Your search keyword '"Magorokosho C"' showing total 31 results

1. Correction to: High-throughput method for ear phenotyping and kernel weight estimation in maize using ear digital imaging

Author

Makanza, R, Zaman-Allah, M, Cairns, JE, Eyre, J, Burgueño, J, Pacheco, Ángela, Diepenbrock, C, Magorokosho, C, Tarekegne, A, Olsen, M, and Prasanna, BM

Subjects

Biochemistry and Cell Biology, Plant Biology, Agricultural Biotechnology, Plant Biology & Botany

Abstract

[This corrects the article DOI: 10.1186/s13007-018-0317-4.].

Published

2019

2. High-throughput method for ear phenotyping and kernel weight estimation in maize using ear digital imaging

Author

Makanza, R, Zaman-Allah, M, Cairns, JE, Eyre, J, Burgueño, J, Pacheco, Ángela, Diepenbrock, C, Magorokosho, C, Tarekegne, A, Olsen, M, and Prasanna, BM

Subjects

Maize, Ear, Kernel, Phenotyping, Image analysis, Biochemistry and Cell Biology, Plant Biology, Agricultural Biotechnology, Plant Biology & Botany

Abstract

BackgroundGrain yield, ear and kernel attributes can assist to understand the performance of maize plant under different environmental conditions and can be used in the variety development process to address farmer's preferences. These parameters are however still laborious and expensive to measure.ResultsA low-cost ear digital imaging method was developed that provides estimates of ear and kernel attributes i.e., ear number and size, kernel number and size as well as kernel weight from photos of ears harvested from field trial plots. The image processing method uses a script that runs in a batch mode on ImageJ; an open source software. Kernel weight was estimated using the total kernel number derived from the number of kernels visible on the image and the average kernel size. Data showed a good agreement in terms of accuracy and precision between ground truth measurements and data generated through image processing. Broad-sense heritability of the estimated parameters was in the range or higher than that for measured grain weight. Limitation of the method for kernel weight estimation is discussed.ConclusionThe method developed in this work provides an opportunity to significantly reduce the cost of selection in the breeding process, especially for resource constrained crop improvement programs and can be used to learn more about the genetic bases of grain yield determinants.

Published

2018

3. Yield gains and associated changes in an early yellow bi-parental maize population following genomic selection for Striga resistance and drought tolerance

Author

Badu-Apraku, B., Talabi, A. O., Fakorede, M. A. B., Fasanmade, Y., Gedil, M., Magorokosho, C., and Asiedu, R.

Published

2019

4. Progress in stacking aflatoxin and fumonisin contamination resistance genes in maize hybrids

Author

Chiuraise, N., Derera, J., Yobo, K. S., Magorokosho, C., Nunkumar, A., and Qwabe, N. F. P.

Published

2016

5. Breeding of acid soil tolerant maize genotypes for Angola

Author

Nginamau, Dibanzilua, Labuschagne, M. T., Magorokosho, C., Kamutando, C. N., Van Biljon, A., Nginamau, Dibanzilua, Labuschagne, M. T., Magorokosho, C., Kamutando, C. N., and Van Biljon, A.

Abstract

Breeding efforts to develop high yielding and stable maize cultivars tolerant to soil acidity is still lacking in Angola, where the main maize production environments are characterized by acid soils. Furthermore, Angola is faced with two distinct human populations, with one favouring white kernel maize while the other prefers yellow maize, making it key to develop separate breeding programmes for these two distinct groups of people. The aim of this study was to select CIMMYT inbred lines (white and yellow kernel) adapted to the mid-altitude climatic conditions (for example from CIMMYT-Zimbabwe) and those developed for acid soil tolerance (for example from CIMMYT-Colombia), that can potentially be used in breeding programmes for acid soil tolerance in Angola. The specific objectives were to: i) assess the combining ability for grain yield performance and grain yield stability of corresponding hybrids of CIMMYT-Zimbabwe yellow elite inbred lines with CIMMYT-Colombia acid tolerance yellow donor lines under acid and non-acid soil conditions; ii) assess the combining ability for grain yield performance and grain yield stability of corresponding hybrids of the CIMMYT-Zimbabwe white elite inbred lines with CIMMYT-Colombia acid tolerance white donor lines; and, iii) to assess the per se grain yield performance of CIMMYT-Zimbabwe elite white and yellow lines and CIMMYT-Colombia acid tolerant donor lines. To achieve this, ten yellow kernel and eight white kernel elite inbred lines adapted to the mid-altitude climatic conditions, as well as four yellow and eight white kernel acid tolerance donors, were sourced from the CIMMYT-Zimbabwe and CIMMYT-Colombia breeding programmes, respectively. Two separate line x tester crossing nurseries for the white and the yellow kernel lines were established at the CIMMYT-Muzarabani station during the 2014 winter season, and these yielded 47 and 36 crosses with sufficient seed, respectively. The white and yellow kernel crosses (F1s) were separ

Published

2020

6. Unmanned aerial platform-based multi-spectral imaging for field phenotyping of maize

Author

Zaman-Allah, M, Vergara, O, Araus, JL, Tarekegne, A, Magorokosho, C, Zarco-Tejada, PJ, Hornero, A, Hernandez Alba, A, Das, B, Craufurd, P, Olsen, M, Prasanna, BM, Cairns, J, Zaman-Allah, M, Vergara, O, Araus, JL, Tarekegne, A, Magorokosho, C, Zarco-Tejada, PJ, Hornero, A, Hernandez Alba, A, Das, B, Craufurd, P, Olsen, M, Prasanna, BM, and Cairns, J

Abstract

BACKGROUND: Recent developments in unmanned aerial platforms (UAP) have provided research opportunities in assessing land allocation and crop physiological traits, including response to abiotic and biotic stresses. UAP-based remote sensing can be used to rapidly and cost-effectively phenotype large numbers of plots and field trials in a dynamic way using time series. This is anticipated to have tremendous implications for progress in crop genetic improvement. RESULTS: We present the use of a UAP equipped with sensors for multispectral imaging in spatial field variability assessment and phenotyping for low-nitrogen (low-N) stress tolerance in maize. Multispectral aerial images were used to (1) characterize experimental fields for spatial soil-nitrogen variability and (2) derive indices for crop performance under low-N stress. Overall, results showed that the aerial platform enables to effectively characterize spatial field variation and assess crop performance under low-N stress. The Normalized Difference Vegetation Index (NDVI) data derived from spectral imaging presented a strong correlation with ground-measured NDVI, crop senescence index and grain yield. CONCLUSION: This work suggests that the aerial sensing platform designed for phenotyping studies has the potential to effectively assist in crop genetic improvement against abiotic stresses like low-N provided that sensors have enough resolution for plot level data collection. Limitations and future potential uses are also discussed.

