Abdel-Moneam MA, Attia AN, El-Emery MI, Fayed EA (2009). Combining ability and heterosis for some agronomic traits in crosses of maize. Pakistan Journal of Biological Sciences 12(5):433.
Crossref

Ahmed S, Khatun F, Uddin MS, Banik BR, Ivy NA (2008). Combining ability and heterosis in maize (Zea mays L.). Bangladesh Journal of Agricultural Research 43(1):125-134.

Ahmed A, Amiruzzaman M, Begum S, Billah MM, Rohman MM (2014). Combining ability for yield and its components in white grain quality protein maize. Bangladesh Journal of Plant Breeding and Genetics 27(2): 09-15.
Crossref

Alam AKMM, Ahmed S, Begum M, Sultan M (2008). Heterosis and combining ability for grain yield and its contributing characters in maize. Bangladesh Journal of Agricultural Research 33(3):375-379.
Crossref

Aliu S, Fetahu S, Rozman L (2010). Variation of physiological traits and yield components of some maize hybrids (Zea mays L.) in agroecological conditions of Kosovo. Acta Agriculturae Slovenica 95(1):35-41.

Amiruzzaman M, Islam MA, Hasan L, Kadir M, Rohman MM (2011). Heterosis and combining ability in a diallel among elite inbred lines of maize (Zea mays L.). Emirates Journal of Food and Agriculture pp. 132-137.
Crossref

Aslam M, Khan IA, Saleem MU, Ali Z (2006). Assessment of water stress tolerance in different maize accessions at germination and early growth stage. Pakistan Journal of Botany 38(5):1571-1579.

Aslam M, Maqbool MA, Yaseen M (2015). Ammi biplot analysis for comparative evaluation of maize (Zea mays L.) genotypes under different saline environments. Pakistan Journal of Agricultural Sciences 52(2):339-347.

Azad M, Kalam A, Hamid M, Rafii MY, Malek MA (2014). Combining ability of pod yield and related traits of groundnut (Arachis hypogaea L.) under salinity stress. The Scientific World Journal. Article ID 589586, 
Crossref

Basso CW, Miranda Filho JB (2001). Médias preditas de produção de compostos de milho sob severa epidemia de enfezamento no sudeste do Brasil. Summa Phytopathologica 27(1):23-30.

Beck DL, Vasal SK, Crossa J (1991). Heterosis and combining ability among subtropical and temperate intermediate-maturity maize germplasm. Crop Science 31(1):68-73.
Crossref

Bocanski J, Sreckov Z, Nastasic A (2009). Genetic and phenotypic relationship between grain yield and components of grain yield of maize (Zea mays L.). Genetika 41(2):145-154.
Crossref

Castillo-Gonzalez F, Goodman MM (1989). Agronomic evaluation of Latin American maize accessions. Crop Science 29(4):853-861.
Crossref

Crossa J, Gardner CO, Mumm RF (1987). Heterosis among populations of maize (Zea mays L.) with different levels of exotic germplasm. Theoretical and Applied Genetics 73(3):445-450.
Crossref

Darrah LL, Zuber MS (1985). United States farm maize germplasm base and commercial breeding strategies. Crop Science 26(6):1109-1113.
Crossref

Eberhart, SA (1971). Regional maize diallels with US and semi-exotic varieties. Crop Science 11:911-914.
Crossref

Farfan ID, Murray SC, Labar S, Pietsch D (2013). A multi-environment trial analysis shows slight grain yield improvement in Texas commercial maize. Field Crops Research 149:167-176.
Crossref

Gardner CO, Eberhart SA (1966). Analysis and interpretation of the variety cross diallel and related populations. Biometrics 22:439-452.
Crossref

Glover MA, Wilmot DB, Darrah LL, Hibbard BE, Zhu X (2005). Diallel analysis of agronomic traits using Chinese and U.S. maize germplasm. Crop Science 45:1096-1102. 
Crossref

Griffing B (1956). Concept of general and specific combining ability in relation to diallel crossing system. Australian Journal of Biological Science 9:463-493.
Crossref

Henry WB, Blanco MH, Rowe DE, Windham GL, Murray SC, Williams WP (2014). Diallel analysis of diverse maize germplasm lines for agronomic characteristics. Crop Science 54(6):2547-2556.
Crossref

Holley RN, Goodman MM (1988). Yield potential of tropical hybrid maize derivatives. Crop Science 28:213-218.
Crossref

Hussain Wani S, Brajendra Singh N, Haribhushan A, Iqbal Mir J (2013). Compatible solute engineering in plants for abiotic stress tolerance-role of glycine betaine. Current genomics 14(3):157-165.
Crossref

Wani SH, NB Singh NB, A Haribhushan A, JI Mir JI (2013). Compatible solute engineering in plants for abiotic stress tolerance-role of glycine betaine. Current Genomics 14(3):157-165.
Crossref

Iqbal J, Saleem M, Ahsan M, Ali A (2012). General and specific combining ability analyses in maize under normal and moisture stress conditions. The Journal of Animal and Plant Science 22(4):1048-1054.

