Allelopathy—An update
Tóm tắt
Từ khóa
Tài liệu tham khảo
Abdul-Wahab, A. S. andF. A. G. Al-Naib. 1972. Inhibitional effects ofImperata cylindrica (L.) P. B. Bull. Iraq Nat. Hist. Mus.V: 17–24.
Akehurst, S. C. 1931. Observations on pond life, with special reference to the possible causation of swarming of phytoplankton. Roy. Microscop. Soc. J.51: 237–265.
Allen, R. N. andF. J. Newhook. 1974. Suppression by ethanol of spontaneous turning activity in zoospores ofPhytophthora cinnamomi. Trans. Brit. Mycol. Soc.63: 383–385.
Al-Mousawi, A. H. andF. A. G. Al-Naib. 1975. Allelopathic effects ofEucalyptus microtheca F. Muell. J. Univ. Kuwait (Sci.)2: 59–66.
——. 1976. Volatile growth inhibitors produced byEucalyptus microtheca. Bull. Biol. Res. Centre7: 17–23.
Al-Naib, F. A. G. andA. H. Al-Mousawi. 1976. Allelopathic effects ofEucalyptus micro- theca-Identification and characterization of the phenolic compounds inEucalyptus microtheca. J. Univ. Kuwait (Sci.)3: 83–88.
— andE. L. Rice. 1971. Allelopathic effects ofPlatanus occidentalis. Bull. Torrey Bot. Club98: 75–82.
Anaya, A. L. andS. Del Amo. 1978. Allelopathic potential ofAmbrosia cumanensis H.B.K. (Compositae) in a tropical zone of Mexico. J. Chem. Ecol.4: 289–304.
— andA. Gomez-Pompa. 1971. Inhibicion del crecimiento producida por el “piru” (Schinus molle L.) Revista Soc. Mex. Hist. Nat.32: 99–109.
Anderson, R. C., A. J. Katz andM. R. Anderson. 1978. Allelopathy as a factor in the success ofHelianthus mollis Lam. J. Chem. Ecol.4: 9–16.
Anderson-Prouty, A. J. andP. Albersheim. 1975. Host-pathogen interactions. VIII. Iso-lation of a pathogen-synthesized fraction rich in glucan that elicits a defense response in the pathogen’s host. Pl. Physiol. (Lancaster)56: 286–291.
Arntzen, C. J., M. F. Haugh andS. Bobick. 1973. Induction of stomatal closure byHelminthosporium maydis pathotoxin. Pl. Physiol. (Lancaster)52: 569–574.
—,S. V. Falkenthal andS. Bobick. 1974. Inhibition of photophosphorylation by kaempferol. Pl. Physiol. (Lancaster)53: 304–306.
Aubert, M., D. Pesando andM. Gauthier. 1970. Phénomènes d’antibiose d’origine phytoplanktonique in milieu marine. Substances antibacterienne productes par un diatoméeAsterionella japonica (Cleve). Rev. Int. Océanogr. Méd.18-19: 69–76.
Ayers, A. R., J. Ebel, F. Finelli, N. Berger andP. Albersheim. 1976a. Host-pathogen interactions. IX. Quantitative assays of elicitor activity and characterization of the elicitor present in the extracellular medium of cultures ofPhytophthora megasperma varsojae. Pl. Physiol. (Lancaster)57: 751–759.
——,B. Valent andP. Albersheim. 1976b. Host-pathogen interactions. X. Fractionation and biological activity of an elicitor isolated from the mycelial walls ofPhytophthora megasperma var.sojae. Pl. Physiol. (Lancaster)57: 760–765.
—,B. Valent, J. Ebel andP. Albersheim. 1976c. Host-pathogen interactions. XI. Composition and structure of wall-released elicitor fractions. Pl. Physiol. (Lancaster)57: 766–774.
Baker, K. F. andR. J. Cook. 1974. Biological control of plant pathogens. W. H. Freeman, San Francisco.
— andW. C. Snyder, eds. 1965. Ecology of soil-borne plant pathogens. University of California Press, Berkeley.
Balke, N. E. 1977. Inhibition of ion absorption inAvena sativa L. roots by diethylstilbestrol and other phenolic compounds. Ph.D. thesis, Purdue University, W. Lafayette, IN. Diss. Abstr. No. 7813025.
— andT. K. Hodges. 1977. Inhibition of ion absorption in oat roots: Comparison of diethylstilbestrol and oligomycin. Pl. Sci. Letters10: 319–325.
Ballester, A. yE. Vieitez. 1971. Estudio de sustancias de crecimiento aisladas deErica cinerea L. Acta Ci. Compostelana8: 79–84.
—,J. Arines yE. Vieitez. 1972. Compuestos fenolicos en suelos de brezal. Anales Edafologia Agrobiol.31: 359–366.
Baranetsky, G. G. 1973. On the chemical nature of the biologically active water-soluble substances in fallen ash and lime leaves.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 85–88 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Bazzaz, F. A. 1975. Plant species diversity in old-field successional ecosystems in southern Illinois. Ecology56: 485–488.
Bell, A. A. 1974. Biochemical bases of resistance of plants to pathogens.In Biological control of plant insects and diseases. pp. 403–461. (F. G. Maxwell and F. S. Harris, eds.), The University Press of Mississippi, Jackson.
—. 1977. Plant pathology as influenced by allelopathy.In Report of the research planning conference on the role of secondary compounds in plant interactions (allelopathy). pp. 64–99. (C. G. McWhorter, A. C. Thompson and E. W. Hauser, eds.) USDA, Agricultural Research Service, Tifton, Ga.
Bell, D. T. andD. E. Koeppe. 1972. Noncompetitive effects of giant foxtail on the growth of corn. Agron. J.64: 321–325.
Bendall, G. M. 1975. The allelopathic activity of California thistle (Cirsium arvense (L.) Scop.) in Tasmania. Weed Res.15: 77–81.
Berglund, H. 1969. Stimulation of growth of two marine algae by organic substances excreted byEnteromorpha linza in unialgal and axenic cultures. Physiol. Pl.22: 1069–1073.
Black, R. L. B. andN. J. Dix. 1976. Utilization of ferulic acid by microfungi from litter and soil. Trans. Brit. Mycol. Soc.66: 313–317.
Blum, U. andE. L. Rice. 1969. Inhibition of symbiotic nitrogen-fixation by gallic and tannic acid, and possible roles in old-field succession. Bull. Torrey Bot. Club96: 531–544.
Bogdan, G. P. 1971. Anatomical study of effects in the plant conducting system of allelopathic substances. Ukrajins’k. Bot. Zhurn.28: 703–707.
—. 1977. Mutual effect of couch grass and cultivated plants in phytocenoses.In Interactions of plants and microorganisms in phytocenoses. pp. 36–43 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
— andA. M. Grodzinsky. 1974. Role of sulfhydryl groups in protective reactions of plants during allelopathic damage. Ukrajins’k Bot. Zhurn.30: 771–778. (In Ukrainian, Russian and English summaries.)
Boiko, M. F. 1973. Allelopathic peculiarities of epiphytic mosses, lichens and algae of floodplain forests of the Derkul River.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 103–107 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Bokhari, U. G. 1978. Allelopathy among prairie grasses and its possible ecological significance. Ann. Bot. (London)42: 127–136.
Bonner, J. 1950. The role of toxic substances in the interactions of higher plants. Bot. Rev. (Lancaster)16: 51–65.
Börner, H. 1960. Liberation of organic substances from higher plants and their role in the soil sickness problem. Bot. Rev. (Lancaster)26: 393–424.
Boswell, F. C. andO. E. Anderson. 1974. Nitrification inhibitor studies of soil in field-buried polyethylene bags. Soil Sci. Soc. Amer. Proc.38: 851–852.
Brown, R. T. andP. Mikola. 1974. The influence of fruticose soil lichens upon the mycorrhizae and seedling growth of forest trees. Acta Forest. Fenn.141: 1–22.
Bruehl, G. W., ed. 1975. Biology and control of soil-borne plant pathogens. The American Phytopathological Society, St. Paul, Minn.
Bundy, L. G. andJ. M. Bremner. 1974. Inhibition of nitrification in soils. Soil Sci. Soc. Amer. Proc.37: 396–398.
Chalutz, E. 1973. Ethylene-induced phenylalanine ammonia-lyase activity in carrot roots. Pl. Physiol. (Lancaster)51: 1033–1036.