Published

2015

7. Mycotoxigenic fungi associated with ear-rots in Zimbabwe: identification and inheritance of resistance in southern and West African maize inbred lines

Author

Tembo, Elliot, Labuschagne, M. T., Marais, G., Minnaar-Ontong, A., Menkir, A., Magorokosho, C., Tembo, Elliot, Labuschagne, M. T., Marais, G., Minnaar-Ontong, A., Menkir, A., and Magorokosho, C.

Abstract

English: Fumonisin, a mycotoxin produced by Fusarium verticillioides, is an intrinsic constraint in maize (Zea mays L.) that has received a low level of attention in Zimbabwe, despite existence of laws nationally and globally setting acceptable limits. Breeding for resistance to the causal fungus is important for the poor farmers that depend on this crop. A survey was conducted that highlighted the presence of F. verticillioides in 23 national storage facilities in the major maize growing areas of Zimbabwe. The morphological analysis identified 33 fungi in storage with F. verticillioides having the highest incidence among field fungi while Eurotium repens was the highest in storage. Aspergillus flavus was observed at significant levels in Bindura in the maize delivered in the previous year. The Fusarium species identified were confirmed by gene sequencing that clustered the derived isolates among the F. verticillioides sequences in the databases. Such high incidences motivated the study of inheritance of resistance where 12 mid-altitude lines from the Seed Co southern African breeding programme and 12 from IITA central and West Africa were mated in a NCDII. The lines had variable levels of resistance to the causal fungi and aflatoxins. F1 hybrids SC 2/IITA 7, SC 3/IITA 1, SC 3/IITA 10, SC 5/IITA 10 and SC 10/IITA 2 had the lowest F. verticillioides ear rot incidences per se and the lowest fumonisin contamination. Within the best yielding hybrids, tester line IITA 4 contributed most in terms of grain yield as it appeared more frequently in the best hybrids. In the parent trial planted alongside the F1 hybrid trials, tester IITA 4 had the highest yield besides also being one of the four lines classified as resistant to aflatoxins. The GCA effects for grain yield, days to mid pollen, days to mid silk and anthesis to silking interval were significant across all sites. Both GCA and SCA were significant for F. verticillioides ear rots and fumonisins contamination, it ther, Afrikaans: Fumonisien, ‘n mikotoksien wat deur Fusarium verticillioides geproduseer word, is ‘n intrinsieke beperking in die mieliebedryf, wat ‘n baie lae vlak van aandag in Zimbabwe geniet, ten spyte van die bestaande nasionale en internasionale wette wat aanvaarbare limiete stel. Teling van weerstand teen die mikotoksien produserende fungi is belangrik vir die arm boere wat afhanklik is van die gewas. ‘n Opname is gedoen wat die teenwoordigheid van F. verticillioides in 23 nasionale storingsfasiliteite in die hoof mielieproduserende streke van Zimbabwe getoon het. Die morfologiese analise het 33 fungi in storing getoon met die hoogste insidensie van F. verticillioides in die veld, en Eurotium repens was die hoogste in storing. Aspergillus flavus is gesien in betekenisvolle vlakke in Bindura in die mielies gelewer in die vorige jaar. Die Fusarium spesies wat geïdentifiseer is, is bevestig met geenvolgordebepaling wat die afgeleide isolate vanaf F. verticillioides gegroepeer het volgens volgordes in die databasisse. Hierdie hoë insidensies het die studie op die oorerwing van weerstand gemotiveer, waar 12 mid-hoogte lyne van die Seed Co suidelike Afrika teelprogramme en 12 van IITA sentrale en Wes Afrika programme gekruis is in ‘n NCDII. Die lyne het variënde vlakke van weerstand teen die veroorsakende fungi en aflatoksiene getoon. F1 basters SC 2/IITA 7, SC 3/IITA 1, SC 3/IITA 10, SC 5/IITA 10 en SC 10/IITA 2 het die laagste F. verticillioides kopvrot insidensie per se en die laagste fumonisien kontaminasie getoon. In die basters met die hoogste opbrengs, het toetser lyn IITA 4 die meeste bygedra in terme van graanopbrengs omdat dit die mees algemene ouer in die beste basters was. In die ouerproewe wat langs die F1 bastersproewe geplant is, het toetser IITA 4 die hoogste opbrengs getoon en dit is ook geïndentifiseer as een van die vier lyne met weerstand teen aflatoksiene. Die GCA effekte vir graanopbrengs, dae tot mid stuifmeel, dae tot mid baard en antese tot baar, Seed Co

Published

2015

8. Progress in stacking aflatoxin and fumonisin contamination resistance genes in maize hybrids

Author

Chiuraise, N., primary, Derera, J., additional, Yobo, K. S., additional, Magorokosho, C., additional, Nunkumar, A., additional, and Qwabe, N. F. P., additional

Published

2015

9. Unmanned aerial platform-based multi-spectral imaging for field phenotyping of maize

Author

Zaman-Allah, M, primary, Vergara, O, additional, Araus, J L, additional, Tarekegne, A, additional, Magorokosho, C, additional, Zarco-Tejada, P J, additional, Hornero, A, additional, Albà, A Hernández, additional, Das, B, additional, Craufurd, P, additional, Olsen, M, additional, Prasanna, B M, additional, and Cairns, J, additional

Published

2015

10. Low-N stress tolerant maize hybrids have higher fertilizer N recovery efficiency and reduced N-dilution in the grain compared to susceptible hybrids under low N conditions

Author

Chisaka Arisede, Zaman-Allah Mainassara, Cairns Jill, Tarekegne Amsal, Magorokosho Cosmos, Das Bish, Masuka Benhildah, Olsen Mike, and Prasanna B. Maruthi

Subjects

maize, nue, nitrogen, fertilizer recovery, grain protein, Plant culture, SB1-1110

Abstract

Developing high yielding maize (Zea mays L.) varieties that have relatively high grain protein content under low nitrogen stress is critical to ensure food and nutrition security in sub-Saharan Africa. This study evaluated the efficiency for fertilizer N recovery, grain yield and grain protein content of 10 maize hybrids selected for their contrasting yield performance under low-N stress conditions in the field. The hybrids were grown under 6 N rates (0-10-20-40-80 and 160 kg Ammonium Nitrate ha−1) at 2 sites that differ for residual soil nitrogen (N-NO3). Fertilizer N recovery, estimated using the difference method, decreased with increasing N rates or residual soil N and was significantly higher for the low-N tolerant (LNT) hybrids than low-N sensitive (LNS) hybrids, especially at low N rates. Although there was yield increase with increased N rate, the yield of tolerant hybrids responded more strongly than that of sensitive ones. Under low residual soil N, higher grain yield was associated with lower grain protein content in both low-N tolerant and susceptible hybrids but tolerant ones exhibited a significantly lower decrease in grain protein content compared to susceptible hybrids. In addition, LNT hybrids were able to maintain relatively higher grain protein content at high yield level under depleted soil N conditions as well as under high N level. We concluded that LNT hybrids could contribute to optimizing the use of small N fertilizer rates by resource-poor smallholder farmers to increase the nutritional value and profitability of producing maize.

