Course goals 1)Have you develop a firm understanding of the concepts and mechanisms of ecosystem ecology; 2)Have you enhance your understanding of how.

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Course goals 1)Have you develop a firm understanding of the concepts and mechanisms of ecosystem ecology; 2)Have you enhance your understanding of how human society is altering ecosystems, some of the problems that entails, and some of the solutions that might be possible. 3) Developing skills in critical thinking by discussing the scientific literature; 4) Improve your writing skills; 5) Introduce you to the primary literature and some of the current “hot topics” being studied and debated in the field;

I. What is ecosystem ecology? Definition: studies of interactions among organisms and their physical environment as an integrated system.

II. Why should we care about ecosystem ecology? 1. Ecosystem ecology provides a mechanistic basis for understanding the Earth System. 2. Ecosystems provide goods and services to humanity.

Ecosystem goods and services Chapin et al. 2000

Ecosystem goods and services Goods -Food -Fuel -Fiber -Medicines -Etc. Services -Soil fertility -Climate regulation -Pollination, pest control -Recreation -Etc.

Why should we care about ecosystem ecology? 1. Ecosystem ecology provides a mechanistic basis for understanding the Earth System. 2. Ecosystems provide goods and services to humanity. 3. Humans are changing ecosystems world- wide.

Anthropogenic Global Changes

Fig. 1.5

Global changes Atmospheric Composition - direct effects - climatic change Land use change - type - intensity Species invasions Loss of biodiversity Nutrient cycles

Rising atmospheric CO 2 Schlesinger 1997

Enhanced Greenhouse Effect Starr and Taggart 1997

Global changes Atmospheric Composition - direct effects - climatic change Land use change - type - intensity Species invasions Loss of biodiversity Nutrient cycles

Land Use Change Land Cover Change in Madagascar Intensity of land use – Sacramento Valley, CA

Global changes Atmospheric Composition - direct effects - climatic change Land use change - type - intensity Species invasions Loss of biodiversity Nutrient cycles

Global Nitrogen-fixation Vitousek 1994

Eutrophication of aquatic ecosystems – “Dead zone” in the Gulf of Mexico

Global changes Atmospheric Composition - direct effects - climatic change Land use change - type - intensity Species invasions Loss of biodiversity Nutrient cycles

Global changes Atmospheric Composition - direct effects - climatic change Land use change - type - intensity Species invasions Loss of biodiversity Nutrient cycles

The “Sixth Extinction”? National Geographic 1999

Sustainability?

III. What is an ecosystem? bounded ecological system consisting of all the organisms in an area and the physical environment with which they interact Biotic and abiotic processes Pools and fluxes

Ecosystem components Autotrophs – photosynthetic, chemosynthetic Heterotrophs – herbivores, predators, decomposers Abiotic – soil minerals - water - atmosphere

Fig Spatial scale

Temporal scales For example, photosynthesis: Instantaneous Daily Seasonal Yearly Successional Species migrations Evolutionary history Geological history

Fig. 1.3 – Controls on processes A. State factors B. Interactive controls IV. Controls on Ecosystem Processes

Time

Topographic differences in plant production and nutrient availability in California grasslands Swales N slopes Flats S slopes Taken on the same date

Correlated changes in environment drive ecosystem differences across topographic gradients. Swales N slopes Flats S slopes Deepest soils Shallow soils Warmer and drier in early season Coolest in early season Highest N and P per gram soil Highest total available N and P

Hawai’i as a model ecosystem: Non-correlated gradients help understand effects of different state factors Vitousek et al. 1994

Reciprocal transplant experiments test effects of site vs. substrate Vitousek et al. 1994

C. Feedbacks – negative and positive Fig. 1.4