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Dr Siham M.O. Gritly 1
Solar energy and human nutrition
Prepared by; Dr. Siham GritlyUniversity of Bahri
The aim of studying environment is to sustain life and our surroundings to better life quality for people and other species
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• Introduction• OUR planet
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The Solar System consists of the Sun and its planets and their moons
Earth is the third planet in Solar System
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Earth and its moon (satellite)
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Our earthThe planet earth is the larger ecosystem; it composed of 4 sphere;
1-atmosphere include all gases 2-biosphere; include all live found in our earth. integrating all living beings and their relationships, including their interaction with the elements of the lithosphere, hydrosphere and atmosphere. 3-lithosphere or geosphere include soils, rocks, and fossil fuels. 4-hydrosphere; liquid water found in our planet, (under, and over the surface of the earth).
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4 spheres of the earth planet
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The atmosphere; is the mass of the planets' air. Atmosphere has an
innermost layer known as troposphere, the second layer is stratosphere, the mesosphere, The thermosphere and
The exosphere
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The atmosphere layers
1) The troposphere is the first layer above the surface and contains half of the Earth's atmosphere. Weather occurs in this layer.
2) The stratosphere the second layer after The troposphere Many jet aircrafts fly in because it is very stable.
the ozone layer absorbs harmful rays from the Sun found in this layer.
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• 3) the mesosphere is the layer directly above the stratosphere and directly below the thermosphere.
4) The thermosphere The outermost shell of the atmosphere, between the mesosphere and outer space, where temperatures increase steadily with altitude. 5) The exosphere atmosphere This is the upper limit of our atmosphere(space)
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Gases of atmosphereThe thin layer of gases that envelops the Earth is held in place by the planet's gravity
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Solar energy and human nutrition
• increasing agriculture productions lead to increase energy flow in an ecosystem by using the high quality energy (sun),
• continuous flow of energy is provided for living organism as heat energy
• Any Ecosystem depends on two natural fundamental process; Solar energy and cycling of matter
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The Sun is Most Common Source of Energy in Every Ecosystem
The flow of energy in an ecosystem is an open system; the sun constantly gives the planet energy in the form of light while it is eventually used and lost in the form of heat throughout the trophic levels of a food web
(high quality energy), which is the main source of energy to maintain life
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• All types of ecosystems depend mainly on solar energy or sun
• The Sun is the main source of energy that sustain life on our planet, supply energy light that used by green plant in the process of photosynthesis.
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Photosynthesis; is the a process of how plant obtain its carbohydrates (stored chemical energy) by using carbon
dioxide (CO2), sun light and green pigments (chlorophyll) for production of carbohydrate and
oxygen.
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energy flow in and between ecosystems (solar energy)
Energy flow is the amount of energy that moves through a food chain
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According to the energy flow within ecosystems there are three types;
• 1-solar powered ecosystem• This types of ecosystem mainly depend on the
sun energy such as ocean, sea, grass land, deep lake ecosystems.
• They characterized by their low productivities due to the low of energy flow
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• 2-subsidized solar powered ecosystem• In this ecosystem additional to solar energy it
subsidized by other types of energy flow and thus lead to high productivities (increasing number of living organisms)
• naturally subsidized solar powered ecosystem
• Tropical rain forest
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• 3-fuel powered ecosystem• This types of ecosystems include biomass and
geothermal energy, • This types of ecosystem include cities and industrial
places. • It characterized by their; • -very high energy flow due to high population and
other animals (over populated), such energy needed for industrial and transportation purposes.
• -very high productivities• -highly polluted ecosystem
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energy flow and cycling of mattersThe interaction between matter and energy is the main important phenomena in
ecology
• An example of energy flow in an ecosystem would begin with the autotrophs that take energy from the sun.
• Herbivores then feed on the autotrophs and change the energy from the plant into energy that they can use.
• Carnivores subsequently feed on the herbivores and, finally, other carnivores prey on the carnivores.
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Organisms' Role in the Flow of Energy
• All ecosystems are made up of three types of nutritional groups;
• -producers; green plant (phytoplankton)• Plants are a common example of producers in all
populations. They are able to convert carbon dioxide into oxygen and glucose, a common sugar consumed by most organisms.
• -consumers; herbivores, carnivores and omnivores• -decomposers; bacteria and fungi
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Food chains and food webs are representations of the predator-prey relationships between species within an ecosystem or habitat. Every known food chain has a base made of autotrophs, organisms able to manufacture their own food
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Food chains and Food web;
• The position that organism occupies on a food chain is called its trophic level, this position depends on whether it is a plant or animal
• -First trophic level (the producer, green plant).• -second trophic level or primary consumer (herbivores which eat
plant)• -third trophic level, secondary consumers or carnivores which eat
herbivores• -fourth trophic level, tertiary consumers carnivores eat small
carnivores• -decomposers such as bacteria and fungi• A food web is a series of related food chains displaying the
movement of energy and matter through an ecosystem.
