1 / 36

鄭先祐 (Ayo) 靜宜大學 生態學系

鄭先祐 (Ayo) 靜宜大學 生態學系. Ayo 台南站: http://mail.nutn.edu.tw/~hycheng/ Email add: Japalura@hotmail.com. Outline. Introduction Temperature, Atmospheric Circulation, and Precipitation Climate Diagrams Terrestrial Biomes Tropical rain forest Tropical dry forest Tropical savanna Desert

steve
Télécharger la présentation

鄭先祐 (Ayo) 靜宜大學 生態學系

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 鄭先祐(Ayo) 靜宜大學 生態學系 Ayo 台南站:http://mail.nutn.edu.tw/~hycheng/ Email add:Japalura@hotmail.com

  2. Outline • Introduction • Temperature, Atmospheric Circulation, and Precipitation • Climate Diagrams • Terrestrial Biomes • Tropical rain forest • Tropical dry forest • Tropical savanna • Desert • Mediterranean woodland and shrubland • Temperate grassland • Temperate forest • Boreal forest • Tundra • Mountains: islands in the sky

  3. Introduction • Janzen(1960s-1980s)studied natural history of tropical dry forests in Costa Rica to aid restoration efforts. • Guanacaste tree (E. cyclocarpum) has no current dependable dispersers, thus trees produce massive numbers of fruits. • Last native dispersers went extinct 10,000 years ago. • Cattle and horses (exotics) now act as dispersers.

  4. Dispersers of Guanacaste Seeds

  5. Temperature, Atmospheric Circulation, and Precipitation • Spherical shape and tilt of earth’s axis cause uneven heating of earth’s surface. • Drives air circulation patterns and consequently precipitation patterns. • Warm, moist air rises. • Cools, condenses, and falls as rain. • Cooler, dry air falls back to surface. • Rainforests found near equator. • Major deserts found near 30o N / S.

  6. Solar-Driven Air Circulation

  7. Temperature, Atmospheric Circulation, and Precipitation • Coriolis effect causes apparent deflection of winds clockwise in the N hemisphere and counterclockwise in the S hemisphere.

  8. Climate Diagrams • Summarize climatic information using a standardized structure. • Temperature plotted on left vertical axis. • Precipitation plotted on right vertical axis. • 10o C equivalent to 20 mm precipitation. • Relative position of lines reflect water availability. • Adequate moisture for plant growth when precipitation above temperature.

  9. Climate Diagrams

  10. Soil : Foundation of Terrestrial Biomes • Soil is a complex mixture of living and non-living material. • Classification based on vertical layering (soil horizons). • Profile provides a snapshot of soil structure in a constant state of flux.

  11. Soil Horizons • O horizon: Organic Layer freshly fallen organic material - most superficial layer. • A horizon: Mixture of minerals, clay, silt and sand. • B horizon: Clay, humus, and other materials leached from A horizon - often contains plant roots. • C horizon: Weathered parent material.

  12. Soil Profile

  13. Terrestrial Biomes • Biomes are distinguished primarily by their predominant plants and are associated with particular climates. • Geographic and seasonal variations in temperature and precipitation are fundamental components.

  14. Tropical Rainforests • Most occur within 10o latitude of equator. • Little temperature variation between months. • Annual rainfall of 2,000 - 4,000 mm relatively evenly distributed. • Quickly leaches soil nutrients. • Mycorrhizae help gather nutrients. • Organisms add vertical dimension. • Harbor staple foods and medicines for world’s human populations - increasingly exploited.

  15. Tropical Rainforests

  16. Tropical Dry Forest • Usually located between 10o - 25o latitude. • Climate more seasonal than tropical rainforest. • Soils generally richer in nutrients, but vulnerable to erosion. • Shares many animal and plant species with tropical rainforests. • Heavily settled by humans with extensive clearing for agriculture.

  17. Tropical Dry Forest

  18. Tropical Savanna • Most occur north and south of tropical dry forests within 10o - 20o of the equator. • Climate alternates between wet / dry seasons. • Drought associated with dry season leads to lightning-caused wildfires. • Soils have low water permeability. • Saturated soils keeps trees out. • Landscape is more two-dimensional with increasing pressure to produce livestock.

  19. Tropical Savanna

  20. Desert • Major bands at 30o N and 30o S latitude. • Occupy about 20% of earth’s land surface. • Water loss usually exceeds precipitation. • Soil usually extremely low in organic matter. • Plant cover ranges from sparse to absent. • Animal abundance low, but biodiversity may be high. • Strong behavioral adaptations. • Human intrusion increasing.

  21. Desert

  22. Mediterranean Woodland and Shrubland • Occur in all continents except Antarctica. • Climate cool and moist in fall, winter, and spring, but can be hot and dry in summer. • Fragile soils with moderate fertility. • Trees and shrubs typically evergreen. • Fire-resistant plants due to fire regime. • Long history of human intrusion. • Cleared for agriculture.

  23. Mediterranean Woodland and Shrubland

  24. Temperate Grassland • Extremely widespread distribution. • Annual rainfall 300 - 1,000 mm. • Experience periodic droughts. • Soils tend extremely nutrient rich and deep. • Thoroughly dominated by herbaceous vegetation. • Large roaming ungulates. • Bison vs. cattle

  25. Temperate Grassland

  26. Temperate Forest (Old Growth) • Majority lie between 40o and 50o latitude. • Rainfall averages 650 - 3,000 mm. • Fertile soils • Long growing seasons dominated by deciduous plants. • Short growing seasons dominated by conifers. • Biomass production can be very high. • Many major human population centers.

  27. Temperate Forest (Old Growth)

  28. Boreal Forest (Taiga) • Confined to Northern Hemisphere. • Covers 11% of earth’s land area. • Thin, acidic soils low in fertility. • Generally dominated by evergreen conifers. • Relatively high animal density. • Historically, low levels of human intrusion.

  29. Boreal Forest (Taiga)

  30. Tundra • Covers most of lands north of Arctic Circle. • Climate typically cool and dry with short summers. • 200 - 600 mm precipitation. • Low decomposition rates. • Supports substantial numbers of native mammals. • Human intrusion historically low, but increasing as resources become scarce.

  31. Tundra

  32. Mountains: Islands in the Sky • Built by geological processes and thus concentrated in belts of geological activity. • Climate changes with elevation and latitude. • Soils are generally well-drained and thin. • Flora and fauna change with elevation. • Historically used as a source of raw materials for human settlements.

  33. Mountains: Islands in the Sky

  34. Review • Introduction • Temperature, Atmospheric Circulation, and Precipitation • Climate Diagrams • Soil Horizons • Terrestrial Biomes

  35. On the Net • Society for Ecological Restoration International • http://www.ser.org/ • Endangered Species Habitat Conservation Program • http://www.fws.gov/endangered/hcp/index.html • The world's biomes • http://www.ucmp.berkeley.edu/glossary/gloss5/biome/

More Related