Published

2020

11. Improvement strategies for yield potential, disease resistance and drought tolerance of Zimbabwean maize inbred lines

Author

Ndhlela, Thokozile, Labuschagne, M. T., Herselman, L., Magorokosho, C., Ndhlela, Thokozile, Labuschagne, M. T., Herselman, L., and Magorokosho, C.

Abstract

English: Breeding for drought and low N tolerant genotypes in Zimbabwe is an important intervention that will see the country curbing the food in-security problem. Both CIMMYT and DR&SS maize germplasm was used in this study that was conducted in Zimbabwe in the 2009/10 and 2010/11 seasons. Evaluations were done under optimum, drought and low N conditions. One of the objectives was to estimate combining ability and heterosis for grain yield and other agronomic traits of white maize inbred lines under stress and optimal environments. Line x tester analysis of 23 inbred lines identified RS61P, NAW5885 (from DR&SS) and CML444, CML539, CML442, CML537 and CML548 (from CIMMYT) as having desirable GCA effects under both drought and low N conditions. Additive and nonadditive gene effects were important in the expression of traits across all environments; however non-additive gene effect assumed a more important role in the expression of traits under stress environments. The single crosses RS61P/CML444 and 2N3d/CML548 were identified as potential testers for the SC and N3 heterotic groups respectively. In the analyses of G x E and stability using AMMI and GGE biplot the same single crosses were identified as the most stable. There were three mega environments identified within the test environments and Agricultural Research Trust farm site was the most powerful in discriminating genotypes. Genetic diversity amongst the 23 inbred lines was examined using 14 morphological traits and 1 129 SNP markers. The morphological data revealed variability amongst inbred lines that could be manipulated through selection and hybridisation. Variability was further substantiated using PCA where the overall diversity could not be explained by a few eigenvectors and the major contributors were grain yield, texture, ear aspect, common rust, GLS and anthesis days. Euclidean and Rogers’ dissimilarity matrices based on morphological and SNP data respectively clustered lines related by pedigree tog, Afrikaans: Die ontwikkeling van genotipes vir Zimbabwe wat droogte en lae N tolerant is kan ‘n belangrike bydrae maak om die probleem van voedselsekuriteit aan te spreek. Beide CIMMYT en DR&SS mieliekiemplasma is in hierdie studie gebruik wat uitgevoer is in Zimbabwe in die 2009/10 en 2010/11 seisoene. Die proewe is uitgevoer onder optimum, droogte en lae N toestande. Een van die belangrikste doelwitte was om kombineervermoë en heterose vir graanopbrengs en ander agronomiese eienskappe van wit mielie ingeteelde lyne onder stremmings en optimale toestande te bepaal. Lyn x toetser analise van 23 ingeteelde lyne het RS61P, NAW5885 (van DR&SS) en CML444, CML539, CML442, CML537 en CML548 (van CIMMYT) geïdentifiseer as lyne met die beste GCA effekte onder beide droogte en lae N toestande. Beide additiewe en nie-additiewe geeneffekte was belangrik by die uitdrukking van eienskappe oor alle omgewings; maar nie-additiewe geeneffekte was meer belangrik by die uitdrukking van eienskappe onder stremmingstoestande. Die enkelkruise RS61P/CML444 en 2N3d/CML548 is geïdentifiseer as potensiële toetsers vir die SC en N3 heterotiese groepe onderskeidelik. In die analise van G x E en stabiliteit met die gebruik van AMMI en GGE biplotte is dieselfde enkelkruise as die mees stabiel geïdentifiseer. Daar was drie mega-omgewings binne die toetsomgewings en die “Agricultural Research Trust” plaas omgewing was die mees effektief om te onderskei tusssen genotipes. Genetiese diversiteit tussen die 23 ingeteelde lyne is ondersoek met die gebruik van 14 morfologiese eienskappe en 1 129 SNP merkers. Die morfologiese data data het variasie tussen ingeteelde lyne gewys wat gemanipuleer kan word deur seleksie en hibridisasie. Variasie is verder bevestig met die gebruik van PCA waar totale variasie nie verklaar kon word deur enkele eigenvektore nie, en waar die meeste variasie verklaar is deur graanopbrengs, tekstuur, kopaspek, gewone roes, GLS en dae tot antese. Euklidiese en Rogers se matrikse van v, CIMMYT

Published

2012

12. Unmanned aerial platform-based multi.spectral imaging for field phenotyping of maize.

Author

Zaman-Allah, M., Vergara, O., Araus, J. L., Tarekegne, A., Magorokosho, C., Zarco-Tejada, P. J., Hornero, A, Albà, A Hernández, Das, B., Craufurd, P., Olsen, M., Prasanna, B. M., and Cairns, J.

Subjects

CORN genetics, DRONE aircraft, MULTISPECTRAL imaging, CROP physiology, ABIOTIC stress

Abstract

Background: Recent developments in unmanned aerial platforms (UAP) have provided research opportunities in assessing land allocation and crop physiological traits, including response to abiotic and biotic stresses. UAP-based remote sensing can be used to rapidly and cost-effectively phenotype large numbers of plots and field trials in a dynamic way using time series. This is anticipated to have tremendous implications for progress in crop genetic improvement. Results: We present the use of a UAP equipped with sensors for multispectral imaging in spatial field variability assessment and phenotyping for low-nitrogen (low-N) stress tolerance in maize. Multispectral aerial images were used to (1) characterize experimental fields for spatial soil-nitrogen variability and (2) derive indices for crop performance under low-N stress. Overall, results showed that the aerial platform enables to effectively characterize spatial field variation and assess crop performance under low-N stress. The Normalized Difference Vegetation Index (NDVI) data derived from spectral imaging presented a strong correlation with ground-measured NDVI, crop senescence index and grain yield. Conclusion: This work suggests that the aerial sensing platform designed for phenotyping studies has the potential to effectively assist in crop genetic improvement against abiotic stresses like low-N provided that sensors have enough resolution for plot level data collection. Limitations and future potential uses are also discussed. [ABSTRACT FROM AUTHOR]

Published

2015

13. Selection for drought tolerance in two tropical maize populations

Author

Magorokosho, C, primary and Tongoona, P, additional

Published

2004

14. Targeting drought-tolerant maize varieties in Southern Africa: A geospatial crop modeling approach using big data

Author

Kindie Tesfaye, Sonder, K., Cairns, J., Magorokosho, C., Tarekegn, A., Kassie, G. T., Getaneh, F., Abdoulaye, T., Abate, T., and Erenstein, O.

