ISSN 1001-9332 CN 21-1253/Q
Chinese Journal of Applied Ecology ›› 2000, Vol. ›› Issue (1): 153-157.
Previous Articles Next Articles
ZHANG Shuxiang, GAO Ziqin
Received:1998-08-18
Revised:1999-10-28
Online:2000-01-25
ZHANG Shuxiang, GAO Ziqin. Continuous cropping obstacle and rhizospheric microecology Ⅱ Root exudates and phenolic acids[J]. Chinese Journal of Applied Ecology, 2000, (1): 153-157.
| 1 Baziramakenga R.1995. Effects of benzonic and cinnamic acids on membrability of soybean roots.J Chem Ecol,(10):1272~1281
2 Blum U and Shafer SR. 1988.Microbial population and phenolic acids in soil.Soil Biol Biochem,20(6):793~800 3 Beijing Agricultural University Compiling (北京农业大学编译室).1996. Advance in Plant Rhizosphere Ecology and Bio-prevention for Root Desease.Beijing: People University Press of China.44~94(in Chinese) 4 Chaboud A.1983.Isolation,purification and chemical composition of maize root cap slime.Plant and Soil,73:395~402 5 Dao TH. 1987. Sorption and mineralizatoin of plant phenolic acids in soil.Allelochemicals,(3): 358~370 6 Darcy LA. 1987. Study of soybean and lentil root exudates influence of soybean isofavonoids on the growth of rhizobia and some rhizospheric microorganisms. Plant and Soil, 101:267~272 7 Darrah PR.1991.Models of the rhizosphere II. A quasi three-dimensional simulation of the microbial population dynamics around a growing root releasing soluable exudates. Plant and Soil,138:14~158 8 Einhellig FA. 1995. Mechanism of action of allelochemicals in allelophthy.Allelopathy,(1):97~115 9 Fang Q(方奇). 1987. Effect of continuously planted fir on forestry growth and soil fertility. For Sci(林业科学),4:7~11(in Chinese) 10 Flaig W. 1971. Organic compounds in soil. Soil Sci, 111:19~33 11 Graham TL.1991.Flavonoid and isoflavonoid distribution in developing soybean seeding tissues and in seed and root exudates. Plant Physiol,95:594~603 12 Haider K.1975. Decomposition of specificaity carbon-14 labled benzoic and cinnamic acid derivatives in soils. Soil Sci Soc Amer Proc, 39:657~667 13 Hartenstein R. 1982. Effect of aromatic compounds humic acids and lignins on growth of the earthworm(Eisenia foetida).Soil Bio Biochem,14:595~599 14 Hartwig UA.1990.Chrysoeriol and luteolin released from alfalfa seeds induce nod genes in rhizobium meliloti. Plant Physiol,92:116~122 15 Huang S-K(黄水奎). 1982. Abstract of Humic Acids Chemistry. Beijing:Agriculture Press.(in Chinese) 16 Huang PM and Wang TSC. 1977. Retention of phenolic acids by noncystalline hydroxyalumium and iron compounds and clay minerals of soils. Soil Sci, 123(4):213~219 17 Katase T. 1981. Distribution of different forms of p-hydroxybenzoic,vanillic,p-coumaric and ferulic acids in forest soil. Soil Sci Plant Nutr, 27(3):365~371 18 Kent NP. 1988. Alfalfa root exudates and compounds which promote or inhibition induce of rhizobium melilot nodulation genes. Plant Physiol,90:396~400 19 Kuiters AT. 1987. Water -soluble phenolic substance in soils under several conifZ 10,Flaig W. 1971. Organic compounds in soil. Soil Sci, 111:19~33 11 Graham TL.1991.Flavonoid and isoflavonoid distribution in developing soybean seeding tissues and in seed and root exudates. Plant Physiol,95:594~603 12 Haider K.1975. Decomposition of specificaity carbon-14 labled benzoic and cinnamic acid derivatives健STHZ 20:1557~1569 22 Li H-L(李洪连), Fang W-P(房卫平).1998. Machanism of bio-chemistry for anti-yellow dwarf of cotton Ⅱ. Effect of exudates of different anti-prosoerties sort on virus and analysis of amonia acids. Chem Ecol(化学生态学),2:177~180(in Chinese) 23 Lin J-Y(林金沐).1984. Soil organnic acids under paddy field. Soil J(土壤通报),15(5):236~239(in Chinese) 24 Lipton DS. 1987.Citrate, malate and succinate concentration in exudates from p-sufficient and