill stems back to ground level. Require temperatures of 25-30ºC for optimum growth. Growth ceases at 14-15ºC.
Unknown, but likely to be similar to L. leucocephala , being productive under moderate shade to 60% of photosynthetically active radiation (PAR ).
KX2 F1 hybrids are self-incompatible, but segregate strongly in subsequent generations with many individuals becoming self-fertile. They generally flower into shortening days and produce only light seed crops. KX3 hybrids are self-fertile. K1000 is sterile and will flower profusely but will not produce seed.
Extremely tolerant of regular defoliation by cutting, but marginally less persistent than L. leucocephala under grazing. L. leucocephala growing on a poorly drained podsolic in southeast Queensland, Australia had a half-life of 23 years under regular grazing, but much longer life span can be expected under favourable conditions.
Mature plants are tolerant of moderate intensity fires, regrowing readily from burnt stumps.
Guidelines for the establishment and management of sown pastures.
Hybrids generally have a more rapid establishment than L. leucocephala . Essential to control competition from weeds. For best results plant on deep, well drained soils with a pH >5.5 and maintain a weed-free area of at least 2 m either side of the establishing plants. Seed must be scarified to break the impermeable testa. Previously, hot-water treatment was recommended but resulted in highly variable results including reduced viability. Mechanical scarification, using coarse sandpaper (for small seed lots) or abrasive-lined rotating drum scarifiers, is now preferred. Specific rhizobium is required (eg. CB3060, TAL1145, LDK4).
Complete cultivation is recommended for extensive plantings. Planted into rows 4-9 m apart at seeding rates of 1.5-3.0 kg/ha. Rolling cultivators can be used to control very young weed seedlings and break soils crusts before or after emergence of leucaena seedlings. Small areas can be planted using seed or seedlings. Seedlings are normally raised in poly bags for plug planting at 3-4 months old. Seedlings can also be raised in beds and removed for planting as bare-rooted seedlings if 'topped and tailed'.
Normally not fertilised under rain-grown conditions. Starter N and P may be used when establishing into depleted soils on cropping lands. Leucaena in Australia has occasionally responded strongly to added sulphur. On acid-infertile soils it is essential to add lime, P and K at planting and after each cut. Hybrid leucaenas are planted into acid soils in northern Vietnam using a similar system as for planting of citrus, viz. digging a hole of 0.5-0.75 m³ and filling with lime, composted manure and topsoil. Trees are fertilised with compost annually.
Compatibility (with other species)
Compatible with a range of grass and legume species. Can be difficult to establish leucaena into existing grass pastures without clean cultivation or removal of competition. Height management is essential to prevent rapidly growing hybrids from growing out of reach of grazing livestock. This can be achieved through a combination of grazing and slashing.
Grasses: Hybrids have been grown experimentally with signal grass (Brachiaria decumbens ) in Papua New Guinea and wet tropical Australia and with imperata (Imperata cylindrica) in Indonesia and the Philippines.
Normally grown as a hedgerow with grasses or crops grown between hedgerows. Can be grown as a sole species in a forage bank.
Pests and diseases
Many hybrids were initially bred for resistance to the psyllid , Heteropsylla cubana, a small aphid-like sucking insect that reduces production of all L. leucocephala cultivars and accessions. KX2 F1 and K1000 hybrids are highly psyllid -resistant, whereas some of the advanced generation hybrids have only moderate resistance.
Newly emerged nursery and field-grown seedlings are susceptible to damping-off diseases caused by the fungal species Pythium or Rhizoctonia.
Soil insects such as earwigs, scarab beetles, termites and cut worms can cause serious damage to emerging seedlings and should be controlled.
Seed production can be reduced by the flower-eating larvae of the moth Ithome lassula, and by seed-eating bruchid beetles.
Other pests and diseases that attack L. leucocephala may also attack Leucaena hybrids.
Ability to spread
Will not normally spread under grazing as cattle, goats and sheep relish young seedlings.
K1000 has no weed potential, being a sterile triploid . Other leucaena hybrids are known to be shy seeding and are commonly self-incompatible, thereby reducing their weed potential. Where trees are permitted to seed, segregation among the resultant seedlings may re-establish self-compatibility, higher seed production, and higher weed risk.
