More, More, More: Historical Improvements to Maize Yields in the United States Dr. David L. Benson AgriPreneur Summit, Kampala, Uganda April 21-22, 2015.

Slides:

Advertisements

Similar presentations

Introduction to Maize Breeding

Advertisements

Parental value: Combining ability estimates from Line x tester analysis for yield components in potato genotypes NEERAJ SHARMA.

Vision and Missions of the Turkey’s Seed Sector Kazım Abak 2 nd International Workshop on Seed Business Antalya 2-3 December 2013.

College of Agriculture and Life Sciences Department of Plant Breeding Developing Breeding Lines with Anthracnose Stalk Rot Resistance from Exotic Maize.

PBG 650 Advanced Plant Breeding

Exploring Mo17 maize in a way that explains today’s genetics Larry Morris, Jr. 1,2* ; Carolyn Lawrence 1,3,4 ; and Candice A.C. Gardner 1,3,5. 1.) Iowa.

HETEROSIS IN HYBRID ALFALFA Steve Wagner, Paul Sun, Mike Velde, and Dan Gardner Dairyland Seed Company.

MAIZE (Zea mays L.) To, Dr Saba Tabasum By IMRAN JAFFAR MSc (Hons.) 2 rd semester DEPARTMENT OF PLANT BREEDING & GENETICS.

Lakeview Energy Jim Galvin CEO Agripreneur Conference Kampala April 21 st /22 nd 2015.

BREEDING BASED ON THE GENETIC RECOMBINATION PRINCIPLE Taryono Faculty of Agriculture Gadjah Mada University.

Special Methods in Plant Breeding Taryono Faculty of Agriculture Gadjah Mada University.

Lecture 6: Inbreeding and Heterosis. Inbreeding Inbreeding = mating of related individuals Often results in a change in the mean of a trait Inbreeding.

Genetically Modified Crops To plant or not to plant in Africa.

Module 7: Estimating Genetic Variances – Why estimate genetic variances? – Single factor mating designs PBG 650 Advanced Plant Breeding.

Improving the Performance of Acquired and Merged Operating Units BackgroundBackground The client is a unit of a parent company recognized worldwide as.

AGRICULTURE AND FOOD SECURITY IN AFRICA Maj Bilal Sadiq Gondal.

CROSSBREEDING SYSTEMS for BEEF CATTLE By David R. Hawkins Michigan State University.

Using Crossbreeding and Hybrids. Next Generation Science/Common Core Standards Addressed: MS‐LS2‐1. Analyze and interpret data to provide evidence for.

Module 8: Estimating Genetic Variances Nested design GCA, SCA Diallel

Do We Need Genetically Modified Foods to Feed the World? A Scientific Perspective Peggy G. Lemaux, Ph.D. University of California, Berkeley.

In-Service: Animal Breeding and Genetics Dr. Alan Fahey March 24 th 2011 NCE-MSTL, University of Limerick.

Farm picture Green Energy Advisors V LLC. Corn/Ethanol usage  Ethanol production accounts for 40% of the total US corn crop.

Introduction of Plant Biotechnology

Domestic and Trade Impacts of U.S. Farm Policy Rob Robinson NAFTA Business Transformation Lead Syngenta Seeds, Inc.

Development of Maize Hybrid

From Seed to the Supermarket By Blake Stewart. Seed Patenting  The patenting of seeds was first permitted under the Plant Patent Act of  This.

BREEDING AND BIOTECHNOLOGY. Breeding? Application of genetics principles for improvement Application of genetics principles for improvement “Accelerated”

Dr. Scott Sebastian, Research Fellow, Pioneer Hi-Bred International Plant Breeding Seminar at University of California Davis Accelerated Yield.

Using Crossbreeding and Hybrids. Next Generation Science/Common Core Standards Addressed: MS‐LS2‐1. Analyze and interpret data to provide evidence for.

9 Breeding Hybrid Cultivars

Breeding for Profit A tool to assist you in designing and customizing your breeding programs.

Global Environmental Trends: Feeding the World World Resources Institute

Protecting Today’s Investments For Tomorrow’s Innovations.

TCP/SNO/3401 Optimizing the Use of Plant Genetic Resources for Food and Agriculture for Adaptation to Climate Change Prof. Dr. Hanaiya El Itriby National.

Hybrid seed production

2014 Illinois Farm Economics Summit The Profitability of Illinois Agriculture: Back to the Future? Outlook For Corn and Soybeans Darrel Good

Biotechnology Chapter 1

Cornhusker Hybrids “Success Starts with the Seed”.

