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Terrestrial Biomes

Terrestrial Biomes. Characterization, Stressors, and Changes. Biomes of the World. Temperature & Precipitation. Raunkiaer's life forms. Plants with specific distribution of dormant buds are better suited to different biomes. (a) phanerophytes

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Terrestrial Biomes

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  1. Terrestrial Biomes Characterization, Stressors, and Changes

  2. Biomes of the World

  3. Temperature & Precipitation

  4. Raunkiaer's life forms. Plants with specific distribution of dormant buds are better suited to different biomes. (a) phanerophytes (b) nanophanerophytes - chamaephytes, (c) hemicryptophytes (d) Geophytes (e) Therophytes (f) epiphytes Raunkiaer's life form spectrum in the world Tropical: Ph Warm temperate: H Arid (desert and Mediterranean): Th Alpine and arctic: H/G (woody) and Perennials + long-day plant

  5. Climate vs. Continent Life-form Spectra: Traits that vary with climate such as perennating organ or tissues that give rise to new growth the following season Life forms are more alike in similar climates on different continents than they are in different climates on the same continent

  6. Tropical Forests Centered on the Equator Little seasonal variation High yearly rainfall Constant Warm Temperature Layered vegetative cover > half of all terrestrial species Highest Biodiversity & Primary Productivity 2-3 kg/m2-yr Leached Soils dominated by fungi Multiple sub-biomes dependent on seasonal patterns of precipitation, elevation, soils

  7. The global distribution of land and ocean net primary production (NPP) estimated from spectral data gathered by NASA's MODIS satellite

  8. Savannah • Transitional biome between tropical rainforests and deserts • Seasonal precipitation • Consistently warm temperatures • Mixed grasses and small trees • Drought deciduous • Fire balances grasses & trees • Dominant Herbivores • Consume 60% of biomass/yr • Net Primary Productivity • 0.4 – 0.6 kg/m2-yr • Dependent on soil depth

  9. Desert • Most occur between 15-30° N & S • Regional high pressure • Less than 250 mm/yr precipitation • Rain Shadows a result of Topography • 26-35% of Earth’s land surface • Highly variable in biodiversity, productivity, and types of organisms • Perennial shrubs • extensive roots • Small gray, white or light green leaves • Annual herbs • Long-term seed storage in soil • Rapid growth/life cycle • NPP • 0-0.12 kg/m2-yr • Dependent on precipitation, drainage systems, soils

  10. Distribution of arid land Dry air descends at 30° latitude, drawing moisture from the soil and contributing to the creation of arid climates.

  11. Chaparral/ Mediterranean • 30-40° N & S • Hot dry summers • Cool moist winters • Convergent Evolution • Evergreens and Sclerophytes • Therophytes • Net Primary Productivity • 0.3-0.6 kg/m2-yr • Dependent on water availability, soil, age of system • Fires aid in nutrient cycling • flowering • seed germination • California

  12. Temperate Grassland • Interior of continents • Large seasonal temperature and precipitation variations • Grade into temperate forests and deserts with shifting borders • Precipitation (i.e. drought) • Disturbance (i.e. fire) • Grasses spread underground • rhizomes, leaves grow from the bottom up, decay-resistant • Favored by fire, drought, grazing • Tall-grass = high precipitation • Short-grass = low precipitation • Net Primary Productivity • 0.4-1 kg/m2-yr • Support large herds of herbivores (bison, horses, etc.)

  13. Temperate Deciduous Forest • Mid-Latitudes – cool winters, warm summers, high year-round precipitation • Net Primary Productivity • 0.6-1.5 kg/m2-yr • Leaf litter = nutrient recycling • Trees – 20-30 m tall • Shrubs – up to 5 m tall • Herbaceous plants as ground cover • Niche Partitioning is prevalent • Increased complexity and biodiversity with forest height

  14. Patterns of terrestrial NPP at different timescales in a temperate forest • Daily/Seasonal NPP variations • Solar radiation • Precipitation • Length of growing season • Annual NPP variations due to longer-term trends in climate • Decadal patterns of NPP track changes in ecological succession • (Gough et al. 2007, 2008).

  15. Coniferous Forest • High latitude • Long cold winters • Short cool summers • Low Biodiversity • Overstory of Evergreen Trees: needle-leaved and drought tolerant (1-4 sp.) • Ground cover: herbs and mosses • Shallow roots rely on mycorrhizae for nutrients • Low Net Primary Productivity • 0.2-0.6 kg/m2-yr • Dependent on precipitation, frost-free days, soil drainage • Flooded areas – acidic, anoxic  peat • Slow decomposition, leached soils, permafrost

  16. Tundra: Arctic & Alpine • Poleward of the Coniferous forests • Very short growing season • Most of the year is below 0°C • High Winds • Very low Net Primary Productivity • 0.1-0.2 kg/m2-yr • Dependent on snowfall depth and drainage • Low Biodiversity • Mosses, lichens, and low-growing shrubs with rounded canopies and closely spaced leaves and branches • Reduces wind speeds • Increases solar radiation absorption • 3% of world’s flora Hemicryptophytes • Low nutrient soils • Lichen fix N • Animals hibernate or migrate

  17. Consequences of Change on the Biomes and Us

  18. Putting Ecology Studies Together to Understand the Impacts of Global Changes

  19. Sustaining Ecosystems

  20. Examining the relative importance of various types of stabilizing species interactions and the effect of these interactions on biodiversity and ecosystem functioning and stability

  21. Impacts of Potential Stressors on Species Interactions

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