Abstract
A complete diallel without reciprocals was investigated among six drought tolerant maize (Zea mays L.) landraces from MRI Zemun Polje gene bank. Trials with parental populations, their crosses and three check hybrids were conducted at three locations in 2012 and five locations in 2013 in Serbia. The aim was to determine potential heterotic patterns for reciprocal recurrent selection (RRS) among them. The average grain yield reached 4.832 and 5.864 t ha−1 for the populations and population crosses, respectively. Mipdarent heterosis (MPH) for grain yield ranged from 10.0 to 36.7 %, with the average value of 21.3 %. Entry × environment interactions did not show significance for any trait, reflecting a broader adaptation of the material to different environments. The new heterotic pattern proposed for RRS was Iranian dent POP. N-425 × Argentinean flint ARZM 06-020, which had the highest grain yield (6.871 t ha−1) and MPH value (36.7 %). This cross confirms the hypotesis that broader geographical origin, as well as dent x flint type of cross, is in positive correlation with high MPH for grain yield in maize. The cluster analysis based on MPH was not in accordance with the single sequence repeat (SSR) analysis of parental populations. Since both of the populations have some undesirable agronomic traits (high moisture, root and stalk lodging, bareness), two to three cycles of intrapopulation selection for improving them before starting the RRS program should be performed. In some additional grain quality research, these populations showed favorable value-added traits (high tryptophan, oil, and saturated fatty acids), indicating the possibility of improving grain quality besides grain yield in this newly discovered heterotic pattern.
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References
Bello OB, Olaoye G (2009) Combining ability for maize grain yield and other agronomic characters in a typical southern Guinea savanna ecology of Nigeria. Afr J Biotechnol 8:2518–2522. doi:10.5897/AJB09.296
Bertoia L, Lopez C, Burak R (2006) Biplot analysis of forage combining ability in maize landraces. Crop Sci 46:1346–1353. doi:10.2135/cropsci2005.09-0336
Morello CdeL, de Miranda Filho JB, Gorgulho EP (2001) Partial diallel cross between exotic and adapted maize populations evaluated in acid soil. Sci Agr 58:313–319
Comstock RE, Robinson HF, Harvey PH (1949) A breeding procedure designed to make maximum use of both general and specific combining ability. Agron J 41:360–367
Crossa J, Taba S, Wellhausen EJ (1990a) Heterotic patterns among Mexican races of maize. Crop Sci 30:1182–1190. doi:10.2135/cropsci1990.0011183X003000060004x
Crossa J, Vasal SK, Beck DL (1990b) Combinig ability estimates of CIMMYTs tropical late yellow dent maize germplasm. Maydica 35:273–278
da Silva RM, de Miranda Filho JB (2003) Heterosis expression in crosses between maize populations: ear yield. Sci Agr 60:519–524. doi:10.1590/S0103-90162003000300016
Dhillon BS, Boppenmaier J, Pollmer WG, Herrmann RG, Melchinger AE (1993) Relationships between restriction fragment length polymorphisms among European maize inbreds with ear dry matter yield of their hybrids. Maydica 38:245–248
Enoki H, Sato H, Koinuma K (2002) SSR analysis of genetic diversity among maize inbred lines adapted to cold regions of Japan. Theor Appl Genet 104:1270–1277. doi:10.1007/s00122-001-0857-1
Falconer DS, Mackay TFC (1996) Introduction to quantitative genetics. 4th edn. Longman, pp 462
