FJC Environmental Biology 105

FJC Environmental Biology 105: World Biomes Lecture

Seasons

Suns rays hit N hemisphere:

(1) obliquely for ½ of year

(Autumn/Winter: Sep-Mar)

(2) more directly for ½ of year (Spring/Summer: Mar-Sep)

Same in S. Hemis., but reversed

At poles summer solstice (June 21 in North) = 24 hrs. day

Poles Winter Solstice (21 Dec) = 24 hr. Night

Earth is tilted on its axis 23.5˚

As Earth rotates around sun (365 days)

One pole or other is closer to sun:

Seasons

Tilt toward sun at Summer Solstice (June 21-North)

At poles = 24 hrs. day

Tilt away from sun at Winter Solstice (21 Dec – N.)

At Poles = 24 hr. Night

Equator has little seasonal variation in temp.

Coriolis Effect

Eastward rotation of Earth on its axis 15°/hr

Deflects moving objects (air, water) away from initial course

Earth spins faster at Equator (0°): 1700 km/hr

Than at higher latitudes: 1260 km/h at 43°

WORLD BIOMES

ARCTIC

Encircles polar seas

Similar to Antarctic (arctic larger)

Portion is permanent ice

Very cold Winter (record -96˚F/-71˚C – Siberia)

Very dry (1-8”, 3-20 cm/year)

Day Length: 22 hr dark (winter), 22 hr light (summer)

Polar Bear, Orca, Walrus, Beluga Whale, N. Fur Seal, Sea lion

TUNDRA

Tundra: “Treeless Plain”

South of Arctic circle

Alaska, Canada, Russia, Norway, Sweden, Finland, Greenland

Permafrost: Permanently frozen sub-soil

Consequences: physical barrier to roots

Low temps slow down decomposition, promotes peat buildup

Retards water percolation = boggy soil

Very slow plant growth

Taiga (Boreal Forest)

Coniferous forests (evergreens)

Pine, spruce, fir + moss, lichens

Largest Biome (Canada, N. Europe, Asia)

Warm, rainy summer (Avg. =70F, 12-33” rain/yr.)

COLD winter (Avg. 30F, low as – 65F)

Bears, Moose, Wolves, Canadian Lynx

Temperate Deciduous Forests

Trees drop leaves in Winter (Deciduous)

Many plants go dormant

4 Distinct seasons

Mod. Temp (Avg. =50F), winter freeze

Mod. Rain (30-60”/75-150 cm)

Maple, Birch, White Oak, Elm

Shrubs, ferns, moss, lichen = lower canopy

Sm. herbivorous mammals, amphibians & reptiles

Cool Temperate Forests (Maritime)

Temperate Coniferous Rain Forests

Frequently listed with Taiga

Pacific NW USA, SW Canada (Vancouver, Victoria)

Mild Temps. year round (Ocean influences)

High Rainfall (60-150” per year)

Redwood, Spruce, Cedar, Douglas Fir

Grasslands

Eurasian Steppe, Prairie (N. America), Pampas (S. America)

25 cm. of rain, Not enough for trees

Fire limits trees, grasses re-sprout

Largely altered for cultivation

Tall grass(wet), short grass (dry), flowering plants

Large Herbivores: Bison, Antelope

Prairie Dogs, rabbits, mice = Hawks, Falcons Badgers, Foxes, Coyote

Savanna

Grasslands w/ trees & shrubs

Dry Tropical Forests/Tropical Grasslands

Warm all year (68-86°F)

2 Seasons: Rainy (Summer), Dry (Winter)

4” (Dry Season), 15-25” (Wet Season)

Africa: Acacia, Elephant, Lion, Hyena, Zebra, Giraffe

Australia: Eucalyptus, Kangaroos, Koalas, Emus

S. America: Capybara, Marsh Deer

Tropical Rain Forest

Tropical Rain Forest

Warm all yr. (68-90F), Humid (77-88%)

Rainy (75-260”/yr. = 190-660 cm/yr)

50% of all animals on Earth

Produces 40% of Oxygen

25% of all medicine (1,400 potential Cancer drugs)

4 Vegetation layers:

Emergent Trees, Upper Canopy, Understory, Forest Floor

Most animals live in Upper Canopy

Tropical Rain Forest

Few Soil Nutrients

Rain washes away

Rapid Decay from heat & humidity

Many Decomposers:

Fungi, Ants, Termites

Low light in understory

Plants adaptations: shallow roots; epiphytes; vines; large, dark leaves

Tropical Rain Forest Issues

Only cover 6% of Earth surface

Slash & Burn for Agriculture:

Removes most nutrients

99% nutrients held in tree roots

Few years before soil is depleted of all nutrients

Farms must be abandoned

Decades/centuries to re-grow

Desert

Evaporation > Precipitation (≤ 10 in.)

