Genetic Analysis of Early White Quality Protein Maize Inbreds and Derived Hybrids under Low-Nitrogen and Combined Drought and Heat Stress Environments

An increase in the average global temperature and drought is anticipated in sub-Saharan Africa (SSA) as a result of climate change. Therefore, early white quality protein maize (QPM) hybrids with tolerance to combined drought and heat stress (CDHS) as well as low soil nitrogen (low-nitrogen) have the potential to mitigate the adverse effects of climate change. Ninety-six early QPM hybrids and four checks were evaluated in Nigeria for two years under CDHS, low-nitrogen, and in optimal environments. The objectives of this study were to determine the gene action conditioning grain yield, assess the performance of the early QPM inbred lines and identify high yielding and stable QPM hybrids under CDHS, low-nitrogen and optimal environment conditions. There was preponderance of the non-additive gene action over the additive in the inheritance of grain yield under CDHS environment conditions, while additive gene action was more important for grain yield in a low-nitrogen environment. TZEQI 6 was confirmed as an inbred tester under low N while TZEQI 113 × TZEQI 6 was identified as a single-cross tester under low-nitrogen environments. Plant and ear aspects were the primary contributors to grain yield under CDHS and low-nitrogen environments. TZEQI 6 × TZEQI 228 and the check TZEQI 39 × TZEQI 44 were the highest yielding under each stress environment and across environments. Hybrid TZEQI 210 × TZEQI 188 was the most stable across environments and should be tested on-farm and commercialized in SSA.

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Assessment of Genetic Diversity for Drought, Heat and Combined Drought and Heat Stress Tolerance in Early Maturing Maize Landraces

Plants ◽

10.3390/plants8110518 ◽

2019 ◽

Vol 8 (11) ◽

pp. 518 ◽

Cited By ~ 7

Author(s):

Nelimor ◽

Badu-Apraku ◽

Tetteh ◽

N’guetta

Keyword(s):

Climate Change ◽

Heat Stress ◽

Drought Stress ◽

Grain Yield ◽

Yield Potential ◽

Yield Reduction ◽

International Institute ◽

Improvement Program ◽

Maize Varieties ◽

Drought And Heat Stress

Climate change is expected to aggravate the effects of drought, heat and combined drought and heat stresses. An important step in developing ‘climate smart’ maize varieties is to identify germplasm with good levels of tolerance to the abiotic stresses. The primary objective of this study was to identify landraces with combined high yield potential and desirable secondary traits under drought, heat and combined drought and heat stresses. Thirty-three landraces from Burkina Faso (6), Ghana (6) and Togo (21), and three drought-tolerant populations/varieties from the Maize Improvement Program at the International Institute of Tropical Agriculture were evaluated under three conditions, namely managed drought stress, heat stress and combined drought and heat stress, with optimal growing conditions as control, for two years. The phenotypic and genetic correlations between grain yield of the different treatments were very weak, suggesting the presence of independent genetic control of yield to these stresses. However, grain yield under heat and combined drought and heat stresses were highly and positively correlated, indicating that heat-tolerant genotypes would most likely tolerate combined drought and stress. Yield reduction averaged 46% under managed drought stress, 55% under heat stress, and 66% under combined drought and heat stress, which reflected hypo-additive effect of drought and heat stress on grain yield of the maize accessions. Accession GH-3505 was highly tolerant to drought, while GH-4859 and TZm-1353 were tolerant to the three stresses. These landrace accessions can be invaluable sources of genes/alleles for breeding for adaptation of maize to climate change.

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INDUCED POLYGENIC VARIATIONS IN RELATION TO GENE ACTION FOR YIELD AND YIELD COMPONENTS IN SPRING WHEAT

Canadian Journal of Genetics and Cytology ◽

10.1139/g76-027 ◽

1976 ◽

Vol 18 (2) ◽

pp. 217-223 ◽

Cited By ~ 1

Author(s):

R. B. Singh ◽

G. S. Sharma

Keyword(s):