p-stressed, Medicago sativa L. seedling. Plant Physiol,85:315~317 25 Ma R-X(马瑞霞),Fen Y(冯怡) et al. 1998. Effect of allelopathic chemical on growth and denitrification of Bacillus subtitis under anaerobic condition. Chem Ecol(化学生态学), 2: 187~193(in Chinese) 26 Marwell CA.1990.Concurrent synthesis and released of nod-genes-induce flavonoids from roots. Plant Physiol,93:1552~1558 27 Maxwell CA.1989.A chalance and tow related flavonoids from alfalfa roots induce nod genes of rhizobium melilot. Plant Physiol,91:842~847 28 Mench M et al.1991.Mobilization of cadmium and other metals from two soils by root exudates of Zea mays L.,Nicotiana tabacum L.and Nicotiana rustica,L. Plant and Soil,132:187~196 29 Murray AH. 1996. Effect of simple phenolic compounds of heather (Calluna vulgaris) on rumen microbial activity in vitro. J,Chem. Ecol,22(8):1493~1505 30 Ofosu-budu KG,Fuita K.1987.Excretion of ureide and other nitrogenous compounds by the root system of soybean at different growth stage. Plant and Soil,128:135~142 31 Parsons JW and Tinsley J. 1975. Nitrogenous substances.In:Gieseking JE. ed. Soil: Organic Compoents. Berlin. 264~304 32 Patrick ZA. 1963. Phytotoxic substance in arable soils associated with decomposition of plant residues. Phytopathology, 53:152~161 33 Patrick ZA. 1971. Phytotoxic substance associated with the decomposition in soil plant residues.Soil Sci, 111(1):13~19 34 Patterson DT. 1981.Effects of allelopathic chemicals on growth and physiological response of soybean (Glycine max). Weed Sci,29(1):53~58 35 Penulas J. 1996. Effect of allelochemicals on plant respiration and oxygen isotope fractionation by the alternatitve oxidase. J Chem Ecol, 22(4):801~805 36 Perez PJ. 1991. Root exudates of wild oats:Allelopathic effect on spring wheat.Phytochemistry,30(7):2199~2202 37 Pillinger JM, Cooper JA. 1994. Role of phenolic compounds in the antialgal activity of barley straw. J Chem Ecol,20(70):1557~1569 38 Prikry LZ and Vancura V.1980.Root exudates of plants VI.Wheat root exudation as dependent on growth,concentration gradient of exudates and the presence of bacteria. Plant and Soil,57:69~83 39 Rice El and Pancholy SK. 1974. Inhibition of nitrification by climax ecosystems III. Inhibitors other than tannins. Amer J Bot, 61:1095~1103 40 Sharp RE.1994.Confirmation that abscisic acid accumulation is required for maize primary root elongation at low water potentials. J Exp Bot,45:1743~1751 41 Shind H and Kuwatsuka S. 1975. Behaviour of phenolic substances in the decaying process of plant III. Degradation pathway of phenolic acids. Soil Sci Plant Nutr, 21:227~238 42 Steele JW and Bolan M. 1972. Phytochemistry of the salicaceae III. A gas-liquid chromategraphic proceedure for indenfication of plant phenolics. J Chromat, 71:427~434 43 Tang CS and Young CC. 1982. Collection and indentification of allelopathic compounds from the undisturbed root system of Bigalta limpograss (Hemarthria altissima). Plant Physoil,69:155~160 44 Wang TSC and Song WL.1978.Catalytic polymerization of phenolic compounds by clay minerals.Soil Sci, 126(1):15~21 45 Wang TSC and Yen KL. 1971. Behavior of soil phenolic acids.In: Biochemical Interactions Among Plants. National Academy of Sciences. Washington. 113~120 46 Wojcik-Wojtkowiak D. 1997. Phenolic substance as allelopathic agents arising during the degradation of rye (Secale cereale) tissues.Plant and Soil, 124:143~147 47 Yu JQ. 1997. Effects of root exudates of cucumber and allelochemicals on ion uptake by cucumber seedlings. J Chem Ecol, 23(3):817~827 48 Yu JQ.1994. Phytotoxic substances in root exudates of cucumber (Cucumis sativus L). J Chem Ecol,20(1):21~31 49 Yu T-R(于天仁). 1987. Soil Chemistry Principle. Beijing:Agriculture Press(in Chinese) 50 Zhang F-S(张福锁),Chao Y-P(曹一平).1992.Transformation of nutrients in Rhizosphere and plant adsordsion.Acta Pedo Sin(土壤学报),29(3):239~250(in Chinese) 51 Zhu X-R(祝心如). 1992.Effect of phenolic compounds on plant growth and transfermation in soil. Chem Ecol(化学生态学),1:71~78(in Chinese) |
