Abstract
Allelopathic phenomenon is being successfully employed in field crop production for agricultural pest management. Allelopathic crops exude diverse and numerous types of allelochemicals with potential to suppress weeds and other crops pests. Crops including rice, sunflower, sorghum, wheat, rye, maize, barley, alfalfa, Brassica spp., and cucurbits exhibit strong allelopathic potential. The allelopathic potential of crops possesses pertinent implications in the agricultural systems. Allelopathy helps plants in strengthening their defense system against biotic and abiotic stresses, and also aids in regulating the nutrients transformations. Allelopathic potential of the crops can be wisely manipulated by adjusting these crops in the crop sequences as rotational crops, cover crops, or intercrops to reduce the pest pressure and judicious nutrient management. This chapter provides an overview of potential allelopathic crops and their potential applications in agricultural systems.
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References
Abdul-Rahman AA, Habib SA (1989) Allelopathic effect of alfalfa (Medicago sativa) on bladygrass (Imperata cylindrical). J Chem Ecol 15:2289–2300
Ahn JK, Chung IM (2000) Allelopathic potential of rice hulls on germination and seedling growth of barnyardgrass. Agron J 92:1162–1167
Alsaadawi IS (1998) Biological suppression of nitrification by selected cultivars of Helianthus annum L. J Chem Ecol 14:733–741
Alsaadawi IS (2001) Allelopathic influence of decomposing wheat residues in agroecosystem. J Crop Prod 4:185–196
Alsaadawi IS, Al-Ekelle MHS, Al-Hamzawi MK (2007) Differential allelopathic potential of grain sorghum genotypes to weeds. Allelopathy J 19:153–160
Alsaadawi IS, Al-Uqaili JK, Alrabeaa AJ, Al-Hadithy SM (1986) Allelopathic suppression of weed and nitrification by selected cultivars of Sorghum bicolor (L.) Moench. J Chem Ecol 12:209–219
Alsaadawi IS, Dayan FE (2009) Potentials and prospects of sorghum allelopathy in agroecosystems. Allelopath J 24:255–270
Alsaadawi IS, Zwain KHY, Shahata HA (1998) Allelopathic inhibition of growth of rice by wheat residues. Allelopathy J 5:163–169
Al-Tawaha ARM, Odat N (2010) Use of sorghum and maize allelopathic properties to inhibit germination and growth of wild barley (Hordeum spontaneum). Not Bot Hort Agrobot Cluj 38:124–127
Altieri MA, Lana MA, Bittencourt HV, Kieling AS, Comin JJ, Lovato PE (2011) Enhancing crop productivity via weed suppression in organic no-till cropping systems in Santa Catarina, Brazil. J Sustain Agric 35:855–869
Anjum T, Bajwa R (2005) A bioactive annuionone from sunflower leaves. Phytochem 66:1919–1921
Anjum T, Bajwa R (2010) Sunflower phytochemicals adversely affect wheat yield. Nat Prod Res 24:825–837
Anjum T, Stevenson P, Hall D, Bajwa R (2005) Allelopathic potential of Helianthus annuus L. (sunflower) as natural herbicide. In: Proceedings of the fourth world congress on allelopathy, Wagga Wagga, 21–26 August 2005
Antonious GF, Bomford M, Vincelli P (2009) Screening Brassica species for glucosinolate content. J Environ Sci Health Part B 44:311–316
Ashrafi ZY, Sadeghi S, Mashhadi HR, Alizade HM (2008) Study of allelopathical effects of barley on inhibition of germination and growth of seedling green foxtail. J SAT Agric Res 6:1–6
Assayed ME, El-Aty AAM (2009) Cruciferous plants: phytochemical toxicity versus cancer chemoprotection. Mini Rev Med Chem 9:1470–1478
Baerson SR, Dayan FE, Rimando AM, Nanayakkara NPD, Liu C, Schröder J, Fishbein M, Pan Z, Kagan IA, Pratt LH, Cordonnier-Pratt M, Duke SO (2008) A functional genomics investigation of allelochemical biosynthesis in Sorghum bicolor root hairs. J Biol Chem 283:3231–3247
Baghestani A, Lemieux C, Leroux GD, Baziramakenga R, Simard RR (1999) Determination of allelochemicals in spring cereal cultivars of different competitiveness. Weed Sci 47:498–504
Barnes JP, Putnam AR (1983) Rye residues contribute weed suppression in no-tillage cropping systems. J Chem Ecol 9:1045–1057
Barnes JP, Putnam AR (1986) Evidence for allelopathy by residues and aqueous extracts of rye (Secale cereale). Weed Sci 34:384–390
Barnes JP, Putnam AR, Burke BA, Aasen AJ (1987) Isolation and characterization of allelochemicals in rye herbage. Phytochem 26:1385–1390
Batish DR, Tung P, Singh HP, Kohli RK (2002) Phytotoxicity of sunflower residues against some summer season crops. J Agron Crop Sci 188:19–24
Ben-Hammouda M, Ghorbal H, Kremer RJ, Oueslati O (2001) Allelopathic effects of barley extracts on germination and seedlings growth of bread and durum wheats. Agronomie 21:65–71
Ben-Hammouda M, Ghorbal H, Kremer RJ, Oueslatt O (2002) Autotoxicity of barley. J Plant Nutr 25:1155–1161
Ben-Hammouda M, Kremer RJ, Minor HC, Sarwar M (1995) A chemical basis for differential allelopathic potential of Sorghum hybrids on wheat. J Chem Ecol 21:775–786
Bertholdsson NO (2004) Variation in allelopathic activity over 100 years of barley selection and breeding. Weed Res 44:78–86
Bertholdsson NO (2005a) Early vigour and allelopathy-two useful traits for enhanced barley and wheat competitiveness against weeds. Weed Res 45:94–102
Bertholdsson NO (2005b) Varietal variation in allelopathic activity in wheat and barley and possibilities to use this in breeding. In: fourth world congress on allelopathy, Charles Sturt University, Wagga Wagga, 21–26 August 2005
Bertholdsson N-O (2010) Breeding spring wheat for improved allelopathic potential. Weed Res 50:49–57
Bialy Z, Oleszek W, Lewis J, Fenwick GR (1990) Allelopathic potential of glucosinolates (mustard oil glycosides) and their degradation products against wheat. Plant Soil 129:277–281
