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Exploring Ecology and Biosphere: A Comprehensive Overview

Discover the intricate interactions between organisms and their environment, influencing worldwide ecosystems. Learn the various levels of ecological research from individuals to the global scale. Ecology integrates biological fields, informing environmental decisions. Explore the limits and patterns of species distribution, crucial for understanding ecosystem dynamics. Ecologists emphasize both biotic and abiotic factors shaping biodiversity and species ranges.

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Exploring Ecology and Biosphere: A Comprehensive Overview

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  1. Chapter 52 An Introduction to Ecology and the Biosphere

  2. Overview: The Scope of Ecology • Ecology is the scientific study of the interactions between organisms and the environment • These interactions determine distribution of organisms and their abundance • Ecology reveals the richness of the biosphere

  3. The Scope of Ecological Research • Ecologists work at levels ranging from individual organisms to the planet

  4. Organismal ecology studies how an organism’s structure, physiology, and (for animals) behavior meet environmental challenges

  5. Fig. 52-2 Organismal ecology Population ecology Community ecology Ecosystem ecology Landscape ecology Global ecology

  6. A population is a group of individuals of the same species living in an area • Population ecology focuses on factors affecting how many individuals of a species live in an area

  7. A community is a group of populations of different species in an area • Community ecology deals with the whole array of interacting species in a community

  8. An ecosystem is the community of organisms in an area and the physical factors with which they interact • Ecosystem ecology emphasizes energy flow and chemical cycling among the various biotic and abiotic components

  9. A landscape is a mosaic of connected ecosystems • Landscape ecology deals with arrays of ecosystems and how they are arranged in a geographic region

  10. The biosphere is the global ecosystem, the sum of all the planet’s ecosystems • Global ecology examines the influence of energy and materials on organisms across the biosphere

  11. Concept 52.1: Ecology integrates all areas of biological research and informs environmental decision making • Ecology has a long history as a descriptive science • It is also a rigorous experimental science

  12. Fig. 52-3 Trough Pipe “Dry” “Wet” “Ambient”

  13. Linking Ecology and Evolutionary Biology • Events that occur in ecological time affect life on the scale of evolutionary time

  14. Ecology and Environmental Issues • Ecology provides the scientific understanding that underlies environmental issues • Ecologists make a distinction between science and advocacy • Rachel Carson is credited with starting the modern environmental movement with the publication of Silent Spring in 1962

  15. Concept 52.2: Interactions between organisms and the environment limit the distribution of species • Ecologists have long recognized global and regional patterns of distribution of organisms within the biosphere • Biogeography is a good starting point for understanding what limits geographic distribution of species • Ecologists recognize two kinds of factors that determine distribution: biotic, or living factors, and abiotic, or nonliving factors

  16. Fig. 52-5 Kangaroos/km2 0–0.1 0.1–1 1–5 5–10 10–20 > 20 Limits of distribution

  17. Ecologists consider multiple factors when attempting to explain the distribution of species

  18. Fig. 52-6 Why is species X absent from an area? Yes Area inaccessible or insufficient time Yes Habitat selection Does dispersal limit its distribution? Yes Predation, parasitism, competition, disease Chemical factors Does behavior limit its distribution? No Do biotic factors (other species) limit its distribution? Water Oxygen Salinity pH Soil nutrients, etc. No Do abiotic factors limit its distribution? No Temperature Light Soil structure Fire Moisture, etc. Physical factors

  19. Dispersal and Distribution • Dispersal is movement of individuals away from centers of high population density or from their area of origin • Dispersal contributes to global distribution of organisms

  20. Natural Range Expansions • Natural range expansions show the influence of dispersal on distribution

  21. Fig. 52-7 Current 1970 1966 1965 1960 1961 1943 1958 1937 1951 1956 1970

  22. Species Transplants • Species transplants include organisms that are intentionally or accidentally relocated from their original distribution • Species transplants can disrupt the communities or ecosystems to which they have been introduced

  23. Behavior and Habitat Selection • Some organisms do not occupy all of their potential range • Species distribution may be limited by habitat selection behavior

  24. Biotic Factors • Biotic factors that affect the distribution of organisms may include: • Interactions with other species • Predation • Competition

  25. Fig. 52-8 RESULTS 100 Both limpets and urchins removed 80 Sea urchin Only urchins removed 60 Seaweed cover (%) Limpet 40 Only limpets removed 20 Control (both urchins and limpets present) 0 August 1982 February 1983 August 1983 February 1984

  26. Abiotic Factors • Abiotic factors affecting distribution of organisms include: • Temperature • Water • Sunlight • Wind • Rocks and soil • Most abiotic factors vary in space and time

  27. Temperature • Environmental temperature is an important factor in distribution of organisms because of its effects on biological processes • Cells may freeze and rupture below 0°C, while most proteins denature above 45°C • Mammals and birds expend energy to regulate their internal temperature