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A biogeochemical cycle cycling of matter; it is naturally process that recycle nutrients in
different chemical forms from a biotic environment to living organisms and then back to non-living environment
• 1-gaesous cycles; such as carbon, oxygen, nitrogen, in such cycles nutrients circulate among atmosphere, the hydrosphere and living organisms
• 2-sedimentary cycles; nutrients circulate among the earth crust, the hydrosphere and living organisms
• 3-water cycle or hydrologic cycle; is the continuous movement of water on, above, and below the surface of the Earth.
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Nitrogen cycle*Nitrogen is the most abundant gas found in atmosphere, it constitute about 78%of the air.
*All living organisms required nitrogen in different forms to built or synthesized protein, nucleic acids (DNA, RNA) and other nitrogenous containing compounds.*Plant and animals cannot make use of nitrogen in the form of gases. Plant can only take nitrogen in the form of Nitrate "NO3" which they absorb from the soil. Animals can obtain nitrogen by eating plants or animals, which eat plants.
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Carbon cycleThe producer (plant) absorbs CO2 from the atmosphere and uses it for production of carbohydrates
(process of photosynthesis).
Carbon is the basic building block of carbohydrates, fats, proteins and nucleic acids (DNA,RNA). The carbon cycle is the biogeochemical cycle by which carbon exchanged among the biosphere, hydrosphere, and atmosphere of the Earth.Carbon cycle mainly based on carbon dioxide "CO2". It is estimated that carbon dioxide makes up about 0.03% by volume of the troposphere. It is also found in dissolved in water.
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Oxygen cycle Oxygen cycle connected with the carbon cycle.
consumer take oxygen and release carbon dioxide. Producers use carbon dioxide and release oxygen during daytime (photosynthesis). Oxygen also found dissolved in water for aquatic life.Decay by the action of bacteria and fungi release back all elements from organic bodies again to the atmosphere where it recycles again and again
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Phosphorous cycle*Phosphorous is an essential nutrient for both plants and animals. It enter in the formation of nucleic acids molecules (DNA, RNA)
that carry the genetic characteristics and information of living cells*It is also part of the chemical
compounds (ATP, ADP) adenosine tri-phosphate adenosine mono-phosphate. These chemical compounds responsible for energy storage or known as the currency energy of the body. Chemical energy is stored for use by organisms during cellular respiration and to be use later for other activities that required energy. *phosphorous also important elements for formation of bones and teeth in animals with the presence of calcium and vitamin D.*in the sedimentary phosphorus cycle, various forms of phosphorous are cycled through water, earth crust and living organisms. Found mainly in the forms of phosphate ions PO4 and HPO3
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Sulfur cycle*sulfur is an important nutrient for living organisms. It is part of
formation of some amino acids. Amino acids are building block for tissues.
*during this sedimentary sulfur cycle, sulfur transformed into different compounds and circulates through hydrosphere, earth crust, atmosphere and living organism.*sulfur found in large amount in nature (in oceans, sedimentary rocks and as ions in soil and water).*most sulfur compounds present in the atmosphere in the form of sulfur dioxide (SO2)*sulfur found in living tissues. *it enter atmosphere from natural sources as gases;-sulfur dioxide (SO2) and hydrogen sulfide (H2S from active volcanoes -hydrogen sulfide (H2S) that form by the decay of organic matter (oxidation of organic matter) by the action of anaerobic decomposers
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• Basic building block for all matter are• hydrogen,• oxygen, • carbon, • phosphorus,• sulfur, • chlorine,• fluorine, • sodium,• calcium etc. found in nature as molecules
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six major elements that occur in similar proportions in all life-forms
• The cells of all organisms are made up primarily of six major elements
• These elements; carbon, oxygen, nitrogen, hydrogen, phosphorous and sulfur
• Nutrients are elements found in food• Three types of nutrients that provide energy• Carbohydrates, proteins and lipids • energy: the capacity to do work. The energy in food
is chemical energy. The body can convert this chemical energy to mechanical, electrical, or heat energy
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• Carbon is used to make carbohydrates, fats, and proteins, the major sources of food energy.
• These compounds are oxidized to release carbon dioxide, which can be captured by plants to make organic compounds.
• The chemical reaction is powered by the light energy of the sun
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Carbohydratesthe main source of energy (glucose)
Carbohydrates are organic compound consist of carbon, hydrogen, and oxygen atoms.
ratio of hydrogen to oxygen is 2:1. Carbohydrates range from simple monosaccharide (glucose, fructose, galactose) to complex polysaccharides (starch).
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Proteins
are complex organic compound found in animal and plant tissues.
The protein molecules are nitrogen-containing amino acids, in addition to carbon, oxygen, and hydrogen. Amino acids are the building block of proteinAmino acids contain Carbon, Hydrogen, Oxygen, Nitrogen, and sometimes SulfurAmino acids have two function groups (both of which are typically in the ionized form)1- NH2 Amino functional group2-COOH Carboxyl functional group
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Lipids are long hydrocarbon molecules
storage of energy
Lipids are chemical compound naturally occurring substance; consist of carbon, hydrogen, and oxygen, widely found in plant and animal kingdoms.A molecule of dietary fat consists of several fatty acids (containing long chains of carbon and hydrogen atoms), bonded to a glycerol. They are typically found as triglycerides (three fatty acids attached to one glycerol backbone).
