Presentation on theme: "Chapter 15 Optimizing food production Golden rice: two European scientists created a new strain of rice enriched in β-carotene, which the body uses to."— Presentation transcript:
Chapter 15 Optimizing food production Golden rice: two European scientists created a new strain of rice enriched in β-carotene, which the body uses to make vitamin A. This is a kind of transgenic plant ( 转基因植物 ).
15.1 Humans eat at all trophic levels Only about 1 percent of the solar energy reaching the Earth’s surface is used in photosynthesis, producing 170 billion tons of organic material per year. Trophic structure (food chains)
No more than 10 percent of the energy contained in the organic material of one trophic level is incorporated into the next higher level. The higher the trophic level, the smaller the possible population of organisms. Eating meat is a luxury: The amount of biochemical energy people will obtain from eating the chickens is minuscule compared with the amount of biochemical energy in raising the chickens. In the US, more than 70 percent of grain production is fed to livestock. If people in US ate 10 percents less meat, the savings in resources could feed 100 million people.
15.2 Plants require nutrients ElementFrom available to plantsRelative number of ions in dry plant material Macronutrients Nitrogen, NNO 3 -, NH 4 + 1,000,000 Potassium, KK+K+ 250,000 Calcium, CaCa 2+ 125,000 Magnesium, MgMg 2+ 80,000 Phosphorus, PH 2 PO 4 -, HPO 4 2- 60,000 Sulfur, SSO 4 2- 30,000 Micronutrients Chlorine, ClCl - 3000 Iron, FeFe 3+,Fe 2+ 2000 Boron, BH 2 BO 3 - 2000 Manganese, MnMn 2+ 1000 Zinc, ZnZn 2+ 300 Copper, CuCu +, Cu 2+ 100 Molybdenum, MoMoO 4 2- 1 table15.1 essential elements for most plants Measured relative to molybdenum=1 Source: Salisbury and ross, plant physiology. Belmont, CA: Wadsworth, 1985
Plants utilize nitrogen, phosphorus, and potassium Plants need nitrogen to build proteins and a variety of other biomolecules, such as chlorophyll ( 叶绿素 ). Nitrogen fixation Soil bacteria N 2 +8H + +6e - 2NH 4 + nitrogenase lightening N 2 +3O 2 +2e - 2NO 3 - fig 15.4 two pathways for nitrogen fixation, a source of nitrogen for plants. (a) both free- living bacteria in the soil and microorganisms in root nodules produce ammonium ions. (b) lightning provides the energy needed to form nitrate ions from atmospheric nitrogen. Root nodule
Plants need phosphorus to build nucleic acids, phospholiqids, and ATP. Potassium ions activate many of the enzymes essential for photosynthesis and respiration. Plants also utilize calcium, magnesium, and sulfur Calcium ions are essential for building cell walls. Magnesium ions are essential for the formation of chlorophyll.
15.3 Soil fertility is determined by soil structure and nutrient retention Topsoil usually contains sand, silt, and clay. Fertile topsoil is a mixture of at least four components: mineral particles, water, air, organic matter.
Soil readily retains positively charged ions humus Positively charged nutrient ions Plant root mineral Mineral particle phenolate Fig 15.10 the negatively charged surfaces of soil mineral particles and humus help retain positively charged nutrients
The pH value of soil is largely a function of carbon dioxide present. A healthy soil may have enough carbon dioxide as a product released from to give a pH value of 4-7. Hydronium ions are able to displace nutrient ions held to mineral particles and humus. Fig15.11 by releasing carbon dioxide, a plant guarantees a steady flow of nutrients from the soil to its roots ① Root releases CO 2 ② CO 2 Reacts with H 2 O, forming H 2 CO 3 ③ H 2 CO 3 reacts with H 2 O, forming HCO 3 - and H 3 O + ④ H3O + displaces nutrient ion (K + shown), which is then available to root Soil particle root
15.4 Natural and synthetic fertilizers help restore soil fertility Natural occurring fertilizers are compost ( 堆肥 ) and minerals. The natural occurring minerals are limited. In 1913, a German scientist, Fritz Haber, developed a process for producing ammonia from hydrogen and nitrogen. N-P-K system Fig 15.13 between 1956 and 1972 world crop yields grew in tandem with increases in the use of nitrogen fertilizers Kilogram per hectare Year
15.5 Pesticides kill insects, weeds, and fungi Insecticides kill insects The most widely used insecticides are chlorinated hydrocarbons, organophosphorus compounds and carbamates. The chlorinated hydrocarbons have a remarkable persistence, killing insects for months and years on treated surface since they are not degradable and water soluble. DDT: The early increased crop yields resulting from DDT use were not sustainable. Fig 15.15 the chemical name for DDT is dichlorodiphenytrichloroethane
Silent Spring and bioaccumulation Fig15.17 the DDT concentration in a food chain can be magnified from 0.000003 parts per million (ppm) as a pollutant in the water to 25 ppm in a bird at the top of the chain
Alternatives to DDT methoxychlor Polar products (water-soluble) Fig 15.18 methoxychlor is one of many alternatives to DDT, enzymes in the liver can clean the ether groups to produce polar products. Look back to Fig15.15, and you will see that DDT lacks ether groups
Phosphorous compounds and carbamates Malathion (an organophosphorus compound) Carbaryl A carbamate Fig 15.20 the widely used pesticides malathion and carbaryl
Herbicides kill weeds 2,4-D 2,4,5 -T TCDD glyphosate paraquat Atrazine Fig 15.21 the herbicides 2,4-D and 2,4,5-Tand the dioxin contaminant TCDD Fig 15.22 the herbicides atrazine, paraquat, and glyphosate
Fungicides kill fungi Fig 15.23 the fungicide thiram thriam
15.6 There is much to learn from past agricultural practice Pesticides are toxic. Fertilizers damage the ecosystem. (Blue-baby syndrome caused by excessive amount of nitrate in water). Over-use of fertilizers also hardens the top-soil, which would be much easily to be removed.
15.7 High agricultural yields can be sustained with proper practice Organic farming is environmentally friendly (concern for environment and a commitment to using only chemicals that occur in nature) Crop rotation Compost Organic farming is energy effective.
Integrated crop management is a strategy for sustainable agriculture Multi-cropping Integrated pest management Pheromones ( 信息素 ) Fig 15.34 female gypsy moths emit the pheromone disparlure (top) to entice male gypsy moths (bottom left) into mating. The males are so sensitive to one molicule in 1017 molecules of air. This astounding sensitivity enables them to respond to a female who may be more than 1 kilometer away. However, they can also be tricked into responding to insecticide traps laced with synthetic disparlure (bottom right)
15.8 A crop can be improved by inserting a gene from another species Transgenic organisms Bovine growth hormone ( 牛生长激素 ) 15.9 World hunger is not inevitable
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