15. Molecular characterization of diverse CIMMYT maize inbred lines from eastern and southern Africa using single nucleotide polymorphic markers

Author

Semagn Kassa, Magorokosho Cosmos, Vivek Bindiganavile S, Makumbi Dan, Beyene Yoseph, Mugo Stephen, Prasanna BM, and Warburton Marilyn L

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Knowledge of germplasm diversity and relationships among elite breeding materials is fundamentally important in crop improvement. We genotyped 450 maize inbred lines developed and/or widely used by CIMMYT breeding programs in both Kenya and Zimbabwe using 1065 SNP markers to (i) investigate population structure and patterns of relationship of the germplasm for better exploitation in breeding programs; (ii) assess the usefulness of SNPs for identifying heterotic groups commonly used by CIMMYT breeding programs; and (iii) identify a subset of highly informative SNP markers for routine and low cost genotyping of CIMMYT germplasm in the region using uniplex assays. Results Genetic distance for about 94% of the pairs of lines fell between 0.300 and 0.400. Eighty four percent of the pairs of lines also showed relative kinship values ≤ 0.500. Model-based population structure analysis, principal component analysis, neighbor-joining cluster analysis and discriminant analysis revealed the presence of 3 major groups and generally agree with pedigree information. The SNP markers did not show clear separation of heterotic groups A and B that were established based on combining ability tests through diallel and line x tester analyses. Our results demonstrated large differences among the SNP markers in terms of reproducibility, ease of scoring, polymorphism, minor allele frequency and polymorphic information content. About 40% of the SNPs in the multiplexed chip-based GoldenGate assays were found to be uninformative in this study and we recommend 644 of the 1065 for low to medium density genotyping in tropical maize germplasm using uniplex assays. Conclusions There were high genetic distance and low kinship coefficients among most pairs of lines, clearly indicating the uniqueness of the majority of the inbred lines in these maize breeding programs. The results from this study will be useful to breeders in selecting best parental combinations for new breeding crosses, mapping population development and marker assisted breeding.

Published

2012

16. Genetic trends in the Zimbabwe's national maize breeding program over two decades.

Author

Mukaro R, Chaingeni D, Sneller C, Cairns JE, Musundire L, Prasanna BM, Mavankeni BO, Das B, Mulanya M, Chivasa W, Mhike X, Ndhlela T, Matongera N, Matova PM, Muungani D, Mutimaamba C, Wegary D, Zaman-Allah M, Magorokosho C, Chingwara V, and Kutywayo D

Abstract

Monitoring genetic gains within breeding programs is a critical component for continuous improvement. While several national breeding programs in Africa have assessed genetic gain using era studies, this study is the first to use two decades of historical data to estimate genetic trends within a national breeding program. The objective of this study was to assess genetic trends within the final two stages of Zimbabwe's Department of Research & Specialist Services maize breeding pipeline between 2002 and 2021. Data from 107 intermediate and 162 advanced variety trials, comprising of 716 and 398 entries, respectively, was analyzed. Trials were conducted under optimal, managed drought stress, low nitrogen stress, low pH, random stress, and disease pressure (maize streak virus (MSV), grey leaf spot (GLS), and turcicum leaf blight under artificial inoculation. There were positive and significant genetic gains for grain yield across management conditions (28-35 kg ha -1 yr -1 ), under high-yield potential environments (17-61 kg ha -1 yr -1 ), and under low-yield potential environments (0-16 kg ha -1 yr -1 ). No significant changes were observed in plant and ear height over the study period. Stalk and root lodging, as well as susceptibility to MSV and GLS, significantly decreased over the study period. New breeding technologies need to be incorporated into the program to further increase the rate of genetic gain in the maize breeding programs and to effectively meet future needs., Competing Interests: PM was employed by Mukushi Seeds Pvt Ltd. CM was employed by Tocek Investments Pvt Ltd. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Mukaro, Chaingeni, Sneller, Cairns, Musundire, Prasanna, Mavankeni, Das, Mulanya, Chivasa, Mhike, Ndhlela, Matongera, Matova, Muungani, Mutimaamba, Wegary, Zaman-Allah, Magorokosho, Chingwara and Kutywayo.)

Published

2024

17. Genetic trends in CIMMYT's tropical maize breeding pipelines.

Author

Prasanna BM, Burgueño J, Beyene Y, Makumbi D, Asea G, Woyengo V, Tarekegne A, Magorokosho C, Wegary D, Ndhlela T, Zaman-Allah M, Matova PM, Mwansa K, Mashingaidze K, Fato P, Teklewold A, Vivek BS, Zaidi PH, Vinayan MT, Patne N, Rakshit S, Kumar R, Jat SL, Singh SB, Kuchanur PH, Lohithaswa HC, Singh NK, Koirala KB, Ahmed S, Vicente FS, Dhliwayo T, and Cairns JE

Subjects

Triticum, Droughts, Edible Grain genetics, Zea mays genetics, Plant Breeding

Abstract

Fostering a culture of continuous improvement through regular monitoring of genetic trends in breeding pipelines is essential to improve efficiency and increase accountability. This is the first global study to estimate genetic trends across the International Maize and Wheat Improvement Center (CIMMYT) tropical maize breeding pipelines in eastern and southern Africa (ESA), South Asia, and Latin America over the past decade. Data from a total of 4152 advanced breeding trials and 34,813 entries, conducted at 1331 locations in 28 countries globally, were used for this study. Genetic trends for grain yield reached up to 138 kg ha -1  yr -1 in ESA, 118 kg ha -1  yr -1 South Asia and 143 kg ha -1  yr -1 in Latin America. Genetic trend was, in part, related to the extent of deployment of new breeding tools in each pipeline, strength of an extensive phenotyping network, and funding stability. Over the past decade, CIMMYT's breeding pipelines have significantly evolved, incorporating new tools/technologies to increase selection accuracy and intensity, while reducing cycle time. The first pipeline, Eastern Africa Product Profile 1a (EA-PP1a), to implement marker-assisted forward-breeding for resistance to key diseases, coupled with rapid-cycle genomic selection for drought, recorded a genetic trend of 2.46% per year highlighting the potential for deploying new tools/technologies to increase genetic gain., (© 2022. The Author(s).)