Forage hybrids have similar crude protein concentrations to L. leucocephala (20-37%). Hybrids contain varying concentrations of condensed tannins (CTs). KX2 F1 contains higher concentrations (3-7%) of CTs than L. leucocephala (2-5%), but lower concentrations than for L. pallida (5-17%). From feeding and grazing trials it is apparent that the measurable, but minor reduction in nutritive value of KX2 F1 is the result of the increased CT concentration.
KX2 F1 is highly palatable to most grazing animals, especially compared to other forage tree legumes such as Calliandra calothyrsus and Gliricidia sepium . KX2 F1 ranked together with L. leucocephala accessions as being highly palatable to sheep and cattle in cafeteria trials in Australia and the Philippines. K1000 is probably the least palatable of the hybrids due to the low palatability of the L. esculenta parent.
Contains mimosine, a non-protein amino acid that has antimitotic and depilatory effects on animals. Concentrations in the edible fraction of KX2 F1 ranged from 2-3% mimosine, considerably lower than for L. leucocephala . Mimosine is acutely toxic to animals but is normally converted to 3-hydroxy-4(IH)-pyridone (DHP) upon ingestion. DHP is goitrogenic and, if not degraded, can result in low serum thyroxine levels, ulceration of the oesophagus and reticulo-rumen, excessive salivation, poor appetite and low liveweight gains, especially when the diet contains more than 30% leucaena. In most countries in the Americas and southeast Asia, rumen microbes can completely detoxify DHP and specific DHP degrading bacteria have been identified and transferred to Australia, USA, Africa and China.
Very high forage yields have been recorded for KX2 hybrids in southeast Asia, Australia and Hawaii, producing >15 t/ha/year DM with plants 0.5-1.0 m apart, in rows 1-3 m apart. KX2 F1 hybrid was extremely vigorous in agronomic trials throughout southeast Asia and Australia, generally outperforming other Leucaena accessions by 20-100%. Mean yields of 360 g/m row/month DM were achieved from a range of KX2 F1 hybrids grown in line plots at 18 sites in 7 countries. Under regular cutting, advanced generation KX2 and KX3 hybrids were considerably lower yielding compared with KX2 F1 hybrids.
In subtropical Australia, wood yields of KX2 F1 hybrid trees grown in line plots averaged 37 kg/tree/year DM over a two-year period and were nearly double the yield of the best non-hybrid accessions. Advanced generation KX2 and KX3 hybrids averaged 20 kg/tree /year DM. Few details are available for DM yields of other leucaena hybrids.
Relatively few animal production experiments have been conducted with hybrid accessions. In subtropical Australia, cattle grazing KX2 F1 hybrid leucaena produced liveweight gains of 0.5 kg/head/day over a 4-month period, in comparison to L. leucocephala and L. pallida , which supported liveweight gains of 0.6 and 0.3 kg/head/day respectively. In northern Vietnam, lactating goats maintained milk production when concentrate feeds were replaced with KX2 F1 hybrid forage .
The University of Hawaii has undertaken considerable research to determine ploidy levels, chromosome numbers and cross-compatibility among species of Leucaena (see Brewbaker and Sorensson 1994 or Hughes 1998). Several hybrids were developed and evaluated through this program. MARDI, Malaysia and EMBRAPA, Brazil collaborated to produce the acid-soil tolerant hybrids 'Bharu' and 'Rendang'. The University Federal do Rio Grande do Sul, Brazil is currently conducting a program to develop cold-tolerant leucaena hybrids. The University of Queensland, Australia is currently conducting a program to develop a psyllid-resistant KX2 hybrid .
In central Queensland, Australia (27ºS) peak flowering of KX2 occurs from February to April, although trees may not flower in their first year. Little known regarding the potential seed yields, but they are expected to be as low as 100 kg/ha/year.
Herbicides such as bentazone (post-emergence) and imazethapyr (post-plant) can be used to control weeds in establishing leucaena hybrids. Can be controlled by basal bark application of herbicides containing 120 g/L picloram and 240 g/L triclopyr mixed with diesel. Glyphosate will kill slashed regrowth although repeat applications may be necessary.
