5 Must Know Facts For Your Next Test

1. Ecosystem productivity is often measured in units of biomass per area per time, such as grams per square meter per year.
2. Factors affecting ecosystem productivity include sunlight availability, water supply, temperature, and nutrient levels in the soil or water.
3. Tropical rainforests and coral reefs are among the most productive ecosystems on Earth due to their favorable conditions for primary production.
4. High nitrogen levels from biological nitrogen fixation can lead to increased productivity in ecosystems by promoting plant growth.
5. Phosphorus release from weathered rocks contributes to ecosystem productivity by enriching soils or aquatic environments with essential nutrients.

Review Questions

• How does biological nitrogen fixation enhance ecosystem productivity?
  • Biological nitrogen fixation enhances ecosystem productivity by converting atmospheric nitrogen into forms that plants can utilize, such as ammonium or nitrate. This process, performed by specific bacteria in root nodules of legumes or free-living bacteria in soil, increases the availability of nitrogen in ecosystems. As nitrogen is a critical nutrient for plant growth, higher nitrogen availability leads to increased primary production and overall ecosystem productivity.
• Discuss the role of weathering in phosphorus release and its impact on ecosystem productivity.
  • Weathering plays a crucial role in releasing phosphorus from rocks into soils and aquatic systems. As rocks break down over time due to physical, chemical, or biological processes, phosphorus becomes available to plants and microorganisms. Since phosphorus is a key nutrient that supports plant growth, its release through weathering directly influences ecosystem productivity by enhancing primary production and allowing for greater biomass accumulation in both terrestrial and aquatic environments.
• Evaluate how remote sensing and GIS applications can be used to assess ecosystem productivity across different landscapes.
  • Remote sensing and GIS applications can effectively assess ecosystem productivity by providing large-scale data on vegetation cover, land use changes, and biophysical properties of ecosystems. These technologies allow researchers to monitor changes in primary production over time, identify patterns related to environmental factors, and evaluate the impacts of human activities. By integrating spatial data with ecological models, scientists can better understand the relationships between productivity, nutrient cycling, and ecological health across various landscapes.

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