Combining Ability and Heterosis in Diallel Analysis of Maize (Zea mays L.) Lines

A sound breeding program for maize improvement is very important to meet the demands of the growing population. Therefore, combining ability and heterosis were studied in a 4 x 4 full diallel cross in maize for growth attributes, yield and its contributing traits. Randomized Complete Block Design (RCBD) with four replicates was used to study the general combining ability of parents, specific combining ability of F1s (including reciprocals) and heterosis of the F1s over commercial check variety on selected agronomic characters. Genotype was highly significant for all the traits studied. The combining abilities (GCA and SCA) and reciprocal mean squares were highly significant for most studied characters. The ratio of GCA/SCA was not less than unity for studied traits excepted for days to anthesis and ear height. The results indicated that the additive genetic effects were more important and played major role in studied traits. Thus, results revealed GCA effects for the parental lines (PL). Where ‘PL2’ was excellent combiner for number of tassels and cob circumference and ‘PL3’ was good combiner for days to silking and grain yield (t.h-1). While ‘PL4’ for short height. Majority of the F1s from the GCA effects showed high SCA effects. This F1 (PL2 x PL3) performed best amongst. However, several reciprocals were not desirable. Heterosis estimation was carried out using a commercial check, Oba super II. When commercial check was used, the percent heterosis especially on grain yield varied from -8.89 to 22.62%. Among the twelve F1s, nine of the crosses exhibited significant positive heterosis for grain yield (t.h-1). Those F1s that showed significant positive and/or negative desirable traits for SCA effects and significant positive heterosis could be used for varietal development in maize breeding. And conservation of those parents that exhibited high GCA effects be considered as well.

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Combining ability of inbred lines of maize and stability of their respective single-crosses

Scientia Agricola ◽

10.1590/s0103-90162003000100013 ◽

2003 ◽

Vol 60 (1) ◽

pp. 83-89 ◽

Cited By ~ 15

Author(s):

Aurélio Mendes Aguiar ◽

Luciana Aparecida Carlini-Garcia ◽

Adelmo Resende da Silva ◽

Mateus Figueiredo Santos ◽

Antonio Augusto Franco Garcia ◽

...

Keyword(s):

Grain Yield ◽

Combining Ability ◽

Zea Mays L ◽

Block Design ◽

Diallel Analysis ◽

Inbred Lines ◽

Breeding Programs ◽

Randomized Complete Block Design ◽

Single Cross ◽

Ear Height

The utilization of diallel crosses for identification of superior combinations is a common practice in maize (Zea mays L.) breeding programs. This methodology allows the estimation of the combining ability of genotypes being evaluated. In this work, five inbred lines were evaluated as to their general (GCA) and specific (SCA) combining abilities, by using a complete diallel scheme. The single-crosses produced between these inbred lines were evaluated in seven environments, along with two checks, by using a randomized complete block design. Traits analized were: grain yield, plant height, ear height, ear placement, and prolificacy. A diallel analysis was carried out, following an adaptation of Griffing's method IV, in addition to hybrid stability and adaptability analyses. Significant differences were detected for entries and environments for all traits. The interaction genotype vs. environment was significant for all traits. GCA's were significant for all traits, while SCA's were non-significant only for ear placement. For grain yield, both additive (GCA) and non-additive (SCA) effects were important, while for the remaining traits additive effects were more important. The high yielding single-cross was obtained from the cross of lines L-08-05F and L-38-05D. Those inbred lines showed higher GCA's and their cross also had high SCA; also, it is responsive to environment improvements and reasonably stable. The second in rank high yielding single-cross, L-46-10D x L-08-05F, showed wide adaptability and stability.

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Diallel analysis of yield and yield components of winged bean (Psophocarpus tetragonolobus (L.) D.C.)