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ATP (adenosine triphophate)ATP or adenosine tri-phosphate has the ability to enter
all cells. it is known as energy currency of the cells
• Main sources of energy is obtained from cellular respiration (oxidation of carbohydrate, lipids & proteins); Glucose the final end product of nutrients metabolism is oxidized
• 1-glycolysis (aerobic – anaerobic)
• 2-Kerb’cycle (citric acid cycle)
• 3-Electron Transport Chain
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ATP is a source of high-energy phosphate
ATP is present everywhere in the cytoplasm and nucleoplasm of all cells and essentially for all the physiological mechanisms that required energy. *within the cells the nutrients amino acids, fatty acids and glucose react with oxygen (oxidation) to form carbon dioxide, water and energy. Energy produced used to form adenosine tri-phosphate
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Glycolysis Phase one –energy requiring
Glycolysis; splitting of glucose molecule to form 2 molecules of pyruvic acid (pyruvate). This process occurs by 10 steps of chemical reactions, each reaction is catalysed by one specific protein enzyme it has 2 phases
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Glycolysis Phase two–energy yeilding
Glucose--oxidation----2lactic acid (the end product of glycolysis under anaerobic condition) or pyruvate (under aerobic condition) + 2ATP (net formation of glucose oxidation).
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kerb's cycle
kerb's cycle is a series of reactions in the Mitochondria that bring about the catabolism of acetyl residues, liberating hydrogen equivalent (2H) which on oxidation lead to the release of most of the free energy of tissue fuels. the acetyl residues are in the form of acetyl Co-enzyme A (active acetate).
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Electron transport chain The electron transport chain is third and final common pathway in aerobic cellular respiration to
generate ATP.
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• During various steps in glycolysis and the citric acid cycle, the oxidation of certain intermediate precursor molecules causes the reduction of NAD+ to NADH + H+ and FAD to FADH2.
• NADH and FADH2 then transfer protons and electrons to the electron transport chain to produce additional ATPs from oxidative phosphorylation (is when phosphorylation is coupled with biological oxidation)
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Other types of energyBiomass is all biologically-produced matter based in
carbon, hydrogen and oxygenWood is a typical source of biomass
Biomass is a renewable energy source of biological material derived from living, or recently living organisms. In the context of biomass for energy this is often used to mean plant based material, but biomass can equally apply to both animal and vegetable derived materialbiomass is the only source of fuel for domestic use in many developing countries.
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Fossil fuelsFossil fuels such as coal, oil and gas are also derived from
biological material, however material that absorbed CO2 from the atmosphere many millions of years ago.
Coal, oil and gas are called "fossil fuels" because they have been formed from the organic remains of prehistoric plants and animals
As fuels they offer high energy density use of that energy involves burning the fuel, with the oxidation of the carbon to carbon dioxide and the hydrogen to water (vapour). these combustion products are usually released to the atmosphere, returning carbon that trapped in it for millions of years back to atmosphere and thus contributing to increased atmospheric concentrations C2O
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Geothermal energy; heat contained in under ground rocks and fluids.
Geothermal energy is the heat from the Earth. It's clean and sustainable. Resources of geothermal energy range from the shallow ground to hot water and hot rock found a few miles beneath the Earth's surface, and down even deeper to the extremely high temperatures of molten rock called magma
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Ref.• Johnson, D.L., S.H. Ambrose, T.J. Bassett, M.L. Bowen, D.E. Crummey, J.S. Isaacson, D.N. Johnson, P.
Lamb, M. Saul, and A.E. Winter-Nelson. 1997. Meanings of environmental terms. Journal of Environmental Quality 26: 581-589.
• Skinner, B.J. & Porter, S.C.: Physical Geology, page 17, chapt. The Earth: Inside and Out, 1987, John Wiley & Sons,
• Kennish, Michael J. (2001). Practical handbook of marine science. Marine science series (3rd ed.). CRC Press. p. 35.
• Jules Pretty and Andy Ball Introduction to Environment and Society• Barange M, Field JG, Harris RP, Eileen E, Hofmann EE, Perry RI and Werner F (2010)
Marine Ecosystems and Global Change Oxford University Press. • Campbell, Neil A. (2009), Biology Concepts & Connections Sixth Edition page 2, 3 and G-9. • Odum, EP (1971) Fundamentals of ecology, third edition, Saunders New York• United Nations Environment Programme. Convention on Biological Diversity. June 1992. UNEP
Document no. Na.92-78• Earth's Spheres. 1997-2000. Wheeling Jesuit University/NASA Classroom of the Future. Retrieved
November 11, 2007.• Beckett B.S (1986), Biology, A modern introduction. Oxford university press• The World's #1 Renewable Energy Network for News & Information 2013
• http://www.biomassenergycentre.org.uk/portal/page?_pageid=76,15049&_dad=portal
• http://www.darvill.clara.net/altenerg/fossil.htm