Published

2022

18. Maize varietal replacement in Eastern and Southern Africa: Bottlenecks, drivers and strategies for improvement.

Author

Chivasa W, Worku M, Teklewold A, Setimela P, Gethi J, Magorokosho C, Davis NJ, and Prasanna BM

Abstract

Seed security is vital for food security. Rapid-cycle, climate-adaptive breeding programs and seed systems that deliver new, elite varieties to farmers to replace obsolete ones can greatly improve the productivity of maize-based cropping systems in sub-Saharan Africa (SSA). Despite the importance and benefits of accelerated varietal turnover to climate change adaptation and food security, the rate of maize varietal replacement in SSA is slow. This review outlines the major bottlenecks, drivers, risks, and benefits of active replacement of maize varieties in eastern and southern Africa (ESA) and highlights strategies that are critical to varietal turnover. Although there is an upsurge of new seed companies in ESA and introduction of new varieties with better genetics in the market, some established seed companies continue to sell old (over 15-year-old) varieties. Several recently developed maize hybrids in ESA have shown significant genetic gains under farmers' conditions. Empirical evidence also shows that timely replacement of old products results in better business success as it helps seed companies maintain or improve market share and brand relevance. Therefore, proactive management of product life cycles by seed companies benefits both the farmers and businesses alike, contributing to improved food security and adaptation to the changing climate., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: The authors of this review are employed by CIMMYT, an international public agricultural research organization that receives funding from public and private sources to support its maize and wheat breeding programs. Although the conclusions drawn by the authors of this review may support the interests of their employer as well as the funding agencies, we have striven to maintain objectivity., (© 2021 The Authors.)

Published

2022

19. Beat the stress: breeding for climate resilience in maize for the tropical rainfed environments.

Author

Prasanna BM, Cairns JE, Zaidi PH, Beyene Y, Makumbi D, Gowda M, Magorokosho C, Zaman-Allah M, Olsen M, Das A, Worku M, Gethi J, Vivek BS, Nair SK, Rashid Z, Vinayan MT, Issa AB, San Vicente F, Dhliwayo T, and Zhang X

Subjects

Cold Temperature, Crops, Agricultural genetics, Disease Resistance, Droughts, Floods, Haploidy, Hot Temperature, Phenotype, Stress, Physiological, Tropical Climate, Climate Change, Plant Breeding, Zea mays genetics

Abstract

Key Message: Intensive public sector breeding efforts and public-private partnerships have led to the increase in genetic gains, and deployment of elite climate-resilient maize cultivars for the stress-prone environments in the tropics. Maize (Zea mays L.) plays a critical role in ensuring food and nutritional security, and livelihoods of millions of resource-constrained smallholders. However, maize yields in the tropical rainfed environments are now increasingly vulnerable to various climate-induced stresses, especially drought, heat, waterlogging, salinity, cold, diseases, and insect pests, which often come in combinations to severely impact maize crops. The International Maize and Wheat Improvement Center (CIMMYT), in partnership with several public and private sector institutions, has been intensively engaged over the last four decades in breeding elite tropical maize germplasm with tolerance to key abiotic and biotic stresses, using an extensive managed stress screening network and on-farm testing system. This has led to the successful development and deployment of an array of elite stress-tolerant maize cultivars across sub-Saharan Africa, Asia, and Latin America. Further increasing genetic gains in the tropical maize breeding programs demands judicious integration of doubled haploidy, high-throughput and precise phenotyping, genomics-assisted breeding, breeding data management, and more effective decision support tools. Multi-institutional efforts, especially public-private alliances, are key to ensure that the improved maize varieties effectively reach the climate-vulnerable farming communities in the tropics, including accelerated replacement of old/obsolete varieties.

Published

2021

20. Multinutrient Biofortification of Maize ( Zea mays L.) in Africa: Current Status, Opportunities and Limitations.

Author

Goredema-Matongera N, Ndhlela T, Magorokosho C, Kamutando CN, van Biljon A, and Labuschagne M

Subjects

Africa, Amino Acids, Diet, Food, Fortified, Gene Editing, Humans, Iron metabolism, Malnutrition epidemiology, Micronutrients, Nutritive Value, Plant Proteins, Plants, Genetically Modified, Provitamins, Risk Factors, Vitamin A, Vitamin A Deficiency, Zea mays genetics, Zinc metabolism, Biofortification methods, Zea mays chemistry

Abstract

Macro and micronutrient deficiencies pose serious health challenges globally, with the largest impact in developing regions such as subSaharan Africa (SSA), Latin America and South Asia. Maize is a good source of calories but contains low concentrations of essential nutrients. Major limiting nutrients in maize-based diets are essential amino acids such as lysine and tryptophan, and micronutrients such as vitamin A, zinc (Zn) and iron (Fe). Responding to these challenges, separate maize biofortification programs have been designed worldwide, resulting in several cultivars with high levels of provitamin A, lysine, tryptophan, Zn and Fe being commercialized. This strategy of developing single-nutrient biofortified cultivars does not address the nutrient deficiency challenges in SSA in an integrated manner. Hence, development of maize with multinutritional attributes can be a sustainable and cost-effective strategy for addressing the problem of nutrient deficiencies in SSA. This review provides a synopsis of the health challenges associated with Zn, provitamin A and tryptophan deficiencies and link these to vulnerable societies; a synthesis of past and present intervention measures for addressing nutrient deficiencies in SSA; and a discussion on the possibility of developing maize with multinutritional quality attributes, but also with adaptation to stress conditions in SSA.

Published

2021

21. Fall-armyworm invasion, control practices and resistance breeding in Sub-Saharan Africa.

Author

Matova PM, Kamutando CN, Magorokosho C, Kutywayo D, Gutsa F, and Labuschagne M

Abstract

Fall armyworm [ Spodoptera frugiperda (J.E. Smith); FAW] invasion has exacerbated maize ( Zea mays L.) crop yield losses in sub-Saharan Africa (SSA), already threatened by other stresses, especially those that are climate-change induced. The FAW is difficult to control, manage, or eradicate, because it is polyphagous and trans-boundary, multiplies fast, has a short life cycle and migrates easily, and lacks the diapause growth phase. In this study, FAW and its impact in Africa was reviewed, as well as past and present control strategies for this pest. Pesticides, cultural practices, natural enemies, host-plant resistance, integrated pest management (IPM), and plant breeding approaches were examined as possible control strategies. It was concluded that an IPM control strategy, guided by cultural approaches already being used by farmers, and what can be adopted from the Americas, coupled with an insect-resistance management strategy, is the best option to manage this pest in Africa. These strategies will be strengthened by breeding for multi-trait host-plant resistance through stacking of genes for different modes of control of the pest., Competing Interests: The authors declare no conflict of interest., (© 2020 The Authors. Crop Science published by Wiley Periodicals, Inc. on behalf of Crop Science Society of America.)

