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New Crops and Genetic Engineering

New Crops and Genetic Engineering. Section 9.7. Other Agricultural Resources. Water Agriculture accounts for largest single share of global water use. Much irrigation water lost to seepage and evaporation In some countries, low cost encourages over-use of water. Waterlogging

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New Crops and Genetic Engineering

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  1. New Crops and Genetic Engineering Section 9.7

  2. Other Agricultural Resources • Water • Agriculture accounts for largest single share of global water use. • Much irrigation water lost to seepage and evaporation • In some countries, low cost encourages over-use of water. • Waterlogging • Salinization - mineral salts accumulate in soils; lethal to plants

  3. Fertilizer • Lack of nitrogen, potassium, and phosphorus often limits plant growth. • Adding nutrients via fertilizer usually stimulates growth and increases crop yields. • 1950 - average of 20 kg/ha fertilizer used • 1990 - average of 91 kg/ha fertilizer used • Overuse causes water pollution. • Manure and nitrogen-fixing bacteria are alternative methods of replenishing soil nutrients. • Fertilizer use could increase crops in Africa.

  4. Energy • Farming in industrialized countries is highly energy-intensive. • Between 1920-1980, energy use rose directly with mechanization of agriculture, and indirectly with synthetic fertilizers. • Altogether, U.S. food system consumes 16% of total energy use. • Most foods require more energy to produce, process, and transport than we get from eating them. Eating locally grown foods has less environmental impact.

  5. Usually corn or soy-based ethanol fuels in the U.S. State of the art facilities to process them have a net energy yield of 150%. Diesel engines can use plant oils directly. Plans to use fast growing trees, kenaf, switch grass, and cattails in the production of biofuels Biofuels

  6. New Crops • Most of the world’s food comes from only 16 species. • New crops possible • Winged bean • Tricale, a hybrid between wheat and rye

  7. Green Revolution • Most major improvements in farm production have come from technological advances and modification of a few well-known species. • Corn yields jumped from 25 bushels per acre to 130 per acre in last century. • Most of gain accomplished through conventional plant breeding • Green Revolution started by Norm Borlaug. Dwarf, high yielding wheat and rice grown around the world.

  8. Green Revolution • Borlaug won Nobel Peace Prize. • Green revolution plants require fertilizers and protection from pests. If these are lacking, modern crops may not produce as well as traditional crops. Poor farmers may be left out of the green revolution. • Crops of green revolution grow in temperate climates. Efforts underway to create new crops for tropical climates.

  9. Genetic Engineering • Genetic engineering - removes DNA from one organism and splices it into the chromosomes of another.Produces genetically modified organisms (GMOs) with new traits. • Can produce crops with pest-resistance and wider tolerance levels to frost, drought, low nutrient soils, salty soils, etc. • Can improve protein or vitamin content of crop • Can incorporate oral vaccines into foods such as bananas for use in developing nations • Animals can be modified to grow faster or produce pharmaceuticals in their milk.

  10. GMOs • Opponents worry that • GMOs might produce superweeds resistant to pesticides. • Native biodiversity may be reduced. • Novel toxins might be created. • Technology may only be available to the rich, making family farms uncompetitive and driving poor nations further into poverty. • You are already eating GMOs as 60% of processed food in the U.S. contains GMOs.

  11. Pest Resistance and Weed Control • Biotechnologists have recently created plants containing genes for endogenous insecticides. • A gene from the bacterium Bacillus thuringiensis (Bt) makes toxins that are lethal to butterflies and beetles. These genes have been transferred into corn, potatoes and cotton. Reduces pesticide use and increases yield. • Concern has arisen over several points. • Spread of genes into wild populations leading to resistance in pests • Effect on nontarget species

  12. Harvest of Fear video clip on Bt corn http://www.teachersdomain.org/asset/tdc02_vid_btcorn/ Genetically modified Salmon video clip http://www.teachersdomain.org/asset/tdc02_vid_salmon/

  13. Transgenic Crops • Genetically modified organisms are also called transgenic organisms. • Transgenic crops can be engineered to tolerate high levels of pesticides. • Roundup Ready and Liberty Link are two most popular. Crops can grow in the presence of the pesticides (called Roundup and Liberty) while weeds within the field are killed.

  14. Is Genetic Engineering Safe? • Environmental and consumer groups have campaigned against transgenic organisms. • “Frankenfoods” • European nations have bans on GMOs. • U.S. Food and Drug Administration declined to require labeling of foods containing GMOs. • New varieties are “substantially equivalent” to related traditionally-bred varieties.

  15. Is Genetic Engineering Safe? • GMOs tested so far do not survive well in the wild and are no more invasive than unmodified plants. • Worry that genetically modified animals will escape captivity and outcompete their wild relatives. (Salmon with added growth hormone gene grow 7X faster than their wild counterparts.) • We should err on the side of safety. • Will GMOs help feed the world or lead to more economic disparity?

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