[1. Andersen, R. A., M. J. Kasperbauer, and H. R. Burton: Shade during growth-effects on chemical composition and leaf color of air-cured Burley tobacco; Agron. J. 77 (1985) 543–546.]Search in Google Scholar
[2. Angelino, G., S. Ascione, and C. Ruggiero: Effect of water and nitrogen supply on leaf growth and anatomy of Burley tobacco; Agr. Med. 134 (2004) 185–192.]Search in Google Scholar
[3. Anonymous: 1998–1999 Lime and fertilizer recommendations; Ky. Agric. Exp. Stn. Bull. AGR-1 (1998).]Search in Google Scholar
[4. Ascione, S., P. Lombardi, and C. Ruggiero: Influenza della diversificazione colturale e della concimazione fosfo-azotata sulla produzione del tabacco Burley e mais (Influence of crop system and N-P fertilization on yield of Burley tobacco and maize); Riv. Agron. 34 (2000) 81–91.]Search in Google Scholar
[5. Ascione, S. and M. Niglio: Missing data estimation in precipitation time series. Giornata di Studio: Metodi Statistici e Matematici per l'Analisi delle serie idrologiche; Rome (2003) 259–270, CNR-GNDCI, no. 2812.]Search in Google Scholar
[6. Atkinson, W. O., J. L. Ragland, J. L. Sims, and B. J. Bloomfield: Nitrogen composition of Burley tobacco. I. The influence of irrigation on the response of Burley tobacco to nitrogen fertilization; Tob. Sci. 13 (1969) 123–126.]Search in Google Scholar
[7. Atkinson, W. O. and J. L. Sims: Nitrogen composition of Burley tobacco. II. Influence of nitrogen fertilization, suckering practice, and harvest date on yield, value, and distribution of dry matter among plant parts; Tob. Sci. 15 (1971) 63–66.]Search in Google Scholar
[8. Atkinson, W. O., J. L. Sims, and J. R. Calvert: Response of reduced alkaloid Burley genotypes to nitrogen fertilization; Tob. Sci. 20 (1976) 32–34.]Search in Google Scholar
[9. Bridges, T. C., L. R. Walton, and J. H. Casada: Assessing the quality of Burley tobacco. Part. 1: grade index and associated factors; Tob. Sci. 38 (1994): 38–41.]Search in Google Scholar
[10. Carotenuto, R.: Le esigenze idriche del tabacco (Tobacco water necessity); Ann. Ist. Spe. Tabacco VIII (1981) 101–107.]Search in Google Scholar
[11. Carotenuto, R., R. Troncone, and P. Martiniello: Chromaticity parameters in relation to visual grades of the flue-cured tobacco; Agron. J. 82 (1990) 460–462.]Search in Google Scholar
[12. Castelli, F., F. Miceli, and F. Piro: Effetti delle modalità di raccolta e cura in tabacco (Nicotiana tabacum L.) Burley a differente fertilizzazione azotata e densità di popolamento (Effects of three harvest-curing methods at different levels of nitrogen and plant in Burley tobacco (Nicotiana tabacum L.); Riv. Agron. 24 (1990) 308–316.]Search in Google Scholar
[13. Cavlek, M., I. Tursic, and M. Berdin: Irrigation of flue-cured tobacco consistent with moisture levels; CORESTA Meet. Agro-Phyto Groups (1993) Budapest.]Search in Google Scholar
[14. Cavlek, M., I. Tursic, and T. Cosic: The dependence of yield and quality of tobacco on irrigation in the conditions of north-west Croatia; Tutun 47–1/6 (1997) 39–44. Bulletin CORESTA (1999) 1, 2397.]Search in Google Scholar
[15. Chen, H. J.: Influence of copper and chlorine contents of irrigation water on tobacco; Bull. Taiwan Tob. Res. Inst. 8 (1978) 57–65. Tob. Abstracts 1 (1980) 73, n. 197.]Search in Google Scholar