Grain Yield ◽

Spring Wheat ◽

Gene Action ◽

Grain Weight ◽

Wheat Cultivars ◽

Additive Gene Action ◽

Breeding Populations ◽

Additive Component ◽

Additive Gene ◽

1000 Grain Weight

Gene action in relation to yield per plant, 1000-grain weight and number of grains per spike was studied in 9 × 9 diallel F1 and F2 populations derived separately from nine elite diverse normal and EMS treated spring wheat cultivars (Triticum aestivum L.em Thell.). Some additive and all dominance components were significant for the three characters, their relative proportions varied from character to character. Preponderance of additive gene action was revealed for 1000-grain weight, whereas prevalence of nonadditive gene action was noted for grain yield and number of grains per spike. The magnitude of the additive component increased considerably in EMS treated F2 populations for 1000-grain weight and grain yield, whereas the EMS treatment increased the proportion of nonadditive components for number of grains per spike. Breeding plans which may effectively exploit both additive and nonadditive components of variances for evolving superior breeding populations of spring wheat have been suggested.

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Combining ability analysis for yield and yield contributing traits in maize (Zea mays L.)

Bangladesh Journal of Agricultural Research ◽

10.3329/bjar.v44i2.41816 ◽

2019 ◽

Vol 44 (2) ◽

pp. 253-259

Author(s):

HZ Raihan ◽

S Sultana ◽

M Hoque

Keyword(s):

Grain Yield ◽

Plant Height ◽

Combining Ability ◽

Gene Action ◽

Diallel Cross ◽

Grain Weight ◽

Thousand Grain Weight ◽

Additive Gene Action ◽

Additive Gene ◽

1000 Grain Weight

An experiment on combining ability was carried out with 21 crosses produced from 7×7 diallel cross without reciprocal for grain yield and yield contributing characters in maize. Analysis of variance for combining ability showed that mean square (MS) due to GCA & SCA were highly significant for all characters except GCA in plant height, cob length and 1000 grain weight and SCA in maturity and row/cob indicated that all but mentioned traits were governed by both additive and non-additive gene action. Variances due to GCA were higher for all characters except thousand grain weight revealed that the predominance of additive gene action for all characters except thousand grain weight. Parent CML 487 and Ki 21 were the best general combiner for yield and most of the yield contributing characters. Parent BMZ 57 & BMZ 15 were the best general combiner for dwarf & earliness in plant. Among all the crosses CML 473 × Ki 21, CML 487 × Ki 21 and CML 429 × BIL 182 exhibited significant positive SCA effect for grain yield. The cross CML 429 × BIL 182 may be considered as the best cross with recorded significant mean value and desired SCA for traits like 1000 grain weight, yield (t/ha), days to 50% pollen shedding, days to 50% silking, plant height, ear height and days to maturity. The promising single crosses with significant and positive SCA could be used for variety development after verifying them across locations. Bangladesh J. Agril. Res. 44(2): 253-259, June 2019

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Gene Action, Heterotic Patterns, and Inter-Trait Relationships of Early Maturing Pro-Vitamin a Maize Inbred Lines and Performance of Testcrosses Under Contrasting Environments

Agronomy ◽

10.3390/agronomy11071371 ◽

2021 ◽

Vol 11 (7) ◽

pp. 1371

Author(s):

Baffour Badu-Apraku ◽

Oluwafemi Obisesan ◽

Oluwafemi B. Olumide ◽

Johnson Toyinbo

Keyword(s):

