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Broomrapes (Orobanche spp.): A Potential Threat to U.S. Broadleaf Crops

Published online by Cambridge University Press:  12 June 2017

Rakesh Jain
Affiliation:
Dep. Plant Pathol., Physiol., Weed Sci., Va. Polytech. Inst. State Univ., Blacksburg, VA 24061
Chester L. Foy
Affiliation:
Dep. Plant Pathol., Physiol., Weed Sci., Va. Polytech. Inst. State Univ., Blacksburg, VA 24061

Abstract

Five broadleaf crops, alfalfa, peanut, soybean, tobacco, and tomato, were tested for their susceptibility to three broomrape species, branched, Egyptian and crenate, in the greenhouse. All five crop species were parasitized by one or more broomrape species. Peanut plants were most susceptible and soybean plants were least susceptible to parasitism by broomrape. Egyptian and branched broomrapes had a wider host range affecting plants in both the Solanaceae and Fabaceae. Crenate broomrape mainly infected plants belonging to Fabaceae, except for the few attachments to tomato and tobacco. Apparently, this is the first report on parasitism of peanut plants by branched broomrape and that of peanut and alfalfa plants by crenate broomrape. Parasitism of soybean plants by any of the broomrape species also was observed for the first time in these experiments. These results indicate that broomrapes, although not a major problem on any of the crops in the United States, could parasitize several major broadleaf crops should the parasite become established.

