Abstract
The great importance of antibiotics in combating diseases of man has, along with economic factors, deterred investigators from exploring the possibility of using those agents against plant diseases, but some purely experimental evidence in that direction has been accumulated.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Bibliography
Allen, M. C., and Haensoler, C. M. 1935. Antagonistic action ofTrichoderma onRhizoctonia and other soil fungi. Phytopath.25: 244–252.
Anderson, H. W., and Nienow, Inez. 1947. Effect of streptomycin on higher plants. Phytopath.37: 1.
Anwar, A. A. 1949. Factors affecting the survival ofHelminthosporium sativum andFusarium lini in soil. Phytopath.39: 1005–1019.
Arnstein, H. R. V., Cook, A. H., and Lacey, M. S. 1948. The inhibition ofFusarium oxysporum var.cubense by musarin, an antibiotic produced by Meredith’s actinomyccte. Jour. Gen. Microbiol.2: 111–122.
Bisby, G. R., James, N., and Timonon, M. 1933. Fungi isolated from Manitoba soil by the plate method. Canadian Jour. Res. C.8: 253–275.
Boyle, A. M. 1949. Further studies of the bacterial necrosis of the giant cactus. Phytopath.39: 1029–1052.
Brian, P. W. 1944. Production of gliotoxin byTrichoderma viride. Nature 154: 667.
—, 1946. Production of gliotoxin byPenicillium terlikouskii Zal. Trans. Brit. Myc. Soc.29: 211–218.
—, 1949. Studies on the biological activity of griseofulvin. Ann. Bot.49: 59–77.
—, Curtis, P. J., and Hemming, H. G. 1946. A substance causing abnormal development of fungal hyphae produced byPenicillium janczewskii Zal. I. Biological assay, production and isolation of “curling factor”. Trans. Brit. Mycol. Soc.29: 173–187.
— 1949. A substance causing abnormal development of fungal hyphae produced byPenicillium janezewskii Zal. III. Identity of “curling factor” with griseofulvin. Trans. Brit. Mycol. Soc.32: 30–33.
— and McGowan, J. C. 1946. The production of viridin by pigment-forming strains ofTrichoderma viride. Ann. Appl. Biol.32: 214–220.
— Unwin, C. H., and Wright, Joyce M. 1949. Alterneric acid, a biologically active metabolic product of the fungus.Alternaria solani. Nature164: 534.
— and Hemming, H. G. 1945. Gliotoxin, a fungistatic metabolic product ofTrichoderma viride. Ann. Appl. Biol.32: 214–220.
— and McGowan, J. C. 1935. Origin of toxicity to mycorrhiza in Wareham heath soil. Nature155: 637–638.
— and McGowan, J. C. 1944. A highly fungistatic substance produced byTrichoderma viride. Nature156: 144–145.
— and Wright, Joyce M. 1951. Uptake of metabolites of soil microorganisms by plants. Nature167: 347.
Brown, J. G., and Boyle, A. M. 1944a. Penicillin treatment of crown gall. Science100: 528.
— 1944b. Effect of penicillin on plant pathogens. Phytopath.34: 760–761.
— 1945. Application of penicillin to crown gall. Phytopath.35: 521–524.
—, 1948. Cytological effects of penicillin and streptomycin on crown gall. Phytopath.38: 3.
—, and Heep, D. M. 1946. Effect of streptomycin on budwood infected withPhytomonas pruni. Science104: 208.
Bruce, W. F., Dutcher, J. D., Johnson, J. R., and Miller, L. L. 1944. Gliotoxin, the antibiotic principle ofGliocladium fimbriatum. II. General chemical behavior and crystalline derivative. Jour. Am. Chem. Soc.66: 614–616.
Cercos, A. P. 1948. Antibiotic action ofBacillus mesentericus againstUstilago maydes and other fungi. Rev. Invest. Agr.2: 37–56.
- 1949. Property and identification of an antibiotic produced byBacillus subtilis. Comunicacion: Reunion “V” Aniversario Instituto Fitotecnia.
— 1950a. Antibiotic DINR 49-1 (fungocin) produced byBacillus subtilis with activity against fungi pathogenic to animals and plants. Rev. Invest. Agr.4: 3–13.
-. 1950b. Antagonismo y antibiosis en relacion con los Patogenos Vegetalos. Publication Tecnica No. 39.
