Some Selected Publications

  • Singh SP, Inderjit*, Singh JS, Majumdar S, Moyano J, Nuñez MA and Richardson D. 2018. Insights on the persistence of pines (Pinus species) in the late Cretaceous and their increasing dominance in the Anthropocene. Ecology & Evolution, in press
  • Berger, A., Brouquisse, R., Pathak, P.K., Hichri, I., Inderjit, Bhatia, S., Boscari, A., Igamberdiev, A.U. & Gupta, J.K. 2018. Pathways of nitric oxide metabolism and operation of phytoglobins in legume nodules: missing links and future directions. Plant Cell & Environment, in press.
  • Inderjit*, Pergl, J., van Kleunen, M., Hejda, M., Babu, C.R., Majumdar, S., Singh, P., Singh, S.P., Salamma, S., Rao, B.R.P. & Pyšek, P. 2018. Naturalized alien flora of the Indian states: biogeographic patterns, taxonomic structure and drivers of species richness. Biological Invasions, 20, 1625–1638.
  • Becerra, P., Callaway, R., Catford, J., Inderjit, Andonian, K., Luce, M., Aschehoug, E. and Montesinos, D. 2018. Inhibitory effects of Eucalyptus globulus on understory plant growth and species richness are greater in non-native regions. Global ecology & Biogeography 27, 68-76.
  • Zhang, F.L.*, Li, Q., Chen, F.X., Xu, H.Y., Inderjit* and Wan, F.H.*. 2017. Arbuscular mycorrhizal fungi facilitate growth and competitive ability of an exotic species Flaveria bidentis. Soil biology & Biochemistry 115: 275-284.
  • Inderjit*, Catford JA, Kalisz S, Simberloff D and Wardle DA. 2017. A framework for understanding human-driven vegetation change. Oikos 126, 1687–1698.
  • Pyšek, P.*, Pergl, J., Essl, F., Lenzner, B., Dawson, W., Kreft, W., Weigelt, P., Winter, M., Kartesz, J., Nishino, M., Antonova, L.A., Baptiste, M.P., Barcelona, J.F., Cabezas, F.J., Cárdenas, D., Cárdenas-Toro, J., Castaño, N., Chacón, E., Chatelain, C., Dullinger, S., Ebel, A.L., Figueiredo, E., Fuentes, N., Genovesi, P., Groom, Q.J., Henderson, L., Inderjit, Kupriyanov, A., Masciadri, S., Maurel, N., Meerman, J., Morozova, O., Moser, D., Nickrent, D., Nowak, P.M., Pagad, S., Patzelt, A., Pelser, P.B., Seebens, H., Shu, W., Thomas, J., Velayos, M., Weber, E., Wieringa, J.J. and van Kleunen, M. 2017. Naturalized and invasive alien flora of the world: species diversity, taxonomic and phylogenetic patterns, geographic distribution and global hotspots of plant invasion. Preselia, 89: 203–274.
  • Majumdar, S., Sanwal, U. and Inderjit*. 2017. Interference potential of Sorghum halepense on soil and plant seedling growth. Plant and Soil, 418: 219-230.
  • Carrigy AA*, Stotz GC, Dettlaff MA, Pec GJ, Inderjit, Erbilgin N and Cahill JF Jr. 2016. Community-level determinants of smooth brome (Bromus inermis) growth and survival in the aspen parkland. Plant Ecology, 217: 1395–1413.
  • van Kleunen M*, Dawson W, Essl F, Pergl J, Winter M, Weber E, Kreft H, Weigelt P, Kartesz J, Nishino J, Antonova LA, Barcelona JF, Cabezas FJ, Cárdenas D, Cárdenas-Toro J, Castaño N, Chacón E, Chatelain C, Ebel AL, Figueiredo E, Fuentes N, Groom QJ, Henderson L, Inderjit, Kupriyanov A, Masciadri S, Meerman J, Morozova O, Mose D, Nickrent D, Patzelt A, Pelser PB, Baptiste MP, Poopath, Schulze M, Seebens H, Shu W, Thomas J, Velayos M, Wieringa JJ and Pyšek P. 2015. Global exchange and accumulation of non-native plants. 2015. Nature, 525: 100–103.