Bais HP, Weir TL, Perry LG, Gilroy S, Vivanco JM (2006) The role of root exudates in rhizosphere interactions with plants and other organisms. Annu Rev Plant Biol 57:233–266
Brown PD, Morra MJ (1997) Control of soil-borne plant pests using glucosinolate-containing plants. Ad Agron 61:167–231
Bruce SE, Ryan MH, Hely S, Kirkegaard JA, Pratley J (2006) Growth suppression of canola through wheat stubble II. Investigating impacts of hypocotyl elongation using simulated stubble. Plant Soil 281:219–231
Burgos NR, Talbert RE, Kim KS, Kuk YI (2004) Growth inhibition and root ultrastructure of cucumber seedlings exposed to allelochemicals from rye (Secale cereale). J Chem Ecol 30:671–689
Burgos NR, Talbert RE, Mattice JD (1999) Cultivar and age differences in the production of allelochemicals by Secale cereale. Weed Sci 47:481–485
Chaniago I, Lovett JV, Roberts JR (2011) Barley allelochemicals of gramine and hordenine: their effects on broiler chickens. Animal Prod 13:1–9
Cheema ZA, Ali B, Khaliq A (2005) Determining suitable combination of sorgaab and pendimethalin for weed control in cotton (Gossypium hirsutum L.). Int J Agric Biol 7:889–891
Cheema ZA, Khaliq A (2000) Use of sorghum allelopathic properties to control weeds in irrigated wheat in semi arid region of Punjab. Agric Ecosys Environ 79:105–112
Cheema ZA, Khaliq A, Jabran K, Mushtaq MN (2007) Weed control in wheat through combined application of two allelopathic crop water extracts with lower dose of atlantis. In: 8th national weed science conference, G. C. University, Lahore, 25–27 June 2007
Cheema ZA, Khaliq A, Farooq M (2008) Sorghum allelopathy for weed management in wheat. In: Zeng RS, Malik AU, Luo SM (eds) Allelopathy in sustainable agriculture and forestry. Springer, The Netherlands, pp 255–270
Chon S, Choi S, Jung S, Jang H, Pyo B, Kim S (2002) Effects of alfalfa leaf extracts and phenolic allelochemicals on early seedling growth and root morphology of alfalfa and barnyard grass. Crop Prot 21:1077–1082
Chon S, Nelson CJ, Coutts JH (2003) Physiological assessment and path coefficient analysis to improve evaluation of alfalfa autotoxicity. J Chem Ecol 29:2413–2424
Chon S-U, Kim J-D (2002) Biological activity and quantification of suspected allelochemicals from alfalfa plant parts. J Agron Crop Sci 188:281–285
Chon S-U, Kim Y-M (2004) Herbicidal potential and quantification of suspected allelochemicals from four grass crop extracts. J Agron Crop Sci 190:145–150
Chou C, Lin H (1976) Autointoxication mechanism of Oryza sativa I. Phytotoxic effects of decomposing rice residues in soil. J Chem Ecol 2:353–367
Chou C, Patrick ZA (1976) Identification and phytotoxic activity of compounds produced during decomposition of corn and rye residues in soil. J Chem Ecol 2:369–387
Chuanphongpanich S, Phanichphant S, Bhuddasukh D, Suttajit M, Sirithunyalug B (2006) Bioactive glucosinolates and antioxidant properties of broccoli seeds cultivated in Thailand. Songklanakarin J Sci Technol 28:55–61
Chung I, Hahn S, Ahmad A (2005) Confirmation of potential herbicidal agents in hulls of rice, Oryza sativa. J Chem Ecol 31:1339–1352
Chung IM, Kim KH, Ahn JK, Chun SC, Kim CS, Kim JT, Kim SH (2002) Screening of allelochemicals on barnyardgrass (Echinochloa crus-galli) and identification of potentially allelopathic compounds from rice (Oryza sativa) variety hull extracts. Crop Prot 21:913–920
Chung IM, Kim KH, Ahn JK, Lee SB, Kim SH, Hahn SJ (2003) Comparison of allelopathic potential of rice leaves, straw, and hull extracts on barnyardgrass. Agron J 95:1063–1070
Chung IM, Miller DA (1990) Effect of alfalfa plant soil extracts on germination and growth of alfalfa. Agron J 87:762–767
Czarnota MA, Rimando AM, Weston LA (2003) Evaluation of root exudates of seven sorghum accessions. J Chem Ecol 29:2073–2083
Dayan FE, Rimando AM, Pan Z, Baerson SR, Gimsing AL, Duke SO (2010) Sorgoleone. Phytochem 71:1032–1039
de Albuquerque M, dos Santos R, Lima L, Filho PAM, Nogueira JMC, da Câmara CAG, Ramos AR (2011) Allelopathy, an alternative tool to improve cropping systems. A review. Agron Sust Dev 31:379–395
Delhaize E, Ryan PR, Randall PJ (1993) Aluminium tolerance in wheat (Triticum aestivum L.) II. aluminium stimulated excretion of malic acid from root apices. Plant Physiol 103:695–702
Dhima K, Vasilakoglou I, Lithourgidis A, Mecolari E, Keco R, Agolli XH, Eleftherohorinos I (2008) Phytotoxicity of 10 winter barley varieties and their competitive ability against common poppy and ivy-leaved speedwell. Exp Agric 44:385–397
Didon UME (2002) Variation between barley cultivars in early response to weed competition. J Agron Crop Sci 188:176–184
Dilday RH, Lin J, Yan W (1994) Identification of allelopathy in the USDA-ARS rice germplasm collection. Aus J Exp Agric 34:907–910
Dilday RH, Yan W, Lin J (1996) Identifying allelopathy in rice germplasm. In: Naylor R (ed) Herbicides in Asian rice: transition in weed management, Institute for International Studies, Stanford University, Palo Alto and International Rice Research Institute, Manila, pp 219–229
Ding H, Lamb RJ, Ames N (2000) Inducible production of phenolic acids in wheat and antibiotic resistance to Sitodiplosis mosellana. J Chem Ecol 26:969–985
Dornbos DL Jr, Spencer GF, Miller RW (1990) Merdicarpin delays alfalfa seed germination and seedling growth. Crop Sci 30:162–166
Duke JA (1981) The gene revolution (Paper 1). In: office of technology assessment, background papers for innovative biological technologies for lesser developed countries’, United States Government Office, Washington, pp 89–150
Duke SO (2005) Six decades of weed science since the discovery of 2,4-D and challenges for 21st century. In: Proceedings of 20th Asian–Pacific weed science conference, Chi Menh City, 7–11 Nov 2005, pp 35–44