[16. Clough, P. F. and F. L. Milthorpe: Effects of water deficit on leaf development in tobacco; Aust. J. Plant Physiol. 2 (1975) 291–300.]Search in Google Scholar
[17. Cuocolo, L., G. Caruso, and L. Postiglione: Effetti della cultivar, della concimazione azotata e dell'epoca di raccolta sulla produzione del tabacco Burley di tipo americano (Effect of cultivar, nitrogen fertilization, and harvest date on stalk-cut Burley tobacco); Il Tabacco 1 (1993) 18–23.]Search in Google Scholar
[18. Doorembos, J. and W. O. Pruitt: Crop water requirements; FAO Irrigation and Drainage 24 (1977) Rome.]Search in Google Scholar
[19. Evanylo, G. K. and J. L. Sims: Nitrogen and potassium fertilization effects on yield and quality of Burley tobacco; Soil Sci. Soc. Am. J. 51 (1987) 1536–1540.]Search in Google Scholar
[20. Evanylo, G. K., J. L. Sims, and J. H. Grove: Nutrient norms for cured Burley tobacco; Agron. J. 80 (1988) 610–614.]Search in Google Scholar
[21. Franklin, R. E., R. W. Teater, R. B. Curry, and G. O. Schwab: Nitrogen-irrigation interactions in Burley tobacco production; Agron. J. 56 (1964) 361–362.]Search in Google Scholar
[22. Fuqua, B. D., J. E. Leggett, and J. L. Sims: Accumulation of nitrate and chloride by Burley tobacco; Can. J. Plant Sci. 54 (1974) 167–174.]Search in Google Scholar
[23. Fuqua, B. D., J. L. Sims, J. E. Leggett, J. F. Benner, and W. O. Atkinson: Nitrate and chloride fertilization effects on yield and chemical composition of Burley tobacco leaves and smoke; Can. J. Plant Sci. 56 (1976) 893–899.]Search in Google Scholar
[24. Hsiao, T. C.: Plant responses to water stress; Ann. Rev. Plant Physiol. 24 (1973) 519–570.]Search in Google Scholar
[25. Hsiao, T. C. and L. K. Xu: Sensitivity of growth of roots versus leaves to water stress: biophysical analysis and relation to water transport; J. Exp. Bot. 51 (2000) 1595–1616.]Search in Google Scholar
[26. King, M. J.: Bilateral leaf expansion of tobacco under water stress; Can. J. Plant Sci. 68, 3 (1988) 887–92.]Search in Google Scholar
[27. Kitamura, T., T. Ito, H. Kudo, and K. Ohzeki: Studies on the absorption of chloride by Burley tobacco. I. Effects of chloride content in the cured leaves on the chemical and physical properties and smoking quality of tobacco; Morioka, Jpn. Tob. Exp. Stn. Bull. 13 (1978) 1–12. Tob. Abstr. 6 (1979) 491–492]Search in Google Scholar
[28. Kitanosono, H.: Studies on the causes of burning of tobacco in paddy fields. 1. Effects of soil moisture, light intensity and quantity of fertilizers on burning of tobacco leaves; Field Crop Abstr. 31 (1976) 3829.]Search in Google Scholar
[29. Interlandi, G., M. G. Tremola, R. Carotenuto, F. Piro, V. Leone, and R. Cutolo: Crop value response of Burley tobacco to N application timing and rate; Tobacco 9 (2001) 51–55.]Search in Google Scholar
[30. Ishizaki, H. and T. Akiya: Effect of chlorine on growth and quality of tobacco. I. Relation between chlorine amount given at sowing and quality of the harvested leaves; Utsunomiya Tab. Shikenjo Hokoku 16 (1978) 55–62. Tob. Abstr. 2 (1981) 147.]Search in Google Scholar
[31. Ligon, J. T. and G. R. Benoit: Morphological effects of moisture stress on Burley tobacco; Agron. J. 58 (1966) 35–38.]Search in Google Scholar
[32. Link, L. A. and T. R. Terrill: The influence of nitrogen and potassium fertilization on the yield, quality, and chemical composition of Burley tobacco; Tob. Sci. XXVI (1982) 81–84.]Search in Google Scholar