Will New technologies save the planet? An Agricultural Perspective. David C. Heering, Ph.D Monsanto Company.

STT2073 Plant Breeding and Improvement. Quality vs Quantity Quality: Appearance of fruit/plant/seed – size, colour – flavour, taste, texture – shelflife.

Improving Crop Productivity – Translational Research for Sustainable Agriculture Jacqueline Heard, PhD Monsanto Company EPSO Workshop Sept. 7-8, 2009.

An important strategy for enhancement in food production. An important strategy for enhancement in food production.

Strategic opportunities for sustainable crop production: FAO Perspective Gavin Wall, Director and OiC, Plant Production and Protection Division, FAO.

Sexual Reproduction in Plants In sexual reproduction, a new individual is produced by the combining of material from two parents. In plants, as in animals,

Overview What is Plant Breeding? Basic Genetics Mendelian Genetics

ECOSOC Meeting Dr. Eric Jallas

New approach to promoting agricultural innovation and improving agribusiness opportunities Global expert meeting on Agriculture & agro industry Development.

Using Crossbreeding and Hybrids

BREEDING AND BIOTECHNOLOGY

Plant Biotechnology.

Genetics of qualitative and quantitative phenotypes

Back to the Future of Cereals

Conference on ICT For Sustainable Development

Brief description of results on genomic selection of CIMMYT maize in Africa (Yoseph Beyene et al.) Several populations each with 200 F2 x tester individuals.

12.1 Origins of Hereditary Science

GENETIC CHANGES CAUSED BY HUMANS

Animal, Plant & Soil Science

The F2 Generation 1. F2 Population Mean and Variance (p = q = 0.5)

BREEDING AND BIOTECHNOLOGY

Lecture 13: Inbreeding and Heterosis

Lecture 6: Inbreeding and Heterosis

Manjit K Misra, Director, Seed Science Center, ISU

M. Shen USDA-ARS NCRPIS GEM - December 7,

Lecture 6: Inbreeding and Heterosis

Lecture 13: Inbreeding and Heterosis

BTG 461 Bioresources Mgt What is plant breeding?

Gregor Johann Mendel The founder of genetics

Statutory Breeding and Technology Fee on Self-Pollinated Crops

BREEDING BASED ON THE GENETIC RECOMBINATION PRINCIPLE

Presentation transcript:

More, More, More: Historical Improvements to Maize Yields in the United States Dr. David L. Benson AgriPreneur Summit, Kampala, Uganda April 21-22, 2015

Cornhusker Hybrids, LLC Consultation and contract services for maize breeding and seed production Our mission is to help to feed the 9.6 billion people on this planet in 2050 by implementing breeding and hybrid creation strategies that increase the rate of genetic gain in maize.

THREE BASIC GENETIC PHENOMENA IN COMMERCIAL MAIZE BREEDING Inbreeding Depression = and opposite in its effect on the population mean Heterosis – Progeny outperform the average (midpoint) of the parents Additive Genetic Variance – Breeding Value= degree of resemblance between relatives

COMMERCIAL MAIZE BREEDING “The reduction of a complex breeding population to its pure line components permits the identification and reproduction of specific elite hybrids. This is the primary objective of inbreeding in Maize” Hallauer & Miranda 1981

Long Term Maize Yield Improvement in the United States 1880 – 1936 Era of the Open Pollinated Variety 1937 – 1956 Era of the Double Cross Hybrid 1956 – 1995 Era of the Single Cross Hybrid 1996 – 2014 Era of the Genetically Modified Hybrid Era of Abundance

United States Average Maize Yields Year Effects

African Maize Yields vs. The United States

Uganda Maize Area and Production Trends

The Cornhusker Hybrids vision of the year 2050 is one of maize abundance

Ag Robotics: Blazing the Trail to Abundance

Where do we go from here? If maize yields in Africa increased 0.12 metric tons/Hectare each year for the next 36 years, the average yield would increase 4.32 metric tons/Hectare BUT CONSIDER…. If yields increased 0.18 metric tons/Hectare, the average yield would increase 6.48 metric tons/Hectare If yields increased 0.24 metric tons/Hectare, the average yield would increase 8.64 metric tons/Hectare

What will this require? Dramatic increases in investment Continued enhancement and innovation in plant genetics, plant breeding and agricultural sciences and robotics Leveraging of innovation by emerging entrepreneurial Ugandan seed companies

David L. Benson, Ph.D (402)