Vitamin A ◽

Food Insecurity ◽

Grain Yield ◽

Gene Action ◽

Inbred Lines ◽

Sub Saharan Africa ◽

Optimal Management ◽

Heterotic Groups ◽

Maize Varieties ◽

Additive Gene

Vitamin A deficiency is the leading cause of night blindness, total blindness, maternal and childhood mortality in developing countries. Drought, low soil nitrogen and Striga hermonthica parasitism are major constraints to maize production in sub-Saharan Africa (SSA). Thus, the development of multiple stress tolerant maize varieties with elevated levels of PVA is an economically feasible approach to simultaneously tackle malnutrition and food insecurity in SSA. The objectives of this study were to determine the gene action modulating the inheritance of grain yield and other traits, group the inbred lines, investigate inter-trait relationships among grain yield and other traits and assess the performance and stability of single-cross hybrids derived from a set of inbred lines under stress and non-stress environments. One hundred and ninety diallel crosses plus six hybrid checks were evaluated under managed drought at Ikenne during the 2016/17 and 2017/18 dry seasons, low soil N conditions at Mokwa and Ile-Ife, Striga infestation at Abuja and Mokwa, and optimal management conditions at Ikenne, Kadawa, Abuja, Bagauda and Mokwa during the 2016 and 2017 growing seasons. Both additive and non-additive gene actions were prominent in the inheritance of grain yield and other measured traits under stress and optimal management conditions. However, additive gene action was preponderant over the non-additive. The PVA inbreds were classified into three heterotic groups with TZEI 25 and TZEIOR 164 identified as inbred testers for heterotic groups 2 and 3, respectively. Plant and ear heights, ears per plant, plant and ear aspects were identified as reliable secondary traits for genetic enhancement of grain yield under both stress and non-stress conditions. Hybrids TZEIOR 4 x TZEIOR 158 and TZEIOR 119 × TZEIOR 158 were outstanding in performance and should be tested extensively for possible commercialization to combat malnutrition and food insecurity in SSA.

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Evaluating Adaptability and Genetic Variability of Improved Maize Varieties

International Journal for Research in Applied Sciences and Biotechnology ◽

10.31033/ijrasb.8.5.13 ◽

2021 ◽

Vol 8 (5) ◽

Author(s):

Abenezer Abebe ◽

Zelalem Tafa ◽

Worknesh Terefe

Keyword(s):

Grain Yield ◽

Gene Action ◽

Female Flower ◽

Genetic Advance ◽

Additive Gene Action ◽

Maize Varieties ◽

Significant Difference ◽

Maize Variety ◽

Additive Gene ◽

High Heritability

Maize is one of the most important cereals broadly adapted worldwide. Though, a number of improved maize varieties have been released, each micro-environment has not been touched that is why the study carried out. The experiment was conducted using seven maize varieties in RCB design with three replications. The analysis of variance signifies the presence of significant difference (p<0.05) among the seven maize varieties evaluated. High value of genetic (GCV) and phenotypic coefficient of variation (PCV) for grain yield (25.1 and 37.8%) were estimated and this infers less influence of environment. Additionally, moderately high heritability (44.2%) and high genetic advance in percent mean (34.4%) were estimated for grain yield which indicate the trait governed by additive gene action and could be improved via selection based on phenotypic performance. However, traits (male and female flower) with high heritability and moderate genetic advance in percent mean inherited mostly by non-additive gene action and heterosis breeding could be useful. Regarding agronomic performance, Hora maize variety provided highest grain yield (5.0 t/ha) followed by Kuleni (4.1 t/ha), Melkasa 2 (4.0 t/ha) and check (4.0 t/ha). Hora, Melkasa 2, Melkasa 4 and check flowered earlier as compared to the other and could be used as parent for generating early flowering varieties. In summary, Hora maize variety was better performing both statistically and in eyes of farmers and need seed multiplication and distribution to farming community. Moreover, the variability observed among the maize varieties could be utilizing in future breeding activities.

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Combining ability analysis for grain yield and its attributes in Rice (Oryza sativa L.)

SAARC Journal of Agriculture ◽

10.3329/sja.v12i1.21107 ◽

2014 ◽

Vol 12 (1) ◽

pp. 1-8

Author(s):

BP Mallikarjuna ◽

N Shivakumar ◽

J Devendrappa ◽

VD Sheela ◽

G Bharamappa ◽

...

Keyword(s):

Oryza Sativa ◽

Grain Yield ◽

Combining Ability ◽

Gene Action ◽

Oryza Sativa L ◽

Breeding Strategy ◽

Rice Breeding ◽

Additive Gene Action ◽

Combining Ability Analysis ◽

Additive Gene

Combining ability on grain yield and its components from line × tester analysis of thirty rice hybrids (Oryza sativa L.) produced by crossing three newly developed CMS lines and ten testers of local origin were studied. The analysis revealed higher SCA variance than GCA variance for all the characters except plant height indicating the prevalence of non-additive gene action. The line KCMS 45A and testers MSN 36 and KMR 3 were the good general combiners for yield and its major contributing characters. MSN 99 was the only good general combiner among the male parents for earliness and dwarfness. The hybrids KCMS 46A × MSN 75, KCMS 44A × KMR 4 and KCMS 45A × KMR 3 were identified as potential hybrids for yield contributing characters based on SCA effects which could be exploited in future rice breeding programme by adopting heterosis breeding strategy. The contribution of testers towards the total variance was found higher than lines and line x tester interaction suggesting predominant of testers influence for these characters. DOI: http://dx.doi.org/10.3329/sja.v12i1.21107 SAARC J. Agri., 12(1): 1-8 (2014)