Chan, E. C. S., P. Basavanand andT. Liivak. 1970. The growth inhibition ofAzotobacter chroococcum byPseudomonas sp. Canad. J. Microbiol.16: 9–16.
Chandramohan, D., D. Purushothaman andR. Kothandaraman. 1973. Soil phenolics and plant growth inhibition. Pl. & Soil.39: 303–308.
Chang, C. F., A. Suzuki, S. Kumai andS. Tamura. 1969. Chemical studies on ‘clover sickness’. II. Biological functions of isoflavonoids and their related compounds. Agric. Biol. Chem.33: 398–408.
Chou, C-H. 1977. Phytotoxic substances in twelve subtropical grasses. I. Additional evidences of phytotoxicity in the aqueous fractions of grass extracts. Bot. Bull. Acad. Sin.18: 131–141.
— andY-T. Chung. 1974. The allelopathic potential ofMiscanthus floridulus. Bot. Bull. Acad. Sin.15: 14–27.
— andH-J. Lin. 1976. Autointoxication mechanisms ofOryza sativa. I. Phytotoxic effects of decomposing rice residues in soil. J. Chem. Ecol.2: 353–367.
— andZ. A. Patrick. 1976. Identification and phytotoxic activity of compounds produced during decomposition of corn and rye residues in soil. J. Chem. Ecol.2: 369–387.
— andC-C. Young. 1975. Phytotoxic substances in twelve sub-tropical grasses. J. Chem. Ecol.1: 183–193.
Christensen, N. L. andC. H. Muller. 1975. Effects of fire on factors controlling plant growth inAdenostoma chaparral. Ecol. Monogr.45: 29–55.
Chumakov, V. V. andM. M. Aleikina. 1977. On qualitative changes in root exudates of woody plants growing together.In Interactions of plants and microorganisms in phytocenoses. pp. 147–156 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Conover, J. J. andJ. M. Sieburth. 1964. Effect ofSargassum distribution on its epibiota and antibacterial activity. Bot. Mar.6: 147–157.
Cook, M. T. 1921. Wilting caused by walnut trees. Phytopathology11: 346.
Corcoran, M. R., T. A. Geissman andB. O. Phinney. 1972. Tannins as gibberellin antagonists. Pl. Physiol. (Lancaster)49: 323–330.
Coutinho, L. M. andF. Hashimoto. 1971. Sobre o efeito inhibitorio da germinacao de sementes produzido por folhas deCalea cuneifolia DC. Cienc. Cult. (Sao Paulo)23: 759–764.
Curtis, J. T. 1959. The vegetation of Wisconsin. University of Wisconsin Press, Madison.
Danks, M. L., J. S. Fletcher andE. L. Rice. 1975a. Influence of ferulic acid on mineral depletion and uptake of86Rb by Paul’s scarlet rose cell-suspension cultures. Amer. J. Bot.62: 749–755.
———. 1975b. Effects of phenolic inhibitors on growth and metabolism of glucose-UL-14C in Paul’s Scarlet Rose cell-suspension cultures. Amer. J. Bot.62: 311–317.
Datta, S. C. andS. P. Sinha-Roy. 1974. Allelopathy and inhibitors. Sci. & Cult.40: 47–59.
——. 1975. Phytotoxic effects ofCroton bonplandianum Baill. on weedy associates. Vegetatio30: 157–163.
Davidonis, G. H. andM. Ruddat. 1973. Allelopathic compounds, thelypterin A and B in the fernThelypteris normalis. Planta111: 23–32.
— andM. Ruddat. 1974. Growth inhibition in gametophytes and oat coleoptiles by thelypterin A and B released from roots of the fernThelypteris normalis. Amer. J. Bot.61: 925–930.
Dawes, D. S. andN. C. Maravolo. 1973. Isolation and characteristics of a possible allelopathic factor supporting the dominant role ofHieracium aurantiacum in the bracken-grasslands of northern Wisconsin. Trans. Wisconsin Acad. Sci.61: 235–251.
DeBeil, D. S. 1970. Phytotoxins-new problems in forestry? J. Forest. (Washington)68: 335–337.
—. 1971. Phytotoxic effects of cherrybark oak. Forest Sci.17: 180–185.
DeCandolle, M.A-P. 1832. Physiologie végétale. Tome III, pp. 1474–1475. Béchet Jeune, Lib. Fac. Méd., Paris.
Dedonder, A. andC. F. Van Sumere. 1971. The effect of phenolics and related compounds on the growth and the respiration ofChlorella vulgaris. Z. Pflanzenphysiol.65: 70–80.
Del Arno, S. andA. L. Anaya. 1978. Effect of some sesquiterpenic lactones on the growth of certain secondary tropical species. J. Chem. Ecol.4: 305–313.
del Moral, R. andC. H. Muller. 1969. Fog drip: a mechanism of toxin transport fromEucalyptus globulus. Bull. Torrey Bot. Club96: 467–475.
Demos, E. K., M. Woolwine, R. H. Wilson andC. McMillan. 1975. The effects of ten phenolic compounds on hypocotyl growth and mitochondrial metabolism of mung bean. Amer. J. Bot.62: 97–102.
Dzubenko, N. N. andN. I. Petrenko. 1971. On biochemical interaction of cultivated plants and weeds.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 2, pp. 60–66 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
—,L. I. Krupa andP. I. Boiko. 1977. Dynamics of inhibitor accumulation in the soil under continuous and crop rotation culture.In Interactions of plants and microorganisms in phytocenoses. pp. 70–77. (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Ebel, J., A. R. Ayers andP. Albersheim. 1976. Host-pathogen interactions. XII. Response of suspension-cultured soybean cells to the elicitor isolated fromPhytophthora megasperma var.sojae, a fungal pathogen of soybeans. Pl. Physiol. (Lancaster)57: 775–779.
Einhellig, F. A. andJ. A. Rasmussen. 1973. Allelopathic effects ofRumex crispus onAmaranthus retroflexus, grain sorghum and field corn. Amer. Midl. Naturalist90: 79–86.
——. 1978. Synergistic inhibitory effects of vanillic and p-hydroxbenzoic acids on radish and grain sorghum. J. Chem. Ecol.4: 425–436.
Ellis, J. R. andT. M. McCalla. 1973. Effects of patulin and method of application on growth stages of wheat. Appl. Microbiol.25: 562–566.
Elliston, J., J. Kuć andE. B. Williams. 1976. Protection ofPhaseolus vulgaris against anthracnose byColletotrichum species nonpathogenic to bean. Phytopathol. Z.86: 117–126.
Eussen, J. H. H. 1978. Isolation of growth inhibiting substances from alang-alang (Imperata cylindrica (L.) Beauv.).In Studies on the tropical weedImperata cylindrica (L.) Beauv. varmajor. Paper No. 7 (J. H. H. Eussen, ed.) Drukkerij Elinkwijk BV, Utrecht.
— andM. Soerjani. 1978. Allelopathic activity of alang-alang (Imperata cylindrica (L.) Beauv.), isolation of growth regulating substances from leaves.In Studies on the tropical weedImperata cylindrica (L.) Beauv. varmajor. Paper No. 6 (J. H. H. Eussen, ed.) Drukkerij Elinkwijk BV, Utrecht.
Farkas, G. L. andZ. Kiraly. 1962. Role of phenolic compounds in the physiology of plant diseases and disease resistance. Phytopathol. Z.44: 105–150.
Fay, P. K. andW. B. Duke. 1977. An assessment of allelopathic potential inAvena germplasm. Weed Sci.25: 224–228.
Fisher, R. F. 1977. Allelopathic interference among plants I. Ecological significance.In Proceedings of the fourth North American forest biology workshop. pp. 73–92. (H. E. Wilcox and A. F. Hamer, eds.) School of Continuing Education, College of Environmental Science and Forestry, Syracuse, N.Y.
—,R. A. Woods andM. R. Glavicic. 1978. Allelopathic effects of goldenrod and aster on young sugar maple. Canad. J. For. Res.8: 1–9.
Frick, H., L. F. Bauman, R. L. Nicholson andT. K. Hodges. 1977. Influence ofHelminthosporium maydis, Race T, toxin on potassium uptake in maize roots. II. Sensitivity of development of the augmented uptake potential to toxin and inhibitors of protein synthesis. Pl. Physiol. (Lancaster)59: 103–106.