  • Inderjit*. 2015. Introduction to the special issue: the role of soil microbial-driven belowground processes in mediating plant invasions. AoB Plants, 7: plv052.
  • Driscoll, D.A.*, Barney, J.N., Hulme, P. E., Inderjit, Martin, T. G., Pauchard, A., Pyšek, P., Richardson, D. M., Riley, S., Visser, V. and Catford, J. A. 2015. Reply to Proença et al: Sown biodiverse pastures are not a universal solution to invasion risk. Proceedings National Academy of Sciences U.S.A. (PNAS), 112(14): E1696.
  • Inderjit* and Cahill J.F. 2015. Linkages of plant-soil feedbacks and underlying invasion mechanisms. AoB Plants, doi: 10.1093/aobpla/plv022
  • Driscoll, D.A.*, Barney, J.N., Hulme, P. E., Inderjit, Martin, T. G., Pauchard, A., Pyšek, P., Richardson, D. M., Riley, S., Visser, V. and Catford, J. A. 2014. New pastures plants intensify invasive species risk. Proceedings National Academy of Sciences U.S.A. (PNAS), 111: 16622-16627. [Discussed in Nature 2014, 515: 167].
  • Kaur, R., Callaway, R. M. and Inderjit*. Soils and the conditional allelopathic effects of a tropical invader. Soil Biology & Biochemistry, 78: 316-325.
  • Bajpai, D. and Inderjit*. Impact of nitrogen availability and soil communities on biomass accumulation of an invasive species. AoB Plants, 5: plt045; doi:10.1093/aobpla/ plt045. [Listed in the Editors’ choice].
  • Kaur, R., Gonzáles, W.L., Llambi, L.D., Soriano, P.J., Callaway, R.M., Rout, M.E., Gallaher, T.J., and Inderjit*. Community impacts of Prosopis juliflora invasion: biogeographic and congeneric comparisons. PLoS One 7(9): e44966.
  • Inderjit*. Exotic plant invasion in the context of plant defense against herbivores. Plant Physiology 158(3): 1107-1114.
  • Kaur R., Malhotra S. and Inderjit*. Effects of invasion of Mikania micrantha on germination of rice seedlings, plant richness, chemical properties and respiration of soil. Biology and Fertility of Soils 48: 481-488.
  • Inderjit*, Wardle D.A., Karban R. and Callaway R.M. 2011. The ecosystem and evolutionary contexts of allelopathy. Trends in Ecology & Evolution 26, 655-662.
  • Feng, Y.L.*, Li, Y.P., Wang, R.F., Callaway, R.M., Valiente-Banuet , A. and Inderjit. 2011. A quick return energy-use strategy by populations of a subtropical invader in the non-native range: a potential mechanism for the evolution of increased competitive ability. Journal of Ecology 99, 1116-1123.
  • Inderjit*, Evans H., Crocoll C., Bajpai D., Kaur R., Feng Y., Silva C., Carreón J.T., Valiente-Banuet A., Gershenzon J., and Callaway R.M. 2011. Volatile chemicals from leaf litter are associated with invasiveness of a neotropical weed in Asia. Ecology 92, 316-324.
  • Gurevitch J. *, Fox G., Wardle G., Inderjit and Taub D. 2011. Emergent insights from the synthesis of conceptual frameworks for biological invasions. Ecology Letters 14, 407-418.
  • Inderjit*, Bajpai D. and Rajeswari M.S. 2010. Interaction of 8-hydroxyquinoline with soil environment mediates its ecological function. PLoS One 5(9): e12852.
  • Inderjit* and van der Putten, W.H. 2010. Impacts of soil microbial communities on exotic plant invasion. Trends in Ecology & Evolution 25, 512-519.
  • Inderjit* and Kaushik, S. 2010. Effect of herbicides with different modes of action on physiological and cellular traits of Anabaena fertilissima. Paddy and Water Environment 8, 277-282.