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Exploitation of combining ability and heterosis for development of maize hybrids for tarai region of Uttarakhand

Journal of Applied and Natural Science ◽

10.31018/jans.v8i3.1002 ◽

2016 ◽

Vol 8 (3) ◽

pp. 1570-1575

Author(s):

Manjeet Kumar ◽

S. S. Verma ◽

Meenakshi Uniyal ◽

Anupam Barh ◽

N.K. Singh

Keyword(s):

Grain Yield ◽

Gene Action ◽

Kernel Weight ◽

Additive Gene Action ◽

Maize Hybrids ◽

Additive Gene ◽

Standard Heterosis ◽

Per Se ◽

Level Of Significance ◽

Heterosis Breeding

The present investigation was carried out with fifty six genotypes involving 10 parents, their 45 F1s hybrids and one check hybrid in tarai region of Uttarakhand. The presence of more amount of variance due to SCA effects than GCA effects in our experimental material indicated that heterosis breeding is better choice. The good general combiners were P1, P3 and P4 for ear length; P8 for ear diameter; P5 and P8 for number of kernel rows per ear; P1 and P4 for number of kernels per row, P8 and P9 for100-kernel weight and P5 for grain yield, which can be utilized directly or indirectly in breeding programme. The best eight specific combiners for grain yield were P1xP8, P4xP10, P7xP8, P5xP8, P5xP9, P4xP9, P1xP2 and P5xP10 involving average x average, good x average, good x poor and average x poor parental combinations of generalcombining ability indicating the presence of non-additive gene action. The nine crosses, P1xP2, P1 xP5, P1xP8, P4xP9, P4xP10, P5 xP8, P5xP9, P5xP10 and P7xP8 had positive significant per cent heterosis for grain yield, and crosses namely P1xP4, P1xP5 and P1xP8 for ear length; P1xP3 and P1xP5 for number of kernels per row and P1xP8 and P9x P10 for 100-kernel weight were having positive significant per cent heterosis at 1% and/or 5% level of significance for respective traits. The crosses, P1xP2, P1xP8, P4xP9 andP7xP8 manifested high SCA effects along with excellent standard heterosis and per se performance for grain yield and also for most of the studied characters, therefore, classified as potential hybrids.

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COMBING ABILITY OF CMS AND RESTORERS IN RICE (O. sativa L.)

Bangladesh Journal of Plant Breeding and Genetics ◽

10.3329/bjpbg.v20i1.17013 ◽

2013 ◽

Vol 20 (1) ◽

pp. 13-18

Author(s):

P. S. Biswas ◽

A. W. Julfiquar ◽

M. Wazuddin

Keyword(s):

Grain Yield ◽

Combining Ability ◽

Gene Action ◽

Specific Combining Ability ◽

Physiological Traits ◽

Gene Interactions ◽

Additive Gene Action ◽

Additive Gene

General and specific combining ability effects were estimated from a 5 line × 8 tester crosses to explore the genetic behavior of CMS and restorers in rice. The variance for GCA and SCA showed predominance of non-additive gene action for all the ten morpho-physiological traits. The estimates of GCA effects revealed that none of the parent was general combiner for all the traits in desired direction. Gan46A and BR827R were good general combiners for higher grain yield coupled with earliness, and IR46R and BR168R was good general combiner for grain yield and lateness in maturity. Good x poor general combiners (Gan46A × Gui99R) for grain yield produced the best specific cross for higher grain yield coupled with earliness, longer panicle, panicles/plant, filled grains/panicle and less sterility (%). Additive × additive, additive × dominance and dominance × dominance gene interactions were involved in deriving good specific cross for grain yield.DOI: http://dx.doi.org/10.3329/bjpbg.v20i1.17013

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Combining ability and testcross performance of low N tolerant intermediate maize inbred lines under low soil nitrogen and optimal environments

The Journal of Agricultural Science ◽

10.1017/s0021859620000702 ◽

2020 ◽

Vol 158 (5) ◽

pp. 351-370

Author(s):

P.F. Ribeiro ◽

B. Badu Apraku ◽

V. Gracen ◽

E.Y. Danquah ◽

C. Afriyie-Debrah ◽

...

