4.1 species, communities, and ecosystems Flashcards
species
groups of organisms that can potentially interbreed to produce fertile offspring
population
Reproductively isolated members of a specie
community
formed by populations of different species living together and interacting with each other
ecosystem
Interactions of the community with the abiotic (non-living) environment
2 types of species
autotrophs and heterotrophs
autotrophs
aka: Producers
Take inorganic compounds from the environment and synthesize organic compounds (carbohydrates, lipids, proteins).
ex: chemoautotrophs and photoautotrophs
photoautotrophs
Photoautotrophs, such as plants, convert carbon dioxide and water into carbon compounds in the presence of light energy.
chemoautotrophs
Chemoautotrophs (some bacteria and archaea) can convert inorganic molecules, such as hydrogen sulfide, into organic compounds in the presence of heat energy
heterotrophs
aka: Consumers
Obtain organic carbon compounds from ingestion of autotrophs or other heterotrophs
- includes detritovores and sapotrophs
detritovores
obtain organic compounds from internally digesting detritus (decomposing plant/animal parts, feces)
Ex: Earthworms, millipedes, slugs, sea cucumbers
sapotrophs
obtain organic compounds from externally digesting dead organisms
-Ex: Fungi & Soil bacteria
-Complex organic molecules are broken into smaller components (enzyme-catalyzed reaction)
-Then, smaller organic molecules are taken in via active transport (endocytosis)
-Requires: moisture, neutral-acidic pH, oxygen, warm temperature (1-35C)
nutrient cycling
- Autotrophs obtain inorganic nutrients from the air, water and soil and convert them into organic compounds
- Heterotrophs ingest these organic compounds and use them for growth and respiration, releasing inorganic byproducts
- When organisms die, saprotrophs decompose the remains and free inorganic materials into the soil
- The return of inorganic nutrients to the soil ensures the continual supply of raw materials for the autotrophs