  • Feng, Y.L.*, Lei, Y., Wang, R., Callaway, R.M., Valiente-Banuet, A., Inderjit, Li, Y.-P. and Zheng, Y-L. 2009. Evolutionary tradeoffs for nitrogen allocation to photosynthesis versus cell walls in an invasive plant. Proceedings National Academy of Sciences U.S.A. (PNAS), 106: 1853-1856.
  • Kaur, H., Kaur, R., Kaur, S., Baldwin, I.T. and Inderjit*. 2009 Taking ecological function seriously: soil microbial communities can obviate allelopathic effects of released metabolites. PLoS One 4(3): e4700.
  • Inderjit*, Kaur R., Kaur S. and Callaway, R.M. 2009. Impact of (±)-catechin on soil microbial communities. Communicative & Integrative Biology 2: 1-3.
  • Inderjit, von Dahl C., and Baldwin I.T.* Use of silenced plants in allelopathy bioassays: a novel approach. Planta 229: 569-575.
  • Mangla, S., Inderjit* and Callaway, R.M. 2008. Exotic invasive plant accumulates native soil pathogens which inhibit native plants. Journal of Ecology, 96: 58-67. [Acknowledged by the Editors of the journal in the annual journal news; Journal of Ecology 97:1-3; Also discussed by F1000]
  • Inderjit*. Preface. Biological Invasions 10: 781-783.
  • Inderjit*, Seastedt T.R., Callaway R.M., Pollock J. and Kaur J. 2008. Allelopathy and plant invasions: traditional, congeneric, and biogeographical approaches. Biological Invasions 10: 875-890.
  • Inderjit*, Pollock J.L., Callaway R.M. and Holben W. 2008. Phytotoxic effects of (±)-catechin in vitro, in soil, and in the field. PLoS One 3(7): e2536.
  • Kaushik, S. and Inderjit*. Oryza sativa restricts Phalaris minor growth: allelochemicals or soil resource manipulation? Biology & Fertility of Soils 43: 557-563.
  • Inderjit*, Callaway R.M. and Vivanco, J.M. 2006. Can plant biochemistry contribute to understanding of invasion ecology? Trends in Plant Science 11: 574-580.
  • Inderjit*. Experimental complexities in evaluating the allelopathic activities in laboratory bioassays: a case study. Soil Biology & Biochemistry 38: 256-262.
  • Kaushik, S., Inderjit*,C. Streibig and N. Cedergreen. 2006. Activities of mixtures of soil-applied herbicides with different molecular targets. Pest Management Science 62: 1092-1097.
  • Inderjit*, Chapman, D., Ranelletti, and Kaushik, S. 2006. Invasive marine algae: an ecological perspective. Botanical Review 72: 153-178.
  • Inderjit*, M. Callaway and Kaushik, S. 2006. Time for international policies on biological invasions. Frontiers in Ecology and the Environment 4: 67-68.
  • Kaushik S. and Inderjit*. Phytotoxicity of selected herbicides to mung bean (Phaseolus aureus Roxb.). Environmental & Experimental Botany 55, 41-48.
  • Inderjit* and Drake, J.A. 2006. The ecology of nonnative invasive plant species: are there consistent patterns? Perspectives in Agriculture, Veterinary Science, Nutrition and Natural Resources 1, No. 036.
  • Kaur H., Inderjit* and Kaushik, S. 2005. Cellular evidence of allelopathic interference of benzoic acid to mustard (Brassica juncea) seedling growth. Plant Physiology & Biochemistry 43: 77-81.
  • Inderjit*,A. Weston and S.O. Duke. 2005. Challenges, achievements and opportunities in allelopathy research. Journal of Plant Interactions 1: 69-81.
  • Inderjit*, Saini, M. and Kaur, H. 2005. Experimental complexities in evaluating the comparative phytotoxicity of chemicals with different modes of action. Environmental & Experimental Botany 53: 97-104.
  • Inderjit*. Soil microorganisms: an important determinant of allelopathic activity. Plant and Soil 274: 227-236.
  • Kaushik S. and Inderjit*. Effect of rice straw incorporation on phytotoxicity of isoxaflutole to an exotic weed Phalaris minor Retz. Plant and Soil 277, 25-30.
  • Inderjit*. Plant invasions: habitat invasibility and dominance of invasive plant species. Plant and Soil 277, 1-5.