Ebana K, Yan W, Dilday RH, Namai H, Okuno K (2001) Variation in the allelopathic effect of rice with water soluble extracts. Agron J 93:12–16
Einhellig FA, Rasmussen JA (1989) Prior cropping with grain sorghum inhibits weeds. J Chem Ecol 15:951–960
Einhellig FA, Rasmussen JA, Hejl AM, Souza IF (1993) Effects of root exudate sorgoleone on photosynthesis. J Chem Ecol 19:369–375
Einhellig FA, Souza IF (1992) Phytotoxicity of sorgoleone found in grain sorghum root exudates. J Chem Ecol 18:1–11
Faisal M, Ismaeel AO, Ali NM (2010) Allelopathic effect of wheat (var. Abugharaib 3) on growth and physiological traits of two wheat cultivars. Arab Gulf J Sci Res 28:47–55
Farooq M, Flower KC, Jabran K, Wahid A, Siddique KHM (2011a) Crop yield and weed management in rainfed conservation agriculture. Soil Till Res 117:172–183
Farooq M, Jabran K, Cheema ZA, Wahid A, Siddique KHM (2011b) The role of allelopathy in agricultural pest management. Pest Manag Sci 67:493–506
Farooq M, Jabran K, Rehman H, Hussain M (2008) Allelopathic effects of rice on seedling development in wheat, oat, barley and berseem. Allelopathy J 22:385–390
Ferreira MI, Reinhardt CF (2010) Field assessment of crop residues for allelopathic effects on both crops and weeds. Agron J 102:1593–1600
Finney MM, Danehower DA, Burton JD (2005) Gas chromatographic method for the analysis of allelopathic natural products in rye (Secale cereale L.). J Chromatogr A 1066:249–253
Flood HE, Entz MH (2009) Effects of wheat, triticale and rye plant extracts on germination of navy bean (Phaseolus vulgaris) and selected weed species. Can J Plant Sci 89:999–1002
Frey M, Chomet P, Glawischnig E, Stettner C, Grün S, Winklmair A, Eisenreich W, Bacher A, Meeley RB, Briggs SP, Simcox K, Gierl A (1997) Analysis of a chemical plant defense mechanism in grasses. Science 277:696–699
Frey M, Huber K, Park WJ, Sicker D, Lindberg P, Meeley RB, Simmons CR, Yalqani N, Gierl A (2003) A 2-oxoglutarate-dependent dioxygenase is integrated in DIMBOA-biosynthesis. Phytochem 62:371–376
Friebe A, Vilich V, Hennig L, Kluge M, Sicker D (1998) Detoxification of benzoxazolinone allelochemicals from wheat by Gaeumannomyces graminis var. tritici, G. graminis var. graminis, G. graminis var. avenae, and Fusarium culmorum. Applied Environ Microbiol 64:2386–2391
Gealy DR, Wallies EJ, Estorninos JrLE, Shavez RSC (2003) Rice cultivars differences in suppression of barnyardgrass (Echinochloa crus-galli) and economics of reduced propanil rates. Weed Sci 51:601–609
Ghafar A, Saleem B, Haq A, Qureshi MJ (2001) Isolation and identification of allelochemicals of sunflower (Helianthus annuus L.). Int J Agric Biol 3:21–22
Goławska S, Łukasik I, Leszczyński B (2008) Effect of alfalfa saponins and flavonoids on pea aphid. Entomol Exp Appl 128:147–153
Grodzinsky AM (1992) Allelopathic effects of cruciferous plants in crop rotation. In: Rizvi JH, Rizvi V (eds) Allelopathy: basic and applied aspects. Chapman & Hall, London, pp 77–85
Guenzi WD, Kehr WR, McCalla TM (1964) Water-soluble phytotoxic substances in alfalfa forage: variation, with variety, cutting, year and stage of growth. Agron J 56:499–500
Haig T (2008) Allelochemicals in plants. In: Zeng RS, Malik AU, Luo SM (eds) Allelopathy in sustainable agriculture and forestry. Springer Publishers, The Netherlands, pp 63–104
Hallak AMG, Davide LC, Souza IF (1999) Effects of sorghum (Sorghum bicolor L.) root exudates on the cell cycle of the bean plant (Phaseolus vulgaris L.) root. Gen Molec Biol 22:95–99
Haskins FA, Gorz HJ (1984) Leakage of dhurrin and p-hydroxybenzaldehyde from young sorghum shoots immersed in various solvents. Plant Physiol 75:869–872
Hassan SM, Aidy IR, Bastawisi AO, Draz AE (1998) Weed management using allelopathic rice varieties in Egypt. In: Olofsdotter M (ed) Allelopathy in rice: proceedings of the workshop on allelopathy in rice. International Rice Research Institute, Manila, pp 27–37
He H, Wang H, Wu H, Guo X, Liu C, Chen R, Lin W (2010) Effects of allelopathic rice on barnyard grass stress: I. Morphological and physiological responses. Allelopathy J 26:185–196
He HQ, Shen LH, Xiong J, Jia XL, Lin WX, Wu H (2004) Conditional genetic effect of allelopathy in rice (Oryza sativa L.) under different environmental conditions. Plant Growth Regul 44:211–221
Hedge RS, Miller DA (1990) Allelopathy and autotoxicity in alfalfa: characterization and effects of preceding crops and residue incorporation. Crop Sci 30:1255–1259
Hejl AM, Koster KL (2004) The allelochemical sorgoleone inhibits root H+-ATPase and water uptake. J Chem Ecol 3:2181–2191
Hicks SK, Wendt CW, Gannaway JR, Baker RB (1989) Allelopathic effects of wheat straw on cotton germination, emergence, and yield. Crop Sci 29:1057–1061
Hoult AHC, Lovett JV (1993) Biologically active secondary metabolites of barley. III. A method for identification and quantification of hordenine and gramine in barley by high-performance liquid chromatography. J Chem Ecol 19:2245–2254
Hozayn M, El-Latif EMA, Sharar FM, El-Monem AAA (2011) Potential uses of sorghum and sunflower residues for weed control and to improve lentil yields. Allelopath J 27:15–22
Huang Z, Haig T, Wu H, An M, Pratley J (2003) Correlation between phytotoxicity on annual ryegrass (Lolium rigidum) and production dynamics of allelochemicals within root exudates of an allelopathic wheat. J Chem Ecol 29:2263–2279
Inderjit, Olofsdotter M, Streibig JC (2001) Wheat (Triticum aestivum) interference with seedling growth of perennial ryegrass (Lolium perenne): influence of density and age. Weed Technol 15:807–812