—,R. L. Nicholson, T. K. Hodges andL. F. Bauman. 1976. Influence ofHelminthosporium maydis, Race T, toxin on potassium uptake in maize roots. Pl. Physiol. (Lancaster)57: 171–174.
Gabriel, W. J. 1975. Allelopathic effects of black walnut on white birches. J. Forest. (Washington)73: 234–237.
Gajić, D. 1966. Interaction between wheat and corn cockle on brown soil and smonitsa. J. Sci. Agric. Res.19: 63–96.
—. 1969. Effect of substance X on wheat yield. Savremena Poljopriveda (Contemporary Agric.)17: 351–358.
—. 1973a. Increase of the free tryptophan content in wheat germ under the influence ofAgrostemma githago. Fragm. Herb. Jugoslavica36: 1–10.
-. 1973b. The effect of agrostemins as a means of improvement of the quality and quantity of the grass-cover of the Zlatibor-as a preventive measure against the weeds. Yugoslav Symposium on Weed Control in Hilly and Mountainous Areas. Sarajevo.
—. 1974. Effect of agrostemmin upon the quantity dynamics of the grass cover species of Zlatibor-phytocoenosis Festuceto sulcatae-Potentilletum zlatiborensis typicum. Fragm. Herb. Jugoslavica46: 1–11.
—. 1977. Effect of agrostemin as an exometabolite on strengthening of ecological metabolism, in particular on the increase of phosphorus content and productivity.In Interactions of plants and microorganisms in phytocenoses. pp. 114–116 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
— andG. Nikočević. 1973. Chemical allelopathic effect ofAgrostemma githago upon wheat. Fragm. Herb. Jugoslavica18: 1–5.
— andM. Vrbaški. 1972. Identification of the effect of bio-regulators fromAgrostemma githago upon wheat in heterotrophic feeding, with special respect to agrostemmin and allantoin. Fragm. Herb. Croatica7: 1–6.
—— andS. Vrbaški. 1977. Investigations of allelopathic effects of agrostemin on the dynamics of phosphorus (P2O5) and potassium (K2O) in soil of manured and unmanured smonitsa and chernozem. Fragm. Herb. JugoslavicaII: 5–16.
—,S. Malenčić, M. Vrbaški andS. Vrbaški. 1976. Study of the possible quantitative and qualitative improvement of wheat yield through agrostemin as an allelopathic factor. Fragm. Herb. Jugoslavica63: 121–141.
Gant, R. E. andE. E. C. Clebsch. 1975. The allelopathic influences ofSassafras albidum in old-field succession in Tennessee. Ecology56: 604–615.
Gilmore, A. R. 1977. Effects of soil moisture stress on monoterpenes in loblolly pine. J. Chem. Ecol.3: 667–676.
Giovanelli, J., L. D. Owens andS. H. Mudd. 1972. β-Cystathionase-In vivo inactivation by rhizobitoxine and role of the enzyme in methionine biosynthesis in corn seedlings. Pl. Physiol (Lancaster)51: 492–503.
Giskin, M. L. andH. Kohnke. 1965. Measuring root responses to soil properties with a single plant. Agron. J.57: 96–97.
Glass, A. D. M. 1973. Influence of phenolic acids on ion uptake. I. Inhibition of phosphate uptake. Pl. Physiol. (Lancaster)51: 1037–1041.
-. 1974a. Influence of phenolic acids upon ion uptake. II. A structure-activity study of the inhibition of phosphate uptake by benzoic acid derivatives.In Mechanisms of regulation of plant growth. (R. L. Bieleski et al., eds.) Bull. Roy. Soc. New Zealand12: 159–164. Wellington, N.Z.
—. 1974b. Influence of phenolic acids upon ion uptake. III. Inhibition of potassium absorption. J. Exp. Bot.25: 1104–1113.
—. 1975. Inhibition of phosphate uptake in barley roots by hydroxy-benzoic acids. Phytochemistry14: 2127–2130.
—. 1976. The allelopathic potential of phenolic acids associated with the rhizosphere ofPteridium aquilinum. Canad. J. Bot.54: 2440–2444.
— andB. A. Bohm. 1969. The accumulation of cinnamic and benzoic acid derivatives inPteridium aquilinum andAthyrium felix-femina. Phytochemistry8: 371–377.
— andJ. Dunlop. 1974. Influence of phenolic acids on ion uptake. IV. Depolarization of membrane potentials. Pl. Physiol. (Lancaster)54: 855–858.
Gliessman, S. R. 1976. Allelopathy in a broad spectrum of environments as illustrated by bracken. J. Linn. Soc, Bot.73: 95–104.
— andC. H. Muller. 1972. The phytotoxic potential of bracken,Pteridium aquilinum (L.) Kuhn. Madroño21: 299–304.
——. 1978. The allelopathic mechanisms of dominance in bracken (Pteridium aquilinum) in southern California. J. Chem. Ecol.4: 337–362.
Glombitza, von K-W. andH. Stoffelen. 1972. 2,3-Dibromo-5-hydroxybenzyl-l,4-disulfat (dikaliumsalz) aus Rhodomelaceen. Pl. Med.22: 391–395.
——,U. Murawski, J. Bielaczek undH. Egge. 1974. Antibiotica aus Algen. 9. Mitt. Bromphenole aus Rhodomelaceae. Pl. Med.25: 105–114.
Green, F. B. andM. R. Corcoran. 1975. Inhibitory action of five tannins on growth induced by several gibberellins. Pl. Physiol. (Lancaster)56: 801–806.
Gries, G. A. 1943. Juglone the active agent in walnut toxicity. Annual Rep. North. Nut Growers Assoc.32: 52–55.
Grodzinsky, A. M. 1965. Allelopathy in the life of higher plants. Naukova Dumka, Kiev. (In Russian.)
— andG. P. Bogdan. 1972. Histochemical study of pectins, lignin, suberin and melanins in plants treated with allelopathically active substances. Ukrajins’k. Bot. Zhurn.29: 137–143. (In Ukrainian, Russian and English summaries.)
——. 1973. Role of ascorbic acid in formation of the brown mass in xylem of plants under the effect of allelopathic factors. Ukrajins’k. Bot. Zhurn.30: 28–35. (In Ukrainian, Russian and English summaries.)
— andM. A. Panchuk. 1974. Allelopathic properties of crop residues of wheat-wheat grass hybrids.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 51–55 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Groner, M. G. 1974. Intraspecific allelopathy inKalanchoe daigremontiana. Bot. Gaz. (Crawfordsville)135: 73–79.
—. 1975. Allelopathic influence ofKalanchoe daigremontiana on other species of plants. Bot. Gaz. (Crawfordsville)136: 207–211.
Grümmer, G. 1955. Die gegenseitige Beeinflussung hoherer Pflanzen-Allelopathic Gustav Fisher Verlag, Jena.
—. 1961. The role of toxic substances in the interrelationships between higher plants.In Mechanisms in biological competition. pp. 219–228 (F. L. Milthorpe, ed.) Symposium Soc. Exp. Biol. #15. Academic Press, N.Y.
Guenzi, W. andT. McCalla. 1962. Inhibition of germination and seedling development by crop residues. Soil Sci. Soc. Amer. Proc.26: 456–458.
—— andF. A. Norstadt. 1967. Presence and persistence of phytotoxic substances in wheat, oat, corn, and sorghum residues. Agron. J.59: 163–165.
Guillard, R. R. L. andJ. A. Hellebust. 1971. Growth and the production of extracellular substances by two strains ofPhaeocystis poucheti. J. Phycol.7: 330–338.
Gupta, N. N. andJ. Houdeshell. 1976. A differential-difference equations model of a dynamic aquatic ecosystem. Int. J. Systems Sci.7: 481–492.
Haider, K. andJ. P. Martin. 1975. Decomposition of specifically carbon-14 labeled benzoic and cinnamic acid derivatives in soil. Soil Sci. Soc. Amer. Proc.39: 657–662.
Halligan, J. P. 1973. Bare areas associated with shrub stands in grasslands: the case ofArtemisia californica. BioScience23: 429–432.
—. 1976. Toxicity ofArtemisia californica to four associated herb species. Amer. Midl. Naturalist95: 406–421.
Handley, W. R. C. 1963. Mycorrhizal associations andCalluna heathland afforestation. Bull. Forest Commn., London 36.
Hansen, J. A. 1973. Antibiotic activity of the ChrysophyteOchromonas malhamensis. Physiol. Pl.29: 234–238.