  • Kaur H. , Inderjit* and P.C. Bhowmik. 2004. Phytotoxicity of isoxaflutole to Phalaris minor Plant and Soil 258: 161-168.
  • Inderjit*, Rawat, D.S., and Foy, C.L. 2004. Multifaceted approach to determine rice straw phytotoxicity. Canadian Journal of Botany 82: 168-172.
  • Inderjit* and Bhowmik, P.C. 2004. Sorption of benzoic acid onto soil colloids and its implications for the allelopathy studies. Biology & Fertility of Soils 40: 345-348.
  • Inderjit* and Nilsen, E.T. 2003. Bioassays and field studies for allelopathy in terrestrial plants: progress and problems. Critical Reviews in Plant Sciences 22: 221-238.
  • Inderjit* and Duke, S.O. 2003. Ecophysiological aspects of allelopathy. Planta 217: 529-539.
  • Inderjit* and R.M. Callaway. 2003. Experimental designs for the study of allelopathy. Plant and Soil 256: 1-11.
  • Bhowmik, P.C., and Inderjit*. Challenges and opportunities in implementing allelopathy for natural weed management. Crop Protection 22: 661-671.
  • Inderjit*, Asakawa, C., and Kakuta, H. 2003. Phytotoxicity and fate of 1,1,2-trichloroethylene: a laboratory study. Journal of Chemical Ecology 29: 305-311.
  • Inderjit* and Mallik, A.U. 2002. Can Kalmia angustifolia interference to black spruce (Picea mariana) be explained by allelopathy? Forest Ecology & Management 160: 75-84.
  • Inderjit*, Striebig, J., and Olofsdotter, M. 2002. Joint action of phenolic acid mixtures and its significance in allelopathy research. Physiologia Plantarum 114: 422-428.
  • Inderjit*. Allelopathic effect of Pluchea lanceolata on growth and yield components of mustard (Brassica juncea) and its influence on selected soil properties. Weed Biology & Management 2: 200-204.
  • Inderjit*, and Asakawa, C. Nature of interference potential of hairy vetch (Vicia villosa Roth) to radish (Raphanus sativus L.): does allelopathy play any role? Crop Protection 20: 261-265.
  • Hamidi, B A., Inderjit*, Striebig, J., and Olofsdotter M. 2001. Laboratory bioassay for phytotoxicity: an example from wheat straw. Agronomy Journal 93: 43-48.
  • Inderjit*. Soils: environmental effect on allelochemical activity. Agronomy Journal 93: 79-84.
  • Inderjit*, Kaur, M. and Foy, C.L. 2001. On the significance of field studies in allelopathy. Weed Technology 15: 792-797.
  • Mallik, A.U.* and Inderjit. 2001. Kalmia angustifolia: ecology and management. Weed Technology 15: 858-866.
  • Inderjit* and Weiner, J. 2001. Plant allelochemical interference or soil chemical ecology? Perspectives in Plant Ecology, Evolution & Systematics 4: 3-12.
  • Foy, C. L. and Inderjit*. 2001. Understanding the role of allelopathy in weed interference and declining plant diversity. Weed Technology 15: 873-878.
  • Inderjit*, Olofsdotter, M., and Streibig, J.C. 2001. Wheat (Triticum aestivum) interference with seedling growth of perennial ryegrass (Lolium perenne): influence of density and age. Weed Technology 15: 807-812.
  • Inderjit*, and Weston, L.A. 2000. Are laboratory bioassays for allelopathy suitable for prediction of field responses? Journal of Chemical Ecology 26: 2111-2118.
  • Inderjit*, and Keating, K. I. 1999. Allelopathy: principles, procedures, processes, and promises for biological control. Advances in Agronomy 67: 141-231.
  • Inderjit*, and Foy, C. L. 1999. Nature of the interference potential of mugwort (Artemisia vulgaris). Weed Technology 13: 176-182.
  • Inderjit* and Mallik, A. U. 1999. Nutrient status of black spruce (Picea mariana) forest soils dominated by Kalmia angustifolia. Acta Oecologia 20: 87-92.