Keyword(s):

Grain Yield ◽

Soil Nitrogen ◽

Combining Ability ◽

Gene Action ◽

Genetic Correlations ◽

High Yield ◽

Additive Gene Action ◽

Maize Production ◽

Additive Gene ◽

On Farm

AbstractLow soil nitrogen (low N) threatens maize production in sub-Sahara Africa (SSA). We examined the mode of gene action conditioning grain yield of intermediate maturing inbreds and evaluated lines in hybrid combinations for high yield, stability and tolerance to low N. Thirty-two sets of inbreds were crossed to three elite testers (87036, 1368 and 9071) to generate 96 F1 hybrids. The testcrosses plus four hybrid checks were evaluated under low (30 kg/ha) and high (90 kg/ha) N environments at three locations for 2 years in Ghana. Significant general combining ability (GCA) and specific combining ability (SCA) effects were detected for grain yield and most measured traits across test environments, indicating that both additive and non-additive gene action governed the inheritance of the traits. GCA effects were greater than SCA effects, indicating that most traits were controlled predominantly by additive gene action and that inbreds with positive significant GCA effects for grain yield and other traits would contribute favourable alleles to progenies across environments. Hybrid CZL 0001 × 9071 possessed high GY, increased EPP, desirable EHT and PLHT and was the highest yielding under each of two research conditions. Significant genetic correlations were observed between GY and PLHT, EPP, EHT, CA and PA implying that improvement of these traits would lead to significant gains in grain yield under low-N conditions. Hybrids CLWN 247 × 9071, ZM523B-29-2-1-1-B*6 × 9071, TZD II 68 × 1368 and P43SCRq Fs100-1-1-8 × 9071 were high-yielding, stable and low-N tolerant and should be tested on-farm and commercialized.

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Response of wheat to post-anthesis water stress, and the nature of gene action as revealed by combining ability analysis

Crop and Pasture Science ◽

10.1071/cp17112 ◽

2017 ◽

Vol 68 (6) ◽

pp. 534 ◽

Cited By ~ 3

Author(s):

Md Sultan Mia ◽

Hui Liu ◽

Xingyi Wang ◽

Zhanyuan Lu ◽

Guijun Yan

Keyword(s):

Water Stress ◽

Grain Yield ◽

Combining Ability ◽

Gene Action ◽

Relative Reduction ◽

Stressed Condition ◽

Additive Gene Action ◽

Narrow Sense Heritability ◽

Combining Ability Analysis ◽

Additive Gene

Post-anthesis water stress is a major limitation to wheat grain yield globally. Understanding the nature of gene action of yield related traits under post-anthesis water stress will help to breed stress-resilient genotypes. Four bread wheat genotypes having varying degree of drought tolerance were crossed in a full-diallel fashion and the resultant crosses along with the parental genotypes, were subjected to water stress after the onset of anthesis in order to investigate their comparative performance and nature of gene action. Parental genotypes Babax (B) and Westonia (W) performed better compared with C306 (C) and Dharwar Dry (D) with respect to relative reduction in grain yield and related traits under stressed condition. Direct cross B × D and reciprocal cross W × C were more tolerant to water stress, while cross between C306 and Dharwar Dry, either direct or reciprocal, produced more sensitive genotypes. Combining ability analysis revealed that both additive and non-additive gene action were involved in governing the inheritance of the studied traits, with predominance of non-additive gene action for most of the traits. Among the parents, Babax and Westonia were better combiners for grain yield under stress condition. B × D in stressed condition, and C × W in both stressed and stress-free conditions, were the most suitable specific crosses. Moreover, specificity of parental genotypes as female parents in cross combination was also evident from the significant reciprocal combining ability effects of certain traits. Low to medium narrow sense heritability and high broad sense heritability were observed for most of the studied traits in both well watered and water stress conditions. The results of the study suggested that specific cross combinations with high specific combining ability involving better performing parents with high general combining ability may generate hybrids as well as segregating populations suitable for further breeding programs.

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