Classification and Ecology What is a Species Species
- Slides: 55
Classification and Ecology
What is a Species? • Species – Distinct form of life – Creates much diversity or variety within life • Biological Species concept – defines species as a population or group of populations whose members have the ability • to reproduce
Micro and Macro Evolution • Microevolution – changes or mutations within the genes of a population • Macroevolution – major biological changes evident in the fossil record – Ex. Extinction of a species, new features like wings – https: //www. ted. com/talks/prosanta_chakra barty_clues_to_prehistoric_times_found_in _blind_cavefish
Reproductive Barriers Between Species • Reproductive Isolation – condition in which a reproductive barrier keeps two species from interbreeding – Timing – Different breeding seasons – Behavior – Different courtship or mating behaviors – Habitat – Adapted to different habitats in the same general location – Physical differences – reproductive structures are physically incompatible – Fertility – unable to reproduce
Geographic Isolation and Speciation • Geographic Isolation – separation of populations as a result of geographic change or migration to geographically isolated places – Ex. Mountain forms, glacier movement • This can lead to new evolutionary developments and then new species • Speciation – formation of a new species
Geographic Isolation and Speciation
Modern Taxonomy • Taxonomy – branch of biology that deals with identifying, classifying, and naming species • Classification – organizing species into larger groups of related species
Modern Taxonomy • Carolus Linnaeus – Binomial Nomenclature – two part naming system • Genus and species name • Ex: Domesticated dogs Genus: Canis Species: familiaris Wolves Genus: Canis Species: lupus
7 Levels of Classification • • 1. kingdom 2. phylum 3. class 4. order 5. family 6. genus 7. species – When moving down this list, organisms in each classification level are more closely related
The Three Domains of Life • Domain – Broadest category of classification – Archaea, Bacteria, Eukarya • Kingdoms – category of classification after domains – 4 kingdoms within Eukarya domain • Animals, Plants, Fungi, Protists – 1 kingdom within Archaea domain • Archaebacteria – 1 kingdom within the Bacteria domain • Eubacteria
Ecology • Ecology – from Greek oikos ‘house’ • the study of interactions among organisms and between organisms and environment (Haeckel, 1866) • Interdependence – dependence between or among individuals or things
Levels of Organization 1. Biosphere – largest level, our entire planet - portions of planet where life exists (land, H 2 O, air) – 8 km above to 11 km below
Levels of Organization 2. Biome – group of ecosystems that share similar climates (temp. and rainfall) 3. https: //www. yo utube. com/watc h? v=iz. Rv. Pa. A Wgyw
Levels of Organization 3. Ecosystem – collection of all organisms in a particular place together with the abiotic (physical) environment.
Levels of Organization 4. Community – groups of different populations that live together in a defined area. 5. Population – groups of individuals of same species that live in same area. 6. Species – group of organisms that can breed and produce fertile offspring.
Levels of Organization
Biotic and Abiotic Factors • Biotic – living part of the environment – Plants, Animals , Mold, Fungi, Bacteria, Protist • Abiotic – Nonliving part of the environment – Sunlight, heat, soil, wind, water, temperature • Environment – all conditions or factors surrounding an organism; includes both biotic and abiotic factors.
Energy, Producers, and Consumers At the core of every organism’s interaction with the environment is its need for ENERGY to power life’s processes
Producers (Autotrophs) • Can trap energy to produce food • Use solar or chemical energy to produce food by assembling inorganic compounds into complex organic molecules – Plants – Some protist – Some bacteria
Primary Producers • Photosynthesis – captures solar energy and converts it to chemical energy sunlight 6 CO 2 + 6 H 2 O C 6 H 12 O 6 + 6 O 2 • Chemosynthesis – Chemical energy used to produce carbohydrates – bacteria in harsh environments – deep sea volcanic vents or hot springs
Consumers (Heterotrophs) • Can’t trap energy directly; must acquire it from other organisms – Herbivores – eat plant leaves, roots, seed or fruits (cow, catepillar, deer) – Carnivores – eat other animals (snakes, dogs cats) – Omnivores – eat both plant and animal (human, bear, pigs)
Consumers (Heterotrophs) • Scavengers – consume carcasses of other animals (vultures and hyenas) • Decomposers – break down organic matter (bacteria and fungi) – produces detritus (small pieces of dead and decaying plant and animal remains) • Detritivores – feed on detritus (earthworms and many types of snails, mites, shrimp, crabs)
3. 3 Energy Flow in Ecosystems § Food Chains § Food Webs How Ecosystems Work (3: 23)
Food Chains and Food Webs SUN Autotrophs Heterotroph 1. Food Chain – energy trapped by producers passed on when organisms eat and are eaten 2. Food Web – relationship more complex than a chain
Food Web Activity
Trophic Levels and Ecological Pyramids • Trophic Levels – each step in a food chain/web Ex: producers, then consumers • Ecological Pyramids – shows relative amount of energy at each trophic level of a food chain or web. • Biomass – total amount of living tissue within a trophic level
3. 4 Cycles of Matter *Recycle Matter*
Carbon Cycle • Photosynthesis – uses CO 2 from atmosphere – Happens in the CHLOROPLAST 6 CO 2 + 6 H 2 O C 6 H 12 O 6 + 6 O 2 • Respiration – returns CO 2 to atmosphere – Happens in the MITOCHONDRIA C 6 H 12 O 6 + O 2 H 2 O + CO 2
Carbon Cycle
The Carbon Cycle 1. Volcanoes, respiration, fossil fuels, and decomposition add CO 2 to atmosphere. • • Organic carbon is locked deep beneath the Earth’s surface – high pressure converts layers of sediment (dead organisms and waste) to carbon-rich fossil fuels. Fossil fuels are extracted and processed to make gasoline and oil –burning fossil fuels release CO 2 2. Plants take CO 2 and make carbohydrates - glucose (C 6 H 12 O 6). 3. Plants are eaten by animals and carbohydrates are passed through the food chain. 4. As the animal breathes and eventually dies and decomposes, CO 2 is returned to the atmosphere.
