Effectiveness of Selection at Transplant and Minituber Crop Level in Potato (Solanum tuberosum L.)

ABSTRACTThe existence of genetic associations between important potato traits indicates that selection practiced for one trait may lead to changes in another. Correlations were computed between normal crops and transplant and minituber crops in order to study the selection efficiency for agronomic characters in potato transplant and minituber level. Three different transplant (field, glasshouse, seed bed) and two minituber (3g, 13g) crops were produced in glasshouse and field conditions. Selection at glasshouse transplant level was found to be moderately effective for average tuber weight, node number and leaf length, and moderately to highly effective for plant height, stem number, leaf number, leaflet length, leaflet width, tuber number and tuber yield in minituber level. Selection in transplant and minituber level for some agronomic characters in potato would be effective under certain conditions.

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Afrasiab H, Iqbal J (2010). In vitro techniques and mu- tagenesis for the genetic improvement of potato cvs. Desiree and Diamant. Pakistan Journal of Botany 42(3): 1629-1637.
Bradshaw JE, Dale MFB, Swan GEL, Todd D, Wilson RN (1998). Early-generation selection between and within pair crosses in a potato (Solanum tuberosum subsp. tuberosum) breeding programme. Theoretical and Applied Genetics 97: 1331-1339.
Brown J, Caligari PDS (1986). The efficiency of seed- ling selection for yield and yield components in a po- tato breeding programme. Z. Pflanzenzu 96: 53-62.
Caligari PDS, Brown J, Abbott RJ (1986). Selection for yield and yield components in the early generations of a potato breeding programme. Theoretical and Ap- plied Genetics 73: 218-222.
Flis B, Zimnoch-Guzowska E, Mańkowski D (2012). Correlations among yield, taste, tuber characteristics and mineral contents of potato cultivars grown at dif- ferent growing conditions. Journal of Agricultural Science 4(7): 197-207.
Freed R, Einensmith SP, Guetz S, Reicosky D, Smail VW, Wolberg P (1989). User’s guide to MSTAT-C analysis of agronomic research experiments. Michi- gan State University, USA.
Gopal J, Gaur PC, Rana MS (1992). Early generation selection for agronomic characters in a potato breed- ing programme. Theoretical and Applied Genetics 84: 709-713.
Gopal J, Minocha JL (1997). Effectiveness of selection at microtuber crop level in potato. Plant Breeding 116: 293-295.
Gopal J, Minocha JL (1998). Effectiveness of in vitro selection for agronomic characters in potato. Euphyt- ica 103: 67-74.
Gopal J, Kumar R, Kang GS (2002). The effectiveness of using a minituber crop for selection of agro- nomic characters in potato breeding programmes. Potato Research 45 (2-4): 145-151.
Güler M, Adak MS, Ulukan H (2001). Determining re- lationships among yield and some yield components using path coefficient analysis in chickpea (Cicer arietinum L.). European Journal of Agronomy 14: 161-166.
Jones ED (1988). A current assessment of in vitro cul- ture and other rapid multiplication methods in North America and Europe. American Potato Journal 65: 209-220.
Haynes KG, Gergela DM, Hutchinson CM, Yencho GC, Clough ME, Henninger MR, Halseth DE, Sandsted E, Porter GA, Ocaya PC (2012). Early generation se- lection at multiple locations may identify potato par- ents that produce more widely adapted progeny. Eu- phytica 186: 573-583.
Maris B (1988). Correlations within and between char- acters between and within generations as a measure for the early generation selection in potato breeding. Euphytica 37: 205-224.
Murashige T, Skoog F (1962). A revised medium for rapid growth and bioassay tobacco tissue cultures. Physiolo Planta 15: 473-497.
Muthoni, J, Shimelis H, Melis R, Kabira J (2012). Re- productive biology and early generation's selection in conventional potato breeding. Australian Journal of Crop Science 6(3): 488-497.
Neele AEF, Nab HJ, Louwes KM (1991). Identification of superior parents in a potato breeding programme. Theoretical and Applied Genetics 82: 264-272.
Özkaynak E, Samancı B (2005a). Yield and yield com- ponents of greenhouse, field and seed bed grown po- tato (Solanum tuberosum L.) plantlets. Journal of Agriculture Faculty of Akdeniz University 18(1): 125-129.
Özkaynak E, Samancı B (2005b). Determining relation- ships among plant and tuber components in potato (Solanum tuberosum L.) transplants. Journal of Ag- riculture Faculty of Harran University 9(1): 53-58.
Ruiz de Galarreta JI, Ezpeleta B, Pascualena J, Ritter E (2006). Combining ability and correlations for yield components in early generations of potato breeding. Plant Breeding 125: 183-186.
Silva GO, Souza, VO, Pereira AS, Carvalho, FIF, Neto, RF (2006). Early generation selection for tuber ap- pearance affects potato yield components. Crop Breeding and Applied Biotechnology 6:73-78,
Struik PC, Lommen WJM (1999). Improving the field performance of micro-minitubers. Potato Research 42 (3-4): 559-568.
Tai GCC, Young DA (1984). Early generation selection for important agronomic characteristics in a potato breeding population. American Potato Journal 61: 419-434.

Selcuk Journal of Agriculture and Food Sciences-Cover

ISSN: 2458-8377
Yayın Aralığı: Yılda 3 Sayı
Başlangıç: 2002

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