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Zea mays L.'in Üç Çeşidinde Çimlenme ve Bazı Büyüme Parametreleri Üzerine Tuzluluğun Etkileri

Yıl 2007, Cilt: 7 Sayı: 1, 179 - 190, 01.06.2007

Öz

Kaynakça

  • Tester M., Davenport R., Nal Tolerance and Na] Transport in Higher Plants,Ann. Bot., 91: 503-527, (2003).
  • Katembe W.I., Ungar I.A., Mitchell J.P., Effect of Salinity on Germination andSeedling Growth of Two Atrip/ex Species (Chenopodiaceae), Ann. Bot., 82:167-178, (1998).
  • Ghoulam C., Fares K., Effect of Salinity on Seed Gennination and EarlySeedling Growth of Sugar Beet, Seed Sci. Technol., 29: 357-364, (2001).
  • Almansouri M., Kinet J.-M., Lutts S., Effect of Salt and Osmotic Stresses onGermination in Durum Wheat (Triticum durum Desf.), Plant and Soil, 231:243-254, (2001).
  • Greenway H., Munns R., Mechanisms of Salt Tolerance in Nonhalophytes,Annu. Rev. Plant Physiol., 31: l49~190, (1980).
  • Garg B.K., Garg O.P., Germination and Some Metabolic Characteristics inGreen Gram Seedlings as Affected by Na2CO3 and NaHCO3, Biol. Plant., 24:28-33, (1982).
  • DIE, Agricultural Structure, T.C. Prime Ministry Government StatisticInstitute, Ankara, Turkey, (2004)
  • AshrafM., Breeding for Salinity Tolerance in Plants, Plant Sci., 13:(1), 17-42,(1994).
  • Neumann P., Salinity Resistance and Plant Growth Revisited, Plant, Cell andEnviron., 20: 1193-1198, (1997).
  • Uhvit R., Effect of Osmotic Pressure on Water Absorption and Germination ofAlfalfa Seeds, Am. J. Bot., 33: 278-285, (1946).
  • Mondal T.K., Bal A.R., Pal S., Effect of Salinity on Germination and SeedlingGrowth of Different Rice Oryza sativa L. Cultivars, J. Ind. Soc. Coast. Agri.Res., 6: 91-97, (1998).
  • Khan M.A., Ungar I.A., Germination Responses of The Subtropical AnnualHalophyte Zygophyllum simplex, Seed Sci. Technol., 25: 83-91, (1997).
  • Bewley J.D., Black M., Seeds: Physiology of Development and Germination,Plenum Press: New York, (1994).
  • Bouton J.H., Dudeck A.E., Smith R.L., Germination in Freshly Harvested Seedof Centipede Grass, Agron. J., 68: 991-992, (1976).
  • Fow1er J.L., Interaction of Salinity and Temperature on The Germination ofCrambe, Agron. J., 83: 169-171, (1991).
  • Epstein E., Norlyn J.D. Rush D.W. Kinsbury R.W., Kelly D.B., GunninghamG.A., Wrona A.F., Saline Culture of Crops: A Genetic Approach, Science, 210:399-404, (1980).
  • Hampson C.R., Simpson G.M., Effects of Temperature, Salt and OsmoticPressure on Early Growth of Wheat (Triticum aestivum) 1. Germination, Can.I. Bot., 68: 527-528, (1990).
  • Sun K., Hauser B., Salt Stress Induces Anatomical Changes in Ovules andEmbryos, Ultimately Resulting in Seed Abortion: The 12th International Meeting on Arabidopsis Research, June 23—27. Madison, WI. USA. AbstractNo. 420, (2001).