— 1951. Effect of bacillomycin and fungocin on the germination of wheat. Rev. Argentina Agron.18: 33–35.
Christensen, J. J. 1936. Associations of microorganisms in relation to seedling injury arising from the infested seed. Phytopath.26: 1091–1105.
Darpoux, H., Fairre-Arniot, A., and Roux, L. 1950. On a new antibiotic, alternarine, and some other substances extracted from cultures of a strain ofAlternaria solani. Comp. Rend. Acad. Sci. [Paris]230: 993–995.
de Ropp, R. S. 1949. The action of antibacterial substances on the growth ofPhytomonas tumefaciens and of crown gall tumor tissues. Phytopath.39: 822–828.
deZeeuw, D. J., and Vaughn, J. R. 1950. An antibiotic of potential value in field control of cucumber scab. Plant Dis. Rep.34: 7–8.
Dimick, K. P., Alderton, G., Lewis, J. C., Lightbody, H. D., and Fenold, H. L. 1947. Purification and some properties of subtilin. Arch. Biochem.15: 1–11.
Dunshee, B. R., Leben, Curt, Keitt, G. W., and Strong, F. M. 1949. The isolation and properties of antimycin A. Jour. Am. Chem. Soc.71: 2436–2437.
Dutcher, J. D., Johnson, J. R. and Bruce, W. F. 1944. Gliotoxin, the antibiotic principle ofGliocladium fimbriatum. IV. Structure of gliotoxin: the action of selenium. Jour. Am. Chem. Soc.66: 619–621.
—, — and — 1945. Gliotoxin, the antibiotic principle ofGliocladium fimbriatum. VI. Nature of the sulfer linkages. Conversion into desthiogliotoxin. Jour. Am. Chem. Soc.67: 1736–1745.
Felber, I. M., and Hamner, C. L. 1948. Control of mildew on bean plants by means of an antibiotic. Bot. Gaz.110: 324–325.
Garrand, E. H., and Lochhead, A. G. 1938. Relationship between soil microorganisms and soil borne plant pathogens—a review. Sci. Agr.18: 719–737.
Glister, G. A., and Williams, T. I. 1944. Production of gliotoxin byAspergillus fumigatus mut.helvola. Nature [London]153: 651–652.
Goodman, J. J., and Henry, A. W. 1947a. A strain ofBacillus subtilis possessing destructive antibiotic properties towardXanthomonas translucens and other bacteria. Proc. Canad. Phytopath. Soc.15: 19.
—, and — 1947b. Action of subtilin in reducing infection by a seed-borne pathogen. Science105: 320.
Gottlieb. D. 1950. [Unpublished data].
—, Bhattacharyya, P. K., Carter, H. E., and Anderson, H. W. 1950. Endomycin, a new antibiotic. Phytopath.41: 393–400.
—, Hassan, H. H., and Linn, M. B. 1950. Actidione as a plant protectant. Phytopath.40: 218–219.
— and Siminoff, P. 1950. The role of antibiotics in soil. Phytopath.40: 11.
- and - 1951. Production and activity of chloromycetin in soil. Proc. Soc. Am. Bact. [In press].
Grossbard, E. 1948a. The control of plant diseases by microbial antagonism. 1947 Rep. Exp. Res. Sta., Cheshunt1947. 29–39.
— 1948b. Production of an antibiotic substance on wheat straw and other organic materials in the soil. Nature161: 614–615.
— 1949. Investigations on microbial antagonism and antibiotic substances. Rep. Exp. Res. Sta., Cheshunt1947. 37–42.
Grove, F., and McGowan, J. C. 1947. The identity of griseofulvin and curling factor. Nature [London]140: 574.
- et al. 1951. Structure of griseorulvin. Chem. & Ind.
Hampton, J. E. 1948. Cure of crown gall with antibiotics. Phytopath.38: 11.
Jansen, E. F., and Hirschmann, D. J. 1944. Subtilin—an antibacterial product ofBacillus subtilis, culturing conditions and properties. Arch. Biochem.4: 297–309.
Johnson, J. R., Bruce, W. F., and Dutcher, J. D. 1943. Gliotoxin, the antibiotic principle ofGliocladium fimbriatum. I. Production and physical and biological properties. Jour. Am. Chem. Soc.65: 2005–2009.
Kornfeld, E. C., and Jones, R. G. 1948. The structure of actidione. an antibiotic fromStreptomyces griseus. Science108: 437–438.
