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REFERENCES
1. Mahmoodzadeh, A., Nojvan, M. & Bagheri, Z. (2004). Effects of different treatments on breaking of dormancy and seed germination of Datura stramonium L. Iranian Journal of Biology, 18, 341-348.
(In Farsi).
2. Benech-Arnold, R. L., Sanchez, R., A. Forcella, F., Kruk, B. C. & Ghersa, C. M. (2000). Environmental control of dormancy in weed seed banks in soil. Field Crops Research, 67, 105-122.
3. Cohn, M. A. & Butera, D. L. (1982). Seed dormancy in red rice (Oryza sativa). II. Response to cytokinins. Weed Science, 30, 200-205.
4. Derkx, M. P. M. & Karssen, C. M. (1993). Effects of light and temperature on seed dormancy and gibberellin-stimulated germination in Arabidopsis thaliana: studies with gibberellin-deficient and insensitive mutants. Physiology of Planta, 89,360–368.
5. Egley, G. H. &. Duke, S. O. (1985). Physiology of weed seed dormancy germination. Pages 27-64. In S.
O. Duke, ed. Weed Physiology. Volume 1. Reproduction and Ecophysiology. Boca Raton, FL: CRC Press
6. Esashi, Y., Komat, H., Ushizawa, R. & Sakai, Y. (1982). Breaking of secondary dormancy in cocklebur seeds by cyanide and azide in combination with C2H4 and O2 and their effects on cytochrome and alternative respiratory pathways. Austrailian Journal of Plant Physiology, 9, 97-111.
#" 4 +5
&$'6.( , :
!7 8 +9 , ;< =>/
#%
...
--
7. Esashi, Y., Ishiha, N., Kuraishi, R. & Kodama, H. (1983a). Light actions in thegermination of cocklebur seeds, I: differences in the light responses of the upper and lower seeds. Journal Experimental Botany, 34, 903–914.
8. Esashi, Y., Kuraishi, R., Tanaka, N. & Sath, S. (1983b). Transition from primary dormancy to secondry dormancy in cocklebur seeds. Plant Cell and Environment, 6, 493-499.
9. Esash, Y. & Ohhara, Y. (1977). Enhancement by low temperature of the anaerobic induction pf cocklebur seed germination. Austrailian Journal of Plant Physiology, 4, 849-855.
10. Fenner, M. ed. (2000). Seeds: The ecology of regeneration in plant communities. Wallingford, U.K., CABI Publishing.
11. Foley, M. E. (2002) Introduction to the symposium on dormancy in seeds and vegetative propagules.
Weed Science, 50(2), 214-214.
12. Ghersa, C. M., Benech-Arnold, R. L., Sattore, E. H. & Martı´nez-Ghersa, M. A. (2000). Advances in weed management strategies. Field Crops Research, 67,95–104.
13. Hermansen, A., Brodal, G. & Balvoll, G. (1999). Hot water treatments of carrot seeds, effects on seed- borne fungi, germination, emergence and yield. Seed Science & Technology, 27, 599-613.
14. Hilhorst, H. M. W. & Karssen, C. M. (1992). Seed dormancy and germination, the role of abscisic acid and gibberellins and the importance of hormone mutants. Plant Growth Regulator, 11, 225-238.
15. Iglesias, G. R. & Babiano, M. J. (1997). Endogenous abscisic acid during the germination of chickpea seed. Plant Physiology, 100, 500-504.
16. In-Hwan Park, S. R. (2000) Effect of scarification, GA3 and chilling on the germination of goldenrain- tree (Koelreuteria paniculata Laxm.) seeds. Scientia Horticulturae, 85, 319-324.
17. Karlsson, L. M.& Milberg, P. (2007). Seed dormancy pattern and germination preferences of the South African annual Papaver aculeatum. African Journal of Botany, 73, 422–428.
18. Liddle, M. J. (1986) Noogoora burr, a successful suite of weeds. In The ecology of exotic animal and plant, ed. R. L. Kitching, pp. 188-220. (Jjacaranda-Wiley, Brisbane, Austrailia).
19. Nadjafi, F., Bannayan, M., Tabrizi, L. & Rastgoo, M. (2006). Seed germination and dormancy breaking techniques for Ferula gummosa and Teucrium polium. Journal Arid Environment, 64, 542–547.
20. Noldin, J. A., Chandler, J. M. & McCauley, G. N. (2006). Seed longevity of red rice ecotypes buried in soil. Planta Daninha, 24, 611-620
21. Norsworthy, J. K. & Oliveira, M. J. (2007). Light and temperature requirements for common cocklebur (Xanthium strumarium) germination during after-ripening under field conditions. Weed Science, 55, 227–234
22. Porter, N. G. & Wareing, P. F. (1974). The role of oxygen permeability of the seed coat in the dormancy of seed in Xanthium pensylvanicum Wallr. Journal of Experimental Botany, 25, 583-94.
23. Reisman-Beramn, O., Kigel, J. & Rabin, B. (1991). Dormancy patterns in buried seeds of Datura sorox and Datura stramorium. Canadian Journal of Botany, 69, 173-179.
24. Schmidt, L. A., Talbert, R. E. & MC Clelland, M. (2004). Management of Acetolactate Synthase (ALS)–
Resistant Common Cocklebur (Xanthium strumarium) in Soybean. Weed Technology, 8, 665–674.
25. Stoller, E. W. & Wax, L. M. (1974). Dormancy changes and fate of some annual weed seeds in the soil.
Weed Science, 22,151–155.
26. Taylorson, R. B. & Brown, M. M. (1977). Accelerated after-ripening for overcoming seed dormancy in grass weeds. Weed Science, 25,473-476.
27. Wassom, J. J., Knepp, A. W., Tranel, P. J. & Wax, L. M. (2003). Variability in Photosynthetic Rates and Accumulated Biomass Among Greenhouse-Grown Common Cocklebur (Xanthium strumarium) Accessions. Weed Technology, 17,84–88.
28. Wassom, J. J., Tranel, P. J. & Wax, L. M. (2002). Variation Among U.S. Accessions of Common Cocklebur (Xanthium strumarium). Weed Technology, 16, 171–179.
29. Watanabe, H., Kusagaya, Y. & Saigusa, M. (2002). Environmental factors affecting germination of apple of Peru. Weed Science, 50, 152-156.
30. Webster, T. M. & Davis, R. F. (2007). Southern Root-Knot Nematode (Meloidogyne incognita) Affects CommonCocklebur (Xanthium strumarium) Interference with Cotton.Weed Science, 55, 143–146.
31. Waring, P. F. & H. Foda, A. (1957). Growth inhibitors and dormancy in Xanthium seed. Physiology of Planta ,10, 266-280.