Ivy NA, Howlader MS (2000). Combining ability in maize. Bangladesh Journal of Agricultural Research 25:385-392.

Karim Z, Hussain SG, Ahmed M (1990). Salinity problems and crop intensification in the coastal regions of Bangladesh. Soil Publication No. 33.

Kayaga HN, Kagoda F, Ochwo-Ssemakula M, Alladassi BM, Asea G, Gibson P, Edema R (2017). Inheritance of yield and yield-related traits in highland maize hybrids of Uganda. Journal of Crop Science and Biotechnology 20(4):255-62.
Crossref

Kumar TS, Reddy DM, Naik VS, Parveen SI, Subbaiha PV (2012). Gene action for yield and morpho-physiological traits in maize (Zea mays L.) inbred lines. Journal of Agricultural Science 4(5):30-35.
Crossref

Malik SI, Malik HN, Minhas NM, Munir M (2004). General and specific combining ability studies in maize. International Journal of Agriculture and Biology 6(5):856-859.

Maqbool MA, Aslam M, Ali H, Shah TM, Atta BM (2015). GGE biplot analysis based selection of superior chickpea (Cicer arietinum L.) inbred lines under variable water environments. Pakistan Journal of Botany 47(5):1901-1908.

Mickelson HR, Cordova H, Pixley KV, Bjarnason MS (2001). Heterotic relationships among nine temperate and subtropical maize populations. Crop Science 41(4):1012-1020.
Crossref

Mungoma C, Pollak LM (1988). Heterotic patterns among ten Corn Belt and exotic maize populations. Crop Science 28:500-504.
Crossref

Murtadha MA, Ariyo OJ, Alghamdi SS (2018). Analysis of combining ability over environments in diallel crosses of maize (Zea mays). Journal of the Saudi Society of Agricultural Sciences 17(1):69-78.
Crossref

Naidoo G, Forbes AM, Paul C, White DG, Rocheford TR (2002). Resistance to Aspergillus ear rot and aflatoxin accumulation in maize F1 hybrids. Crop Science 42:360-364.
Crossref

Nass LL, Lima R, Vencovsky R, Gallo PB (2000). Combining ability of maize inbred lines evaluated in three environments in Brazil. Scientia Agricola 57(1):129-134.
Crossref

Ojo GOS, Adedzqa DK, Bello LL (2007). Combining ability estimates and heterosis for grain yield and yield components in maize (Zea mays L.). Journal of Sustainable Development in Agriculture and Environment 3:49-57.

Oliveira AS, Miranda Filho JB, Reis EF (2015). Variability and inbreeding in semiexotic maize populations. Genetics and Molecular Research 14(1):1184-1199.
Crossref

Rohman MM, Islam M R, Naznin T, Omy S H, Begum S, Alam SS, Hasanuzzaman M (2019). Maize Production under Salinity and Drought Conditions: Oxidative Stress Regulation by Antioxidant Defense and Glyoxalase Systems. In Plant Abiotic Stress Tolerance (pp. 1-34): Springer, Cham.
Crossref

Wani SH, Gosal SS (2011). Introduction of OsglyII gene into Indicuam rice through particle bombardment for increased salinity tolerance. Biologia Plantarum 55(3):536-540.
Crossref

Williams WP, Windham GL, Buckley PM (2008). Diallel analysis of aflatoxin accumulation in maize. Crop Science 48(1):134-138.
Crossref

Wu D, Cai S, Chen M, Ye L, Chen Z, Zhang H, Zhang G (2013). Tissue metabolic responses to salt stress in wild and cultivated barley. PLoS One 8(1):e55431.
Crossref

Xiang B, Li B (2001). A new mixed analytical method for genetic analysis of diallel data. The Canadian Journal for Research 31:2252-2259.
Crossref

Yadav G, Srivastava PK, Singh VP, Prasad SM (2014). Light intensity alters the extent of arsenic toxicity in Helianthus annuus L. seedlings Biological Trace Element Research 158(3):410-421.
Crossref

Yamaguchi T, Blumwald E (2005). Developing salt-tolerant crop plants, challenges and opportunities. Trends in Plant Science 10(12):615-620.
Crossref

Yan W, Kang MS (2003). GGE Biplot Analysis: A Graphical Tool for Breeders, Geneticists and Agronomists. pp 207-228. CRC Press, Boca Raton, Florida, New York, USA, pp. 207-228.
Crossref

Zare M, Choukan R, Heravan EM, Bihamta MR, Ordookhani K (2011). Gene action of some agronomic traits in corn (Zea mays, L.) using diallel cross analysis. African Journal of Agricultural Research 6:693-703.