[33. Littlemore, J., P. E. Tonello, and T. S. Rasmussen: Nine years continuous tobacco monocropping compared with alternative cropping frequencies and sequences. Part 1. Effect on leaf yield and quality; Tob. Sci. 35 (1991) 79–84.]Search in Google Scholar
[34. Lourenco, M. G., J. E. M. Ferrao, E. T. L. Figueiredo, J. A. T. Amaro, and M. E. V. Rocha: Effects of rates and forms of nitrate fertilizer on Burley tobacco in Portugal; Bull. Spéc. CORESTA, Congress Harare, (1994) 37, A 28.]Search in Google Scholar
[35. MacKown, C. T., S. J. Crafts-Brandner, and T. G. Sutton: Relationships among soil nitrate, leaf nitrate, and leaf yield of Burley tobacco: effects of nitrogen management; Agron. J. 91 (1999) 613–621.]Search in Google Scholar
[36. MacKown, C. T. and T. G. Sutton: Recovery of fertilizer nitrogen applied to Burley tobacco; Agron. J. 89, 2 (1997) 183–189.]Search in Google Scholar
[37. Majernik, F.: Irrigation of Virginia tobacco; Bull. Tabak. Priem. 23 (1980) 33–40.]Search in Google Scholar
[38. McCants, C. B. and W. G. Woltz: Growth and mineral nutrition of tobacco; Adv. Agron. 19 (1967) 211–265.]Search in Google Scholar
[39. McKee, C. G. and O. E. Street: Irrigation studies with Maryland tobacco; Md. Agric. Exp. Stn. misc. Bull. 931 (1978) 26 p.]Search in Google Scholar
[40. Milyanchev, I.: Crop rotation an important factor for efficient soil utilization (in tobacco production); Bul. Tjutjun, 34–5 (1989) p. 20–3.]Search in Google Scholar
[41. Miner, G. S. and J. L. Sims: Changing fertilization practices and utilization of added plant nutrients for efficient production of tobacco; Recent. Adv. Tob. Sci. 9 (1983) 4–76.]Search in Google Scholar
[42. Mulchi, C. L.: Chloride effects on agronomic, chemical and physical properties of Maryland tobacco. I. Response to chloride applied to the soil; Tob. Sci. XXVI (1982) 113–116.]Search in Google Scholar
[43. Mulchi, C. L., C. G. McKee, W. J. Moyer, and O. S. Street: The relationships of estimated yields and chemical contents of Maryland tobacco and seasonal rainfall; Tob. Sci. 31(1987) 8–12.]Search in Google Scholar
[44. Munthali, F. C.: Response of Burley tobacco varieties to varying rates of nitrogen fertilizers; Bull. Spéc. CORESTA, Congress Harare, (1994) p. 76, APOST 17.]Search in Google Scholar
[45. Mylonas, V. A., V. N. Athanasiadis, and X. A. Perakis: Effects of nitrogen and potassium on yield, value and chemical composition of Burley tobacco; Coop. Cent. Sci. Res. Relat. Tob. Phytopathol. Stud. Group Agron. Stud. Group Rep. (1979) 70–83.]Search in Google Scholar
[46. Nelson, R. A.: Methods of analysis for tobacco and tobacco products; U. S. Treasury Depart. Int. Rev. Serv. 445 (1960) 10–60.]Search in Google Scholar
[47. Nonami, H. and J. S. Boyer: Wall extensibility and cell hydraulic conductivity decrease in enlarging stem tissues at low water potentials; Plant Physiol. 93 (1990) 1610–1619.]Search in Google Scholar
[48. Nonami, H. and J. S. Boyer: Decreased growth-induced water potential: a primary cause of growth inhibition at low water potential; Plant Physiol. 114 (1997) 501–509.]Search in Google Scholar
[49. Orphanos, P. I. and C. Metochis: Yield and quality of tobacco grown with supplementary irrigation; Agron. J. 77 (1985) 689–695.]Search in Google Scholar