  • Inderjit* and Nishimura, H. 1999. Effect of the anthraquinones emodin and physcion on availability of selected soil inorganic ions. Annals of Applied Biology 135: 425-429.
  • Inderjit*, Asakawa, C. and Dakshini, K.M.M. 1999. Allelopathic potential of Verbesina encelioides root leachate in soil. Canadian Journal of Botany 77: 1419-1424.
  • Inderjit*, Foy, C. L. and Dakshini, K.M.M. 1998. Pluchea lanceolata: a noxious perennial weed. Weed Technology 12: 190-193.
  • Inderjit* and Dakshini, K.M.M. 1998. Allelopathic interference of chickweed, Stellaria media with seedling growth of wheat (Triticum aestivum). Canadian Journal of Botany 76: 1317-1321.
  • Inderjit* and Dakshini, K.M.M. 1998. The use of washed test material as control in laboratory bioassay for allelopathy. Tropical Agriculture 75: 396-400.
  • Inderjit*. Influence of Pluchea lanceolata on selected soil properties. American Journal of Botany 85: 64-69.
  • Inderjit* and Mallik, A. U. 1997. Effect of phenolic compounds on selected soil properties. Forest Ecology & Management 92: 11-18.
  • Inderjit*, Muramatsu, M and Nishimura, H. 1997. On allelopathic potential of certain terpenoids, phenolics and their mixture, and their recovery in soil. Canadian Journal of Botany 75: 888-891.
  • Inderjit* and Dakshini, K.M.M. 1997. Allelopathic effects of cyanobacterial inoculum on soil characteristics and cereal growth. Canadian Journal of Botany 75: 1267-1272.
  • Inderjit* and Mallik, A. U. 1997. Effect of Ledum groenlandicum on soil characteristics and black spruce seedling growth. Plant Ecology (formerly Vegetatio) 133: 29-36.
  • Inderjit* and del Moral, R. 1997. Is separating resource competition from allelopathy realistic? Botanical Review 63: 221-230.
  • Inderjit* and Dakshini, K.M.M. 1996. Allelopathic potential of Pluchea lanceolata: comparative study of cultivated fields. Weed Science 44: 393-396.
  • Inderjit* and Mallik, A. U. 1996. Growth and physiological responses of black spruce (Picea mariana) to sites dominated by Ledum groenlandicum. Journal of Chemical Ecology 22: 575-585.
  • Inderjit*. Plant phenolics in allelopathy. Botanical Review 62: 186-202.
  • Inderjit* and Dakshini, K.M.M. 1996. Allelopathic potential of well water from Pluchea lanceolata-infested cultivated fields. Journal of Chemical Ecology 22: 1123-1131.
  • Inderjit*, Kaur, S., and Dakshini, K.M.M. 1996. Determination of allelopathic potential of a weed Pluchea lanceolata through a multi-faceted approach. Canadian Journal of Botany 74: 1445-1450.
  • Inderjit* and Mallik, A. U. 1996. The nature of interference potential of Kalmia angustifolia. Canadian Journal of Forest Research 26: 1899-1904.
  • Inderjit and Dakshini, K.M.M. 1995. On laboratory bioassays in allelopathy. Botanical Review 61: 28-44.
  • Inderjit and Dakshini, K.M.M. 1995. Allelopathic potential of an annual weed Polypogon monspeliensis, in crops in India. Plant and Soil 173: 251-256.
  • Inderjit and Dakshini, K.M.M. 1994. Algal allelopathy. Botanical Review 60: 182-196.
  • Inderjit and Dakshini, K.M.M. 1994. Effect of cultivation on allelopathic interference success of the weed, Pluchea lanceolata. Journal of Chemical Ecology 20: 1179-1188.
  • Inderjit and Dakshini, K.M.M. 1994. Allelopathic effects of Pluchea lanceolata (Asteraceae) on characteristics of four soils and mustard and tomato growth. American Journal of Botany 81: 799-804.
  • Inderjit and Dakshini, K.M.M. 1994. Allelopathic potential of phenolics from the roots of Pluchea lanceolata. Physiologia Plantarum 92: 571-576.