The Journal of Agricultural Science ◽

10.1017/s002185960006336x ◽

1986 ◽

Vol 106 (3) ◽

pp. 485-490 ◽

Cited By ~ 5

Author(s):

H. N. De Silva ◽

A. Omran

Keyword(s):

Grain Yield ◽

Combining Ability ◽

Yield Components ◽

Diallel Analysis ◽

Diallel Cross ◽

Winged Bean ◽

Specific Combining Ability ◽

Psophocarpus Tetragonolobus ◽

Equal Importance ◽

Yield And Yield Components

SummaryThe variability revealed in a half-diallel cross between nine diverse genotypes of winged bean (Psophocarpus tetragonolobus (L.) D.C.) in regard to yield and yield components was studied in the F1 generation. The results indicated that high genetic variability existed for all traits. With respect to seed size, general combining ability effects alone were adequate to predict the performance of hybrids. For numbers of pods per plant and seeds per pod, both general and specific combining ability effects were of equal importance, while the performance of hybrids for grain yield was mainly dependent on specific combining ability effects. Heterosis was clearly evident for number of seeds per pod and grain yield. Of the yield components, number of pods per plant exhibited a positive genotypic association of appreciable magnitude with grain yield, showing its usefulness as an indicator of yield in selection.

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Diallel Analysis and Heritability of Grain Yield, Yield Components, and Maturity Traits in Cowpea (Vigna unguiculata (L.) Walp.)

The Scientific World JOURNAL ◽

10.1155/2020/9390287 ◽

2020 ◽

Vol 2020 ◽

pp. 1-9

Author(s):

Emmanuel Yaw Owusu ◽

Haruna Mohammed ◽

Kulai Amadu Manigben ◽

Joseph Adjebeng-Danquah ◽

Francis Kusi ◽

...

Keyword(s):

Grain Yield ◽

Combining Ability ◽

Yield Components ◽

Agricultural Research ◽

Diallel Analysis ◽

Diallel Cross ◽

Early Maturity ◽

Yield Attributes ◽

Cowpea Varieties ◽

Pedigree Selection

Information on combining ability and reciprocal effects (REC) facilitates efficient utilization of genetic materials in a breeding program. This study was conducted (at the CSIR-Savanna Agricultural Research Institute, Ghana) to determine general combining ability (GCA) and specific combining ability (SCA), heritability, genetic advance, GCA, and SCA effects as well as the relationship between parents per se performance and progenies for yield components and maturity traits in cowpea. The test populations were derived using a 5 × 5 complete diallel cross of parents with different yield attributes and maturity durations. The results indicated that GCA was predominant for number of days to 90% pod maturity, plant height at maturity, and hundred-seed weight. This showed that genes with additive effects conditioned these traits. Padi-Tuya, Songotra, and IT86D-610 were identified as good general combiners for grain yield, while Sanzi-Nya was identified as a general combiner for developing extra-early duration cowpea varieties. Crosses Songotra × Sanzi-Nya, SARC-1-57-2 × IT86D-610, Songotra × SARC-1-57-2, and Padi-Tuya × Songotra were identified as good specific combiners for days to 50% flowering, pod length, pods per plant, pod yield, grain yield, and seeds per pod. The findings from this study provide useful information on the inheritance of early maturity and yield traits in cowpea. This can be exploited to develop high yielding and early maturing cowpea varieties as climate smart strategy to mitigate climate change via breeding methods such as pedigree selection and marker assisted backcrossing (MABC). Pedigree selection method is being used to develop varieties from the hybrid with high and significant SCA for grain yield, whereas the development of extra-early duration varieties via MABC with Sanzi-Nya (general combiner for earliness traits) as a donor parent is ongoing.

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Generation mean analysis for grain yield and its components in popcorn

Open Agriculture ◽

10.1515/opag-2018-0050 ◽

2018 ◽

Vol 3 (1) ◽

pp. 451-458

Author(s):

Shah Fahad ◽

Muhammad Noor ◽

Durri Shahwar ◽

Mukhtar Alam ◽

...

Keyword(s):

Grain Yield ◽

Gene Action ◽

Block Design ◽

Dominant Gene ◽

Genetic Effects ◽

Maize Breeding ◽

Breeding Programs ◽

Randomized Complete Block Design ◽

Hybrid Maize ◽

Additive Genetic Effects

AbstractKnowledge about genetic composition of a character helps plant breeders to plan their breeding programs. Grain yield and related traits are very important in maize breeding programs. In our experiment four each of parents, F1s, F2s, BC1s and BC2s were evaluated at Cereal Crops Research Institute (CCRI), Pirsabak, Nowshehra and Agriculture University Peshawar. The experimental material at both locations were replicated thrice in randomized complete block design. In all crosses dominance gene action was found to be important in the inheritance of ear diameter, ear length, percent shelling and grain yield. Additive genetic effects were found negative and non-significant in all four crosses for percent shelling. Duplicate type of non-allelic interactions was observed for shelling percentage in all crosses. Duplicate type of epistasis was observed in cross, PS-1 × BD-1 and PS-2 × BD-1 for ear length. For grain yield both complementary and duplicate type of epistasis were observed. Additive genetic effects werefound significant with positive and negative magnitude in two crosses each. It is concluded that crosses, where dominant gene action was found predominant, should be effectively utilized in hybrid maize programs for improved grain yield and related traits.