- Most hybrids exhibit extremely vigorous growth, given suitable soil moisture.
- Higher psyllid resistance than L. leucocephala , especially KX2 F1 and K1000.
- More broadly adapted, including low temperature adaptation (not frost tolerance ) and moderate adaptation to acid-infertile soils.
- Recurrent selection programs are making seed more readily available.
- Seed of F1 hybrids is very expensive and available only in limited quantities.
- KX2 F1 hybrids do not breed true to type and are moderately difficult to produce from stem cuttings.
- Forage quality of KX2 is slightly lower than that of L. leucocephala .
- Advanced generation hybrids are generally less productive than F1s.
There is considerable interest in producing sterile triploid accessions by crossing tetraploid and diploid species for forage and timber production. Sterility will overcome the weed threat posed by leucaenas in some environments.
- Brewbaker, J.L. and Sorensson, C.T. (1994) Domestication of lesser-known species of Leucaena. In: Leakey, R.R.B. and Newton, A.C. (eds) Tropical trees: the potential of domestication and rebuilding of forest resources. HMSO, London.
- Hughes, C.E. (1998) Leucaena, A genetic resources handbook. Oxford University Press, UK.
- Mullen, B.F., Shelton, H.M., Gutteridge, R.C. and Basford, K.E. (2003) Agronomic evaluation of Leucaena. Part 2. Adaptation to environmental challenges in multi-environment trials. Agroforestry Systems, 58, 93-107.
- Shelton, H.M., Gutteridge, R.C., Mullen, B.F. and Bray, R.A. (1998) (eds) Leucaena - adaptation, quality and farming systems. ACIAR, Canberra, Australia.
|'KX2 Ohana'||University of Hawaii (1996)||From an original cross between L. pallida K376 and L. leucocephala K8. Developed over 6 cycles of recurrent selection to produce a high yielding, psyllid-resistant hybrid for tropical low to mid-elevation environments.|
|'KX2' hybrids||University of Hawaii (1990)||Refers to a range of L. pallida x L. leucocephala hybrid accessions (F1-F6), but predominantly K376 x K8. Developed as psyllid resistant forage /fuelwood species. Released for widespread evaluation in the early 1990s. The program culminated in the release of 'Ohana'.|
|'KX3' hybrids||University of Hawaii (1990)||Refers to a range of L. diversifolia x L. leucocephala hybrid accessions (F1-F4), but predominantly K156 x K8. Developed as psyllid resistant fuelwood/forage species. Released for widespread evaluation in the early 1990s.|
|'K1000'||University of Hawaii (1998)||L. esculenta x L. leucocephala hybrid. A very fast-growing, sterile hybrid with potential as an amenity shade tree. Can be easily propagated from stem cuttings.|
|'Bharu'||Malaysian Agricultural Research and Development Institute (MARDI) (1998)||Developed as a psyllid-resistant and acid soil tolerant forage and fuelwood cultivar. Based on a hybrid between L. leucocephala and L. diversifolia .|
|'Rendang'||MARDI (1998)||Developed as a psyllid resistant and acid soil tolerant forage cultivar. Based on a hybrid between L. leucocephala and L. trichandra .|
University of Hawaii (1990)
The original hybrid, K748 x K636 was produced by the University of Hawaii. A subsequent reciprocal hybrid (K636 x K748) was produced by the Forest Science Institute of Vietnam. These have been extensively evaluated and promoted for ruminant production in Southeast Asia and Australia by the University of Queensland. Uptake by farmers has been hampered by the necessity to produce seed by manual pollination, or cuttings by vegetative propagation from stem cuttings.
University of Queensland (1998)
Currently under development from 6 KX2 F1 hybrids initially developed by the University of Hawaii, this recurrent breeding program aims to produce a psyllid-resistant, cold-tolerant hybrid for forage production in tropical and subtropical locations. Due for release in 2008/2009.
University Federal do Rio Grande do Sul, Brazil.
Developing cold-tolerant hybrids for southern Brazil.
Copyright © 2017. All rights reserved.