Leach, B. E., Ford, J. H., and Whiffen, A. J. 1947. Actidione, an antibiotic fromStreptomyces griseus. Jour. Am. Chem. Soc.69: 474–475.
— 1948. Actidione, an antibiotic fromStreptomyces griseus. Jour. Am. Chem. Soc.70: 1223–1225.
Leben, C. 1952. [Personal communication].
— and Keitt, G. W. 1947. The effect of an antibiotic substance on apple leaf infection ofVenturia inaequalis. Phytopath.37: 14.
— 1948a. Greenhouse tests of an antibiotic substance as a protectant spray. Phytopath.38: 16.
— 1948b. An antibiotic substance active against certain phytopathogens. Phytopath.38: 899–906.
— 1949. Laboratory and greenhouse studies of antimycin preparations as protectant fungicides. Phytopath.39: 529–540.
— 1952. Studies on the fungicidal activity of helixin. Phytopath.42: 15.
—, Stessel, J. G., and Keitt, G. W. 1951. an antibiotic that inhibits certain phytopathogens. Phytopath.41: 23–24.
Lewis, J. C., Feeney, R. E., Garibaldi, J. A., Michener, H. D., Hirschmann, D. J., Traufler, D. H., Langlykke, A. F., Lightbody, H. D., Stubles, J. J., and Humfeld, H. 1947. Subtilin production in surface cultures. Arch. Biochem.14: 415–435.
Lund, D. 1949. Actidione kills mildew, but …. Bull. Ill. State Florists’ Assoc.109: 7.
Matsumoto, T. 1939. Need of reinvestigation of the use ofTrichoderma as a means of biological control. Jour. Soc. Trop. Agr. Tauvan4: 322–326. Rev. Appl. Mycol. 19: 347–348. 1940.
McGowan, J. C. 1946. A substance causing abnormal development of fungal hyphae produced byPenicillium janczewskii. II. Preliminary notes on the chemical and physical properties of “curling factor”. Trans. Brit. Mycol. Soc.29: 188.
McKeen, W. E. 1949. A study of sugar beet root rot in southern Ontario. Canad. Jour. Res. C.27: 284–311.
Menzel, A. E. O., Wintersteiner, O., and Hoogerheide, J. C. 1944. The isolation of gliotoxin and fumigatin from culture nitrates ofAspergillus jumigatus. Jour. Biol. Chem.152: 419–429.
Meredith, C. H. 1943. The antagonism ofActinomyces toFusarium oxysporum. Phytopath.33: 403.
— 1944. The antagonism of soil organisms toFusarium oxysporum cubense. Phytopath.34: 426–432.
Oxford, A. E., Raistrick, H., and Simonart, P. 1939. Studies in the biochemistry of microorganisms. 60: Griseofulvin C17H17O6Cl, a metabolic product ofPenicillium griseofulvum Dierck. Biochem. Jour.33: 240–248.
Petersen, D., and Cation, D. 1950. Exploratory experiments on the use of actidione for control of peach brown rot and cherry leaf spot. Plant Dis. Rep.34: 5–6.
Porter, C. L., and Carter, J. C. 1938. Competition among fungi. Bot. Rev.4: 165–182.
Pound, G. S., and Stahman, M. A. 1951. Production of a toxic substance byAlternaria solani and its relationship to early blight disease of tomato. Phytopath.41: 30.
Rake, G., Jones, H., and McKee, C. M. 1943. Antiluminescent activity of antibiotic substances. Proc. Soc. Exp. Biol. & Med.52: 136–138.
Reilly, H. C., Schatz, A., and Waksman, S. A. 1945. Antifungal properties of antibiotics. Jour. Bact.49: 585–594.
Ribeiro, D. F. 1946. Penicillin action on the germination of seeds. Science104: 18.
Rudolph, B. A. 1946. Attempts to control blights of pear and walnut with penicillin. Phytopath.36: 717–725.
Salle, A. J., and Jann, G. J. 1945. Subtilin—an antibiotic produced byBacillus subtilis. I. Action on various organisms. Proc. Soc. Exp. Biol. & Med.60: 60–64.
Schatz, A., and Waksman, S. A. 1944. Effect of streptomycin and other antibiotic substances onM ycobacterium tuberculosis and related organisms. Proc. Soc. Exp. Biol. & Med.57: 244–248.
Smith, W. J. 1946. Effect of penicillin on seed germination. Science104: 411–413.