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Implementation of partial diallel analysis to determine general combining ability and agronomic character genetic parameters of shade-tolerant maize lines

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/911/1/012019 ◽

2021 ◽

Vol 911 (1) ◽

pp. 012019

Author(s):

Roy Efendi ◽

Muhammad Azrai

Keyword(s):

Combining Ability ◽

Genetic Parameters ◽

Block Design ◽

Diallel Analysis ◽

General Combining Ability ◽

Leaf Length ◽

General Ability ◽

Randomized Block Design ◽

High Heritability ◽

Ear Height

Abstract Information about combining ability and genetic parameters guide maize breeders in selecting parents and gene action of the desired trait. This study aims to determine the general combining ability of the yield characters of shading tolerant maize lines and the genetic parameters of their agronomic characters. This research was conducted at IP2TP Bajeng in December 2020-March 2021. The study was arranged in a randomized block design with three replications. The genotypes used were nine hybrids obtain from a partial diallelic (2x6). The results showed that line SHD3 showed good general ability for yield. High heritability values were shown by variables days to anthesis, days to silk, plant height, ear height, leaf length, leaf width, 100 grains weight and ear diameter.

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Heterosis and combining ability for grain yield and its contributing characters in maize

Bangladesh Journal of Agricultural Research ◽

10.3329/bjar.v33i3.1596 ◽

1970 ◽

Vol 33 (3) ◽

pp. 375-379 ◽

Cited By ~ 9

Author(s):

AKMM Alam ◽

S Ahmed ◽

M Begum ◽

MK Sultan

Keyword(s):

Grain Yield ◽

Combining Ability ◽

Additive Genetic Variance ◽

Diallel Cross ◽

Grain Weight ◽

Combining Ability Analysis ◽

Days To Maturity ◽

Additive Gene ◽

Ear Height ◽

1000 Grain Weight

Combining ability analysis for grain yield and its contributing characters in maize were carried out in 5Ã5 diallel cross. The highest percentage of heterosis for grain per ear over mid parent and better parent were observed by the cross P2ÃP3. Crosses P1ÃP3 and P1ÃP5 showed significant negative heterosis for days to maturity. Significant general and specific combining ability variances were observed for all the characters except ear height. Almost equal role of additive and non-additive gene actions was observed for days to maturity. Additive genetic variance was preponderant for grains per ear and 1000-grain weight and non-additive gene action was involved in plant height, ear height, days to silking, and days to maturity. The inbred lines P2 and P5 were found to be best general combiner for 1000-grain weight. Key Words: Heterosis, combining ability, grain yield, maize. doi:10.3329/bjar.v33i3.1596 Bangladesh J. Agril. Res. 33(3) : 375-379, September 2008

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Watermelon general and specific combining ability

Comunicata Scientiae ◽

10.14295/cs.v10i1.2899 ◽

2019 ◽

Vol 10 (1) ◽

pp. 132-140

Author(s):

Tiago Lima Do Nascimento ◽

Flávio De França Souza ◽

Rita De Cassia Souza Dias ◽

Edson Ferreira Da Silva

Keyword(s):

