[1] Blum U. 1996. Allelopathic interaction involving phenolic acids. J Nematol, 28:259 ~267 [2] Blum U. 1998. Effects of microbial utilization of phenolies acids and their phenolic acids breakdown products on allelopathic interaction.J Chem Ecol, 24:685~708 [3] Duke SO, Dayan FE, Rimando AM. 1998. Natural products as tools for weed management. Proc Jap Weed Sci, (supp.):1 ~11 [4] Einhellig FA. 1995. Allelopathy:Current status and future goal. In:Inderjit Dakshini KMM, Einhellig FA, eds. Allelopathy:Oroganisms, Processes, and Applications. American Chemical Society Symposium Series, ACS. Washington, DC. 58:1~24 [5] Einhellig FA. 1996. Interaction involving allelopathy in cropping systems. Agron J, 88:886~893 [6] Kong C-H(孔垂华),Xu T(徐涛).2000.Allelopathy under environmental stresses and its induced mechanism. Acta Ecol Sin (生态学报), 20 (5):849~854 (in Chinese) [7] He H-Q(何华勤),Dong Z-H(董章杭),Lin W-X(林文雄), et al.2002. New advance of research on allelopathy in rice(Oryza sativa L.).Res Agric Mod (农业现代化研究), 23 (2):140~143 (in Chinese) [8] He H-Q(何勤),Liang Y-Y(梁义元),Jia X-L(贾小丽), et al.2004. Weed-suppressive effect of phenolic acids. Chin J Appl Ecol(应用生态学报), 15(12) :2342~2346(in Chinese) [9] Inderjit J, Streibig C, Olofsdotter M. 2002. Joint action of phenolic acid mixtures and its significance in allelopathy research. Physiol Plantarom, 114:422 ~428 [10] Lin W-X(林文雄),He H-Q(何华勤), Guo Y-C(郭玉春), et al.2001. Rice allelopathy and its physiobiochemical characteristics.Chin J Appl Ecot(应用生态学报), 12(6) :871 ~875(in Chinese) [11] Lin Q-H(林群慧), Lin W-X(林文雄).2001.Study on the action mechanism of allelochemicals. Chin J Eco-Agric (中国生态农业学报), 9(1) :84~85(in Chinese) [12] Lydon J, Teadale JR, Chen PK. 1997. Allelopathic activities of annual wormwood (Artemisia annua) and the role of artimisinin.Weed Sci, 45:807~811 [13] Lyu SW, Blum U,Gerig TM, et al. 1990. Effects of mixtures of phenolic acids on phosphorus uptake by cucumber seedlings. J Chem Ecol, 16:2559 ~2567 [14] Macias FA, Oliva RH, Simonet AM, et al. 1998. What are the allelochemicals? In:Olofsdotter M ed. Allelopathy in Rice. Proccedings of the Workshop on Allelopathy in Rice. Manila, Philippines:International Rice Research Institute. 69 ~79 [15] Olofsdotter M, Jensen LB, Courtois B. 2002. Improving crop competitive ability using alleloapthy-An example from rice. Plant Breed, 121:1 ~9 [16] Olofsdotter M. 2001. Getting closer to breeding for competitive ability and the role of allelopathy - An example from rice (Oryza sativa). Weed Technol, 15:798~806 [17] Olofsdotter M. 1998. Allelopathy in Rice. In:Olofsdotter M ed. Allelopathy in Rice. Manila:International Rice Research Institute Publish. 1 ~5 [18] Olofsdotter M, Malou R, Artemio M, et al. 2002. Why phenolic acids are unlikely primary allelochemicals in rice. J Cheml Ecol, 28(1) :229 ~242 [19] Rice EL. 1984. Allelopathy. 2nd edtion. New York:Academic Press Inc. 130 ~188 [20] Rimando AM, Olofsdotter M, Duke SO. 2001. Searching for rice allelochemicals. An example of bioassays-guided isolation. Agric J,93:16~20 [21] Tsutomu O. 2001. Oxidation of phenolic acid derivatives by soil and its relevance to allelopathic activity. J Environ Qual, 30:1631 ~1635 [22] Wu HW, Haig T, Pratley J, et al. 2001. Allelochemicals in wheat(Triticum aestivum L.):Production and exudation of 2, 4-dihydroxy-7-methoxy- 1,4-benzoxasin-3-one. J Chem Ecol, 27 (8):1691~1700 [23] Wu HW, Haig T, Pratley J, et al. 1999. Simultaneous determination of phenolic acid and 2, 4-dihydroxy-7-methoxy-1, 4-benzoxazin-3-one in wheat(Triticum aestivum)by gas chromatographytandem mass spectrometry. J Chromatog A, 864:315~321 [24] Wu HW, Haig T, Pratley J, et al. 2000. Allelochemical in wheat(Triticum aestivum):Variation of phenolic acids in shoot tissues.J Chem Ecol, 27(1):125~135 [25] Wu HW, Haig T, Pratley J, et al. 2000. Allelochemical in wheat(Triticum aestivum):Variation of phenolic acids in root tissues. J Agric Food Chem, 28:5321 ~5325 [26] Wu HW, Haig T, Pratley J, et al. 2000. Distribution and exudation of allelochemicals in wheat Triticum aestivum. J Chem Ecol, 26(9) :2141~2154 [27] Wu HW, Pratley J, Lemerle D, et al. 1999. Crop cultivars with allelopathy capability. Weed Res, 39:171 ~180 |