Comparative response of some tropical maize hybrid and their parental varieties to low and high nitrogen regime

The usefulness of genomic prediction (GP) for many animal and plant breeding programs has been highlighted for many studies in the last 20 years. In maize breeding programs, mostly dedicated to delivering more highly adapted and productive hybrids, this approach has been proved successful for both large- and small-scale breeding programs worldwide. Here, we present some of the strategies developed to improve the accuracy of GP in tropical maize, focusing on its use under low budget and small-scale conditions achieved for most of the hybrid breeding programs in developing countries. We highlight the most important outcomes obtained by the University of São Paulo (USP, Brazil) and how they can improve the accuracy of prediction in tropical maize hybrids. Our roadmap starts with the efforts for germplasm characterization, moving on to the practices for mating design, and the selection of the genotypes that are used to compose the training population in field phenotyping trials. Factors including population structure and the importance of non-additive effects (dominance and epistasis) controlling the desired trait are also outlined. Finally, we explain how the source of the molecular markers, environmental, and the modeling of genotype–environment interaction can affect the accuracy of GP. Results of 7 years of research in a public maize hybrid breeding program under tropical conditions are discussed, and with the great advances that have been made, we find that what is yet to come is exciting. The use of open-source software for the quality control of molecular markers, implementing GP, and envirotyping pipelines may reduce costs in an efficient computational manner. We conclude that exploring new models/tools using high-throughput phenotyping data along with large-scale envirotyping may bring more resolution and realism when predicting genotype performances. Despite the initial costs, mostly for genotyping, the GP platforms in combination with these other data sources can be a cost-effective approach for predicting the performance of maize hybrids for a large set of growing conditions.

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Effect of harvest maturity on carbohydrates for ethanol production from sugar enhanced temperate×tropical maize hybrid

Industrial Crops and Products ◽

10.1016/j.indcrop.2014.06.015 ◽

2014 ◽

Vol 60 ◽

pp. 266-272 ◽

Cited By ~ 6

Author(s):

Ming-Hsu Chen ◽

Bruce S. Dien ◽

Michael L. Vincent ◽

Frederick E. Below ◽

Vijay Singh

Keyword(s):

Ethanol Production ◽

Tropical Maize ◽

Maize Hybrid ◽

Harvest Maturity

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Unravelling the Effect of Provitamin A Enrichment on Agronomic Performance of Tropical Maize Hybrids

Plants ◽

10.3390/plants10081580 ◽

2021 ◽

Vol 10 (8) ◽

pp. 1580

Author(s):

Abebe Menkir ◽

Ibnou Dieng ◽

Wende Mengesha ◽

Silvestro Meseka ◽

Bussie Maziya-Dixon ◽

...

Keyword(s):

Provitamin A ◽

Agronomic Performance ◽

Tropical Maize ◽

Maize Hybrid ◽

Maize Hybrids ◽

Diverse Field ◽

The Difference ◽

Growing Conditions ◽

Β Carotene ◽

Traditional Diets

Maize is consumed in different traditional diets as a source of macro- and micro-nutrients across Africa. Significant investment has thus been made to develop maize with high provitamin A content to complement other interventions for alleviating vitamin A deficiencies. The current breeding focus on increasing β-carotene levels to develop biofortified maize may affect the synthesis of other beneficial carotenoids. The changes in carotenoid profiles, which are commonly affected by environmental factors, may also lead to a trade-off with agronomic performance. The present study was therefore conducted to evaluate provitamin A biofortified maize hybrids across diverse field environments. The results showed that the difference in accumulating provitamin A and other beneficial carotenoids across variable growing environments was mainly regulated by the genetic backgrounds of the hybrids. Many hybrids, accumulating more than 10 µg/g of provitamin A, produced higher grain yields (>3600 kg/ha) than the orange commercial maize hybrid (3051 kg/ha). These hybrids were also competitive, compared to the orange commercial maize hybrid, in accumulating lutein and zeaxanthins. Our study showed that breeding for enhanced provitamin A content had no adverse effect on grain yield in the biofortified hybrids evaluated in the regional trials. Furthermore, the results highlighted the possibility of developing broadly adapted hybrids containing high levels of beneficial carotenoids for commercialization in areas with variable maize growing conditions in Africa.