Combining Ability ◽

Block Design ◽

Seed Mass ◽

Branch Length ◽

Diallel Analysis ◽

Diallel Cross ◽

Female Flower ◽

Specific Combining Ability ◽

Soluble Solids ◽

Ability Estimates

The combining ability of six watermelon genotypes was estimated in a diallel cross scheme (6x6), including genotypes JNY (1), ‘ORA’ (2), ‘KOD’ (3), ‘SOL’ (4), ‘CHG’ (5), ‘PEA’ (6) and all possible hybrids between them. A randomized complete block design (RCB) was used, with 36 treatments, three blocks, and plots with five plants. The following traits were evaluated: days before female flower anthesis, main branch length, fruit mass, number of fruits per plant, yield, fruit length, fruit width, pulp firmness, soluble solids content, average rind thickness, seed length, seed width, and seed mass. The data obtained were submitted to analysis of variance, and a diallel analysis was performed according to Griffing’s experimental method I. According to the general combining ability estimates obtained, genotypes ‘KOD’ (3) and ‘JNY’ (1) were the most likely ones to produce hybrids with smaller-sized fruits and smaller seeds. The reciprocal effects confirmed that the results indicate that these genotypes should be used as pollen donors and pollen recipients, respectively. On the other hand, genotypes ‘ORA’ (2) and ‘CHG’ (5) can be used for the commercial exploitation of sliced watermelons. According to the specific combining ability estimates obtained, the combinations ‘ORA’ (2) x ‘PEA’ (6), ‘ORA’ (2) x ‘JNY’ (1), ‘CHG’ (5) x ‘KOD’ (3), ‘PEA’ (6) x ‘KOD’ (3), and ‘CHG’ (5) x ‘SOL’ (4) stood out as being the genotypes most likely to produce the smallest fruits and smallest seeds.

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Daya Gabung Inbrida Jagung Toleran Cekaman Kekeringan dan Nitrogen Rendah pada Pembentukan Varietas Hibrida

Jurnal Penelitian Pertanian Tanaman Pangan ◽

10.21082/jpptp.v1n2.2017.p83-96 ◽

2017 ◽

Vol 1 (2) ◽

pp. 83

Author(s):

Roy Efendi ◽

Andi Takdir M. ◽

Muhammad Azrai

Keyword(s):

Drought Stress ◽

Drought Tolerance ◽

Optimum Condition ◽

Grain Yield ◽

Combining Ability ◽

Block Design ◽

Diallel Cross ◽

Inbred Lines ◽

Maize Varieties ◽

Hybrid Maize

<p class="Abstrak">Low maize grain yield due to drought and low N stresses maybe overcome by growing tolerance hybrid maize varieties.<strong> </strong>The objectives of this research were to analyze the combining ability of eight inbred lines possessing those traits and indentify suitable parental inbred lines which can be used to develop single cross hybrid tolerant to drought and low nitrogen. Eight inbred lines were crossed using complete diallel cross design of Griffing’s- I on Februry to June, 2014. Those inbred lines were 1044-30, DTPYC9-F46-3-9-1-1-B (for drought tolerance), MR 14 (medium drought tolerance), G20133077 (tolerant to low N), CY 11, CLRCY039 (medium tolerant to low N), and CY12 and G2013631 (for drought and low N sensitive). Fifty-six experimental hybrids derived from diallel crosses, eight inbred lines and four commercial hybrid varieties as checks were evaluated under managed drought, low dosage of N fertilization and under optimum condition, during the dry season (July to October) of 2014. Randomized complete block design three replications was used in each different stress condition. The results showed that CY 11, G2013631, and MR 14 inbred lines possesed good general combining ability (GCA) for grain yield under drought, low N, and optimum conditions. These inbred lines also showed good GCA for the secondary traits such as large stem, delayed leaf rolling and late leaf senescence to support for high grain yield under drought stress and low N condition. Inbred lines of drought and low N sensitive such as G2013631, but had high GCA, could be used as parent to develop drought and low N tolerance hybrids if crossed with inbred lines having medium-tolerant to drought or tolerant to low N, such as G20133077, which had low DGU, or CY11 which had high GCA. Hybrid maize tolerant to drought and tolerant to low N, such as CY11 x G20133077, G20133077 x G2013631, and CY 11 x G2013631, produced significantly higher grain yield, over 8 t/ha, under drought and under low N, as compared with hybrid varieties Bima 3 and Bisi 2, which yielded 5.91 and 6.59 t/ha under drought, and 6.82 and 7.01 t/ha under low N condition. Grain yields under optimum condition were positively correlated with those under both drought and low N conditions. The result suggests that it is possible for improving grain yield of hybrid maize, simultaneously for optimum, drought stress and low N conditions.</p>

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Combining ability analysis of maize lines under optimal and low nitrogen stress

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/911/1/012010 ◽

2021 ◽

Vol 911 (1) ◽

pp. 012010

Author(s):

Nining N. Andayani ◽

M. Arif Subchan ◽

Roy Efendi ◽

M. Aqil ◽

M. Azrai

Keyword(s):