Iqbal J, Cheema ZA (2008) Purple nutsedge (Cyperus rotundus L.) management in cotton with combined application of sorgaab and s-metolachlor. Pak J Bot 40:2383–2391
Irons SM, Burnside OC (1982) Competitive and allelopathic effects of sunflower (Helianthus annuus). Weed Sci 30:372–377
Jabran K, Cheema ZA, Farooq M, Basra SMA, Hussain M, Rehman H (2008a) Tank mixing of allelopathic crop water extracts with pendimethalin helps in the management of weeds in canola (Brassica napus) field. Int J Agric Biol 10:293–296
Jabran K, Cheema ZA, Farooq M, Hussain M (2010a) Lower doses of pendimethalin mixed with allelopathic crop water extracts for weed management in canola (Brassica napus). Int J Agric Biol 12:335–340
Jabran K, Cheema ZA, Farooq M, Khaliq A (2007) Effectiveness of various concentrations of allelophatic water extracts against aphids (Aphis pomii L.). In: International workshop on allelopathy: current trends and future applications. Weed Science-Allelopathy Lab, Department of Agronomy, University of Agriculture, Faisalabad, 18–21 March 2007
Jabran K, Cheema ZA, Farooq M, Khan MB (2011) Fertigation and foliar application of fertilizers alone and in combination with canola extracts enhances yield in wheat crop. Crop Environ 2:42–45
Jabran K, Ehsanullah, Farooq M, Shahid M, Hussain M (2008b) Canola (Brassica napus L.) extracts inhibit germination and seedling growth of mungbean (Vigna radiata L.). In: International symposium on modern approaches and techniques in agriculture to ensure food security in Pakistan, University of Agriculture, Faisalabad, 13–14 Oct 2008
Jabran K, Ehsanullah, Khilji MK (2010c) Exploring the role of ground cover systems for weed control in fine grain aerobic rice in sub-tropical, semi arid Punjab. In: 22nd Asia-Pacific weed science society conference, Government College University, Lahore, 8–12 March 2010
Jabran K, Farooq M, Hussain M, Rehman H, Ali MA (2010b) Wild oat (Avena fatua L.) and canary grass (Phalaris minor Ritz.) management through allelopathy. J Plant Prot Res 50:32–35
Javaid A, Jabeen K, Samad S, Javaid A (2011) Management of parthenium weed by extracts and residue of wheat. Afr J Biotechnol 10:14399–14403
Jensen LB, Courtois B, Shen L, Li Z, Olofsdotter M, Mauleon RP (2001) Locating genes controlling allelopathic effects against barnyardgrass in upland rice. Agron J 93:21–26
Kato-Noguchi H (1999) Effect of light irradiation on allelopathic potential of germinating maize. Phytochem 52:1023–1027
Kato-Noguchi H (2000) Allelopathy in maize II. Allelopathic potential of new benzoxazolinone, 5-chloro-6-methoxy-2-benzoxazolinone and its analogues. Plant Prod Sci 3:47–50
Kato-Noguchi H (2011a) Barnyard grass-induced rice allelopathy and momilactone B. J Plant Physiol 168:1016–1020
Kato-Noguchi H (2011b) The chemical cross talk between rice and barnyardgrass. Plant Signal Behav 6:1207–1209
Kato-Noguchi H, Hasegawa M, Ino T, Ota K, Kujime H (2010a) Contribution of momilactone A and B to rice allelopathy. J Plant Physiol 167:787–791
Kato-Noguchi H, Ino T (2005) Concentration and release level of momilactone B in the seedlings of eight rice cultivars. J Plant Physiol 162:965–969
Kato-Noguchi H, Ino T, Ichii M (2003) Changes in release level of momilactone B into the environment from rice throughout its life cycle. Func Plant Biol 30:995–997
Kato-Noguchi H, Ino T, Kujime H (2010b) The relation between growth inhibition and secretion level of momilactone B from rice root. J Plant Interact 5:87–90
Kato-Noguchi H, Ino T, Ota K (2008) Secretion of momilactone A from rice roots to the rhizosphere. J Plant Physiol 165:691–696
Kato-Noguchi H, Macías FA (2008) Inhibition of germination and α-amylase induction by 6-methoxy-2-benzoxazolinone in twelve plant species. Biol Plant 52:351–354
Kato-Noguchi H, Sakata Y, Takenokuchi K, Kosemura S, Yamamur S (2000) Allelopathy in maize I. Isolation and identification of allelochemicals in maize seedling. Plant Prod Sci 3:43–46
Kato-Noguchi H, Salam MA, Suenaga K (2011a) Isolation and identification of potent allelopathic substances in a traditional Bangladeshi rice cultivar Kartikshail. Plant Prod Sci 14:128–134
Kato-Noguchi H, Salam MD, Kobayashi T (2009) A quick seeding test for allelopathic potential of Bangladesh rice cultivars. Plant Prod Sci 12:47–49
Kato-Noguchi H, Thi HL, Teruya T, Suenaga K (2011b) Two potent allelopathic substances in cucumber plants. Sci Hortic 129:894–897
Kaya Y, Sengul M, Ogutcu H, Algur OF (2005) The possibility of useful usage of biodegradation products of sunflower plants. Biores Technol 97:599–604
Khaliq A, Jabran K, Mushtaq MN, Razzaq A, Cheema ZA (2007) Reduction of herbicide dose using allelopathic crop/plant water extracts with lower rates of pendimethlin in cotton. (Gossypium hirsutum L.). In: 8th National Weed Science Conference, G. C. University, Lahore, 25–27 June 2007
Khaliq A, Matloob A, Aslam F, Khan MB (2011) Influence of wheat straw and rhizosphere on seed germination, early seedling growth and bio-chemical attributes of Trianthema portulacastrum. Planta Daninha 29:523–533
Khan MAI, Ueno K, Horimoto S, Komai F, Tanaka K, Ono Y (2007) Evaluation of the use of rice bran compost for eco-friendly weed control in organic farming systems. Am J Environ Sci 3:234–239
Khan MB, Ahmad M, Hussain M, Jabran K, Farooq S, Waqas-Ul-Haq M (2011) Allelopathic plant water extracts tank mixed with reduced doses of atrazine efficiently control weeds in maize (Zea mays L.). In: International science conference on prospects and challenges to sustainable agriculture, University of Azad Jammu and Kashmir, Faculty of Agriculture, Rawalako, 14–16 July 2011