Published

2020

22. Line × tester analysis of maize grain yield under acid and non-acid soil conditions.

Author

Mutimaamba C, MacRobert J, Cairns JE, Magorokosho C, Ndhlela T, Mukungurutse C, Minnaar-Ontong A, and Labuschagne M

Abstract

Soil acidity has received less attention than other biophysical stresses such as drought and low N, despite accounting for a considerable reduction in maize ( Zea mays L.) productivity in many parts of southern Africa. The line × tester mating design was used to determine the general combining ability (GCA) for grain yield of 14 maize inbred lines and the specific combining ability (SCA) of their corresponding crosses. Thirty-three single-cross hybrids were evaluated under acid and optimum soils across 11 environments over three seasons. Across environments, mean grain yield reduction ranged from 11 to 37% due to low pH. Additive gene action was more important than nonadditive gene action for grain yield under both soil conditions. Tester GCA effects were larger for grain yield than GCA effects of lines and SCA effects of crosses for both soil conditions. Tester GCA effects were less sensitive to environmental fluctuations than line GCA effects and SCA effects of crosses. Cross combinations with desirable SCA effects for grain yield were associated with high per se grain yield, which suggests that SCA was a good predictor of grain yield in this study. These crosses consisted of good × good and good × poor general combiners, which indicates that GCA was a good predictor of grain yield. Therefore, priority should be given for yield selection in progenies and hybridization of specific crosses with desirable SCA when breeding acid-soil-tolerant maize., (© 2020 The Authors. Crop Science published by Wiley Periodicals, Inc. on behalf of Crop Science Society of America.)

Published

2020

23. Genome-Wide Association Mapping and Genomic Prediction Analyses Reveal the Genetic Architecture of Grain Yield and Flowering Time Under Drought and Heat Stress Conditions in Maize.

Author

Yuan Y, Cairns JE, Babu R, Gowda M, Makumbi D, Magorokosho C, Zhang A, Liu Y, Wang N, Hao Z, San Vicente F, Olsen MS, Prasanna BM, Lu Y, and Zhang X

Abstract

Drought stress (DS) is a major constraint to maize yield production. Heat stress (HS) alone and in combination with DS are likely to become the increasing constraints. Association mapping and genomic prediction (GP) analyses were conducted in a collection of 300 tropical and subtropical maize inbred lines to reveal the genetic architecture of grain yield and flowering time under well-watered (WW), DS, HS, and combined DS and HS conditions. Out of the 381,165 genotyping-by-sequencing SNPs, 1549 SNPs were significantly associated with all the 12 trait-environment combinations, the average PVE (phenotypic variation explained) by these SNPs was 4.33%, and 541 of them had a PVE value greater than 5%. These significant associations were clustered into 446 genomic regions with a window size of 20 Mb per region, and 673 candidate genes containing the significantly associated SNPs were identified. In addition, 33 hotspots were identified for 12 trait-environment combinations and most were located on chromosomes 1 and 8. Compared with single SNP-based association mapping, the haplotype-based associated mapping detected fewer number of significant associations and candidate genes with higher PVE values. All the 688 candidate genes were enriched into 15 gene ontology terms, and 46 candidate genes showed significant differential expression under the WW and DS conditions. Association mapping results identified few overlapped significant markers and candidate genes for the same traits evaluated under different managements, indicating the genetic divergence between the individual stress tolerance and the combined drought and HS tolerance. The GP accuracies obtained from the marker-trait associated SNPs were relatively higher than those obtained from the genome-wide SNPs for most of the target traits. The genetic architecture information of the grain yield and flowering time revealed in this study, and the genomic regions identified for the different trait-environment combinations are useful in accelerating the efforts on rapid development of the stress-tolerant maize germplasm through marker-assisted selection and/or genomic selection.

Published

2019

24. Genetic Analysis of Tropical Midaltitude- Adapted Maize Populations under Stress and Nonstress Conditions.

Author

Makumbi D, Assanga S, Diallo A, Magorokosho C, Asea G, Worku M, and Bänziger M

Abstract

Maize ( Zea mays L.) yield in sub-Saharan Africa (SSA) is low because of both abiotic and biotic constraints, and limited availability or use of improved seed in some areas. This study was conducted (i) to estimate combining ability and heterosis among seven stress-tolerant populations, and (ii) to assess diversity among the populations and the relationship between diversity and heterosis. Twenty-one hybrids developed from diallel crosses of seven populations, parents, and two checks were evaluated in 10 optimal and 11 stressed environments (drought, low N, and random stress) in Kenya, Ethiopia, Uganda, and Zimbabwe for 2 yr. Analysis II of Gardner and Eberhart showed that variety and heterosis were significant for grain yield (GY) under optimal and managed stress, and across environments. Heterosis accounted for most of the variation for GY among populations under optimal conditions (67%) and drought stress (53%), which suggested the importance of dominance in inheritance of GY under these conditions. Genetic distance (GD) among populations ranged from 0.328 to 0.477 (mean = 0.404). The correlation between GD and heterosis was low ( r = 0.14-0.40) in all environments. The simple sequence repeat (SSR) marker-based and GY-based clustering of parental populations showed similar patterns, with three populations distinct from the rest, suggesting significant differentiation of allelic variation in these three populations. The SSR-based diversity and phenotypic analysis results should be useful in defining breeding strategies and maintaining heterotic patterns among these populations., Competing Interests: The authors declare that there is no conflict of interest., (© 2018 Crop Science Society of America.)

Published

2018

25. High-Throughput Phenotyping of Canopy Cover and Senescence in Maize Field Trials Using Aerial Digital Canopy Imaging.