Grain Yield ◽

Block Design ◽

Diallel Cross ◽

Yield Potential ◽

Limiting Factor ◽

Maize Breeding ◽

Randomized Block Design ◽

Hybrid Maize ◽

Two Stages ◽

Half Diallel

Abstract Most of the land for maize development in Indonesia has low N limiting factor, thus it is necessary to develop a proper maize breeding programs tolerant to low N conditions. One of the breeding methods suitable for low N evaluation is the diallel method between inbred parents (homozygous lines) that are tolerant of low N stress. The aim of this study was to assess the genotype tolerance to low N with comparable yields. The research consisted of two stages. The first stage is the development of hybrid maize grains (F1) using the half diallel cross method. This activity was carried out in KP. Maros, Research Center for Cereal Crops. A half-diallel cross refers to the Griffing IV method, by involving 11 low N-tolerant genotypes (AVLN 100-1, AVLN 118-2, AVLN 122-2, AVLN 124-4, AVLN 32-3, AVLN 83-1, AVLN 83-4, AVLN 83-6, AVLN 86-2, MAL 04, and AVLN 124-9). The second stage was carried out in KP. Bajeng to evaluate 52 genotypes of hybrid maize from diallel crosses plus four hybrid varieties Advanta 777, Bisi 18, P 27 and JH 37 for control. The experiment was carried out under conditions of low N stress (100 kg N/ha) and normal N (200 kg N/ha). The experiment used a randomized block design with three replications. Hybrids that are tolerant (T) under conditions of low N stress was best indicated by AVLN 83-4/AVLN 124-4 genotype pair, with significant higher grain yield than Bisi-18 and JH 37 varieties. This hybrid produced average grain yield of 7.87 t/ha under both conditions. Inbred maize genotypes classified as medium tolerant (MT) were AVLN 83-4/AVLN 124-9, AVLN 124-4/AVLN 86-2, AVLN 122-2/AVLN 124-4, AVLN 83-1/AVLN 124-9, has similar yield potential as to the control varieties.

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Investigation of combining ability and superiority percentages for yield and some related traits in yellow maize using line × tester analysis

Acta Agraria Debreceniensis ◽

10.34101/actaagrar/1/4144 ◽

2020 ◽

pp. 5-14

Author(s):

Maamoun A. Abdel-Moneam ◽

M. S. Sultan ◽

Waleed A. E. Abido ◽

Ágnes Hadházy ◽

S. A. Sadek ◽

...

Keyword(s):

Grain Yield ◽

Combining Ability ◽

Block Design ◽

General Combining Ability ◽

Kernel Weight ◽

Specific Combining Ability ◽

F1 Hybrids ◽

Gene Effects ◽

Additive Gene ◽

Ear Height

Combining ability estimation is an important genetic attribute for maize breeders in anticipating improvement in productivity via hybridization and selection. This research was carried out to investigate the genetic structure of the 27 F1 maize hybrids established from nine lines derived from Maize Research Department and three testers, to determine general combining ability (GCA), determine crosses showing specific combining ability (SCA) and superiority percentages for crosses. Nine lines, three testers, 27 F1 hybrids and two check commercial hybrids (SC162 and SC168) were studied in randomized complete block Design (RCBD) with three replications during 2016. The results of mean squares showed that significant and highly significant for most studied traits (days to 50% tasseling, days to 50% silking, plant and ear height, ear position, ear length, no. of kernels per row, 100-kernel weight and Grain yield). Estimates of variance due to GCA and SCA and their ratio revealed predominantly non-additive gene effects for all studied traits. Lines with the best GCA effects were: P2 (line 11) and P6 (line 21) for grain yield, for testers Gm174 and Gm1021 had significant GCA effects for grain yield. The hybrids P5×Gm1021, P6×Gm1021, P7×Gm1021, P8×Gm1002, P9×Gm1002 had significant and negative SCA effects for grain yield. Crosses P1×Gm174, P2×Gm1002, P5×Gm1021, P6×Gm174, P6×Gm1021, P7×Gm1021, P8×Gm1002, P9×Gm1021 were the best combinations manifested and significant superiority percentages over than check varieties (SC162 and SC168) for most studied traits. Therefore, these hybrids may be preferred for hybrid crop development. Abbreviations: GCA general combining ability; SCA specific combining ability

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