Harder, R. 1917. Ernahrungsphysiologische Untersuchungen an Cyanophyceen, hauptsachlich dem endophytischenNostoc punctiforme. Z. Bot.9: 145–242.
Harris, D. O. 1970. An autoinhibitory substance produced byPlatydorina caudata Kofoid. Pl. Physiol. (Lancaster)45: 210–214.
—. 1971b. A model system for the study of algal growth inhibitors. Arch. Protistenk.113: 230–234.
Harris, T. H., J. V. Hay andE. Quarterman. 1973. Isolation of 2-(4-hydroxybenzyl) malic acid fromPetalostemon gattingeri. J. Org. Chem.38: 4457–4459.
Hellebust, J. A. 1974. Extracellular products.In Algal physiology and biochemistry. pp. 838–863. (W. D. P. Stewart, ed.) Univ. of Calif. Press, Berkeley.
Henderson, M. E. K. 1956. A study of the metabolism of phenolic compounds by soil fungi using spore suspensions. J. Gen. Microbiol.14: 684–691.
— andV. C. Farmer. 1955. Utilization by soil fungi of p-hydroxybenzaldehyde, ferulic acid, syringaldehyde and vanillin. J. Gen. Microbiol.12: 37–46.
Hoffman, G. R. andD. L. Hazlett. 1977. Effects of aqueousArtemisia extracts and volatile substances on germination of selected species. J. Range Management30: 134–137.
Hogetsu, T. H. Shibaoka andM. Shimokoriyama. 1974. Involvement of cellulose in actions of gibberellin and kinetin on cell expansion. Gibberellin and kinetin-coumarin interactions on stem elongation. Pl. Cell Physiol.15: 265–272.
Hook, D. D. and J. Stubbs. 1967. An observation of understory growth retardation under three species of oaks. U.S. Forest Ser. Res. Note SE-70. USDA-Forest Service.
Horsley, S. B. 1977a. Allelopathic interference among plants II. Physiological modes of action.In Proceedings of the fourth North American forest biology workshop. pp. 93–136. (H. E. Wilcox and A. F. Hamer, eds.) School of Continuing Education, College of Environmental Science and Forestry, Syracuse, N.Y.
—. 1977b. Allelopathic inhibition of black cherry by fern, grass, goldenrod, and aster. Canad. J. Forest Res.7: 205–216.
—. 1977c. Allelopathic inhibition of black cherry. II. Inhibition by woodland grass, ferns, and club moss. Canad. J. Forest Res.7: 515–519.
Horton, J. S. andC. J. Kraebel. 1955. Development of vegetation after fire in the chamise chaparral of southern California. Ecology36: 244–262.
Huber, D. M., H. L. Warren, D. W. Nelson andC. Y. Tsai. 1977. Nitrification inhibitors-new tools for food production. BioScience27: 523–529.
Hull, J. C. andC. H. Muller. 1977. The potential for dominance byStipa pulchra in a California grassland. Amer. Midl. Naturalist97: 147–175.
Hussain, A. andM. A. B. Mallik. 1972. Study of rhizosphere microflora of berseem (Trifolium alexandrinum L.) and their effect onRhizobium trifolii. J. Sci.1: 139–145.
Ingham, J. 1972. Phytoalexins and other natural products as factors in plant disease resistance. Bot. Rev. (Lancaster)38: 343–424.
Jackson, J. R. andR. W. Willemsen. 1976. Allelopathy in the first stages of secondary succession on the piedmont of New Jersey. Amer. J. Bot.63: 1015–1023.
Jackson, R. M. 1965. Antibiosis and fungistasis of soil microorganisms.In Ecology of soil-borne plant pathogens. pp. 363–369 (K. F. Baker and W. C. Snyder, ed.) Univ. of Calif. Press, Berkeley.
Jankay, P. andW. H. Muller. 1976. The relationships among umbelliferone, growth and peroxidase levels in cucumber roots. Amer. J. Bot.63: 126–132.
Johansson, M. andE. Hägerby. 1974. Influence of growth conditions, metabolic inhibitors, and phenolic compounds on the ATP pool inFomes annosus. Physiol. Pl.32: 23–32.
Jones, J. M. andB. N. Richards. 1977. Effect of reforestation on turnover of15N-labelled nitrate and ammonium in relation to changes in soil microflora. Soil Biol. Biochem.9: 383–392.
Junttila, O. 1975. Allelopathy inHeracleum laciniatum: inhibition of lettuce seed germination and root growth. Physiol. Pl.33: 22–27.
Kaminsky, R. andW. H. Muller. 1977. The extraction of soil phytotoxins using a neutral EDTA solution. Soil Sci.124: 205–210.
Kapustka, L. A. andF. L. Moleski. 1976. Changes in community structure in Oklahoma old field succession. Bot. Gaz. (Crawfordsville)137: 7–10.
— andE. L. Rice. 1976. Acetylene reduction (N2-fixation) in soil and old field succession in central Oklahoma. Soil Biol. Biochem.8: 497–503.
Katznelson, J. 1972. Studies in clover soil sickness. I. The phenomenon of soil sickness in berseem and Persian clover. Pl. & Soil36: 379–393.
Keating, K. I. 1977. Allelopathic influence on blue-green bloom sequence in a eutrophic lake. Science196: 885–887.
—. 1978. Blue-green algal inhibition of diatom growth: transition from mesotrophic to eutrophic community structure. Science199: 971–973.
Keck, R. W. andT. K. Hodges. 1973. Membrane permeability in plants: Changes induced by host-specific pathotoxins. Phytopathology63: 226–230.
Khailov, K. M. 1971. Ecological metabolism in the sea. Naukova Dumka, Kiev. (In Russian.)
—,ed. 1974. Biochemical trophodynamics in marine coastal ecosystems. Naukova Dumka, Kiev. (In Russian.)
— andT. A. Aizatullin. 1976. Development of an ecological biochemistry. Ékologiya4: 5–13. (In Russian-English transl. available from Plenum Pub. Corp.)
Kimber, R. W. L. 1973. Phytotoxicity from plant residues. III. The relative effect of toxins and nitrogen immobilisation on the germination and growth of wheat. Pl. & Soil38: 543–555.
King, J. E. andJ. R. Coley-Smith. 1968. Effects of volatile products ofAllium species and their extracts on germination of sclerotia ofSclerotium cepivorum Berk. Ann. Appl. Biol.61: 407–414.
Koeppe, D. E. andR. J. Miller. 1974. Kaempferol inhibitions of corn mitochondrial phosphorylation. Pl. Physiol. (Lancaster)54: 374–378.
—,L. M. Southwick andJ. E. Bittell. 1976. The relationship of tissue chlorogenic acid concentrations and leaching of phenolics from sunflowers grown under varying phosphate nutrient conditions. Canad. J. Bot.54: 593–599.
Kogan, S. B., M. A. Kareva andB. E. Kozyritskaya. 1973. Formation of B vitamins by actinomycetes in sterile soil.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 118–121 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Kokino, N. A., M. P. Podtelok andN. I. Prutenskaya. 1973. Dynamics of biologically active volatile and water-soluble substances from fallen maple leaves.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 94–100 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Kolesnichenko, M. V. andM. M. Aleikina. 1976. The rate of protein biosynthesis and absorption of mineral substances by the roots of oak and ash growing together in the forest. Fiziol. Rast. (Mosc)23: 127–131. (In Russian, English summary.)
Kossanel, J. P., J. Martin, P. Annelle, M. Peinot, J. K. Vallet andK. Kurnej. 1977. Inhibition of growth of young radicles of maize by exudations in culture solutions and extracts of ground roots ofChenopodium album L.In Interactions of plants and microorganisms in phytocenoses. pp. 77–86 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Kovalchuk, Yu. G. 1973. Effect of biogenic ethylene on bean, pea, buckwheat and barley sprouts.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 65–67 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
—. 1974. Study of simultaneous effect of “apple” ethylene and gibberellin on plants.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 23–26 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
—. 1977. Biogenic ethylene in the chemical interaction of plants.In Interactions of plants and microorganisms in phytocenoses. pp. 12–20 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Kozhevnikov, I. G. 1974. Allelopathic properties of trees and shrubs of the forests in the Crimea.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 78–81 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Krogstad, O. andK. Solbraa. 1975. Effects of extracts of crude and composted bark from spruce on some selected biological systems. Acta Agric. Scand.25: 306–312.
