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Published byArnold Matthews Modified over 9 years ago
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Private Sector Contributions to Improved Drought Resilience David I Gustafson, Ph.D. Director, CIMSANS International Life Sciences Institute Research Foundation
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Outline for Presentation Brief description of the ILSI-RF’s new Center for Integrated Modeling of Sustainable Agriculture & Nutrition Security (CIMSANS) – Enabling greater private sector engagement in the climate change challenge to sustainability & food security Comparison of the 2012 US Corn-Belt Drought to similar previous droughts (1988 and the Dust Bowl) Specific ways in which the private sector has contributed to improved drought resilience Imperatives for the future 2
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CIMSANS Mission New global forum for scientists from private sector to engage with those from public sector and academia on sustainability & food security Establish productive public-private partnerships to dramatically improve the methods and data used in integrated modeling assessments Significantly increase general public awareness of the urgency for new investment to meet global nutrition needs in more sustainable ways 3
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US Corn Belt Drought of 2012 US Corn Belt experienced one of its worst droughts on record during 2012 However, Corn Belt maize and soybean yields are much higher than in previous similar droughts – Maize: 35 bu/A (41%) higher than 1988, 95 bu/A (350%) higher than in the Dust Bowl Era (1933-6) – Soybean: 9 bu/A (31%) higher than 1988, 23 bu/A (154%) higher than in the Dust Bowl Era (1933-6) Why? - farming technology has improved 4
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Data Sources: USDA NASS (corn yields), NOAA NCDC (drought index) 1988 2012 5 US Maize Yields vs. Drought Intensity “Dust Bowl” Era 35 bu/A (+41%) 95 bu/A (+350%) Palmer Z Drought Index Maize Yield
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1988 2012 6 Data Sources: USDA NASS (corn yields), NOAA NCDC (drought index) US Soybean Yields vs. Drought Intensity “Dust Bowl” Era 9 bu/A (+31%) 23 bu/A (+154%) Palmer Z Drought Index Soy Yield
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A C T G C G T A PLANT BREEDING BIOTECHNOLOGY CHEMISTRY & AGRONOMICS Multiple Factors are Contributing to Improvement YIELD 7
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Farming Technology Improvements Tillage Systems: Increased adoption of conservation tillage, which helps to reduce evaporative losses and promote deeper penetration of moisture into the soil profile, making it available to the crop later in the season Better Equipment: Availability of improved equipment for soil-bed preparation, planting, harvesting, and application of crop chemicals, including the more widespread use of GPS technology (Precision Agriculture) Water Management: Better management of water, including advanced drainage systems and some increases in the acreage under irrigation (although much of this increase has come in areas outside of the Corn Belt, such as the Mississippi Delta) Planting Changes: Shifts to earlier planting dates (partly enabled by climate change) and higher plant populations result in greater yield potential by allowing the crop to collect more solar energy Crop Protection Chemicals: Continued development and introduction of more effective crop protection chemicals and improved application methods (such as seed treatments) have helped preserve yield in the face of increased weed, pest, and disease pressure Breeding Advances: New technologies have enabled more rapid rate of genetic gain in crop yields, based on diverse and elite germplasm, broadly adapted, tested in a wide range of environments Biotechnology: Traits for herbicide tolerance and insect protection have contributed to greater preservation of underlying yield potential, especially under high environmental stress 8
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Better Agronomic Practices Conservation Tillage Can Help Make the Most of Available Soil Moisture Improves soil quality (organic matter, # worms, water uptake rate, # soil pores) Improves fertilizer utilization Increases roots by 33 – 44% Yields equal or better than conventional tillage “Fixing the Farm ” Can Provide the Platform for Increased Yield Opportunity Managing the Basics: Soil Nutrients Drainage Irrigation 9
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Technology Advances Now Make Precision Ag Possible 10
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Plant Breeding Strategy Directly Selects More Resilient Crops Diverse & elite germplasm, broadly adapted Tested in a wide range of environments Broad datasets collected on genotype-by-environment interaction Global Exchange of Germplasm and Information Asia BrazilMexico AfricaArgentina Europe Broad Testing on Local Scale 11
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Decade of introduction Hybrids from different “eras” grown in the same fields, experiencing the same stress New hybrids yield better than older ones and use water more efficiently 12 Technology has Improved Maize Yields under Drought Stress
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Biotech Contributions to Adaptation and Mitigation in the Ag Sector Herbicide-tolerant crops – Enable conservation-tillage, reducing evaporative losses – Lower runoff losses, reducing flooding downstream Bt-crops (solar-powered crop protection) – Better root structure increases drought tolerance – Entire plant is less stressed by weather extremes More traits in the pipeline – Biotech drought tolerance – Nitrogen use efficiency Applied nitrogen 13
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Agrisure Artesian ™ – Syngenta (non-Biotech) – Up to 15% higher yield on moisture-stressed acres, including rainfed production and farms with limited irrigation – Greater yield stability in years of inconsistent rainfall or in fields with variable soil types AQUAmax ™ – DuPont Pioneer (non-Biotech) – 8.9% (8.5 bu/A) yield advantage in water-limited conditions – 1.9% (4.2 bu/A) yield advantage in favorable conditions DroughtGard ™ – Monsanto/BASF (Biotech) – Scheduled for launch in 2013 in Western Drylands (area of chronic water stress), yield advantage >5 bu/A seen in 2012 – System combines drought-tolerant germplasm, a drought- tolerant biotechnology trait and agronomic recommendations Drought Tolerant Maize Offerings ™ Trademarks of the respective companies 14
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Imperatives for the Future 15 Essential to make existing farmland more productive Sustainable Intensification Must continue to improve climate resilience of our crops
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