Evaluation of Potential Sources of Allelochemicals in Lalang
Aqueous leachates from fragmented lalang (I. cylindrica (L) Raeuschel var. major) dead leaves in situ, caused delayed germination in biossays of all six species of pasture legumes tested, while radicle and shoot growth were inhibited in two of the test species. Phytotoxicity was dependent on the q...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English English |
| Published: |
1988
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| Online Access: | http://psasir.upm.edu.my/id/eprint/2596/1/Evaluation_of_Potential_Sour~es_of_Allelochemicals_in_Lalang.pdf http://psasir.upm.edu.my/id/eprint/2596/ |
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| Institution: | Universiti Putra Malaysia |
| Language: | English English |
| Summary: | Aqueous leachates from fragmented lalang (I. cylindrica (L) Raeuschel var. major) dead leaves
in situ, caused delayed germination in biossays of all six species of pasture legumes tested, while radicle
and shoot growth were inhibited in two of the test species. Phytotoxicity was dependent on the quantity
of plant residues available in the proximity of germinating phytometer species. Leachates from rhizome
and root fragments exhibited strong inhibitory activity even at the 5% (w/v) level while leaf leachates
were inhibitory at the 10% level and higher. In pot experiments with soil containing living lalang tillers
or incorporated with rhizome or root fragments, phytotoxicity development in the soil extracts was
evident at four weeks of growth or decay. In soils with decaying roots or rhizomes there was a sub-sequent loss in activity over the eight week incubation period. Extracts of soils with living tillers showed
loss of activity at six weeks of growth followed by a significant stimulatory response at eight weeks. The
use of two controls (control-soil extract and distilled water control) enabled detection of inherent
stimulatory activity in the control soiL Comparison with both controls to eliminate such influences
showed only living tillers, and decaying rhizomes and roots as major potential sources of inhibitory
substances. The common soil organism, Bacillus cereus (Frankland & Frankland), Alcaligenes faecalis
Castellani & Chalmers) and a Trichoderma sp. were found to be associated with the decay of rhizomes
resulting in an initial stimulatory growth reponse in the phytometer species followed by inhibition and
subsequent loss in activity. The nature of these organisms suggest that the release ofPhytotoxins through
decay of rhizomes as a common, natural phenomenon in most soils. The dead leaves accumulating as litter
in mature lalang vegetation may serve as an additional source of water leachable allelochemicals if
sufficient quantities were available in contact with the soil. |
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