  • Wijte A.H.B.M., Gallagher J.L., Effect of Oxygen Availability and Salinity onEarly Life History Stages of Salt Marsh Plants. II. Early Seedling DevelopmentAdvantage of Spartina alzerniflora over Phragmites australis (Poaceae), Am.J. Bot., 83: 1343-1350, (1996). 20. Gul B., Weber D.J., Effect of Salinity, Light, and Temperature on Germinationin Allenrolfea occidentalis, Can. J. Bot., 77: 240-246, (1999).
  • Mauromicale G., Licandro P., Salinity and Temperature Effects onGermination, Emergence and Seedling Growth of Globe Artichoke, Agron.,22: 443-450, (2002).
  • Misra N., Dwivedi U.N., Genotypic Difference in Salinity Tolerance of GreenGram Cultiyars, Plant Sci., 166: 1 135-1142, (2004).
  • Cicek N., Cakirlar H., The Effect of Salinity on Some PhysiologicalParameters in Two Maize Cultiyars, Bulg. J. Plant Physiol., 28: 66-74, (2002).
  • Misra M., Das N., Misra A.N., Sodium Chloride Salt Stress Induced Changesin Protein Content and Protease Activity in Callus Culture of Pear Millet(Pennisetum g!aucumL. R. Br.), Acta Physiol. P1ant., 17: 371-374, (2004).
  • Evers D., Schmit C., Mailliet Y., Hausman J.F., Growth Characteristics andBiochemical Changes of Poplar Shoots in vitro Under Sodium Chloride Stress,J. Plant Physiol., 151: 748-753, (1997),
  • Grattan S.R., Maas E.V., Root Control of Leaf Phosphorus and ChlorineAccumulation in Soybean Under Salinity Stress, Agron., 77: 890-895, (1985).
  • Kurt E., Crarner G.R., Lauchli A., Epstein E., Effects ofNaCl and CaCl; on Cell Enlargement and Cell Production in Cotton Roots,Plant Physiol., 61: 1102-1106, (1986).
  • Hernandez I.A., Olrnos E., Corpas F.J., Sevilla F., del Rio L.A., Salt-InducedOxidative Stress in Chloroplasts of Pea Plants, Plant Sci., 105: 151-167,(1995).
  • AliDinar H.M., Ebert G., Ludders P., Growth, Chlorophyll Content,Photosynthesis and Water Relations in Guava (Psidium guajava L.) UnderSalinity and Different Nitrogen Supply, Gartenbauwissenschaft, 64: 54~59,(1999).
  • Khan M.A., Ungar I.A., Showalter A.M., Effects of Salinity on Growth, WaterRelations and Ion Accumulation of the Subtropical Perennial Halophyte,Atriplex griflithii var. stocksii, Ann. Bot., 85: 225-232, (2000).Saneoka H.,
  • Shiota K., Kurban H., Chaudhary M.I._, Prenachandra G.S., FujitaK., Effect of Salinity on Growth and Solute Accumulation in Two Wheat LinesDiffering in Salt Tolerance, Soil Sci. Plant Nutr., 45: 873-880, (1999).
  • Ghoulam C., Foursy A., Fares K., Effect of Salt Stress on Growth, Environ.Exp. Bot., 47: 39-50, (2003).
  • Lacerda de C.F., Carnbraia J., Olivia M.A., Ruiz H.A., Prisco J.T., SoluteAccumulation and Distribution During Shoot and Leaf Development in TwoSorghum Genotypes Under Slt Stress, Environ. Exp. Bot., 49: 107-120, (2003)