Author

Makanza R, Zaman-Allah M, Cairns JE, Magorokosho C, Tarekegne A, Olsen M, and Prasanna BM

Abstract

In the crop breeding process, the use of data collection methods that allow reliable assessment of crop adaptation traits, faster and cheaper than those currently in use, can significantly improve resource use efficiency by reducing selection cost and can contribute to increased genetic gain through improved selection efficiency. Current methods to estimate crop growth (ground canopy cover) and leaf senescence are essentially manual and/or by visual scoring, and are therefore often subjective, time consuming, and expensive. Aerial sensing technologies offer radically new perspectives for assessing these traits at low cost, faster, and in a more objective manner. We report the use of an unmanned aerial vehicle (UAV) equipped with an RGB camera for crop cover and canopy senescence assessment in maize field trials. Aerial-imaging-derived data showed a moderately high heritability for both traits with a significant genetic correlation with grain yield. In addition, in some cases, the correlation between the visual assessment (prone to subjectivity) of crop senescence and the senescence index, calculated from aerial imaging data, was significant. We concluded that the UAV-based aerial sensing platforms have great potential for monitoring the dynamics of crop canopy characteristics like crop vigor through ground canopy cover and canopy senescence in breeding trial plots. This is anticipated to assist in improving selection efficiency through higher accuracy and precision, as well as reduced time and cost of data collection., Competing Interests: The authors declare no conflict of interest. References1RayD.K.; RamankuttyN.; MuellerN.D.; WestP.C.; FoleyJ.A.Recent patterns of crop yield growth and stagnation. Nat. 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Published

2018

26. Impact of adoption of drought-tolerant maize varieties on total maize production in south Eastern Zimbabwe.

Author

Lunduka RW, Mateva KI, Magorokosho C, and Manjeru P

Abstract

Drought is a huge limiting factor in maize production, mainly in the rain-fed agriculture of sub-Saharan Africa. In response to this threat, drought-tolerant (DT) maize varieties have been developed with an aim to ensure maize production under mild drought conditions. We conducted a study to assess the impact of smallholder farmers' adoption of DT maize varieties on total maize production. Data for the study came from a survey of 200 randomly sampled households in two districts of Chiredzi and Chipinge in southeastern Zimbabwe. The study found that 93% of the households were growing improved maize varieties and that 30% of the sampled households were growing DT maize varieties. Total maize yield was 436.5 kg/ha for a household that did not grow DT maize varieties and 680.5 kg/ha for households that grew DT maize varieties. We control for the endogeneity of the DT adoption variable, by using the control function approach to estimate total maize production in a Cobb-Douglas model. The results show that households that grew DT maize varieties had 617 kg/ha more maize than households that did not grow the DT maize varieties. Given that almost all farmers buy their seeds in the market, a change in varieties to DT maize seeds gives an extra income of US$240/ha or more than nine months of food at no additional cost. This has huge implications in curbing food insecurity and simultaneously saving huge amounts of resources at the household and national levels, which are used to buy extra food during the lean season.

Published

2017

27. Fine mapping of Msv1, a major QTL for resistance to Maize Streak Virus leads to development of production markers for breeding pipelines.

Author

Nair SK, Babu R, Magorokosho C, Mahuku G, Semagn K, Beyene Y, Das B, Makumbi D, Lava Kumar P, Olsen M, and Boddupalli PM

Subjects

Chromosomes, Plant, Genetic Markers, Haplotypes, Phenotype, Plant Breeding, Polymorphism, Single Nucleotide, Zea mays virology, Chromosome Mapping, Disease Resistance genetics, Maize streak virus, Plant Diseases genetics, Quantitative Trait Loci, Zea mays genetics

Abstract

Msv1 , the major QTL for MSV resistance was delimited to an interval of 0.87 cM on chromosome 1 at 87 Mb and production markers with high prediction accuracy were developed. Maize streak virus (MSV) disease is a devastating disease in the Sub-Saharan Africa (SSA), which causes significant yield loss in maize. Resistance to MSV has previously been mapped to a major QTL (Msv1) on chromosome 1 that is germplasm and environment independent and to several minor loci elsewhere in the genome. In this study, Msv1 was fine-mapped through QTL isogenic recombinant strategy using a large F 2 population of CML206 × CML312 to an interval of 0.87 cM on chromosome 1. Genome-wide association study was conducted in the DTMA (Drought Tolerant Maize for Africa)-Association mapping panel with 278 tropical/sub-tropical breeding lines from CIMMYT using the high-density genotyping-by-sequencing (GBS) markers. This study identified 19 SNPs in the region between 82 and 93 Mb on chromosome 1(B73 RefGen&#95;V2) at a P < 1.00E-04, which coincided with the fine-mapped region of Msv1. Haplotype trend regression identified a haplotype block significantly associated with response to MSV. Three SNPs in this haplotype block at 87 Mb on chromosome 1 had an accuracy of 0.94 in predicting the disease reaction in a collection of breeding lines with known responses to MSV infection. In two biparental populations, selection for resistant Msv1 haplotype demonstrated a reduction of 1.03-1.39 units on a rating scale of 1-5, compared to the susceptible haplotype. High-throughput KASP assays have been developed for these three SNPs to enable routine marker screening in the breeding pipeline for MSV resistance.

Published

2015

28. Genome-wide association mapping reveals novel sources of resistance to northern corn leaf blight in maize.

Author

Ding J, Ali F, Chen G, Li H, Mahuku G, Yang N, Narro L, Magorokosho C, Makumbi D, and Yan J

Subjects

Analysis of Variance, Chromosomes, Plant genetics, Genes, Plant, Genetic Association Studies, Genetic Loci, Haplotypes genetics, Inheritance Patterns genetics, Molecular Sequence Annotation, Phenotype, Plant Diseases microbiology, Plant Leaves genetics, Polymorphism, Single Nucleotide genetics, Chromosome Mapping, Disease Resistance genetics, Genome-Wide Association Study, Plant Diseases genetics, Plant Leaves microbiology, Zea mays genetics, Zea mays microbiology

Abstract

Background: Northern corn leaf blight (NCLB) caused by Exserohilum turcicum is a destructive disease in maize. Using host resistance to minimize the detrimental effects of NCLB on maize productivity is the most cost-effective and appealing disease management strategy. However, this requires the identification and use of stable resistance genes that are effective across different environments., Results: We evaluated a diverse maize population comprised of 999 inbred lines across different environments for resistance to NCLB. To identify genomic regions associated with NCLB resistance in maize, a genome-wide association analysis was conducted using 56,110 single-nucleotide polymorphism markers. Single-marker and haplotype-based associations, as well as Anderson-Darling tests, identified alleles significantly associated with NCLB resistance. The single-marker and haplotype-based association mappings identified twelve and ten loci (genes), respectively, that were significantly associated with resistance to NCLB. Additionally, by dividing the population into three subgroups and performing Anderson-Darling tests, eighty one genes were detected, and twelve of them were related to plant defense. Identical defense genes were identified using the three analyses., Conclusion: An association panel including 999 diverse lines was evaluated for resistance to NCLB in multiple environments, and a large number of resistant lines were identified and can be used as reliable resistance resource in maize breeding program. Genome-wide association study reveals that NCLB resistance is a complex trait which is under the control of many minor genes with relatively low effects. Pyramiding these genes in the same background is likely to result in stable resistance to NCLB.