— 1949. Seed treatment with streptomycin for the control of bacterial blight of beans. Jour. Colo. Wyo. Acad. Sci.4: 49.
Stessel, G. J., Leben, Curt, and Keitt, G. W. 1952. Studies on an antifungal antibiotic produced byBacillus subtilis. Phytopath.42: 22.
Thaysen, A. C., and Butlin, K. R. 1945. Inhibition of the development ofFusarium oxysporum cubense by a growth substance produced by Meredith’s actinomycete. Nature156: 781–787.
—, and Morris, M. 1947. Medium suitable for the cultivation of Meredith’s actinomycete. Nature159: 100.
Tukey, H. B. 1948. A note on the fungicidal property of actidione. Science108: 664.
Van Der Laan, P. A. 1948. Antibiotische Stoffen als Fungicide gegenCercospora nicotianiae auf Tabak. Tisdschr. PL Ziekt.53: 180–187. 1947. Rev. Appl. Myc. 27: 202. 1948.
Van Schaack, V. 1948. Antibiotics and potato ring rot. Phytopath.38: 27.
Vaughn, J. R. 1951. Cycloheximide, an antibiotic effective against turf diseases. Phytopath.41: 36.
—, Lockwood, J. L., Randwa, G. S., and Hamner, C. 1949. The action of actidione on plant tissue and certain fungi. Mich. Agr. Exp. Sta., Quar. Bull.31: 456–464.
Waksman, S. A. 1940. Antagonistic interrelationships among microorganisms. Chron. Bot.6: 145–148.
— 1941. Antagonistic relations of microorganisms. Bact. Rev.5: 231–293.
-. 1945. Microbial antagonisms and antibiotic substances. The Commonwealth Fund, 246–258.
-. 1949. Streptomycin. P. 607–612.
— and Bugie, E. 1943. Action of antibiotic substances onCeratostomella, ulmi. Proc. Soc. Exp. Biol. & Med.54: 79–82.
— and Reilly, C. 1944. Bacteriostatic and bactericidal properties of antibiotic substances, with special reference to plant pathogenic bacteria. Bul. Torrey Bot. Club71: 107–121.
— and Foster, J. W. 1937. Antagonistic effects of microorganisms grown on artificial substrates. Soil Sci.43: 69–76.
Wallen, V. R., and Skolka, A. J. 1950. Antibiotic XG as a seed treatment for the control of leaf and pod spot of peas caused byAschochyta pisi. Canad. Jour. Res. C.28: 623–636.
—, Sutten, M. D., and Skolka, A. J. 1950. The effect of actidione on the growth of certain pathogenic fungi and the germination of pea seed. Phytopath.40: 156–160.
Wang, F. H. 1948. The effects of clavacin upon root growth. Bot. Bull. Acad. Sinica2: 265–269.
Weindling, R. 1932.Trichoderma lignorum as a parasite of other soil fungi. Phytopath.22: 837–845.
— 1934. Studies on a lethal principle effective in the parasitic action ofTrichoderma Ugnorum onRhizoctonia solani and other soil fungi. Phytopath.24: 1153–1179.
— 1937. Isolation of toxic substances from the culture nitrates ofTrichoderma andGliocladium. Phytopath.27: 1175–1176.
— 1938. Association effects of fungi. Bot. Rev.4: 475–496.
— 1941. Experimental consideration of the mold toxins ofGliocladium andTrichoderma. Phytopath.31: 991–1003.
— 1946. Microbial antagonism and disease control. Soil Sci.61: 23–30.
— and Emerson, O. H. 1936. Isolation of a toxic substance from the culture filtrate ofTrichoderma. Phytopath.26: 1068–1070.
— and Fawcett, H. S. 1936. Experiments in the control ofRhizoctonia damping-off of citrus seedlings. Hilgardia10: 1–16.
Whiffen, A. 1948. The production, assay and antibiotic activity of actidione, an antibiotic fromStreptomyces griseus. Jour. Bact.56: 283–291.
—, Bohonas, N., and Emerson, R. L. 1946. The production of an antifungal antibiotic byStreptomyces griseus. Jour. Bact.52: 610–611.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Anderson, H.W., Gottlieb, D. Plant disease control with antibiotics. Econ Bot 6, 294–308 (1952). https://doi.org/10.1007/BF02985071
Issue Date:
DOI: https://doi.org/10.1007/BF02985071