Krupa, S. V. 1974. Biological significance of polyacetylenes and terpenoids in fungi and higher plants. Phytochem. Bull.7: 9–16.
Kunc, F. 1971. Decomposition of vanillin by soil microorganisms. Folia Microbiol. (Prague)16: 41–50.
Kushnir, G. P. 1973a. Microflora ofCrambe cordifolia Steve. andHeracleum sosnowskyi Manden rhizosphere.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 112–115 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
—. 1973b. Biological activity of rhizosphere organisms of some plants from steppe phytocenoses.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 115–118 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
—. 1977. Actinomycetes as antagonists in the rhizosphere of crysanthemum.In Interactions of plants and microorganisms in phytocenoses. pp. 157–161 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
— andT. S. Shrol. 1974. On metabolites of fungi in rhizospheres of some steppe plants.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 92–94 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Kuwatsuka, S. andH. Shindo. 1973. Behavior of phenolic substances in the decaying process of plants. I. Identification and quantitative determination of phenolic acids in rice straw and its decayed product by gas Chromatograph. Soil Sci. Pl. Nutr.19: 219–227.
Lakhtanova, L. I. 1977. Effect ofLupinus polyphyllus Lindl. root exudates on certain physiological processes inPicea excelsa L.In Interactions of plants and microorganisms in phytocenoses. pp. 86–91 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Lang, D. R. andE. Racker. 1974. Effects of quercetin and F1 inhibitor on mitochondrial ATPase and energy-linked reactions in submitochondrial particles. Biochim. Biophys. Acta333: 180–186.
Lee, I. K. andM. Monsi. 1963. Ecological studies onPinus densiflora forest 1. Effects of plant substances on the floristic composition of the undergrowth. Bot. Mag. (Tokyo)76: 400–413.
Lellinger, D. B. 1976. Incompatible companion plants. Bull. Amer. Fern Soc.3: 1.
Leon, W. B. 1976. Phytotoxicité induite par les résidus de récolte deSorghum vulgare dans les sols sableux de l’ouest Africain. Thèse pour Doctorat, Université de Nancy, France.
Leonard, R. T. andC. W. Hotchkiss. 1976. Cation-stimulated adenosine triphosphatase activity and cation absorption in corn roots. Pl. Physiol. (Lancaster)58: 331–335.
Leuck, E. E. II andE. L. Rice. 1976. Inhibition ofRhizobium andAzotobacter by rhizosphere bacteria ofAristida oligantha. Bot. Gaz. (Crawfordsville)137: 160–164.
Levy, G. F. 1970. The phytosociology of northern Wisconsin upland openings. Amer. Midl. Naturalist83: 213–237.
Lewis, J. A. andR. L. Starkey. 1968. Vegetable tannins, their decomposition and effects on decomposition of some organic compounds. Soil Sci.106: 241–247.
Li, C. Y. 1974. Phenolic compounds in understory of alder, conifer, and mixed alderconifer stands of coastal Oregon. Lloydia37: 603–607.
—. 1977. Conversion of p-coumaric acid to caeffeic acid and of p-hydroxyphenylacetic acid to 3,4-dihydroxyphenylacetic acid byAlnus rubra. Lloydia40: 298–300.
-,K. C. Lu, J. M. Trappe and W. B. Bollen. 1969a. A simple, quantitative method of assaying soil for inhibitory fungi. U.S. Forest Service Res. Note PNW-108.
——,E. E. Nelson, W. B. Bollen andJ. M. Trappe. 1969b. Effect of phenolic and other compounds on growth ofPoria weirii in vitro. Microbios1: 305–311.
——,J. M. Trappe andW. B. Bollen. 1970. Separation of phenolic compounds in alkali hydrolysates of a forest soil by thin-layer chromatography. Canad. J. Soil Sci.50: 458–460.
————. 1972.Poria weirii-inhibiting and other phenolic compounds in roots of red alder and Douglas-fir. Microbios5: 65–68.
————. 1973. Formation of p-hydroxybenzoic acid from phenylacetic acid byPoria weirii. Canad. J. Bot.51: 827–828.
Lill, R. E. andJ. A. McWha. 1976. Production of ethylene by incubated litter ofPinus radiata. Soil Biol. Biochem.8: 61–63.
Litav, M. andD. Isti. 1974. Root competition between two strains ofSpinacia oleracea: II. Effects of nutrient supply and non-simultaneous emergence. J. Appl. Ecol.11: 1017–1025.
Lockwood, J. L. 1959.Streptomyces spp. as a cause of natural fungitoxicity in soil. Phytopathology49: 327–334.
Lodhi, M. A. K. 1975a. Allelopathic effects of hackberry in a bottomland forest community. J. Chem. Ecol.1: 171–182.
—. 1975b. Soil-plant phytotoxicity and its possible significance in patterning of herbaceous vegetation in a bottomland forest. Amer. J. Bot.62: 618–622.
—. 1976. Role of allelopathy as expressed by dominating trees in a lowland forest in controlling productivity and pattern of herbaceous growth. Amer. J. Bot.63: 1–8.
—. 1977. The influence and comparison of individual forest trees on soil properties and possible inhibition of nitrification due to intact vegetation. Amer. J. Bot.64: 260–264.
—. 1978a. Allelopathic effects of decaying litter of dominant trees and their associated soil in a lowland forest community. Amer. J. Bot.65: 340–344.
—. 1978b. Comparative inhibition of nitrifiers and nitrification in a forest community as a result of the allelopathic nature of various tree species. Amer. J. Bot.65: 1135–1137.
— andG. L. Nickell. 1973. Effects of leaf extracts ofCeltis laevigata on growth, water content, and carbon dioxide exchange rates of three grass species. Bull. Torrey Bot. Club100: 159–165.
Lorber, P. andW. H. Muller. 1976. Volatile growth inhibitors produced bySalvia leucophylla: Effects on seedling root tip ultrastructure. Amer. J. Bot.63: 196–200.
McCahon, C. B., R. G. Kelsey, P. P. Sheridan andF. Shafizadeh. 1973. Physiological effects of compounds extracted from sagebrush. Bull. Torrey Bot. Club100: 23–28.
McCalla, T. M. andF. L. Duley. 1948. Stubble mulch studies. Effect of sweetclover extract on corn germination. Science108: 163.
——. 1949. Stubble mulch studies: III. Influence of soil microorganisms and crop residues on the germination, growth and direction of root growth of corn seedlings. Soil Sci. Soc. Amer. Proc.14: 196–199.
— andF. A. Haskins. 1964. Phytotoxic substances from soil microorganisms and crop residues. Bacteriol. Rev.28: 181–207.
McGrath, W. T. 1972. Biological control ofFormes annosus: a new possibility in the United States. Consultant17: 94–96.
McNaughton, S. J. 1968. Autotoxic feedback in relation to germination and seedling growth inTypha latifolia. Ecology49: 367–369.
McPherson, J. K. andC. H. Muller. 1969. Allelopathic effects ofAdenostoma fasciculatum, “chamise,” in the California chaparral. Ecol. Monogr.39: 177–198.
— andG. L. Thompson. 1972. Competitive and allelopathic suppression of understory by Oklahoma oak forests. Bull. Torrey Bot. Club99: 293–300.
MacDaniels, L. H. and D. L. Pinnow. 1976. Walnut toxicity, an unsolved problem. pp. 114–122. 67th Annual Rep. of Northern Nut Growers Assoc.
Macleod, N. J. andJ. B. Pridham. 1965. Observations on the translocation of phenolic compounds. Phytochemistry5: 777–781.
Mallik, M. A. B. andA. Hussain. 1972. Effect of rhizosphere microflora ofMelilotus alba onRhizobium meliloti. J. Sci.1: 133–138.
Marigo, G. etA. M. Boudet. 1975. Rôle des polyphénols dans la croissance. Définition d’un modèle expérimental chezLycopersicum esculentum. Physiol. Pl.34: 51–55.
Markova, S. A. 1972. Experimental investigations of the influence of oats on growth and development ofErysimum cheiranthoides L,In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 3, pp. 66–68 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Martin, D. F., E. C. Kutt andY. S. Kim. 1974. Use of a multiple diffusion chamber unit in culture studies. Application toGomphosphaeria aponina. Environm. Letters7: 39–46.