Published

2015

29. QTL mapping in three tropical maize populations reveals a set of constitutive and adaptive genomic regions for drought tolerance.

Author

Almeida GD, Makumbi D, Magorokosho C, Nair S, Borém A, Ribaut JM, Bänziger M, Prasanna BM, Crossa J, and Babu R

Subjects

Breeding, Chromosome Mapping, Droughts, Environment, Genetic Markers, Kenya, Mexico, Phenotype, Polymorphism, Single Nucleotide, Stress, Physiological genetics, Water analysis, Zimbabwe, Adaptation, Physiological genetics, Genome, Plant, Quantitative Trait Loci, Zea mays genetics

Abstract

Despite numerous published reports of quantitative trait loci (QTL) for drought-related traits, practical applications of such QTL in maize improvement are scarce. Identifying QTL of sizeable effects that express more or less uniformly in diverse genetic backgrounds across contrasting water regimes could significantly complement conventional breeding efforts to improve drought tolerance. We evaluated three tropical bi-parental populations under water-stress (WS) and well-watered (WW) regimes in Mexico, Kenya and Zimbabwe to identify genomic regions responsible for grain yield (GY) and anthesis-silking interval (ASI) across multiple environments and diverse genetic backgrounds. Across the three populations, on average, drought stress reduced GY by more than 50 % and increased ASI by 3.2 days. We identified a total of 83 and 62 QTL through individual environment analyses for GY and ASI, respectively. In each population, most QTL consistently showed up in each water regime. Across the three populations, the phenotypic variance explained by various individual QTL ranged from 2.6 to 17.8 % for GY and 1.7 to 17.8 % for ASI under WS environments and from 5 to 19.5 % for GY under WW environments. Meta-QTL (mQTL) analysis across the three populations and multiple environments identified seven genomic regions for GY and one for ASI, of which six mQTL on chr.1, 4, 5 and 10 for GY were constitutively expressed across WS and WW environments. One mQTL on chr.7 for GY and one on chr.3 for ASI were found to be 'adaptive' to WS conditions. High throughput assays were developed for SNPs that delimit the physical intervals of these mQTL. At most of the QTL, almost equal number of favorable alleles was donated by either of the parents within each cross, thereby demonstrating the potential of drought tolerant × drought tolerant crosses to identify QTL under contrasting water regimes.

Published

2013

30. Quality control genotyping for assessment of genetic identity and purity in diverse tropical maize inbred lines.

Author

Semagn K, Beyene Y, Makumbi D, Mugo S, Prasanna BM, Magorokosho C, and Atlin G

Subjects

Alleles, Genetic Heterogeneity, Genetic Loci genetics, Genotype, Haploidy, Phylogeny, Polymorphism, Single Nucleotide genetics, Quality Control, Selection, Genetic, Genotyping Techniques methods, Genotyping Techniques standards, Inbreeding, Tropical Climate, Zea mays genetics

Abstract

Quality control (QC) genotyping is an important component in breeding, but to our knowledge there are not well established protocols for its implementation in practical breeding programs. The objectives of our study were to (a) ascertain genetic identity among 2-4 seed sources of the same inbred line, (b) evaluate the extent of genetic homogeneity within inbred lines, and (c) identify a subset of highly informative single-nucleotide polymorphism (SNP) markers for routine and low-cost QC genotyping and suggest guidelines for data interpretation. We used a total of 28 maize inbred lines to study genetic identity among different seed sources by genotyping them with 532 and 1,065 SNPs using the KASPar and GoldenGate platforms, respectively. An additional set of 544 inbred lines was used for studying genetic homogeneity. The proportion of alleles that differed between seed sources of the same inbred line varied from 0.1 to 42.3 %. Seed sources exhibiting high levels of genetic distance are mis-labeled, while those with lower levels of difference are contaminated or still segregating. Genetic homogeneity varied from 68.7 to 100 % with 71.3 % of the inbred lines considered to be homogenous. Based on the data sets obtained for a wide range of sample sizes and diverse genetic backgrounds, we recommended a subset of 50-100 SNPs for routine and low-cost QC genotyping, verified them in a different set of double haploid and inbred lines, and outlined a protocol that could be used to minimize errors in genetic analyses and breeding.

Published

2012

31. Molecular characterization of global maize breeding germplasm based on genome-wide single nucleotide polymorphisms.

Author

Lu Y, Yan J, Guimarães CT, Taba S, Hao Z, Gao S, Chen S, Li J, Zhang S, Vivek BS, Magorokosho C, Mugo S, Makumbi D, Parentoni SN, Shah T, Rong T, Crouch JH, and Xu Y

Subjects

Alleles, Cluster Analysis, Gene Frequency, Genotype, Molecular Sequence Data, Oligonucleotide Array Sequence Analysis, Phenotype, Principal Component Analysis, Genome, Plant, Polymorphism, Single Nucleotide, Zea mays genetics

Abstract

Characterization of genetic diversity is of great value to assist breeders in parental line selection and breeding system design. We screened 770 maize inbred lines with 1,034 single nucleotide polymorphism (SNP) markers and identified 449 high-quality markers with no germplasm-specific biasing effects. Pairwise comparisons across three distinct sets of germplasm, CIMMYT (394), China (282), and Brazil (94), showed that the elite lines from these diverse breeding pools have been developed with only limited utilization of genetic diversity existing in the center of origin. Temperate and tropical/subtropical germplasm clearly clustered into two separate groups. The temperate germplasm could be further divided into six groups consistent with known heterotic patterns. The greatest genetic divergence was observed between temperate and tropical/subtropical lines, followed by the divergence between yellow and white kernel lines, whereas the least divergence was observed between dent and flint lines. Long-term selection for hybrid performance has contributed to significant allele differentiation between heterotic groups at 20% of the SNP loci. There appeared to be substantial levels of genetic variation between different breeding pools as revealed by missing and unique alleles. Two SNPs developed from the same candidate gene were associated with the divergence between two opposite Chinese heterotic groups. Associated allele frequency change at two SNPs and their allele missing in Brazilian germplasm indicated a linkage disequilibrium block of 142 kb. These results confirm the power of SNP markers for diversity analysis and provide a feasible approach to unique allele discovery and use in maize breeding programs.

Published

2009