  28. Water • Water availability in habitats is another important factor in species distribution • Desert organisms exhibit adaptations for water conservation

  29. Salinity • Salt concentration affects water balance of organisms through osmosis • Few terrestrial organisms are adapted to high-salinity habitats

  30. Sunlight • Light intensity and quality affect photosynthesis • Water absorbs light, thus in aquatic environments most photosynthesis occurs near the surface • In deserts, high light levels increase temperature and can stress plants and animals

  31. Fig. 52-9

  32. Rocks and Soil • Many characteristics of soil limit distribution of plants and thus the animals that feed upon them: • Physical structure • pH • Mineral composition

  33. Climate • Four major abiotic components of climate are temperature, water, sunlight, and wind • The long-term prevailing weather conditions in an area constitute its climate • Macroclimate consists of patterns on the global, regional, and local level • Microclimate consists of very fine patterns, such as those encountered by the community of organisms underneath a fallen log

  34. Global Climate Patterns • Global climate patterns are determined largely by solar energy and the planet’s movement in space • Sunlight intensity plays a major part in determining the Earth’s climate patterns • More heat and light per unit of surface area reach the tropics than the high latitudes

  35. Fig. 52-10a Latitudinal Variation in Sunlight Intensity 90ºN (North Pole) 60ºN Low angle of incoming sunlight 30ºN 23.5ºN (Tropic of Cancer) Sun directly overhead at equinoxes 0º (equator) 23.5ºS (Tropic of Capricorn) 30ºS Low angle of incoming sunlight 60ºS 90ºS (South Pole) Atmosphere Seasonal Variation in Sunlight Intensity 60ºN 30ºN March equinox 0º (equator) June solstice 30ºS December solstice Constant tilt of 23.5º September equinox

  36. Fig. 52-10b 90ºN (North Pole) 60ºN Low angle of incoming sunlight 30ºN 23.5ºN (Tropic of Cancer) Sun directly overhead at equinoxes 0º (equator) 23.5ºS (Tropic of Capricorn) 30ºS Low angle of incoming sunlight 60ºS 90ºS (South Pole) Atmosphere

  37. Seasonal variations of light and temperature increase steadily toward the poles

  38. Fig. 52-10c 60ºN 30ºN March equinox 0º (equator) June solstice 30ºS December solstice Constant tilt of 23.5º September equinox

  39. Global air circulation and precipitation patterns play major roles in determining climate patterns • Warm wet air flows from the tropics toward the poles

  40. Fig. 52-10d Global Air Circulation and Precipitation Patterns 60ºN 30ºN Descending dry air absorbs moisture Descending dry air absorbs moisture 0º (equator) Ascending moist air releases moisture 30ºS 0º 60ºS 23.5º 23.5º 30º 30º Arid zone Arid zone Tropics Global Wind Patterns 66.5ºN (Arctic Circle) 60ºN Westerlies 30ºN Northeast trades Doldrums 0º (equator) Southeast trades 30ºS Westerlies 60ºS 66.5ºS (Antarctic Circle)

  41. Fig. 52-10e 60ºN Descending dry air absorbs moisture Descending dry air absorbs moisture 30ºN 0º (equator) Ascending moist air releases moisture 30ºS 60ºS 0º 23.5º 23.5º 30º 30º Arid zone Arid zone Tropics

  42. Air flowing close to Earth’s surface creates predictable global wind patterns • Cooling trade winds blow from east to west in the tropics; prevailing westerlies blow from west to east in the temperate zones

  43. Fig. 52-10f 66.5ºN (Arctic Circle) 60ºN Westerlies 30ºN Northeast trades Doldrums 0º (equator) Southeast trades 30ºS Westerlies 60ºS 66.5ºS (Antarctic Circle)

  44. Regional, Local, and Seasonal Effects on Climate • Proximity to bodies of water and topographic features contribute to local variations in climate • Seasonal variation also influences climate

  45. Bodies of Water • The Gulf Stream carries warm water from the equator to the North Atlantic • Oceans and their currents and large lakes moderate the climate of nearby terrestrial environments

  46. Fig. 52-11 Labrador current Gulf stream Equator water Warm Cold water

  47. During the day, air rises over warm land and draws a cool breeze from the water across the land • As the land cools at night, air rises over the warmer water and draws cooler air from land back over the water, which is replaced by warm air from offshore

  48. Fig. 52-12 Air cools at high elevation. 2 Cooler air sinks over water. 3 Warm air over land rises. 1 Cool air over water moves inland, replacing rising warm air over land. 4

  49. Mountains • Mountains have a significant effect on • The amount of sunlight reaching an area • Local temperature • Rainfall • Rising air releases moisture on the windward side of a peak and creates a “rain shadow” as it absorbs moisture on the leeward side

  50. Fig. 52-13 Leeward side of mountain Wind direction Mountain range Ocean

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