[50. Orphanos, P. I. and C. Metochis: Nitrogen fertigation of flue-cured tobacco in a Mediterranean environment; Plant and Soil 125 (1990) 29–37]Search in Google Scholar
[51. Pelivanoska, V. and J. Trajkoski: The irrigation and mineral nutrition effect on the anatomic structure and some physical characteristics of tobacco type Burley; Tutun 49, 7–12 (1999) 101–110.]Search in Google Scholar
[52. Pelivanoska, V., J. Trajkoski, and J. K. Filiposki: Effects of fertilization and irrigation on yield and quality of tobacco type Burley; Bull. Spec. CORESTA, Congress Lisbon, (2000) 109, APOST 8.]Search in Google Scholar
[53. Postiglione, L., G. Barbieri, and E. De Falco: Risultati produttivi e qualitativi del tabacco “Burley” sottoposto a carenze o eccessi di acqua in diversi periodi del ciclo biologico (Yield and quality of “Burley” tobacco under water deficit or water excess during different phases of biological cycle); Irrigation and drainage 36 (1989) 115–20.]Search in Google Scholar
[54. Quaglietta Chiarandà, F., R. D'Andria, and G. Morelli: Influenza di volumi irrigui crescenti sulla quantità e sullaqualità delle rese di tre varietà di tabacco (Nico-tiana tabacum L.) (Effect of increasing irrigation volumes on the quantity and quality of yield rates of three tobacco varieties); Irrigation and drainage 2 (1988) 25–31.]Search in Google Scholar
[55. Quaglietta Chiarandà, F., P. Tedeschi, and G. Zerbi: Effect of soil water stress on leaf growth of Burley tobacco; Irrigazione 4 (1982) 29–33.]Search in Google Scholar
[56. Ruggiero, C.: Irrigazione del tobacco. Influenza del volume stagionale sulla resa nella piana del Volturno (Tobacco irrigation. Influence of seasonal water volumes on the yield in the Volturno plain); L'Italia agricola 10 (1978) 121–128.]Search in Google Scholar
[57. Sims, J. L., S. J. Sheen, C. Grunwald, and W. O. Atkinson: Effects of nitrogen fertilization and stalk position on certain chemical and physical characteristics of thee tobacco genotypes; Can. J. Plant Sci. 55 (1975) 485–490.]Search in Google Scholar
[58. Srivastava, R. P., and D. Subbarao: A note on the effect of different crop rotations on quality of cigar wrapper tobacco (Nicotiana tabacum L.); Tob. Res. 9, 2 (1983) 95–98.]Search in Google Scholar
[59. Subramaniam, T. S.: Signalling method of irrigation; CORESTA Meet. Agro-Phyto Groups, Suzhou, (1999) AP57.]Search in Google Scholar
[60. Tripathi, S. N., K. D. Singh, and A. K. Pandey: Influence of irrigation, nitrogen level and time of its application on leaf yield, physical quality parameters and economics of chewing tobacco; CORESTA, Bull. Tob. Symp. 20 (1998) A7.]Search in Google Scholar
[61. Tumbaga, A. L. and O. B. Zamora: Growth and quality of flue-cured tobacco (Nicotiana tabacum L.) at four methods of planting and leaves of irrigation; J. of Tob. Sci. and Technology 1, 2 (1986) 202–208.]Search in Google Scholar
[62. Williamson, R. E. and J. F. Chaplin: Levels of chemical constituents in cured leaves of four Burley tobacco cultivars according to stalk position; Tob. Sci. XXV (1981) 75–78.]Search in Google Scholar
[63. Zehler, E., H. Kreipe, and P. A. Gething: Tobacco (Nicotiana tabacum); (1981) 63–64. IPI Res. Topics 9. International Potash Institute, Bern, Switzerland.]Search in Google Scholar