Matveev, N. M., G. N. Krisanov andI. I. Lyzhenko. 1975. Role of plant excretions in the formation of the grass stand in black locust and smoketree plantings of the steppe zone. Biol. Nauki (Moscow)18: 80–84. (In Russian.)
Mautner, H. G., G. M. Gardner andR. Pratt. 1953. Antibiotic activity of seaweed extracts. II.Rhodomela larix. J. Amer. Pharm. Assoc. (Sci. Educ.)42: 294–296.
Melin, E. 1963. Some effects of forest tree roots on mycorrhizal Basidiomycetes.In Symbiotic associations. pp. 125–145. (P. S. Nutman & B. Mosse, eds.), Cambridge Univ. Press.
Mensah, K. O. A. 1972. Allelopathy as expressed by sugar maple on yellow birch. Diss. Abstr. B (1972)33 (5) 1877.
Menzies, J. D. andR. G. Gilbert. 1967. Responses of the soil microflora to volatile components in plant residues. Soil Sci. Soc. Amer. Proc.31: 495–496.
Minar, J. 1974. The effect of couch grass on the growth and mineral uptake of wheat. Folia Fac. Sci. Nat. Univ. Purkynianae Brun.15: 1–84.
Mishra, R. R. andR. S. Kanaujia. 1972. Investigations into rhizosphere mycoflora XIII. Effect of foliar application of certain plant extracts onPennisetum typhoides f. burm Stapf & Hubb. Israel J. Agric. Res.22: 3–9.
— andK. K. Pandey. 1974. Studies on soil fungistasis: V. Effect of temperature, moisture content and incubation period. Indian Phytopathol.27: 475–479.
——. 1975. Studies on soil fungistasis IV. Effect of physico-chemical characters and soil fungal flora on fungistasis. Ann. Edafol. Agrobiol.34: 423–428.
Mohnot, K. andS. Soni. 1976. Observations on the allelochemic factor in air-dried leaves ofSalvadora oleoides. Comp. Physiol. Ecol.1: 125–128.
——. 1977. Ecophysiological studies of desert plants: II. Growth retarding factor in air-dried stem ofSolanum surattense Burm. F. Comp. Physiol. Ecol.2: 97–100.
Moleski, F. L. 1976. Condensed tannins in soil: inputs and effects on microbial populations. Ph.D. Diss., Univ. of Okla., Norman, Diss. Abstr. 76-15816.
Molisch, H. 1937. Der Einfluss einer Pflanze auf die andere-Allelopathie. Gustav Fischer Verlag, Jena.
Muller, C. H. 1966. The role of chemical inhibition (allelopathy) in vegetational composition. Bull. Torrey Bot. Club93: 332–351.
—. 1970a. Phytotoxins as plant habitat variables.In Recent advances in phytochemistry. Vol. 3. pp. 106–121 (C. Steelink and V. C. Runeckles, eds.) Appleton-Century-Crofts, N.Y.
—. 1970b. The role of allelopathy in the evolution of vegetation.In Biochemical coevolution: pp. 13–31 (K. L. Chambers, ed.) Oregon State Univ. Press, Corvallis, Ore.
— andR. del Moral. 1966. Soil toxicity induced by terpenes fromSalvia leucophylla. Bull. Torrey Bot. Club93: 130–137.
Murphy, T. P., D. R. S. Lean andC. Nalewajko. 1976. Blue-green algae: their excretion of Fe-selective chelators enables them to dominate other algae. Science192: 900.
Murthy, M. S. andT. Nagodra. 1977. Allelopathic effects ofAristida adscensionis onRhizobium. J. Appl. Ecol.14: 279–282.
— andR. Ravindra. 1974. Inhibition of nodulation ofIndigofera cordifolia byAristida adscensionis. Oecologia16: 257–258.
Nadkernichnyi, S. P. 1974. On the problem of distribution of toxin producing microscopic fungi in soddy-medium podzolic soil under some farm crops.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, 97–100 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Nalewajko, C. andD. R. S. Lean. 1972. Growth and excretion in planktonic algae and bacteria. J. Phycol.8: 361–366.
Naqvi, H. H. 1972. Preliminary studies of interference exhibited by Italian ryegrass. Biologia (Lahore)18: 201–210.
— andC. H. Muller. 1975. Biochemical inhibition (allelopathy) exhibited by Italian ryegrass (Lolium multiflorum L.) Pakistan J. Bot.7: 139–147.
Neustruyeva, S. N. andT. N. Dobretsova. 1972. Influence of some summer crops on white goosefoot.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 3, pp. 68–73 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Newman, E. I. andM. H. Miller. 1977. Allelopathy among some British grassland species. II. Influence of root exudates on phosphorus uptake. J. Ecol.65: 399–411.
Norstadt, F. A. andT. M. McCalla. 1963. Phytotoxic substance from a species ofPenicillium. Science140: 410–411.
Numata, M., A. Kobayashi and N. Ohga. 1973. Studies on allelopathic substances concerning the formation of the urban flora.In Fundamental studies in the characteristics of urban ecosystems. pp. 59–64 (M. Numata, ed.).
-, -and -. 1974. Studies on allelopathic substances concerning the formation of the urban flora.In Studies in urban ecosystems. pp. 22–25 (M. Numata, ed.).
-, -and -. 1975. Studies on the role of allelopathic substances.In Studies in urban ecosystems. pp. 38–41 (M. Numata, ed.).
Olsen, R. A. 1973a. Triterpeneglycosides as inhibitors of fungal growth and metabolism. 5. Role of the sterol contents of some fungi. Physiol. Pl.28: 507–515.
—. 1973b. Triterpeneglycosides as inhibitors of fungal growth and metabolism. 6. The effect of aescin on fungi with reduced sterol contents. Physiol. Pl.29: 145–149.
—. 1974. Triterpeneglycosides as inhibitors of fungal growth and metabolism. 7. The effect of aescin on the utilization of glucose and sucrose. Physiol. Pl.30: 279–282.
—. 1975. Triterpeneglycosides as inhibitors of fungal growth and metabolism. 8. Induced leakage of nucleotide materials. Physiol. Pl.33: 75–82.
—,G. Odham andG. Linderberge. 1971. Aromatic substances in leaves ofPopulus tremula as inhibitors of mycorrhizal fungi. Physiol. Pl.25: 122–129.
Osborn, E. M. 1943. On the occurrence of antibacterial substances in green plants. Brit. J. Exp. Pathol.24: 227–231.
Overland, L. 1966. The role of allelopathic substances in the “smother crop” barley. Amer. J. Bot.53: 423–432.
—,J. F. Thompson andP. V. Fennessey. 1972. Dihydrorhizobitoxine, a new ether amino-acid fromRhizobium japonicum. J. Chem. Soc., Chem. Commu.1972: 715.
Panchuk, M. A. andN. I. Prutenskaya. 1973. On the problem of the presence of allelopathic properties in wheat-wheat grass hybrids and their initial forms.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 44–47 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Pandya, S. M. 1975. Effect ofCelosia argentea extracts on root and shoot growth of bajra seedlings. Geobios (Jodhpur)2: 175–178.
Panova, L. S. 1977. Allelopathic activity of plants in the steppe phytocenoses of the Kamennyje Mogily reservation 1. Activity of root exudates.In Interactions of plants and microorganisms in phytocenoses. pp. 131–137 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Pareek, R. P. andA. C. Gaur. 1973. Organic acids in the rhizosphere ofZea mays andPhaseolus aureus plants. Pl. & Soil39: 441–444.
Patrick, Z. A. 1971. Phytotoxic substances associated with the decomposition in soil of plant residues. Soil Sci.111: 13–18.
— andL. W. Koch. 1958. Inhibition of respiration, germination and growth by substances arising during the decomposition of certain plant residues in the soil. Canad. J. Bot.36: 621–647.
—,T. A. Toussoun andL. W. Koch. 1964. Effect of crop residue decomposition products on plant roots. Annual Rev. Phytopathol.2: 267–292.
andW. C. Snyder. 1963. Phytotoxic substances in arable soils associated with decomposition of plant residues. Phytopathology53: 152–161.
Perry, G. S. 1932. Some tree antagonisms. Proc. Pennsylvania Acad. Sci.6: 136–141.
Persidsky, D. J., H. Loewenstein andS. A. Wilde. 1965. Effects of extracts of prairie soils and prairie grass roots on the respiration of ectotrophic mycorrhizae. Agron. J.57: 311–312.