Khanh TD, Cong LC, Chung IM, Xuan TD, Tawata S (2009) Variation of weed-suppressing potential of Vietnamese rice cultivars against barnyardgrass (Echinochloa crus-galli) in laboratory, greenhouse and field screenings. J Plant Interact 4:209–218
Khanh TD, Xuan TD, Chung IM (2007) Rice allelopathy and the possibility for weed management. Ann Appl Biol 151:325–339
Kim KU, Shin DH (2008) Progress and prospect of rice allelopathy research. In: Zeng RS, Malik AU, Luo SM (eds) Allelopathy in sustainable agriculture and forestry. Springer, The Netherlands, pp 189–213
Kim SY, Madrid AV, Park ST, Yang SJ, Olofsdotter M (2005) Evaluation of rice allelopathy in hydroponics. Weed Res 45:74–79
Kimber RWL (1966) Phytotoxicity from plant residues I. The influence of rotted wheat straw on seedling growth. Aus J Agric Res 18:361–374
Kimber RWL (1973) Phytotoxicity from plant residues II. The relative effect of toxins and nitrogen immobilization on the germination and growth of wheat. Plant Soil 38:347–361
Kliebenstein DJ (2009) Use of secondary metabolite variation in crop improvement. In: Osbourn AE, Lanzotti V (eds) Plant-derived natural products. Springer, The Netherlands, pp 83–95
Kong C, Chen X, Hub F, Zhang S (2011) Breeding of commercially acceptable allelopathic rice cultivars in China. Pest Manag Sci 67:1100–1106
Kong C, Liang W, Xu X, Hu F, Wang P, Jiang Y (2004) Release and activity of allelochemicals from allelopathic rice seedlings. J Agric Food Chem 52:2861–2865
Kong CH, Li HB, Hu F, Wang P (2006) Allelochemicals released by rice roots and residues in soil. Plant Soil 288:47–56
Konstantopoulou MA, Krokos FD, Mazomenos BE (2004) Chemical composition of corn leaf essential oils and their role in the oviposition behavior of Sesamia nonagrioides females. J Chem Ecol 30:2243–2256
Kremer RJ, Ben-Hammouda M (2009) Allelopathic plants. 19. Barley (Hordeum vulgare L). Allelopathy J 24:225–242
Krishna P (2003) Brassinosteroid-mediated stress responses. J Plant Growth Regul 22:289–297
Kuk Y, Burgos NR, Talbert RE (2001) Evaluation of rice by-products for weed control. Weed Sci 49:141–147
Kumar L, Chaudhary RG, Shukla N, Prajapati RK (2010) Isolation of sorghum allelochemicals and their efficacy against crops pathogens. Allelopathy J 25:369–382
Kupidłowska E, Gniazdowska A, Stępień J, Corbineau F, Vinel D, Skoczowski A, Janeczko A, Bogatek R (2006) Impact of sunflower (Helianthus annuus L.) extracts upon reserve mobilization and energy metabolism in germinating mustard (Sinapis alba L.) seeds. J Chem Ecol 32:2569–2583
Labbafi MR, Hejazi A, Maighany F, Khalaj H, Ali M (2010) Evaluation of allelopathic potential of Iranian wheat (Triticum aestivum L.) cultivars against weeds. Agric Biol J N Am 1:355–361
Leather GR (1983a) Sunflowers (Helianthus annuus) are allelopathic to weeds. Weed Sci 31:37–42
Leather GR (1983b) Weed control using allelopathic crop plants. J Chem Ecol 9:983–989
Leavitt MJ, Sheaffer CC, Wyse DL (2011) Rolled winter rye and hairy vetch cover crops lower weed density but reduce vegetable yields in no-tillage organic production. HortSci 46:387–395
Lehle FR, Putnam AR (1984) Allelopathic potential of sorghum (Sorghum bicolor): isolation of seed germination inhibitors. J Chem Ecol 10:693
Leyuan L, Wenting F, Wenting H, Hong L (2010) Study on allelopathic effects of rice and wheat soil-like substrate on several plants. In: 38th COSPAR scientific assembly, Bremen, 18–15 July 2010, p 5
Li CJ, An M, Saeed M, Li L, Prately J (2011) Effects of wheat crop density on growth of ryegrass. Allelopath J 27:43–54
Liu DL, Lovett JV (1993a) Biologically active secondary metabolites of barley. I. Developing techniques and assessing allelopathy in barley. J Chem Ecol 19:2217–2230
Liu DL, Lovett JV (1993b) Biologically active secondary metabolites of barley. II. Phytotoxicity of barley allelochemicals. J Chem Ecol 19:2231–2244
Lockerman RH, Putnam AR (1979) Evaluation of allelopathic cucumbers (Cucumis sativus) as an aid to weed control. J Chem Ecol 27:54–57
Lodhi MAK, Bilal R, Malik KA (1987) Allelopathy in agroecosystems: wheat phytotoxicity and its possible roles in crop rotation. J Chem Ecol 13:1881–1891
Ma HJ, Shin DH, Lee IJ, Koh JC, Park SK, Kim KU (2006) Allelopathic K21 selected as promising allelopathic rice. Weed Biol Manag 6:189–196
Macías FA, Chinchilla N, Varela RM, Molinillo JMG (2005) Bioactive compounds from Oryza sativa cv. Puntal. In: Proceedings of the fourth world congress on allelopathy, Wagga Wagga, 21–26 August 2005
Macías FA, Molinillo JMG, Torres A, Varela RM, Castellano D (1997) Bioactive flavonoids from Helianthus annuus cultivars. Phytochem 45:683–687
Masaoka Y, Kojima M, Sugihara S, Yoshihara T, Koshino M, Ichihara A (1993) Dissolution of ferric phosphate by alfalfa (Medicago sativa L.) root exudates. Plant Soil 155(156):75–78
Masiunas JB, Weston LA, Weller SC (1995) The impact of rye cover crops on weed populations in a tomato cropping system. Weed Sci 43:318–323
Mattice JD, Dilday RH, Gbur EE, Skulman BW (2001) Barnyardgrass growth inhibition with rice using high-performance liquid chromatography to identify rice accession activity. Agron J 93:8–11
Mattice R, Lavy T, Skulman B, Dilday R (1998) Searching for rice allelochemicals in rice that control ducksalad. In: Olofsdotter M (ed) Allelopathy in rice: proceedings of the workshop on allelopathy in rice, International Rice Research Institute, Los Baños, pp 81–98
Milchunas DG, Vandever MW, Ball LO, Hyberg S (2011) Allelopathic cover crop prior to seeding is more important than subsequent grazing/mowing in grassland establishment. Rangel Ecol Manag 64:291–300
Miller DA (1983) Allelopathic effects of alfalfa. J Chem Ecol 9:1059–1072