Zea Mays L.'İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ

Yıl 2007, Cilt: 7 Sayı: 1, 179 - 190, 01.06.2007

Öz

Kaynakça

  • Tester M., Davenport R., Nal Tolerance and Na] Transport in Higher Plants,Ann. Bot., 91: 503-527, (2003).
  • Katembe W.I., Ungar I.A., Mitchell J.P., Effect of Salinity on Germination andSeedling Growth of Two Atrip/ex Species (Chenopodiaceae), Ann. Bot., 82:167-178, (1998).
  • Ghoulam C., Fares K., Effect of Salinity on Seed Gennination and EarlySeedling Growth of Sugar Beet, Seed Sci. Technol., 29: 357-364, (2001).
  • Almansouri M., Kinet J.-M., Lutts S., Effect of Salt and Osmotic Stresses onGermination in Durum Wheat (Triticum durum Desf.), Plant and Soil, 231:243-254, (2001).
  • Greenway H., Munns R., Mechanisms of Salt Tolerance in Nonhalophytes,Annu. Rev. Plant Physiol., 31: l49~190, (1980).
  • Garg B.K., Garg O.P., Germination and Some Metabolic Characteristics inGreen Gram Seedlings as Affected by Na2CO3 and NaHCO3, Biol. Plant., 24:28-33, (1982).
  • DIE, Agricultural Structure, T.C. Prime Ministry Government StatisticInstitute, Ankara, Turkey, (2004)
  • AshrafM., Breeding for Salinity Tolerance in Plants, Plant Sci., 13:(1), 17-42,(1994).
  • Neumann P., Salinity Resistance and Plant Growth Revisited, Plant, Cell andEnviron., 20: 1193-1198, (1997).
  • Uhvit R., Effect of Osmotic Pressure on Water Absorption and Germination ofAlfalfa Seeds, Am. J. Bot., 33: 278-285, (1946).
  • Mondal T.K., Bal A.R., Pal S., Effect of Salinity on Germination and SeedlingGrowth of Different Rice Oryza sativa L. Cultivars, J. Ind. Soc. Coast. Agri.Res., 6: 91-97, (1998).
  • Khan M.A., Ungar I.A., Germination Responses of The Subtropical AnnualHalophyte Zygophyllum simplex, Seed Sci. Technol., 25: 83-91, (1997).
  • Bewley J.D., Black M., Seeds: Physiology of Development and Germination,Plenum Press: New York, (1994).
  • Bouton J.H., Dudeck A.E., Smith R.L., Germination in Freshly Harvested Seedof Centipede Grass, Agron. J., 68: 991-992, (1976).
  • Fow1er J.L., Interaction of Salinity and Temperature on The Germination ofCrambe, Agron. J., 83: 169-171, (1991).
  • Epstein E., Norlyn J.D. Rush D.W. Kinsbury R.W., Kelly D.B., GunninghamG.A., Wrona A.F., Saline Culture of Crops: A Genetic Approach, Science, 210:399-404, (1980).
  • Hampson C.R., Simpson G.M., Effects of Temperature, Salt and OsmoticPressure on Early Growth of Wheat (Triticum aestivum) 1. Germination, Can.I. Bot., 68: 527-528, (1990).
  • Sun K., Hauser B., Salt Stress Induces Anatomical Changes in Ovules andEmbryos, Ultimately Resulting in Seed Abortion: The 12th International Meeting on Arabidopsis Research, June 23—27. Madison, WI. USA. AbstractNo. 420, (2001).
  • Wijte A.H.B.M., Gallagher J.L., Effect of Oxygen Availability and Salinity onEarly Life History Stages of Salt Marsh Plants. II. Early Seedling DevelopmentAdvantage of Spartina alzerniflora over Phragmites australis (Poaceae), Am.J. Bot., 83: 1343-1350, (1996). 20. Gul B., Weber D.J., Effect of Salinity, Light, and Temperature on Germinationin Allenrolfea occidentalis, Can. J. Bot., 77: 240-246, (1999).
  • Mauromicale G., Licandro P., Salinity and Temperature Effects onGermination, Emergence and Seedling Growth of Globe Artichoke, Agron.,22: 443-450, (2002).
  • Misra N., Dwivedi U.N., Genotypic Difference in Salinity Tolerance of GreenGram Cultiyars, Plant Sci., 166: 1 135-1142, (2004).
  • Cicek N., Cakirlar H., The Effect of Salinity on Some PhysiologicalParameters in Two Maize Cultiyars, Bulg. J. Plant Physiol., 28: 66-74, (2002).
  • Misra M., Das N., Misra A.N., Sodium Chloride Salt Stress Induced Changesin Protein Content and Protease Activity in Callus Culture of Pear Millet(Pennisetum g!aucumL. R. Br.), Acta Physiol. P1ant., 17: 371-374, (2004).
  • Evers D., Schmit C., Mailliet Y., Hausman J.F., Growth Characteristics andBiochemical Changes of Poplar Shoots in vitro Under Sodium Chloride Stress,J. Plant Physiol., 151: 748-753, (1997),
  • Grattan S.R., Maas E.V., Root Control of Leaf Phosphorus and ChlorineAccumulation in Soybean Under Salinity Stress, Agron., 77: 890-895, (1985).
  • Kurt E., Crarner G.R., Lauchli A., Epstein E., Effects ofNaCl and CaCl; on Cell Enlargement and Cell Production in Cotton Roots,Plant Physiol., 61: 1102-1106, (1986).
  • Hernandez I.A., Olrnos E., Corpas F.J., Sevilla F., del Rio L.A., Salt-InducedOxidative Stress in Chloroplasts of Pea Plants, Plant Sci., 105: 151-167,(1995).
  • AliDinar H.M., Ebert G., Ludders P., Growth, Chlorophyll Content,Photosynthesis and Water Relations in Guava (Psidium guajava L.) UnderSalinity and Different Nitrogen Supply, Gartenbauwissenschaft, 64: 54~59,(1999).
  • Khan M.A., Ungar I.A., Showalter A.M., Effects of Salinity on Growth, WaterRelations and Ion Accumulation of the Subtropical Perennial Halophyte,Atriplex griflithii var. stocksii, Ann. Bot., 85: 225-232, (2000).Saneoka H.,
  • Shiota K., Kurban H., Chaudhary M.I._, Prenachandra G.S., FujitaK., Effect of Salinity on Growth and Solute Accumulation in Two Wheat LinesDiffering in Salt Tolerance, Soil Sci. Plant Nutr., 45: 873-880, (1999).
  • Ghoulam C., Foursy A., Fares K., Effect of Salt Stress on Growth, Environ.Exp. Bot., 47: 39-50, (2003).
  • Lacerda de C.F., Carnbraia J., Olivia M.A., Ruiz H.A., Prisco J.T., SoluteAccumulation and Distribution During Shoot and Leaf Development in TwoSorghum Genotypes Under Slt Stress, Environ. Exp. Bot., 49: 107-120, (2003)
Toplam 32 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Mustafa Yıldız Bu kişi benim