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Assimilation of nitrate and ammonium by the Scots pine (Pinus sylvestris) seedling under conditions of high nitrogen supply

Physiologia Plantarum ◽

10.1034/j.1399-3054.1992.840411.x ◽

1992 ◽

Vol 84 (4) ◽

pp. 568-576 ◽

Cited By ~ 6

Author(s):

Holger Flaig ◽

Hans Mohr

Keyword(s):

Pinus Sylvestris ◽

Scots Pine ◽

Nitrogen Supply ◽

High Nitrogen

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Poultry Manure as a Fertilizer

EDIS ◽

10.32473/edis-aa205-2013 ◽

2013 ◽

Vol 2013 (11) ◽

Cited By ~ 1

Author(s):

Michael A. Davis ◽

Doug R. Sloan ◽

Gerald Kidder ◽

R. D. Jacobs

Keyword(s):

Organic Matter ◽

Environmental Factors ◽

Nitrogen Content ◽

Soil Amendment ◽

Poultry Manure ◽

Nutrient Retention ◽

High Nitrogen Content ◽

High Nitrogen ◽

Animal Science ◽

Fact Sheet

Animal manures have been used as natural crop fertilizers for centuries. Because of poultry manure’s high nitrogen content, it has long been recognized as one of the most desirable manures. Besides fertilizing crops, manures also supply other essential plant nutrients and serve as a soil amendment by adding organic matter, which helps improve the soil’s moisture and nutrient retention. Organic matter persistence will vary with temperature, drainage, rainfall, and other environmental factors. This 2-page fact sheet was written by Michael A. Davis, D.R. Sloan, Gerald Kidder, and R.D. Jacobs, and published by the UF Department of Animal Science, November 2013. http://edis.ifas.ufl.edu/aa205

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Maize silage and winter crop options to maximise drymatter and energy for NZ dairy systems

Proceedings of the New Zealand Grassland Association ◽

10.33584/jnzg.2006.68.2647 ◽

2006 ◽

pp. 193-197 ◽

Cited By ~ 2

Author(s):

R.J. Densley ◽

G.M. Austin ◽

I.D. Williams ◽

R. Tsimba ◽

G.O. Edmeades

Keyword(s):

Italian Ryegrass ◽

Maize Silage ◽

Forage Crops ◽

Forage Crop ◽

Maize Hybrid ◽

Trade Offs ◽

Feed Value ◽

Winter Crop ◽

Winter Crops ◽

Silage Production

Trade-offs in dry matter (DM) and metabolisable energy (ME) between combinations of three maize silage hybrids varying in maturity from 100-113 CRM and six winter forage options were investigated in a Waikato farmer's field over 2 years. Winter crops were triticale, cut once; oats grazed 1-2 times; and Tama and Feast II Italian ryegrass, each cut or grazed 2-3 times. Greatest DM and ME production (38.9 t/ha; 396 GJ/ha) was from a 113 CRM hybrid followed by a single-cut triticale crop. The most economical sources of DM and ME were obtained from a 100 CRM maize hybrid plus grazed oats (11.8 c/ kg; 1.12 c/MJ), while the cheapest ME source among cut winter forages was a 113 CRM maize hybrid + triticale (1.18 c/MJ). Reliable annual silage production of 30 t DM/ha and 330 GJ ME/ha (or 3000 kg MS/ha) is possible using a late maturing maize hybrid combined with a winter forage crop such as triticale, although the low feed value of the triticale may limit its use as feed for milking cows. Keywords: Italian ryegrass, oats, maize silage, supplements, triticale, winter forage crops

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