Miri HR (2011) Allelopathy of 68 Iranian wheat genotypes released between 1939 and 2009. Asian J Agric Sci 3:462–468
Moyer JR, Huang HC (1997) Effect of aqueous extracts of crop residues on germination and seedling growth of ten weed species. Bot Bull Acad Sinica 38:131–139
Nakahisa K, Tsuzuki E, Terao H, Kosemura S (1994) Study on the allelopathy of alfalfa (Medicago sativa L.). 2. Isolation and identification of allelopathic substance in alfalfa. Jap J Crop Sci 63:278–284
Netzly DH, Butler LG (1986) Roots of sorghum exude hydrophobic droplets containing biologically active components. Crop Sci 26:775–778
Nimbal CI, Pedersen JF, Yerkes CN, Weston LA, Weller SC (1996) Phytotoxicity and distribution of sorgoleone in grain sorghum germplasm. J Agric Food Chem 44:1343–1347
Norsworthy JK, Brandenberger L, Burgos NR, Riley M (2005) Weed suppression in Vigna unguiculata with a spring seeded brassicaceae green manure. Crop Prot 24:441–447
Norsworthy JK, Malik MS, Jha P, Oliveira MJ (2006) Effects of isothiocyanates on purple (Cyperus rotundus L.) and yellow nutsedge (Cyperus esculentus L.). Weed Biol Manag 6:131–138
Odhiambo JA, Vanlauwe B, Tabu IM, Kanampiu F, Khan Z (2011) Effect of intercropping maize and soybeans on Striga hermonthica parasitism and yield of maize. Arch Phytopathol Plant Prot 44:158–167
Ohno S, Tomita-Yokotani K, Suzuki T, Node M, Kosemura S, Yamamura S, Hasegawa K (2001) A new species selective allelopathic substance from germinating sunflower (Helianthus annuus L.) seeds. Phytochem 56:577–581
Okumura M, Filonow AB, Waller GR (1999) Use of 14c-labeled alfalfa saponins for monitoring their fate in soil. J Chem Ecol 25:2575–2583
Okuno K, Ebana K (2003) Identification of QTL controlling allelopathic effects in rice: genetic approaches to biological control of weeds. Jap Agric Res Quart 37:77–81
Oleszek W (1987) Allelopathic effects of volatiles from some Cruciferae species on lettuce, barnyard grass and wheat growth. Plant Soil 102:371–273
Olofsdotter M, Navarez D, Rebulanan M, Streibig JC (1999) Weed-suppressing rice cultivars, does allelopathy play a role? Weed Res 39:441–454
Oracz K, Bailly C, Gniazdowska A, Côme D, Corbineau F, Bogatek R (2007) Induction of oxidative stress by sunflower phytotoxins in germinating mustard seeds. J Chem Ecol 33:251–264
Oueslati O, Ben-Hammouda M, Ghorbel MH, Gazzeh ME, Kremer RJ (2009) Role of phenolic acids in expression of barley (Hordeum vulgare) autotoxicity. Allelopathy J 23:157–166
Panahyan-e-Kivi M, Tobeh A (2010) Inhibitory impact of some crop plants extracts on germination and growth of wheat. Am Eurasian J Agric Environ Sci 9:47–51
Papadopoulos A, Alderson P (2007) A new method for collecting isothiocyanates released from plant residues incorporated in soil. Ann Appl Biol 151:61–65
Park M, Chung I, Ahmad A, Kim B, Hwang S (2009) Growth inhibition of unicellular and colonial Microcystis strains (Cyanophyceae) by compounds isolated from rice (Oryza sativa) hulls. Aquatic Bot 90:309–314
Paszkowski WL, Dwornikiewicz J (2003) Effect of green manure on the incidence of cyanogenic Pseudomonas strains in hop garden soils. J Chem Ecol 29:1159–1164
Pérez FJ, Ormenoñuñez J (1991) Difference in hydroxamic acid content in roots and root exudates of wheat (Triticum aestivum L.) and rye (Secale cereale L.): possible role in allelopathy. J Chem Ecol 19:1037–1043
Petersen J, Belz R, Walker F, Hurle K (2001) Weed suppression by release of isothiocyanates from turnip-rape mulch. Agron J 93:37–43
Pramanik MHR, Minesaki Y, Yamamoto T, Matsui Y, Nakano H (2001) Growth inhibitors in rice-straw extracts and their effects on Chinese milk vetch (Astragalus sinicus) seedling. Weed Biol Manag 1:133–136
Pramanik MHR, Nagai M, Asao T, Matsui Y (2000) Effects of temperature and photoperiod on phytotoxic root exudates of cucumber (Cucumis sativus) in hydroponic culture. J Chem Ecol 26:1953–1967
Przepiorkowski T, Gorski SF (1994) Influence of rye (Secale cereale) plant residues on germination and growth of three triazine resistant and susceptible weeds. Weed Technol 8:744–747
Putnam AR, Duke WB (1974) Biological suppression of weeds: evidence for allelopathy in accessions of cucumber. Science 185:370–372
Rad UV, Hüttl R, Lottspeich F, Gierl A, Frey M (2001) Two glucosyltransferases are involved in detoxification of benzoxazinoids in maize. Plant J 28:633–642
Rasmussen JA, Hejl AM, Einhellig FA, Thomas JA (1992) Sorgoleone from root exudate inhibits mitochondrial functions. J Chem Ecol 18:197–207
Razzaq A, Cheema ZA, Jabran K, Farooq M, Khaliq A, Haider G, Basra SMA (2010) Weed management in wheat through combination of allelopathic water extracts with reduced doses of herbicides. Pak J Weed Sci Res 16:247–256
Reberg-Horton SC, Burton JD, Danehower DA, Ma G, Monks DW, Murphy JP, Ranells NN, Williamson JD, Creamer NG (2005) Changes over time in the allelochemical content of ten cultivars of rye (Secale cereale L.). J Chem Ecol 31:179–193
Rehman A, Cheema ZA, Khaliq A, Jabran K (2007) Combined effect of five allelopathic crop mulches and two irrigation levels on weed suppression in transplanted fine rice (Oryza sativa L.). In: International workshop on allelopathy: current trends and future applications, Weed Science-Allelopathy Lab, Department of Agronomy, University of Agriculture, Faisalabad, 18–21 March 2007
Rehman A, Cheema ZA, Khaliq A, Jabran K (2007) Comparative evaluation of allelopathic crops water extracts and pre-emergence herbicide for weed suppression in transplanted fine rice (Oryza sativa L.). In: International workshop on allelopathy: current trends and future applications, Weed Science-Allelopathy Lab, Department of Agronomy, University of Agriculture, Faisalabad, 18–21 March 2007