Peters, E. J. 1968. Toxicity of tall fescue to rape and birdsfoot trefoil seeds and seedlings. Crop Sci.8: 650–653.
Peterson, E. B. 1965. Inhibition of black spruce primary roots by a water-soluble substance inKalmia angustifolia. Forest Sci.11: 473–479.
Peterson, G. B. 1972. Determination of the presence, location, and allelopathic effects of substances produced byJuniperus scopulorum Sarg. Diss. Abstr. B (1972)32 (7) 3811–3812.
Petrova, A. G. 1977. Effect of phytoncides from soybean, gram chick-pea and bean on the uptake of phosphorus by maize.In Interactions of plants and microorganisms in phytocenoses. pp. 91–97 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Petrushenko, V. V., S. G. Kovalenko andM. N. Kostuchek. 1974. On changes in electrophysiological parameters of plants under the influence of allelopathic water-soluble exudates.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 32–36 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Pickett, S. T. II andJ. M. Baskin. 1973. Allelopathy and its role in the ecology of higher plants. Biologist55: 49–73.
Priester, D. S. and M. T. Pennington. 1978. Inhibitory effects of broomsedge extracts on the growth of young loblolly pine seedlings. U.S. Forest Ser. Res. Paper. SE-182. USDA-Forest Service.
Prutenskaya, N. I. 1974. Peculiarities of interaction betweenSinapis arvensis L. and cultivated plants.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 66–68 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Purchase, B. S. 1974. Evaluation of the claim that grass root exudates inhibit nitrification. Pl. & Soil41: 527–539.
Putnam, A. R. andW. B. Duke. 1974. Biological suppression of weeds: evidence for allelopathy in accessions of cucumber. Science185: 370–372.
Quarterman, E. 1973. Allelopathy in cedar glade plant communities. J. Tennessee Acad. Sci.48: 147–150.
Quinn, J. A. 1974.Convolvulus sepium in old field succession on the New Jersey Piedmont. Bull. Torrey Bot. Club101: 89–95.
Rakhteenko, I. N., I. A. Kaurov andI. T. Minko. 1973a. Effect of water-soluble metabolites of a series of crops on some physiological processes.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 23–26 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
——. 1973b. On the problem of exchange of root excretions in some agricultural plants in agrophytocenoses.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 16–19 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Rao, V. R., N. S. S. Rao andK. G. Mukerji. 1973. Inhibition ofRhizobium in vitro by non-nodulating legume roots and root extracts. Pl. & Soil39: 449–452.
Rasmussen, J. A. andF. A. Einhellig. 1975. Non-competitive effects of common milkweed,Asclepias syriaca L., on germination and growth of sorghum. Amer. Midl. Naturalist94: 478–483.
——. 1977. Synergistic inhibitory effects of p-coumaric and ferulic acids on germination and growth of grain sorghum. J. Chem. Ecol.3: 197–205.
Rice, E. L. 1967. Chemical warfare between plants. Bios38: 67–74.
—. 1972. Allelopathic effects ofAndropogon virginicus and its persistence in old fields. Amer. J. Bot.59: 752–755.
—. 1974. Allelopathy. Academic Press, N.Y.
—. 1976. Allelopathy and grassland improvement.In The grasses and grasslands of Oklahoma. pp. 90–111 (J. R. Estes and R. J. Tyrl, eds.) Noble Foundation, Ardmore, Okla.
— andS. K. Pancholy. 1972. Inhibition of nitrification by climax ecosystems. Amer. J. Bot.59: 1033–1040.
——. 1973. Inhibition of nitrification by climax ecosystems II. Additional evidence and possible role of tannins. Amer. J. Bot.60: 691–702.
——. 1974. Inhibition of nitrification by climax ecosystems. III. Inhibitors other than tannins. Amer. J. Bot.61: 1095–1103.
Rietveld, W. J. 1975. Phytotoxic grass residues reduce germination and initial root growth of ponderosa pine. USDA Forest Ser. Res. Paper RM-153.
Robinson, R. K. 1972. The production by roots ofCalluna vulgaris of a factor inhibitory to growth of some mycorrhizal fungi. J. Ecol.60: 219–224.
Robson, T. O. 1977. Perspectives of biological control of aquatic weeds in temperate climatic zones. Aquatic Bot.3: 125–132.
Roshchina, V. D. 1973. Reducing power of woody plant leaf infusions and inhibition of the Hill reaction with 2,6-dichlorophenol by them.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 4, pp. 10–15 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
—. 1974. Volatile and water-soluble metabolites of woody plant leaves.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 36–40 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Rychert, R. C. andJ. Skujins. 1974. Nitrogen fixation by blue-green algae-lichen crusts in the Great Basin Desert. Soil Sci. Soc. Amer. Proc.38: 768–771.
Saftner, P. A. andM. L. Evans. 1974. Selective effects of victorin on growth and the auxin response inAvena. Pl. Physiol. (Lancaster)53: 382–387.
Sajise, P. E. andJ. S. Lales. 1975. Allelopathy in a mixture of cogon (Imperata cylindrica) andStylosanthes guyanensis. Kalikasan Philipp. J. Biol.4: 155–164.
Salas, M. C. yE. Vieitez. 1972. Actividad de crecimiento de Ericaceas. Anales Edafol. Agrobiol.31: 1001–1009.
Sarkar, S. K. andC. T. Phan. 1974. Effect of ethylene on the qualitative and quantitative composition of the phenol content of carrot roots. Physiol. Pl.30: 72–76.
Sarma, K. K. V. 1974a. Allelopathic potential ofDigera arvensis Forsk. onPennisetum typhoides Stapf. et Hubb. Geobios (Jodhpur)1: 137.
—. 1974b. Allelopathic potential ofEchinops echinatus andSolanum surattense on seed germination ofArgemone mexicana. Trop. Ecol.15: 156–157.
Saunders, G. W. 1957. Interrelations of dissolved organic matter and phytoplankton. Bot. Rev. (Lancaster)23: 389–409.
Scharft, T. G. andA. C. Perry. 1976. The effects of salicylic acid on metabolism and potassium ion content in yeast. Proc. Soc. Exp. Biol.151: 72–77.
Schenck, S. andG. Stotzky. 1975. Effect on microorganisms of volatile compounds released from germinating seeds. Canad. J. Microbiol.21: 1622–1634.
Scott, D. 1975. Allelopathic interactions of resident tussock grassland species on germination of oversown seed. New Zealand J. Exp. Agric.3: 135–142.
Shafizadeh, F. andN. R. Bhadane. 1972a. Badgerin, a new germacranolide fromArtemisia arbuscula ssp.arbuscula. J. Org. Chem.37: 274–277.
——. 1972b. Sesquiterpene lactones of sagebrush. New guaianolides fromArtemisia cana ssp.viscidula. J. Org. Chem.37: 3168–3173.
— andA. B. Melnikoff. 1970. Coumarinsof Artemisia tridentata ssp. vaseyana. Phytochemistry9: 1311–1316.
—,N. R. Bhadane, M. S. Morris, R. G. Kelsey andS. N. Khanna. 1971. Sesquiterpene lactones of big sagebrush. Phytochemistry10: 2745–2754.
Shukla, A. N., D. K. Arora andR. S. Dwivedi. 1977. Effect of microbial culture filtrates on the growth of sal (Shorea robusta Gaertn.) leaf litter fungi. Soil Biol. Biochem.9: 217–219.
Sieburth, J. M. 1968. The influence of algal antibiosis on the ecology of marine microorganisms. Advances Microbiol. Sea1: 63–94.
Singh, P. N. 1977. Effect of root exudates and extracts ofSolanum nigrum andArgemone mexicana seedlings on rhizosphere mycoflora. Acta Bot. Indica5: 123–127.
Stahl, C., L. N. Vanderhoef, N. Siegel andJ. P. Helgeson. 1973.Fusarium tricinctum T-2 toxin inhibits auxin-promoted elongation in soybean hypocotyl. Pl. Physiol. (Lancaster)52: 663–666.
Stenlid, G. 1970. Flavonoids as inhibitors of the formation of adenosine triphosphate in plant mitochondria. Phytochemistry9: 2251–2256.
Stepanov, E. V. 1977. Volatile substances of conifer root systems as a factor of the forest community environment.In Interactions of plants and microorganisms in phytocenoses. pp. 58–65 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Stevenson, F. J. 1967. Organic acids in soil.In Soil biochemistry. pp. 119–142. (A. D. McLaren & G. H. Peterson, eds.) Marcel Dekker, Inc., N.Y.
