BibTex RIS Kaynak Göster

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Yıl 2013, Cilt: 25 Sayı: 2, 29 - 37, 17.02.2014

Öz

This study was conducted at rainfall conditions in Southeastern Anatolia of Turkey, Diyarbakır, during 2011-2012 growing season. This work reviewed the three different lentil nurseries obtained from ICARDA; 1.Lentil International Elite Nursery-Drought Tolerance-2012, 2.Nursery-Early-2012 and 3.Nursery-Red-2012. The experiment was designed a simple lattice (7x7) and (6x6). Total one thousand twenty-two genotypes were evaluated for cold, drought tolerance and other agronomical and botanic traits. Wide variation observed for all traits among genotypes. Hopeful genotypes for earlier, more pods, average yield, drought and cold resistance were selected in first trial. The most genotypes affected by cold in all trials, also, some genotypes in plots killed by low temperature. Total thirteen genotypes (ILL10827, ILL10831, ILL10833, ILL10906, ILL10913, ILL10917, ILL10960, ILL10966, ILL10969, ILL10971, ILL6002 and ILL7979) were selected for drought trials in the region.

Kaynakça

  • Agsakalli A, S Yildiz, E Kiliç, GE Babagil 2001. Determination of yield and yield components of variety candidate lines in chickpea breeding studies, 4th Field Crops Con., Tekirdağ/Turkey, 1: 345-351.
  • Biçer BT, and D Şakar 2007. Comparision of exotic lentil lines to native cultivars for agronomic and morphologic traits. J. of Agri., Sci., Ank. Uni, Fac. of. Agric. 13(3):279-284.
  • Biçer BT and D Şakar 2008. Studies on Variability of Lentil Genotypes in Southeastern Anatolia of Turkey, Not. Bot. Hort. Agrobot. Cluj, 36 (1): 20-24.
  • Blum A, 1986. Breeding crop varieties for stress environments. Critical Reviews in Plant Sci., 2: 1992
  • Cooper PJM, J Dimes, KPC Rao, B Shapiro, B Shiferaw, S Twomlow 2008. Coping better with current climatic variability in the rain-fed farming systems of sub-Saharan Africa: an essential first step in adapting to future climate change? Agriculture, Ecosystems and Environment. 126 (1-2):24–35.
  • Erskine W and FE Ashkar 1993. Rainfall and temperature effects on lentil (L.culinaris) seed yield in the Mediterranean environment. J. Agric. Sci. (Cambridge) 121:347-354.
  • Erskine, W 1996. Seed-size effects on lentil (L. culinaris) yield potential and adaptation to temperature and rainfall in West Asia. The J. of Agricultural Sci., 126(3):335-341.
  • L‟azaro, Almudena Magdalena Ruiz, Luc‟ia de la Rosa and Isaura Mart‟in 2001. Relationships between agro/morphological characters and climatic parameters in Spanish landraces of lentil (L.culinaris Med). Genetic Resources and Crop Evolution 48:239-249.
  • Mia MV, MAK Mian and MM Rahman 1986. Performance of exotic germplasm in Bangladesh. Lens Newsletter, 13 (2):72-73.
  • Pandey BP, SK Srivastava and RS Lal 1982. Phenotypic stability for yield in lentil. Lens News Letter, 9:17Piergiovanni, Angela R, 2000. The evolution of lentil (L.culinaris Medik.) cultivation in Italy and its effects on the survival of autochthonous populations. Gen. Res.Crop Evolution, 47: 3053
  • Or E, R Hovav, S Abbo 1999. A major gene for flowering time in chickpea, Crop Sci., 39, 315-322. Sarker A, B Bayaa and W Erksine 2000. Registration of six lentil germplasm lines with resistance to Vascular Wilt. Crop Sci. Society of America, 41:1655.
  • Silim SN, MC Saxena and W Erskine 1993. Adaptation of lentil to the mediterranean environment. I.factors affecting yield under drought conditions. Experimental Agriculture. 29(1):9-19. Stoilova, Tz. and M Graca Pereira 1999. Morphological characterization of 120 lentil (L. culinaris Medik) Accession. Lens Newsletter 26 (12).
  • TUİK, 2011. http://tuikapp.tuik.gov.tr/bitkiselapp/bitkisel.zul
  • Zaman, MW, MAK Mian and M M.Rahman 1989. Variability and correlation studies in local germplasm of lentil Bangladesh. Lens Newsletter, 16 (1): 17-19.

Study on Red Lentil Genotypes For Drought And Cold Tolerance And Yield Components/Kırmızı Mercimeklerde Kurağa ve Soğuğa Tolerans ve Verim Unsurları Üzerine Bir Araştırma

Yıl 2013, Cilt: 25 Sayı: 2, 29 - 37, 17.02.2014

Öz

Abstract: This study was conducted at rainfall conditions in Southeastern Anatolia of Tur-key, Diyarbakır, during 2011-2012 growing season. This work reviewed the three different lentil nurseries obtained from ICARDA; 1.Lentil International Elite Nursery-Drought Tol-erance-2012, 2.Nursery-Early-2012 and 3.Nursery-Red-2012. The experiment was designed a simple lattice (7x7) and (6x6). Total one thousand twenty-two genotypes were evaluated for cold, drought tolerance and other agronomical and botanic traits. Wide variation ob-served for all traits among genotypes. Hopeful genotypes for earlier, more pods, average yield, drought and cold resistance were selected in first trial. The most genotypes affected by cold in all trials, also, some genotypes in plots killed by low temperature. Total thirteen genotypes (ILL10827, ILL10831, ILL10833, ILL10906, ILL10913, ILL10917, ILL10960, ILL10966, ILL10969, ILL10971, ILL6002 and ILL7979) were selected for drought trials in the region.