Carbon Cycling
Water Cycle
Water Cycle 1. Water enters the atmosphere by: • • Evaporation – water changes from a liquid to a gas Transpiration – Evaporation through leaves 2. As water rises it cools condenses into tiny droplets that form clouds. 3. Droplets returns to Earth as precipitation. 4. Water enters the rivers, ground water, ocean or plant roots to restart cycle.
Nitrogen Cycle
Nitrogen. Cycle 1. Nitrogen gas makes up 78% of atmosphere 2. Nitrogen Fixation: bacteria take nitrogen gases and turn it into ammonia, nitrite, and nitrate. 3. Plants and animals use nitrate to make amino acids. 4. Animal dies and decomposes returning nitrates to the soil. 5. Denitrification: other bacteria convert nitrates into nitrogen gas.
The Phosphorus Cycle
The Phosphorus Cycle • Phosphate – parts of DNA/RNA • Found in rocks that are worn down • Washes into rivers/streams/oceans for marine organisms • Taken in by plants and turned into organic compounds
Nutrient Limitation • Primary Productivity – the rate at which organic molecules are created by producers • If nutrients are in short supply, they are called LIMITING NUTRIENTS Ex: Nitrogen is often limiting in water; if there is suddenly as input of N (fertilizer runoff), organisms can grow rapidly (Algal Bloom)
Chapter 4: Ecosystems and Communities 4 -1 The Role of Climate
Climate • Climate: long-term, over entire biome area – Weather: short-term, local • Greenhouse Effect – It’s a good thing! – CO 2, H 2 O, CH 4 all trap heat and hold it next to the surface – Keeps the temperature suitable for life Video Clip 1 Video Clip 2
The Effect of Latitude on Climate • Earth has 3 climate zones due to unequal heating because of the angle of the sun – Polar – Temperate – Tropical
Heat Transport • Ocean and wind currents help produce Earth’s climates • They are affected by land masses and Earth’s rotation
4 -2 Niches and Community Interactions
The Niche • Niche – where and how something lives; the way the species obtains what it needs to survive and reproduce – Habitat is the general place where an organism live (address) – Niche is the organism’s how it interacts with biotic and abiotic factors (occupation)
Community Interactions 1. Competition • Organisms compete for resources Ex: Food, Mates, Shelter • Competitive Exclusion Principle – no 2 organisms occupy exactly the same niche in exactly the same habitat at exactly the same time. • winner and a loser 2. Predation • One organism (predator) captures and feeds on another (prey).
Community Interactions 3. • Symbiosis Mutualism – both species benefit Ex: Flowers & insects, Clown Fish & Sea Anemone, Egrets & Alligators • Commensalism – one benefits, the other is not helped nor harmed Ex: Barnacle (gets food) & Whale • Parasitism – one benefits, other is harmed Ex: tapeworms, fleas, ticks, lice
Examples of Symbiosis 5 min video Bed bugs Aphid – destructive insect pests Grey shark with pilot fish
4. 3 Ecological Succession - change in an ecosystem 1. Primary Succession – no remnants of an older community (volcanic eruption, glacier erosion = reveals bare rock) o 1 st species to colonize barren areas are called “pioneer species” o Ex: algae, fungi, lichens - composite, symbiotic organisms 2. Secondary Succession – disturbance affects the community soil exists (flood, hurricane, wild fires, clear cutting, plowed for farming) 3. Climax Community – fairly stable, dominant community established after succession.
Intro to Biomes 4 -4 Land Biomes
Biomes based on Precipitation and Temperature
Videos on Biomes • Terrestrial Biomes: Deserts, Grasslands, and Forests (3: 39) • Savanahs (2: 36)
• Type I curves high probability of surviving to adulthood. • Type II curves chance of survival is independent of age. • Type III curves depict individuals that mostly die in the early stages of their life.
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