Stotzky, G. andS. Schenck. 1976. Observations on organic volatiles from germinating seeds and seedlings. Amer. J. Bot.63: 798–805.
Szczepański, A. J. 1977. Allelopathy as a means of biological control of water weeds. Aquatic Bot.3: 193–197.
Tack, B. F., P. J. Chapman andS. Dagley. 1972. Metabolism of gallic and syringic acids byPseudomonas putida. J. Biol. Chem.247: 6438–6443.
Tames, R. S., M. D. V. Gesto andE. Vieitez. 1973. Growth substances isolated from tubers ofCyperus esculentus var.aureus. Physiol. Pl.28: 195–200.
Tamura, S., C. Chang, A. Suzuki andS. Kumai. 1967. Isolation and structure of a novel isoflavone derivative in red clover. Agric. Biol. Chem.31: 1108–1109.
————. 1969. Chemical studies on “clover sickness.” Part I. Isolation and structural elucidation of two new isoflavonoids in red clover. Agric. Biol. Chem.33: 391–397.
Tang, C. S. andA. C. Waiss, Jr. 1978. Short-chain fatty acids as growth inhibitors in decomposing wheat straw. J. Chem. Ecol.4: 225–232.
Theodorou, C. andG. D. Bowen. 1971. Effects of non-host plants on growth of mycorrhizal fungi of radiata pine. Austral. Forest.35: 17–22.
Thomas, A. S., Jr. 1974. The effect of aqueous extracts of blue spruce leaves on seed germination and seedling growth of several plant species. [Abstract.] Phytopathology64: 587.
Tkachenko, G. V. andS. G. Kovalenko. 1977. On the problem of biological activity of water-soluble leachates of fallen leaves of some woody plants.In Interactions of plants and microorganisms in phytocenoses. pp. 103–106 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Todd, R. L., W. T. Swank, J. E. Douglass, P. C. Kerr, D. L. Brockway andC. D. Monk. 1975. The relationship between nitrate concentration in the southern Appalachian mountain streams and terrestrial nitrifiers. Agro-Ecosystems2: 127–132.
Trappe, J. M., C. Y. Li, K. C. Lu andW. B. Bollen. 1973. Differential response ofPoria weirii to phenolic acids from Douglas-fir and red alder roots. Forest Sci.19: 191.
Tubbs, C. H. 1973. Allelopathic relationship between yellow birch and sugar maple seedlings. Forest Sci.19: 139–145.
Tukey, H. B., Jr. 1969. Implications of allelopathy in agricultural plant science. Bot. Rev. (Lancaster)35: 1–16.
Turner, B. H. andE. Quarterman. 1975. Allelochemic effects ofPetalostemon gattingeri on the distribution ofArenaria patula in cedar glades. Ecology56: 924–932.
Turner, J. A. andE. L. Rice. 1975. Microbial decomposition of ferulic acid in soil. J. Chem. Ecol.1: 41–58.
Turner, W. B. 1971. Fungal metabolites. Academic Press, N.Y.
Tyson, B. J., W. A. Dement andH. A. Mooney. 1974. Volatilisation of terpenes fromSalvia mellifera. Nature252: 119–120.
U. S. Forest Service. 1963. Annual Rep. U.S. Dept. Agric., Rocky Mountain Forest and Range Exp. Sta.
Van Alfen, N. K. andN. C. Turner. 1975a. Influence of aCeratocystis ulmi toxin on water relations of elm (Ulmus americana). Pl. Physiol. (Lancaster)55: 312–316.
——. 1975b. Changes in alfalfa stem conductance induced byCorynebacterium insidiosum toxin. Pl. Physiol. (Lancaster)55: 559–561.
Van der Valk, A. G. andC. B. Davis. 1976. The seed banks of prairie glacial marshes. Canad. J. Bot.54: 1832–1838.
Vieitez, E. yA. Ballester. 1972. Compuestos fenólicos y cumáricos enErica cinerea L. Anales Inst. Bot. Cavanilles29: 129–142.
Vitousek, P. M. 1977. The regulation of element concentrations in mountain streams in the northeastern United States. Ecol. Monogr.47: 65–87.
— andW. A. Reiners. 1975. Ecosystem succession and nutrient retention: a hypothesis. BioScience25: 376–381.
Vrbaški, M. M., B. Grujić-Injac andD. Gajić. 1977. Preparation, identification and biological activity of substance “A” from seeds ofAgrostemma githago. Biochem. Physiol. Pflanzen171: 69–74.
Walters, D. T. andA. R. Gilmore. 1976. Allelopathic effects of fescue on the growth of sweetgum. J. Chem. Ecol.2: 469–479.
Weaver, T. W. andD. Klarich. 1977. Allelopathic effects of volatile substances fromArtemisia tridentata Nutt. Amer. Midl. Naturalist97: 508–512.
Webb, L. J., J. G. Tracey andK. P. Haydock. 1967. A factor toxic to seedlings of the same species associated with living roots of the non-gregarious subtropical rain forest treeGrevillea robusta. J. Appl. Ecol.4: 13–25.
Werner, P. A. 1975. The effects of plant litter on germination in teasel,Dipsacus sylvestris Huds. Amer. Midl. Naturalist94: 470–476.
Whitehead, D. C. 1964. Identification of p-hydroxybenzoic, vanillic, p-coumaric and ferulic acids in soils. Nature202: 417–418.
Whittaker, R. H. 1971. The chemistry of communities.In Biochemical interactions among plants. pp. 10–18. (U.S. Nat. Com. for IBP, eds.) Nat. Acad. of Sci., Washington, D.C.
Wilson, R. E. 1974. Allelopathy-an ecological role for secondary compounds of plant species. Phytochem. Bull.7: 31–37.
Winter, A. G. 1961. New physiological and biological aspects in the interrelationships between higher plants.In Mechanisms in biological competition. pp. 229–244 (F. L. Milthorpe, ed.) Symposium Soc. Exp. Biol. 15, Academic Press, N.Y.
Wolek, J. 1974. A preliminary investigation in interactions (competition, allelopathy) between some species ofLemna, Spirodela, andWolffia. Ber. Geobot. ETH Stiftung Rubel42: 140–162.
Wolfe, J. M. and E. L. Rice. 1978. Allelopathic interactions between algae. J. Chem. Ecol. In press.
Wood, R. K. S., A. Ballio andA. Graniti, eds. 1972. Phytotoxins in plant disease. Academic Press, N. Y.
— andA. Graniti, eds. 1976. Specificity in plant diseases. Plenum Press, New York.
Woods, F. W. 1960. Biological antagonisms due to phytotoxic root exudates. Bot. Rev. (Lancaster)26: 546–569.
Yakhontov, A. F. 1973. On the possibility of using the allelopathic action of some plants for controllingDactilosphera viticola F.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol.4, pp. 57–60 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Yoder, O. C. andR. P. Scheffer. 1973a. Effects ofHelminthosporium carbonum toxin on nitrate uptake and reduction by corn tissues. Pl. Physiol. (Lancaster)52: 513–517.
——. 1973b. Effects ofHelminthosporium carbonum toxin on absorption of solutes by corn roots. Pl. Physiol. (Lancaster)52: 518–523.
Young, B. R., F. J. Newhook andR. N. Allen. 1977. Ethanol in the rhizosphere of seedlings ofLupinus angustifolius L. New Zealand J. Bot.15: 189–191.
Yurchak, L. D. 1974. Active metabolites of microorganisms decomposingLupinus.In Physiological-biochemical basis of plant interactions in phytocenoses. Vol. 5, pp. 100–103 (A. M. Grodzinsky, ed.) Naukova Dumka, Kiev. (In Russian, English summary.)
Zabyalyendzik, S. F. 1973. Allelopathic interaction of buckwheat and its components through root excretions. Vyestsi Akad. Navuk BSSR Syer Biyal Navuk5: 31–34. (In Belorussian, Russian summary.)
Zaikova, V. A. 1973. Study of the allelopathic regime in meadow phytocenoses of the Karelian ASSR. Bot. Zh.58: 1753–1760. (In Russian.)
Zhamba, G. E. 1972. Allelopathic role of coumarin compounds on propagation of cow parsnipHeracleum. Izv. Akad. Nauk Mold. SSR, Ser. Biol. Khim Nauk1: 86–87. (In Russian.)