Gabriel LC, Maximo BL, Ruggero B (2009) Heterosis and heterotic patterns among maize landraces for forage. Crop Breed Appl Biot 9:229–238. doi:10.12702/1984-703.v09n03a04
Gardner CO, Eberhart SA (1966) Analysis and interpretation of the variety cross diallel and related populations. Biometrics 22:439–452
Gouesnard B, Dallard J, Bertin P, Boyat A, Charcosset A (2005) European maize landraces: genetic diversity, core collection definition and methodology of use. Maydica 50:225–234
Hallauer AR, Miranda Filho JB (1995) Quantitative genetics in maize breeding, 2nd edn. Iowa State University Press, Ames, p 468
Hallauer AR, Carena MJ, Miranda Filho JB (2010) Quantitative genetics in maize breeding. In: handbook of plant breeding, vol 6, 3rd edn. Springer, New York, p 663
Ignjatovic-Micic D, Kostadinovic M, Bozinovic S, Andjelkovic V, Vancetovic J (2014) High grain quality accessions within a maize drought tolerant core collection. Sci Agr 79:402–409
Jaccard P (1908) Nouvelles recherches sur la distribution florale. Bull Soc Vaud Nat 44:223–270
Laude TP, Salazar AM (2008) Combining ability and heterotic relationships in yellow quality protein maize varieties. Philipp J Crop Sci 33:25–36
Li Y, Du J, Wang T, Shi Y, Song Y, Jia J (2002) Genetic diversity and relationships among Chinese maize inbred lines revealed by SSR markers. Maydica 47:93–101
Li Y, Shi Y, Song Y, Du J, Tuberosa R, Wang T (2004) Analysis of genetic diversity in maize inbred lines based on AFLP markers. Maydica 49:89–95
Lynch M, Walsh JB (1998) Genetics and Analysis of Quantitative traits. Sinauer Assocs, Sunderland
Mantel N (1967) The detection of disease clustering and a generalized regression approach. Cancer Res 27:209–220
Maslac T (2013) Serbia, Grain and Feed Annual, Annual Report on wheat, corn and barley. USDA Foreign Agriculture Service, Global Agricultural Information Network. GAIN Report number: RB1302
Melani MD, Carena MJ (2005) Alternative maize heterotic patterns for the Northern Corn Belt. Crop Sci 45:2186–2194. doi:10.2135/cropsci2004.0289
Melchinger AE (1999) Genetic diversity and heterosis. In: Coors JG, Pandley S (eds) The genetics and exploitation of heterosis in crops. American Society of Agronomy, Madison, pp 99–118
Messmer MM, Melchinger AE, Boppenmeier J, Brunklaus-Jung E, Herrmann RG (1992) Relationships among early European maize inbreds: i. genetic diversity among flint and dent lines revealed by RFLPs. Crop Sci 32:1301–1309. doi:10.2135/cropsci1992.0011183X003200060001x
Miranda Filho JB (1999) Inbreeding depression and heterosis. In: Coors JG, Pandey S (ed) Genetics and exploitation of heterosis in crops; proceedings, Mexico 1997, Madison, SSSA, ASA, CSSA, pp 69-80
Moll RH, Lonnquist JH, Fortuna JV, Johnson EC (1965) The relationship of heterosis and genetic divergence in maize. Genetics 52:139–144
Moreno-González J, Ramos-Gourcy F, Losada E (1997) Breeding potential of European flint and earliness-selected U.S. Corn Belt dent maize populations. Crop Sci 37:1475–1481. doi:10.2135/cropsci1997.0011183X003700050010x
Nass LL, Paterniani E (2000) Pre-breeding: a link between genetic resources and maize breeding. Sci Agr 57:581–587. doi:10.1590/S0103-90162000000300035
Nigussie M, Zelleke H (2001) Heterosis and combining ability in a diallel among eight elite maize populations. African Crop Sci Jour 9:471–479. doi:10.4314/acsj.v9i3.27593
Rasmussen CC, Hallauer AR (2006) Evaluation of heterotic patterns of iowa stiff stalk synthetic and non-stiff stalk synthetic maize populations. Maydica 51:177–186