Key words: Red lentil, (Lens culinaris Medik), drought, cold

Kaynakça

  • Agsakalli A, S Yildiz, E Kiliç, GE Babagil 2001. Determination of yield and yield components of variety candidate lines in chickpea breeding studies, 4th Field Crops Con., Tekirdağ/Turkey, 1: 345-351.
  • Biçer BT, and D Şakar 2007. Comparision of exotic lentil lines to native cultivars for agronomic and morphologic traits. J. of Agri., Sci., Ank. Uni, Fac. of. Agric. 13(3):279-284.
  • Biçer BT and D Şakar 2008. Studies on Variability of Lentil Genotypes in Southeastern Anatolia of Turkey, Not. Bot. Hort. Agrobot. Cluj, 36 (1): 20-24.
  • Blum A, 1986. Breeding crop varieties for stress environments. Critical Reviews in Plant Sci., 2: 1992
  • Cooper PJM, J Dimes, KPC Rao, B Shapiro, B Shiferaw, S Twomlow 2008. Coping better with current climatic variability in the rain-fed farming systems of sub-Saharan Africa: an essential first step in adapting to future climate change? Agriculture, Ecosystems and Environment. 126 (1-2):24–35.
  • Erskine W and FE Ashkar 1993. Rainfall and temperature effects on lentil (L.culinaris) seed yield in the Mediterranean environment. J. Agric. Sci. (Cambridge) 121:347-354.
  • Erskine, W 1996. Seed-size effects on lentil (L. culinaris) yield potential and adaptation to temperature and rainfall in West Asia. The J. of Agricultural Sci., 126(3):335-341.
  • L‟azaro, Almudena Magdalena Ruiz, Luc‟ia de la Rosa and Isaura Mart‟in 2001. Relationships between agro/morphological characters and climatic parameters in Spanish landraces of lentil (L.culinaris Med). Genetic Resources and Crop Evolution 48:239-249.
  • Mia MV, MAK Mian and MM Rahman 1986. Performance of exotic germplasm in Bangladesh. Lens Newsletter, 13 (2):72-73.
  • Pandey BP, SK Srivastava and RS Lal 1982. Phenotypic stability for yield in lentil. Lens News Letter, 9:17Piergiovanni, Angela R, 2000. The evolution of lentil (L.culinaris Medik.) cultivation in Italy and its effects on the survival of autochthonous populations. Gen. Res.Crop Evolution, 47: 3053
  • Or E, R Hovav, S Abbo 1999. A major gene for flowering time in chickpea, Crop Sci., 39, 315-322. Sarker A, B Bayaa and W Erksine 2000. Registration of six lentil germplasm lines with resistance to Vascular Wilt. Crop Sci. Society of America, 41:1655.
  • Silim SN, MC Saxena and W Erskine 1993. Adaptation of lentil to the mediterranean environment. I.factors affecting yield under drought conditions. Experimental Agriculture. 29(1):9-19. Stoilova, Tz. and M Graca Pereira 1999. Morphological characterization of 120 lentil (L. culinaris Medik) Accession. Lens Newsletter 26 (12).
  • TUİK, 2011. http://tuikapp.tuik.gov.tr/bitkiselapp/bitkisel.zul
  • Zaman, MW, MAK Mian and M M.Rahman 1989. Variability and correlation studies in local germplasm of lentil Bangladesh. Lens Newsletter, 16 (1): 17-19.
Toplam 14 adet kaynakça vardır.

Ayrıntılar

Birincil Dil tr;en
Bölüm Araştırma Makaleleri
Yazarlar

B. Tuba Biçer Bu kişi benim

Abdurrahim Yılmaz

Yayımlanma Tarihi 17 Şubat 2014
Yayımlandığı Sayı Yıl 2013 Cilt: 25 Sayı: 2

Kaynak Göster

APA Biçer, B. T., & Yılmaz, A. (2014). -. Alinteri Journal of Agriculture Science, 25(2), 29-37.
AMA Biçer BT, Yılmaz A. -. Alinteri Journal of Agriculture Science. Şubat 2014;25(2):29-37.
Chicago Biçer, B. Tuba, ve Abdurrahim Yılmaz. “-”. Alinteri Journal of Agriculture Science 25, sy. 2 (Şubat 2014): 29-37.
EndNote Biçer BT, Yılmaz A (01 Şubat 2014) -. Alinteri Journal of Agriculture Science 25 2 29–37.
IEEE B. T. Biçer ve A. Yılmaz, “-”, Alinteri Journal of Agriculture Science, c. 25, sy. 2, ss. 29–37, 2014.
ISNAD Biçer, B. Tuba - Yılmaz, Abdurrahim. “-”. Alinteri Journal of Agriculture Science 25/2 (Şubat 2014), 29-37.
JAMA Biçer BT, Yılmaz A. -. Alinteri Journal of Agriculture Science. 2014;25:29–37.
MLA Biçer, B. Tuba ve Abdurrahim Yılmaz. “-”. Alinteri Journal of Agriculture Science, c. 25, sy. 2, 2014, ss. 29-37.
Vancouver Biçer BT, Yılmaz A. -. Alinteri Journal of Agriculture Science. 2014;25(2):29-37.