Rice EL, Lin C, Huang C (1981) Effects of decomposing rice straw on growth of and nitrogen fixation by Rhizobium. J Chem Ecol 7:333–344
Richardson MD, Bacon CW (1993) Cyclic hydroxamic acid accumulation in corn seedlings exposed to reduced water potentials before, during, and after germination. J Chem Ecol 19:1613–1624
Rimando AM, Olofsdotter M, Dayan FE, Duke SO (2001) Searching for rice allelochemicals: and example of bioassay-guided isolation. Agron J 93:16–20
Sadeghi S, Rahnavard A, Ashrafi ZY (2010) Response of wheat (Triticum aestivum) germination and growth of seedling to allelopathic potential of sunflower (Helianthus annuus) and barley (Hordeum vulgare L.) extracts. J Agric Technol 6:573–577
Saffari M, Saffari VR, Torabi-Sirchi MH (2010) Allelopathic appraisal effects of straw extract wheat varieties on the growth of corn. Afr J Biotechnol 9:8154–8160
Salam MA, Kato-Noguchi H (2009) Screening of allelopathic potential Bangladesh rice cultivars by donor-receiver bioassay. Asian J Plant Sci 8:20–27
Seal AN, Pratley JE, Haig T, An M (2004) Identification and quantification of compounds in a series of allelopathic and non-allelopathic rice root exudates. J Chem Ecol 30:1647–1661
Seal AN, Pratley JE (2010) The specificity of allelopathy in rice (Oryza sativa). Weed Res 50:303–311
Séne M, Dore T, Pellissier F (2000) Effect of phenolic acids in soil under and between rows of a prior sorghum (Sorghum bicolor) crop on germination, emergence, and seedling growth of peanut (Arachis hypogea). J Chem Ecol 26:625–637
Séne M, Gallet C, Dore T (2001) Phenolic compounds in a Sahelian sorghum (Sorghum bicolor) genotype (CE145-66) and associated soils. J Chem Ecol 27:81–92
Serghinin K, Luque AP, Castejón-Muñoz M, García-Torres L, Jorrín JV (2001) Sunflower (Helianthus annuus L.) responses to broomrape (Orobanche cernua Loefl.) parasitis: induced synthesis and excretion of 7-hydroxylated simple coumarins. J Exp Bot 52:2227–2234
Shen L, Xiong J, Lin W (2008) Rice allelopathy research in China. In: Zeng RS, Malik AU, Luo SM (eds) Allelopathy in sustainable agriculture and forestry. Springer, The Netherlands, pp 215–233
Shilling DG, Jones LA, Worsham AD, Parker CE, Wilson RF (1986) Isolation and identification of some phytotoxic compounds from aqueous extracts of rye (Secale cerale L.). J Agric Food Chem 34:633–638
Shilling DG, Liebl RA, Worsham AD (1985) Rye (Secale cereale L.) and wheat (Triticum aestivum L.) mulch: the suppression of certain broadleaved weeds and the isolation and identification of phytotoxin. In: The chemistry of allelopathy, ACS Symposium Series 268, American Chemical Society, Washington, DC, pp 243–271
Sicker D, Frey M, Schulz M, Gierl A (2000) Role of natural benzoxazinones in the survival strategies of plants. Int Rev Cytol 198:319–346
Smith AN, Reberg-Horton SC, Place GT, Meijer AD, Arellano C, Mueller JP (2011) Rolled rye mulch for weed suppression in organic no-tillage soybeans. Weed Sci 59:224–231
Smolinska U, Morra MJ, Knudsen GR, James RL (2003) Isothiocyanates produced by Brassicaceae species as inhibitors of Fusarium oxysporum. Plant Dis 87:407–412
Tabaglio V, Gavazzi C, Schulz M, Marocco A (2008) Alternative weed control using the allelopathic effect of natural benzoxazinoids from rye mulch. Agron Sustain Dev 28:397–401
Tanaka JP, Nardi P, Wissuwa M (2010) Nitrification inhibition activity, a novel trait in root exudates of rice. AoB Plants 14:1–11
Tawaha AM, Turk MA (2003) Allelopathic effects of black mustard (Brassica nigra) on germination and growth of wild barley (Hordeum spontaneum). J Agron Crop Sci 189:298–303
Timper P, Davis R, Webster T, Brenneman TB, Meyer S, Zasada I, Cai G, Rice C (2011) Response of root-knot nematodes and palmer amaranth to tillage and rye green manure. Agron J 103:813–821
Tollsten L, Bergstrom G (1988) Head scape volatiles of whole plant and macerated plant parts of Brassica and Sinapis. Phytochem 27:4013–4018
Turk MA, Lee KD, Tawaha AM (2005) Inhibitory effects of aqueous extracts of black mustard on germination and growth of radish. Res J Agric Biol Sci 1:227–231
Turk MA, Shatnawi MK, Tawaha AM (2003) Inhibitory effects of aqueous extracts of black mustard on germination and growth of alfalfa. Weed Biol Manag 3:37–40
Turk MA, Tawaha AM (2002) Inhibitor effects of aqueous extracts from black mustard (Brassica nigra L.) on germination and growth of wheat. Pak J Biol Sci 3:278–280
Turk MA, Tawaha AM (2003) Allelopathic effect of black mustard (Brassica nigra L.) on germination and growth of wild oat (Avena fatua L.). Crop Prot 22:673–677
Understrup AG, Ravnskov S, Hansen HCB, Fomsgaard IS (2005) Biotransformation of 2-benzoxazolinone to 2-amino-(3H)-phenoxazin-3-one and 2-acetylamino-(3H)-phenoxazin-3-one in soil. J Chem Ecol 31:1205–1222
Uremis I, Arslan M, Uludag A (2005) Allelopathic effects of some Brassica species on germination and growth of cutleaf ground-cherry (Physlis angulata L.). Pak J Biol Sci 5:661–665
van Bueren ETL, Jones SS, Tamm L, Murphy KM, Myers JR, Leifert C, Messmer M (2011) The need to breed crop varieties suitable for organic farming, using wheat, tomato and broccoli as examples: a review. NJAS Wageningen J Life Sci 58:193–205
Vasilakoglou I, Dhima K, Lithourgidis A, Eleftherohorinos I (2009) Allelopathic potential of 50 barley cultivars and the herbicidal effects of barley extract. Allelopathy J 24:309–320
Vaughn SF, Boydston RA (1997) Volatile allelochemicals released by crucifer green manures. J Chem Ecol 23:2107–2116
