Dynamics of Ecosystems. Chapter 57

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Transcription:

Dynamics of Ecosystems Chapter 57 1 The Water Cycle Nutrient Cycles Trophic Levels Primary Productivity Outline The Energy in Food Chains Ecological Pyramids Interactions Among Trophic Levels Species Richness Island Biogeography 2

Chemical Cycling An ecosystem includes all the organisms living in a particular place, and the abiotic environment in which they interact. two main processes: energy entering ecosystems biogeochemical cycles 3 The Water Cycle From the oceans, water evaporates into the atmosphere. From land, 90% of water reaching the atmosphere transpires from plants. Only about 2% of all water on earth is captured in any form. rest is free water circulating between the atmosphere and the oceans 4

Water Cycle 5 Groundwater The Water Cycle Groundwater amounts to more than 96% of all fresh water in the US. Upper, unconfined portion (water table) is partially accessible to plants, while lower layers are generally out of reach. Water table recharged via percolation from rainfall. slow process 6

The Water Cycle Groundwater provides about 25% of all water used in the US, and supplies 50% of the US population with drinking water. Many underground aquifers have much higher withdraw rates than recharge rates. water mining increasing chemical pollution 7 Breaking the cycle The Water Cycle In dense forest ecosystems, more than 90% of moisture is taken up by plants and transpired back into the atmosphere. When forests are cut down, the organismic water cycle is broken. Water drains from the area instead of evaporating and forming clouds. 8

The Carbon Cycle Carbon cycle is based on carbon dioxide which makes up only about 0.03% of the atmosphere. All terrestrial heterotrophic organisms obtain carbon indirectly from photosynthetic organisms. Most organic compounds formed as a result of carbon dioxide fixation are ultimately broken down and released back into the atmosphere. 9 The Carbon Cycle Roughly 700 billion metric tons of carbon dioxide are located in the atmosphere, and approximately 1 trillion metric tons are dissolved in the oceans. Fossil fuels contain another 5 trillion metric tons. Increasing fuel consumption is liberating carbon at an increasing rate. 10

Carbon Cycle 11 The Nitrogen Cycle Relatively few types of organisms can fix nitrogen into forms that can be used for biological processes. Nitrogen fixation: N 2 + 3H 2 2NH 3 Only symbiotic bacteria fix enough nitrogen to be of major significance in nitrogen production. ammonification denitrification 12

Nitrogen Cycle 13 The Phosphorus Cycle Phosphates weather from soils into water, enter plants and animals, and are redeposited in the soil when plants and animals decompose. Millions of tons are added to agricultural land annually to increase crop production. superphosphate 14

Phosphorus Cycle 15 Trophic Levels Autotrophs - capture light energy and manufacture own chemical energy primary producers Heterotrophs - must obtain organic molecules that have been synthesized by autotrophs consumers 16

Trophic Levels Primary consumers - herbivores Secondary consumers - organisms that feed on herbivores Decomposers - break down complex organic material into simpler compounds Detritivores - live on refuse of an ecosystem 17 Trophic Levels 18

Trophic Levels Trophic level refers to the feeding level of an organism. Organisms from each trophic level constitute a food chain. Interconnected food chains constitute a food web. On average, 10% of the organic matter (energy) transfers from one trophic level to the next. 19 Primary Productivity Primary productivity refers to the amount of organic matter produced from solar energy in a given area during a given period of time. Gross primary productivity is the total organic matter produced. Net primary productivity is the amount of organic matter produced that is available to heterotrophs. Secondary productivity - rate of production by heterotrophs 20

21 The Energy in Food Chains Due to the Second Law of Thermodynamics, food chains are generally limited to three or four steps (trophic levels). A community s productivity is ultimately determined by the amount of sunlight it receives. In northern climates, net primary productivity often increases as the growing season lengthens. 22

Ecological Pyramids Moving up a food chain, you generally find fewer individuals at each successive trophic level. 23 Ecological Pyramids Some aquatic ecosystems have inverted biomass pyramids due to high turnover rates. 24

Top carnivores Ecological Pyramids Top-level predators tend to be relatively large, thus the small residual biomass available at the top of the pyramid is concentrated in a relatively small number of individuals. 25 Interactions Among Trophic Levels Trophic cascading refers to the idea that the effect of one trophic level flows down to lower levels. (top-down effects) 26

Interactions Among Trophic Levels Bottom-up effects When productivity of an ecosystem is low, herbivore populations will be too small to support any predators. Increases in productivity will increase herbivore populations. Further increases in productivity will not increase herbivore populations, but will increase predator populations. 27 Effects of Species Richness One theory suggests species-rich communities tend to be more stable. resist disturbance better 28

Causes of Species Richness Factors promoting species richness ecosystem productivity Ecosystems with intermediate levels of productivity tend to have the most species. 29 Causes of Species Richness Spatial heterogeneity Heterogeneous ecosystems provide a greater variety of microhabitats and microclimates. 30

Climate Causes of Species Richness Difficult to assess. In western N. America, species richness is inversely correlated with mean temperature range. 31 Biogeographic Patterns of Species Diversity Many species exhibit a steady increase in species richness from the arctic to the tropics. species diversity cline Diversity in the tropics evolutionary age higher productivity predictability predation spatial heterogeneity 32

Island Biogeography MacArthur and Wilson proposed larger islands contain more species than smaller islands due to the effect of area and isolation on the likelihood of species extinction and colonization. species-area relationship equilibrium model Island species richness is a dynamic equilibrium between colonization and extinction. 33 The Water Cycle Nutrient Cycles Trophic Levels Primary Productivity Summary The Energy in Food Chains Ecological Pyramids Interactions Among Trophic Levels Species Richness Island Biogeography 34

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