  • Inderjit and Dakshini, K.M.M. 1992. Formononetin 7-O-glucoside (ononin), an additional inhibitor in soils associated with the weed, Pluchea lanceolata (DC.) C. B. Clarke (Asteraceae). Journal of Chemical Ecology 18: 713-718.
  • Inderjit and Dakshini, K.M.M. 1992. Interference potential of Pluchea lanceolata (Asteraceae): growth and physiological responses of asparagus bean, Vigna unguiculata sesquipedalis. American Journal of Botany 79: 977-981.
  • Inderjit and Dakshini, K.M.M. 1991. Investigations on some aspects of chemical ecology of cogongrass, Imperata cylindrica (L.) Beauv. Journal of Chemical Ecology 17: 343-352.
  • Inderjit and Dakshini, K.M.M. 1991. Hesperetin 7-rutinoside (hesperidin) and taxifolin 3-arabinoside as germination and growth inhibitors in soils associated with the weed, Pluchea lanceolata (DC.) C. B. Clarke (Asteraceae). Journal of Chemical Ecology 17: 1585-1591.
  • Inderjit and Dakshini, K.M.M. 1990. The nature of interference potential of Pluchea lanceolata (DC) C B Clarke (Asteraceae). Plant and Soil 122: 298-302.
  • *Corresponding author

BOOKS PUBLISHED (EDITED VOLUMES)

  • 2009. Management of Invasive Weeds. Springer-Verlag, Germany.
  • Inderjit and K.G. Mukerji. 2006. Allelochemicals: biological control of plant pathogens and diseases. Springer-Verlag,
  • 2005. Invasive plants: Ecological and Agricultural Aspects. Birkhäuser Verlag AG, Switzerland.
  • 2004. Weed Biology & Management. Kluwer Academic Publishers, The Netherlands
  • Inderjit, and A.U. Mallik. 2002. Chemical Ecology of Plants: Allelopathy in Aquatic and Terrestrial Ecosystems. Birkhäuser Verlag AG,
  • Inderjit,M.M. Dakshini and Chester L. Foy. 1999. Principles and Practices in Plant Ecology: Allelochemical Interactions. CRC Press, Boca Raton, FL, USA
  • Inderjit,M.M. Dakshini, and F. A. Einhellig. 1995. Allelopathy: Organisms, Processes, and Applications. American Chemical Society, Washington, DC, USA.

BOOK CHAPTERS (PEER REVIEWED)

  • 2011. Allelopathy. In The Encyclopedia of Invasive Introduced Species. Edited by D. Simberloff and M. Rejmanek, University of California Press, Berkeley, CA. pp 16-17.
  • Inderjit and Kaushik, S. 2009. Management of Phalaris minor, an exotic weed of cropland. In Management of Invasive Weeds. Edited by Inderjit, Springer-Verlag, Berlin, pp. 279-286.
  • Weston, L.A. and 2007. Allelopathy, a potential tool in the development of strategies for biorational weed management. In Non-chemical Weed Management: Principles, Concepts, and Technology. Edited by M. K. Upadhyaya and R. E. Blackshaw. CABI, Oxfordshire, U.K. pp. 65-76.
  • Inderjit,W. Cadotte & R.I. Colautti. 2005. The ecology of biological invasions: past, present and future. In Ecological and agricultural aspects of invasive plants. Edited by Inderjit. Birkhauser-Verlag AG, Basal, Switzerland. pp. 19-43.
  • Kaushik S., R.E. Blackshaw and 2005. Ecology and management of the alien weed Phalaris minor. In Ecological and agricultural aspects of invasive plants. Edited by Inderjit. Birkhauser-Verlag AG, Basal, Switzerland. pp. 181-193.
  • Bhowmik, P.C. and 2004. Rationale, approach and adoption of integrated weed management. In Weed Biology & Management Edited by Inderjit. Kluwer Academic Publishers, The Netherlands, pp. 363-373.
  • Inderjit and Weston, L. 2003. Root exudates: an overview. In Root Ecology. Edited by de Kroon, Hans and Visser E.J.W. Springer-verlag, Heidelberg, Germany, 235-255.
