We have developed new %26apos;Sloped Box%26apos; technique to investigate the role of allelopathy in spread of A. dealbata under competitive interactions. The germination of Plantago lanceolata L. and Trifolium pratense L. was accelerated in seeds near to Acacia dealbata Link. In 3 out of 4-test species, the photochemical efficiency of photosystem II was increased with time, in plants grown around A. dealbata and plants in first part of underside of the slope. Interestingly, the above ground biomass of P. lanceolata and Taraxacum officinale Weber ex F. H. Wigg were lowest in plants closer to A. dealbata, followed by the plants grown on the first part of lower side of slope and the highest in plants on the top and bottom of slope. We found that plants around the invasive species were more affected than those on the edges of pots. We concluded that the invasive A. dealbata could affect the autochthonous plant species by naturally releasing the organic compounds that act as allelochemicals, although the interaction of other factors cannot be overlooked. Its effect is focussed on plants located near the individual donors. This new method may be adequate to study allelopathy and help in understanding the allelopathic process and competitive mechanisms.

• 出版日期2012-4