Reif JC, Melchinger AE, Xia XC, Warburton ML, Hoisington DA, Vasal SK, Beck D, Bohn M, Frisch M (2003a) Use of SSRs for establishing heterotic groups in subtropical maize. Theor Appl Genet 107:947–957. doi:10.1007/s00122-003-1333-x
Reif JC, Melchinger AE, Xia XC, Warburton ML, Hoisington DA, Vasal SK, Srinivasan G, Bohn M, Frisch M (2003b) Genetic distance based on simple sequence repeats and heterosis in tropical maize populations. Crop Sci 43:1275–1282. doi:10.2135/cropsci2003.1275
Reif JC, Hamrit S, Heckenberger M, Schipprack W, Bohn M, Melchinger AE (2005) Trends in genetic diversity among European maize cultivars and their parental components during the past 50 years. Theor Appl Genet 111:838–845. doi:10.1007/s00122-005-0004-5
Revilla P, Boyat A, Alvarez A, Gouesnard B, Soengas P, Ordas A, Malvar RA (2006) Heterotic patterns among French and Spanish maize populations. Maydica 51:525–535
Rezende GSP, Souza CLJr (2000) A reciprocal recurrent selection procedure outlined to integrate hybrid breeding programs in maize. J Genet Breed 54:57–66
Rodrigues MC, Chaves LJ (2002) Heterosis and its components in crosses among high quality protein maize populations. Crop Breed Appl Biot 2:281–290. doi:10.12702/1984-7033.v02n02a15
Rodrigues MC, Chaves LJ, Pacheco CAP (2006) Heterosis in crosses among white grain maize populations with high quality protein. Pesqui Agropecu Bras 41:59–66. doi:10.1590/50100-204X2006000100009
Rohlf FJ (2000) NTSYS-pc Numerical taxonomy and multivariate analysis system, Version2.0 Exeter Software, Setaket, NY
Rotarenco V, Mihailov ME, Dicu G (2008) Using haploid plants for the creation of high yield populations in maize. MNL 82:11–12
Saghai-Maroof M, Soliman K, Jorgensen R, Allard R (1984) Ribosomal DNA spacer length polymorphism in barley; mendelian inheritance, chromosomal location and population dynamics. Proc Natl Acad Sci USA 91:8014–8018
Schnell FW (1982) A synoptic study of the methods and categories of plant breeding. Z Pflanzenzüchtung 89:1–18
Soengas P, Ordas B, Malvar RA, Revilla P, Ordas A (2003a) Heterotic patterns among filint maize populations. Crop Sci 43:844–849. doi:10.2135/cropsci2003.8440
Soengas P, Ordas B, Malvar RA, Revilla P, Ordas A (2003b) Performance of flint maize in crosses with testers from different heterotic groups. Maydica 48:85–91
Soengas P, Ordas B, Malvar RA, Revilla P, Ordas A (2006) Combining abilities and heterosis for adaptation in flint maize populations. Crop Sci 46:2666–2669. doi:10.2135/cropsci2006.04.0230
Vancetovic J, Ignjatovic-Micic D, Bozinovic S, Babic M, Filipovic M, Grcic N, Andjelkovic V (2014) Grain quality of drought tolerant accessions within the MRI Zemun Polje maize germplasm collection. Span J Agric Res 12:186–194. doi:10.5424/sjar/2014121-4392www.hidmet.gov.rs
Xia XC, Reif JC, Hoisington D, Melchinger AE, Frisch M, Warburton ML (2004) Genetic diversity among CIMMYT maize inbred lines investigated with SSR markers. I. Lowland tropical maize. Crop Sci 44:2230–2237. doi:10.2135/cropsci2004.2230
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This research was financed by Ministry of education and science, Republic of Serbia, through Project no. TR31208 “Exploitation of maize diversity to improve grain quality and drought tolerance”.
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Vancetovic, J., Bozinovic, S., Ignjatovic-Micic, D. et al. A diallel cross among drought tolerant maize populations. Euphytica 205, 1–16 (2015). https://doi.org/10.1007/s10681-015-1372-9
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DOI: https://doi.org/10.1007/s10681-015-1372-9