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Chapter 50 An Introduction to Ecology and The Biosphere. I. Scope of ecology A. Interactions between organisms and their environment 1. Ecology is the scientific study of the interactions between organisms and their environment.
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Chapter 50 An Introduction to Ecology and The Biosphere
I. Scope of ecology A. Interactions between organisms and their environment 1. Ecology is the scientific study of the interactions between organisms and their environment. a. Interactions determine distribution and abundance of organisms. b. Three main themes in ecology are: - Where do organisms live? - How many organisms are present? - Why are they located where they are? Figure 50.1 (p. 1093) – Distribution and abundance of the red kangaroo in Australia, based on aerial surveys.
c. Ecology was historically an observational science, often descriptive à natural history. d. An organism’s environment has both abiotic and biotic components. - Abioticcomponents are nonliving chemical and physical factors such as temperature, light, water, and nutrients. - Bioticcomponents are living factors such as other organisms.
2. Ecology and evolutionary biology are closely related sciences a. Events that occur in the framework of ecologicaltime (minutes, days, years) translate into effects over evolutionarytime (decades, millennia). Example: Hawks feeding on mice impact mouse population and may eventually lead to selection for mice with fur as camouflage.
3. Ecological research scale ranges from individuals to the biosphere a. Organismalecology is about the way in which an individual interacts with its environment. b. Populationecology is the study of a group of individuals of the same species. c. Communityecology deals with all interacting species within a particular area.
d. An ecosystem consists of all abiotic factors plus all organisms that exist in a certain area àEcosystemecology. e. Landscape ecology deals with ecosystems that exist within an area and the exchange of energy, material and organisms between these ecosystems. f. The biosphere is the global ecosystem. Global climate research is an example of ecology at the biosphere scale. Figure 50.2 (p. 1094) – Sample questions at different levels of ecology.
II. Factors affecting the distribution of organisms - Biogeography is the study of past and present distribution of individual species. Figure 50.4 (p. 1095) – Biogeographic realms.
A. Species dispersal contributes to the distribution of organisms • Dispersal refers to the process of distribution of individuals within geographic population boundaries. • Question: Is the distribution of a species limited by dispersal, i.e. by movement of the organisms? • Answer can be obtained by transplant experiments. • If the transplant is successful, then the organisms just haven’t reached the target area. • If the transplant is not successful, then other factors limit the distribution of the organisms, such as competitors, lack of a food source, etc.
a. Introduced species sometimes have disasterous impacts: - African honeybee, Zebra mussels Figure 50.7 (p. 1097) – Spread of the African honeybee in the Americas since 1956.
Figure 50.8 (p. 1098) – Expansion of the geographic range of the zebra mussel since its discovery near Detroit in 1988.
B. Behavior and habitat selection contribute to the distribution of organisms 1. Organisms may not occupy all potentially suitable habitat. Why? a. Evolution doesn’t lead to perfect organisms. b. Evolution is an ongoing process. Environments change, but it takes a while for organisms to respond. C. Biotic factors affect distribution 1. Organisms required for potential community members to colonize may be lacking. - Pollinators, prey, predators that limit competition Figure 50.9 (p. 1099, ed. 6; Fig. 50.8, p. 1086, ed. 7) – Predator-removal experiments.
D. Abiotic factors affect distribution 1. Abiotic factors of interest include: - Temperature (range from 0 to 45 C) - Water - Sunlight (water absorbs light, limits area of photysnthesis - Wind (increases heat loss) - Rocks and soil
2. Two important ecological occurrences: a. Seasonal variation alters temperature and precipitation. Figure 50.12 (p. 1102) – What causes the seasons?
b. Lake stratification and mixing alters oxygen and nutrient levels. Dependent on temperature changes and effect on water density. Figure 50.15 (p. 1104) – Lake stratification and seasonal turnover.
III. Aquatic and terrestrial biomes (Biome = major ecosystem type) Read and know pages 1106-1117 (ed. 6) or pages 1092-1103 (ed. 7) with pictures of major biomes
A. Aquatic biomes cover about 75% of the earth’s surface - Wetlands - Lakes - Rivers, streams - Intertidal zones - Oceanic pelagic biome - Coral reefs - Benthos Figure 50.17 (p. 1106) – The distribution of major aquatic biomes.
Oligotrophic Lake: Nutrient poor, water is clear, oxygen rich; little productivity by algae, relatively deep with little surface area.
Eutrophic lake: nutrient rich, lots of algal productivity so it’s oxygen poor at times, water is murkier often a result of input of agricultural fertilizers
Rivers and Streams: Organisms need adaptations so that they are not swept away by moving water; heavily affected by man changing the course of flow (E.g. dams and channel-straightening) and by using rivers to dispose of waste.
Wetlands: includes marshes, bogs, swamps, seasonal ponds. Among richest biomes with respect to biodiversity and productivity.Very few now exist as they are thought of often as wastelands.
Estuary: Place where freshwater stream or river merges with the ocean. Highly productive biome; important for fisheries and feeding places for water fowl. Often heavily polluted from river input so many fisheries are now lost.
Intertidal Zone: Alternately submerged and exposed by daily cycle of tides. Often polluted by oil that decreases biodiversity.
Coral Reefs: occur in neritic zones of warm, tropical water, dominated by cnidarians (corals); very productive, protect land from storms; most are now dying from rise in global temperatures
Deep-sea vent: Occurs in benthic zone; diverse, unusual organisms; such as 1-m long worms energy comes not from light but from chemicals released from the magma.
B. Terrestrial biomes - Tropical forest - Savanna - Desert - Chaparral - Temperate grassland - Temperate deciduous forest - Coniferous forest - Tundra Figure 50.24 (p. 1112) – The distribution of major terrestrial biomes.
Tropical Forest: Vertical straitification with trees in canopy blocking light to bottom strata. Many trees covered by epiphytes (plants that grow on other plants).
Savanna: Dominate animals are insects (termites and ants). Grasses are dominant plants that are productive in rainy season. Fire during drought is frequent and life is adapted for it, such as migration by large animals.
Desert: Sparse rainfall (< 30 cm per year), plants and animals adapted for water storage and conservation. Can be either very, very hot, or very cold (e.g. Antarctica)