  • Inderjit and H. Nayyar. 2002. Shift in allelochemical functioning with selected abiotic stress. In Chemical Ecology of Plants: Allelopathy in Aquatic and Terrestrial Ecosystems. Edited by Inderjit and A.U. Mallik. Birkhauser-Verlag AG, Basal, Switzerland. pp. 199-218.
  • Inderjit and P.C. Bhowmik. 2002. Importance of allelochemical in weed invasiveness and their natural control. In Chemical Ecology of Plants: Allelopathy in Aquatic and Terrestrial Ecosystems. Edited by Inderjit and A.U. Mallik. Birkhauser-Verlag AG, Basal, Switzerland. pp. 188-197.
  • Kaur H., Inderjit and K.I. Keating. 2002. Do allelochemicals operate independent of substratum factors? In Chemical Ecology of Plants: Allelopathy in Aquatic and Terrestrial Ecosystems. Edited by Inderjit and A.U. Mallik. Birkhauser-Verlag AG, Basal, Switzerland. pp. 99-107.
  • Nagle, D. and 2002. The chemistry and chemical ecology of biologically active cyanobacterial metabolites. In Chemical Ecology of Plants: Allelopathy in Aquatic and Terrestrial Ecosystems. Edited by Inderjit and A.U. Mallik. Birkhauser-Verlag AG, Basal, Switzerland. pp. 33-56.
  • Mallik, A.U. and 2002. Problems and prospects in the study of allelochemicals: a brief introduction. In Chemical Ecology of Plants: Allelopathy in Aquatic and Terrestrial Ecosystems. Edited by Inderjit and A.U. Mallik. Birkhauser-Verlag AG, Basal, Switzerland. pp. 1-5.
  • Inderjit and E.M. Gross. 2002. Plant phenolics: potential role in aquatic and terrestrial ecosystems. Polyphenol 2000. Edited by S. Martens, D. Treutter and G. Forkmann. Germany, 206-234.
  • 2001. Multifaceted approach to study allelochemical interactions. First European OECD Allelopathy Symposium: Physiological Aspects of Allelopathy. 2001, Edited by M.J. Reigosa and N.P. Bonjoch, Vigo, Spain, 101-106.
  • Inderjit and Dakshini, K.M.M. Influence of allelopathy in annual and perennial cropland weeds: an example. In Recent Advances in Allelopathy. Vol. 1. Science for the future. Edited by Macías, F. A., Galindo, J.C.G., Molinillo, J.M.G., and Cutler, H.G. Servicio de Publicaciunes-Universidad de Cadiz, Spain. pp. 263-268.
  • Dakshini, K.M.M., Foy, C. L. and 1999. Allelopathy: one component in a multifaceted approach in ecology. In Principles and Practices in Plant Ecology: Allelochemical Interactions. Edited by Inderjit, K.M.M. Dakshini and Chester L. Foy. CRC Press, Boca Raton, FL. pp. 3-14.
  • Inderjit, Cheng, H. H. and Nishimura, H. 1999. Plant phenolics and terpenoids: transformation, degradation, and potential for allelopathic interactions. In Principles and Practices in Plant Ecology: Allelochemical Interactions. Edited by Inderjit, K.M.M. Dakshini and Chester L. Foy. CRC Press, Boca Raton, FL. pp. 255-266.
  • Inderjit and Dakshini, K.M.M. Bioassay for allelopathy: interactions of soil organic and inorganic constituents. In Principles and Practices in Plant Ecology: Allelochemical Interactions. Edited by Inderjit, K.M.M. Dakshini and Chester L. Foy. CRC Press, Boca Raton, FL. pp. 35-44.
  • Inderjit and Olofsdotter, M. 1998. Bioassays for rice allelopathy: some concerns. In Allelopathy in Rice. Edited by Maria Olofsdotter. IRRI Press, Manila. pp. 45-55.
  • Inderjit and Dakshini, K.M.M. 1995. Quercetin and quercitrin from Pluchea lanceolata and their effects on growth of asparagus bean. In Allelopathy: Organisms, Processes and Applications. Edited by Inderjit, K.M.M. Dakshini and Frank Einhellig. ACS Symposium Series 582. American Chemical Society. Washington, DC. pp. 86-95.