How do plant communities change over time?

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Ecological Succession: (Important info in blue)

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Presentation transcript:

How do plant communities change over time? Plant Succession is a process of colonization to climax.

Succession = communities in an area change over time into a different community Community = populations of all species living + interacting in an area Association = certain species commonly found together

Different Wildlife use Different Stages of Successional Environments

Species Characteristics EARLY Sunloving Fast growing Fast to reproduce Lots of small seeds Smaller biomass Broad niche Biodiversity low Interactions low Ecosystem stability low LATE Shade tolerant Slow growing Slow to reproduce Larger seeds (more stored food) Larger biomass Narrow niche Biodiversity high Interactions high Ecosystem stability high

EASTERN U.S. SUCCESSION HAS DECIDUOUS TREES AS CLIMAX (NORTH WESTERN forests have conifers as climax type)

Bare Soil Colonizing Old Field Forest

Which Organisms Take Over? First to arrive (Colonizers) Tolerance of environment Early Colonizers tend to: grow rapidly = sun loving mature quickly reproduce with small seeds in large numbers

Seed Dispersal is a Critical Component of Soil Colonization

Colonizers change habitats Plants hold windblown soil + seeds create soil with decomposition (add organics + biomass) create shading/cooler/hold moisture This allows new species with different habitat requirements to come in

Early Successional species include mosses + lichens

Facilitation: The organisms at a given successional stage make the environment more suitable for later successional stages. Examples: lichens breaking down rock into soil, nitrogen-fixing plants

Mosses + lichens capture windblown seeds + soil, allowing herbs grow

Many annual + perennial herbs are also early successional species

Non-native Species Tend to be early successional Tend to have no predators (chemical defenses/interactions) Aggressive and Fast growing Can be extremely disruptive to ecosystems Examples: cheatgrass, Himalayan blackberry, English ivy, clematis, holly

Shrubs and young trees invading a field continue succession

Early-successional habitats are declining due to development, loss of farmland, natural plant succession and the absence of fire. They are also degraded by the invasion of non-native plants

Cottonwood trees in a mid successional forest

Oregon “old growth” climax forest Climax: the end point of a successional sequence, a community that has reached a steady state under a particular set of environmental conditions. Oregon “old growth” climax forest

Climax Steppe-Shrub in Eastern Oregon – Go Sagebrush!

Plant Succession PRIMARY vs... SECONDARY Primary succession = sequence of communities developing in a newly exposed habitat devoid of life starts with bare rock or newly exposed mineral soil (no organic material, no seeds) i.e. lava flows, sand dunes, volcanoes, mines, landslides, bulldozers

Glaciers covered the Puget Sound about 12,000 years ago

Glaciers scraped the surface clean and lands recolonized

Colonizing a bare slope

Big Fires can kill all life = 1. succession

Primary Succession means: No living plants No organisms in the soils No Organic material in soils

SECONDARY = partial disturbance sequence of communities taking place on sites that have already supported life ie. Abandoned farms, clearcut forests, burned areas, etc. i.e. tree falls, small fires, disease/insect impacts, storm damage.

Disturbance: an abrupt event that removes individual organisms or biomass and opens up space (or frees resources) which can be exploited by other organisms. Disturbances vary in spatial scale, intensity, frequency, and type.

SECONDARY SUCCESSION = Question is, how much disturbance = what type? Primary or Secondary? http://www.youtube.com/watch?v=CQ2Xl6ZqzRI

Small fires may only remove some of the vegetation = this is 2 Small fires may only remove some of the vegetation = this is 2. succession

Some species of plants only reproduce after a fire

Species Characteristics EARLY Sunloving Fast growing Fast to reproduce Lots of small seeds Smaller biomass Broad niche Biodiversity low Interactions low Ecosystem stability low LATE Shade tolerant Slow growing Slow to reproduce Larger seeds (more stored food) Larger biomass Narrow niche Biodiversity high Interactions high Ecosystem stability high