Suleyman Cenkci Bu kişi benim

Hakan Terzi Bu kişi benim

Muhsin Konuk Bu kişi benim

Yayımlanma Tarihi 1 Haziran 2007
Gönderilme Tarihi 8 Ağustos 2015
Yayımlandığı Sayı Yıl 2007 Cilt: 7 Sayı: 1

Kaynak Göster

APA Yıldız, M., Cenkci, S., Terzi, H., Konuk, M. (2007). Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, 7(1), 179-190.
AMA Yıldız M, Cenkci S, Terzi H, Konuk M. Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. Haziran 2007;7(1):179-190.
Chicago Yıldız, Mustafa, Suleyman Cenkci, Hakan Terzi, ve Muhsin Konuk. “Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 7, sy. 1 (Haziran 2007): 179-90.
EndNote Yıldız M, Cenkci S, Terzi H, Konuk M (01 Haziran 2007) Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 7 1 179–190.
IEEE M. Yıldız, S. Cenkci, H. Terzi, ve M. Konuk, “Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ”, Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, c. 7, sy. 1, ss. 179–190, 2007.
ISNAD Yıldız, Mustafa vd. “Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 7/1 (Haziran 2007), 179-190.
JAMA Yıldız M, Cenkci S, Terzi H, Konuk M. Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2007;7:179–190.
MLA Yıldız, Mustafa vd. “Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, c. 7, sy. 1, 2007, ss. 179-90.
Vancouver Yıldız M, Cenkci S, Terzi H, Konuk M. Zea Mays L.’İN ÜÇ ÇEŞİDİNDE ÇİMLENME VE BAZI BÜYÜME PARAMETRELERİ ÜZERİNE TUZLULUĞUN ETKİLERİ. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2007;7(1):179-90.


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