Velasco P, Cartea ME, González C, Vilar M, Ordá A (2007) Factors affecting the glucosinolate content of kale (Brassica oleracea acephala group). J Agric Food Chem 55:955–962
Wang J, Xu T, Zhang L, Zhong Z, Luo S (2005) Effect of methyl jasmonate on hydroxamic acid and phenolic acid content in maize and its allelopathic activity to Echinochloa crusgalli (L.). In: Fourth world congress on allelopathy, Charles Sturt University, Wagga Wagga, 21–26 August 2005
Wang Y, Wu F, Shouwei L (2009) Allelopathic effects of root exudates from wheat, oat and soybean on seed germination and growth of cucumber. Allelopathy J 24:103–112
Wang Y, Wu F, Zhou X (2010) Allelopathic effects of wheat, soybean and oat residues on cucumber and Fusarium oxysporum f.sp. cucumerinum Owen. Allelopathy J 25:107–114
Warwick SI (2011) Brassicaceae in agriculture. In: Schmidt R, Bancroft I (eds) Genetics and genomics of the Brassicaceae. Plant genetics and genomics: crops and models, vol 9. Springer, New York, pp 33–65
Watson PR, Derksen DA, Acker RCV (2006) The ability of 29 barley cultivars to compete and withstand competition. Weed Sci 54:783–792
Wójcik-Wojtkowiak D, Politycka B, Schneider M, Perkowski J (1990) Phenolic substances as allelopathic agents arising during the degradation of rye (Secale cereale) tissues. Plant Soil 124:143–147
Wu H, Haig T, Pratley J, Lemerle D, An M (2000a) Distribution and exudation of allelochemicals in wheat Triticum aestivum. J Chem Ecol 26:2141–2154
Wu H, Haig T, Pratley J, Lemerle D, An M (2001a) Allelochemicals in wheat (Triticum aestivum L.): production and exudation of 2, 4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one. J Chem Ecol 27:1691–1700
Wu H, Pratley J, Lemerle D, Haig T (2000b) Evaluation of seedling allelopathy in 453 wheat (Triticum aestivum) accessions against annual ryegrass (Lolium rigidum) by the equal-compartment-agar method. Aus J Agric Res 51:937–944
Wu H, Pratley J, Lemerle D, Haig T (2001b) Allelopathy in wheat (Triticum aestivum). Ann App Biol 139:1–9
Wu H, Pratley J, Lemerle G, Haig T (2000c) Laboratory screening for allelopathic potential of wheat (Triticum aestivum) accessions against annual ryegrass (Lolium rigidum). Aus J Agric Res 51:259–266
Xu T, Zhou Q, Chen W, Zhang G, He G, Gu D, Zhang W (2003) Involvement of jasmonate-signaling pathway in the herbivore-induced rice plant defense. Chinese Sci Bull 48:1982–1987
Xuan TD, Tsuzuki E, Uematsu H, Terao H (2001) Weed control with alfalfa pellets in transplanting rice. Weed Biol Manag 1:231–235
Xuan TD, Tsuzuki E (2002) Varietal differences in allelopathic potential of alfalfa. J Agron Crop Sci 188:2–7
Xuan TD, Tsuzuki E, Terao H, Matsuo M, Khanh TD (2003a) Identification of potential allelochemicals in kava (Piper methysticum L) root. Allelopath J 12:197–204
Xuan TD, Tsuzuki E, Terao H, Matsuo M, Khanh TD, Murayama S et al (2003b) Alfalfa, rice by-products and their incorporation for weed control in rice. Weed Biol Manag 3:137–144
Yamada K, Kosemura S, Yamamura S, Hasegawa K (1997) Exudation of an allelopathic substance lepidimoide from seeds during germination. Plant Growth Regul 22:189–192
Yang GC, Lu WG, Shen QR, Zhang CL (2004a) Autointoxication of watermelon: effects of water and alcoholic abstracts of watermelon’s root, stem and leaf on seed germination. Acta Agric Shanghai 20:82–85
Yang GC, Lu WG, Zhu J, Zhang CL (2005) Effects of water extracts of watermelon root, stem and leaf on seed germination and enzyme activities of seedlings. Acta Agric Boreali Sinica 14:46–51
Yang X, Owens TG, Scheffler BE, Weston LA (2004b) Manipulation of root hair development and sorgoleone production in sorghum seedlings. J Chem Ecol 30:199–213
Yasumoto S, Matsuzaki M, Hirokane H, Okada K (2010) Glucosinolate content in rapeseed in relation to suppression of subsequent crop. Plant Prod Sci 13:150–155
Yenish JP, Worsham AD, Chilton WS (1995) Disappearance of DIBOA-glucoside, DIBOA, and BOA from rye (Secale cereale L.) cover crop residue. Weed Sci 43:18–20
Yongqing MA (2005) Allelopathic studies of common wheat (Triticum aestivum L.). Weed Biol Manag 5:93–104
Young CC, Thorne LRZ, Waller GR (1989) Phytotoxic potential of soils and wheat straw in rice rotation cropping systems of subtropical Taiwan. Plant Soil 120:95–101
Yu JQ, Ye SF, Zhang MF, Hu WH (2003) Effects of root exudates and aqueous root extracts of cucumber (Cucumis sativus) and allelochemicals, on photosynthesis and antioxidant enzymes in cucumber. Biochem Syst Ecol 31:129–139
Yu JQ, Komada H, Yokoyama H, Yamamoto H, Terada T, Matsui Y (1997) Sugi bark, a potential substrate for soils with bioactivity against some soil-borne pathogens. J Hort Sci 2:989–996
Yu JQ, Matsui Y (1993) p-Thiocyanatophenol, a novel allelopathic compound in exudates from root of cucumber. Chem Express 8:577–580
Yu JQ, Matsui Y (1994) Phytotoxic substances in the root exudates of Cucumis sativus L. J Chem Ecol 20:21–31
Yu JQ, Shou SY, Qian YR, Zhu ZJ, Hu WH (2000) Autotoxic potential of cucurbit crops. Plant Soil 223:149–153
Zeng LD, Quan Q, Tang S, Dong GJ, Fujimoto H, Yasufumi K, Zhu LH (2003) Genetic analysis of rice allelopathy. Chinese Sci Bull 48:265–268
Zhang YM, Ma YQ (1994) Allelopathic effect of wheat straw mulching on seedling growth of corn. Chinese J Ecol 13:70–72
Zhen W, Wang S, Zhang C, Ma Z (2009) Influence of maize straw amendment on soil-borne diseases of winter wheat. Front Agric China 3:7–12
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Jabran, K., Farooq, M. (2013). Implications of Potential Allelopathic Crops in Agricultural Systems. In: Cheema, Z., Farooq, M., Wahid, A. (eds) Allelopathy. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-30595-5_15
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