| [1] | WANG Ya-jun, WANG Teng-qi, HOU Zhi-jie, WANG Xue-hao, SU Gao-jie, LIU Yi-qiang, ZHOU Quan. Responses of root exudates to intercropping of Chinese milk vetch with rape. [J]. Chinese Journal of Applied Ecology, 2021, 32(5): 1783-1790. |
| [2] | GAN Lin, DAI Yu-li, YANG Xiu-juan, DU Yi-xin, SHI Niu-niu, RUAN Hong-chun, CHEN Fu-ru. Biological effects of root exudates from resistant and susceptible banana varieties on Fusaiurm oxysporum f. sp. cubense and Bacillus subtilis [J]. Chinese Journal of Applied Ecology, 2020, 31(7): 2279-2286. |
| [3] | ZHANG Wen-ming1,2, QIU Hui-zhen1,2, ZHANG Chun-hong1,2, HAI Long1,2. Identification of chemicals in root exudates of potato and their effects on Rhizoctonia solani. [J]. Chinese Journal of Applied Ecology, 2015, 26(3): 859-866. |
| [4] | . Allelopathic effects of phenolic compounds of melon root exudates on Fusarium oxysporum f. sp. melonis [J]. Chinese Journal of Applied Ecology, 2014, 25(8): 2355-2360. |
| [5] | DONG Yan1, DONG Kun2, ZHENG Yi1,3, TANG Li1, YANG Zhi-xian1. Faba bean fusarium wilt (Fusarium oxysporum) control and its mechanism in different wheat varieties and faba bean intercropping system. [J]. Chinese Journal of Applied Ecology, 2014, 25(7): 1979-1987. |
| [6] | XIAO Jing-xiu1, ZHENG Yi1,2, TANG Li1. Effect of wheat and faba bean intercropping on root exudation of low molecular weight organic acids. [J]. Chinese Journal of Applied Ecology, 2014, 25(6): 1739-1744. |
| [7] | LI Jiao1,2, JIANG Xian-min3, YIN Hua-jun1, YIN Chun-ying1, WEI Yu-hang1,2, LIU Qing1. Root exudates and soil microbes in three Picea asperata plantations with different stand ages. [J]. Chinese Journal of Applied Ecology, 2014, 25(2): 325-332. |
| [8] | WANG Yue1,2, GUO Mei-xia1,2, JIN Jing-hua3, GONG Zong-qiang1, JIA Chun-yun1, LI Xiao-jun1, ZHANG Wei4. Effects of root exudates of clover (Trifolium repens) on PAH microbial degradation and dioxygenase. [J]. Chinese Journal of Applied Ecology, 2014, 25(11): 3145-3151. |
| [9] | ZHANG Yan-jun, XIE Ming, PENG De-liang. Effects of transgenic crops on soil microorganisms: A review. [J]. Chinese Journal of Applied Ecology, 2013, 24(9): 2685-2690. |
| [10] | YANG Yang1,2, LIU Shou-wei1, PAN Kai1, WU Feng-zhi1. Effects of Chinese onion’s root exudates on cucumber seedlings growth and rhizosphere soil microorganisms. [J]. Chinese Journal of Applied Ecology, 2013, 24(4): 1109-1117. |
| [11] | LUO Yong-qing1, ZHAO Xue-yong1, LI Mei-xia2. Ecological effect of plant root exudates and related affecting factors: A review. [J]. Chinese Journal of Applied Ecology, 2012, 23(12): 3496-3504. |
| [12] | . Effects of ryegrass (Lolium perenne) root exudates dose on pyrene degradation and soil microbes in pyrene-contaminated soil. [J]. Chinese Journal of Applied Ecology, 2011, 22(10): 2718-2724. |
| [13] | . Allelopathy of garlic root exudates. [J]. Chinese Journal of Applied Ecology, 2011, 22(05): 1368-1372. |
| [14] | LI Xiao-gang1,2;LIU Biao2;LIU Dou-dou1;HAN Zheng-min1;ZHOU Ke-xin2;ZHENG Yang-ping2. Effects of transgenic insect-resistant cotton root exudates on the growth of Verticillium dahliae Kleb. [J]. Chinese Journal of Applied Ecology, 2009, 20(01): 157-162 . |
| [15] | CHEN Shao-li1;ZHOU Bao-li1;WANG Ru-hua2;FU Ya-wen1. Regulation effects of grafting on cinnamic acid and vanillin in eggplant root exudates. [J]. Chinese Journal of Applied Ecology, 2008, 19(11): 2394-2399 . |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||