Type
Research
Copyright
Copyright © 1989 by the Weed Science Society of America 

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References

Literature Cited

1. Abu-Irmaileh, B. E. 1979. Effect of various fertilizers on broomrape (Orobanche ramosa) infestation of tomatoes. p. 278284 in Musselman, L. J., Worsham, A. D., and Eplee, R. E., eds. Proc. Second Int. Symp. Parasitic Weeds, N.C. State Univ., Raleigh, NC.Google Scholar
2. Baccarini, A., and Melandri, B. A. 1967. Studies on Orobanche hederae physiology: pigments and CO2 fixation. Physiol. Plant. 20:245250.CrossRefGoogle Scholar
3. Beilin, I. G. 1968. Flowering hemiparasites and parasites. Nauka, Moskva.Google Scholar
4. Chabrolin, C. 1935. Germination des graines et plantes-hotes de la feve (Orobanche speciosa D.C.). C. R. hebd. Seanc. Acad. Sci., Paris 200:19741976.Google Scholar
5. Cubero, J. I. 1973. Resistance to Orobanche crenata Forsk. in Vicia faba L. Proc. Eur. Weed Res. Counc. Symp. Parasitic Weeds, Malta, p. 205217.Google Scholar
6. Dalela, G. G., and Mathur, R. L. 1971. Resistance of varieties of eggplant, tomato and tobacco to broomrape (Orobanche cernua Loefl.). PANS 17:482483.Google Scholar
7. Dalela, G. G., and Mathur, R. L. 1971. Resistance of varieties of rape and mustard to broomrape (Orobanche aegyptiaca). Indian Phytopathol. 24:417418.Google Scholar
8. Dorr, I., and Kollman, R. 1974. Structural features of parasitism of Orobanche. I. Growth of the haustorial cells within the host tissue. Protoplasma 80:245249.Google Scholar
9. Dörr, I., and Kollman, R. 1975. Structural features of parasitism of Orobanche. II. The differentiation of assimilate conducting elements within the haustorium. Protoplasm 83:185199.CrossRefGoogle Scholar
10. Dorr, I., and Kollman, R. 1976. Structural features of parasitism of Orobanche. III. The differentiation of xylem connection of O. crenata. Protoplasma 89:235239.Google Scholar
11. Eplee, R. E. 1984. Orobanche ramosa in the United States. p. 4042 in Parker, C., Musselman, L. J., Polhill, R. M., and Wilson, A. K., eds. Proc. Third Int. Symp. Parasitic Weeds, ICARDA/Int. Parasitic Seed Plant Res. Group, Aleppo, Syria.Google Scholar
12. Foy, C. L., Jacobsohn, R., and Jain, R. 1986. Influence of potting media on parasitism of broomrape (Orobanche spp.). Abstr. Weed Sci. Soc. Am., p. 108.Google Scholar
13. Foy, C. L., Jacobsohn, R., and Jain, R. 1988. Screening of Lycopersicon spp. for glyphosate and/or Orobanche aegyptiaca Pers. resistance. Weed Res. 28:383391.CrossRefGoogle Scholar
14. Foy, C. L., Jain, R., and Jacobsohn, R., 1989. Recent approaches for chemical control of broomrape (Orobanche spp.). Rev. Weed Sci. 4:123152.Google Scholar
15. Frost, C. C., and Musselman, L. J. 1980. Clover broomrape in the United States. Weed Sci. 28:119122.CrossRefGoogle Scholar
16. Garman, H. 1903. The broomrapes. KY. Agric. Exp. Stn. Bull. 105:132.Google Scholar
17. Gil, J., Martin, L. M., and Cubero, J. I. 1984. Resistance to Orobanche crenata Forsk. in Vicia sativa L. II. Characterization and genetics. Proc. Third Int. Symp. Parasitic Weeds, Aleppo, Syria, p. 221229.Google Scholar
18. Hernandez, L., Moreno, M. T., and Cubero, L. J. 1984. Studies on the resistance of Vicia faba to Orobanche crenata. Proc. Third Int. Symp. Parasitic Weeds, Aleppo, Syria, p. 210220.Google Scholar
19. Jacobsohn, R. 1984. Broomrape, the losses it causes and its major hosts. Hassadeh 64 (11)23562358. (In Hebrew).Google Scholar
20. Jacobsohn, R. 1986. Broomrape avoidance and control: agronomic problems and available methods. p. 1824 in ter Borg, S. J., ed. Proc. Workshop Biol. Control Orobanche, LH/VPO, Wageningen, The Netherlands.Google Scholar
21. Mesa-Garcia, J., and Garcia-Torres, L. 1984. A competition index for Orobanche crenata Forsk. effects on broadbean (Vicia faba L.). Weed Res. 24:379382.CrossRefGoogle Scholar
22. Musselman, L. J. 1980. The biology of Striga, Orobanche, and other root parasitic weeds. Annu. Rev. Phytopathol. 18:463489.CrossRefGoogle Scholar
23. Musselman, L. J. 1986. Taxonomy of Orobanche. p. 210 in ter Borg, S. J., ed. Proc. Workshop Biol. Control Orobanche. LH:VPO, Wageningen, The Netherlands.Google Scholar
24. Musselman, L. J., and Nixon, K. C. 1981. Branched broomrape (Orobanche ramosa) in Texas. Plant Dis. 65:752753.CrossRefGoogle Scholar
25. Petzoldt, K. 1979. Bacterial nodules of Rhizobium leguminosarum and Orobanche crenata germination and penetration of broadbean with integrated control program. p. 260268 in Musselman, L. J., Worsham, A. D., and Eplee, R. E., eds. Proc. Second Int. Symp. Parasitic Weeds, N.C. State Univ., Raleigh, NC.Google Scholar
26. Saghir, A. R., Foy, C. L., Hameed, K. M., Drake, C. R., and Tolin, S. A. 1973. Studies on the biology and control of Orobanche ramosa L. p. 106116 in Proc. Eur. Weed Res. Counc. Symp. Parasitic Weeds, Malta.Google Scholar
27. Sortland, M. E., and MacDonald, D. H. 1987. Effect of crop and weed species on development of a Minnesota population of Heterodera glycines Race 5 after one to three growing periods. Plant Dis. 71:2327.CrossRefGoogle Scholar
28. Taylor, J. D., Griffin, G. J., and Garren, K. H. 1981. Inoculum pattern, inoculum density-disease incidence relationships and population fluctuations of Cylindrocladium crotalariae microsclerotia in peanut-field soil. Phytopathology 71:12971302.Google Scholar
29. Wilhelm, S. 1962. History of broomrapes (Orobanche ramosa and O. ludoviciana) and their control by preplant soil injection with methyl bromide solutions. Proc. 16th Int. Hortic. Congr., Brussels 2:392399.Google Scholar
30. Wilhelm, S., Sagen, J. E., Hall, D. H., Rosenberg, D. Y., Nicholas, C. W., and Schlocker, A. 1965. Branched broomrape (Orobanche ramosa): a threat to California crops. Calif. Agric. Exp. Stn. Serv. Leaf. 182.Google Scholar
31. Williams, C. N. 1961. Effect of inoculum size and nutrition on the host/parasite relations of Striga senegalensis on sorghum. Plant Soil 15:112.CrossRefGoogle Scholar