Temperate: Furthest N. & Coldest

Great Basin (NV,UT,ID); Gobi (Cent. Asia)

Subtropical: 15-30° N & S, Warmer

S.W. USA / N. Mexico (Sonora), N Africa (Sahara), Australia, Chile / Peru

Little Cloud Cover = Hot, dry days & Cold nights

Soils: Few organics, clay, hardpan, sand

Desert Adaptations

Plants:

Tap or shallow roots

Succulents

Small leaves

Light-colored leaves

No Leaves (Thorns)

Waxy cuticle

Dormant in extreme seasons

Animals:

Moisture from food

Nocturnal

Burrows

Small size = decreases surface area

Shrublands

5 Places on Earth (30-40 degrees N & S of Equator)

(1) S. Calif., (2) Chile, (3) SW Australia, (4)S. Africa, (5)SW Europe—NW. Africa

West side of continents, cold ocean currents

Winter Rain, Summer Dry (High Evaporation, windy)

Plants of 5 regions have similar adaptations & appearance = Convergence

Shrublands Plant types:

Shrubs

drought tolerant trees

Spring annuals & grasses

Plant adaptations (similar to deserts):

Small, waxy, or succulent leaves

Many have pale colored leaves

Compact size

Fire

South African Fynbos, Mediterranean (Europe, N. Africa)

Coastal Sage Scrub, Chaparral (S. California)

Chaparral characteristics:

South facing slopes

Dark leaves

Tough leaves

Waxy leaves

Fire adapted

Coastal Sage Scrub Characteristics:

North facing slopes

Light colored leaves (gray)

Soft leaves

Oily leaves

Prickly pear cactus

Fire adapted

Fire Adapted Ecosystems

10-40+ year fire cycle

Need for fire:

Seed germination

Remove litter (slow decomposition)

Adds organic nutrients to soil

Plant adaptations:

Oils promote fire

bark protection

new shoots from base roots or crowns (Root-crown sprouting)

Seed coats

stimulate some plants to increase and/or flower

Oak Woodlands

Associated with Chaparral & Coastal Sage Scrub

Foothills, valleys, riparian areas

Deeper soil, more moisture, less wind

Other woodland species:

Poison Oak, bunch grass

Near creeks (riparian): Western Sycamore, White Alder, California Walnut, Fremont’s Cottonwood

Oak Woodlands

Southern Californian Urban Sprawl: 90% of coastal sage scrub has been lost to development (only 10% left)

Aquatic Biomes

Aquatic ecosystems are linked

Lakes flow to rivers then estuaries then oceans

Rivers bring nutrients/minerals from land to sea

Seawater & freshwater evaporates & eventually falls as rain over all aquatic zones

Salt is left behind

Aquatic Biomes - Freshwater

Lakes & Ponds

Inland depressions of standing water

Arise from:

Glacial abrasion

volcano craters

silt deposition in stream beds

Earth’s shifting crust

Dams = artificial lakes by damming rivers for power, irrigation, water storage

Lakes & Ponds Two types:

Oligotrophic (nutrient –poor)

Eutrophic (nutrient- rich)

Agricultural & urban run-off = algae blooms, low dissolved O2, fish kills

Eutrophication

Stratified in summer & winter:

Warm layer at top in summer

Cold layer & ice at top in winter (prevents freezing of whole lake)

Rivers & Streams

Continuously moving water

Begin as:

Outlets of lakes/ponds

Seep from shallow groundwater

Snowmelt (mountains)

2 Types:

Perennial (wet year round)

Intermittent (seasonally dry)

Typical of arid zones

Rivers & Streams Change direction during high velocity events

Humans extensively develop floodplains

Most modified by Dams or channelized with concrete

Damming the Yangtze River (China)

Hydroelectric power for industrial development

Protect millions from floods

BUT:

Relocation of 1.9 million people

Destruction of River ecosystem

Extinction of Chinese River Dolphin

Submerge ancient archeological treasures (2,000-7,000 yrs.)

Siltation = poor water quality, dam may fail in 50 years

Aquatic Biomes - Marine

Oceans

4 main bodies:

Pacific, Atlantic, Indian, Arctic

Oceans

Divided into zones:

Pelagic (Open ocean)

Benthic (in or on soil)

Littoral (Shoreline)

Pelagic: Open Ocean

Organisms swim or float

Phytoplankton = most of Earth’s oxygen (upwelling)

Food web:

Phytoplankton ®zooplankton ® Anchovy ®mackerel ® dolphin

Dark below ~120 m

Many bioluminescent animals

Benthic: Ocean bottom

Organisms live in or on soil:

Detritivores: feed on marine snow (dead organisms from above)

Continental shelf/slope:

Kelp, seastars, flat fish brittlestars, tube worms

Benthic Abyssal zone: deep sea plain

Brittle stars, sea cucumbers

Deep sea trenches & Hydrothermal vents:

Hot water (350C) from seafloor cracks

Chemical reaction sulfate + H2O = H2S

Chemosynthesis: Bacteria convert H2S into energy

Need no light

These bacteria live in Tube Worm tissues

Littoral (Intertidal): Shoreline (Rocky or Sandy)

Rocky Shore

Stressful habitat

Wave stress, alternate dry & wet periods, sun (UV) exposure, rocks

Zonation:

Upper intertidal: closest to land, mostly dry. Periwinkle snails, Barnacles

Mid-intertidal: Dry ½ of time, wet ½ time. Algae, limpets, crabs, mussels, purple sea urchin, Sea anemones

Lower intertidal: furthest from shore, mostly submerged. Algae, sea stars, red sea urchin, sea hare, sea cucumber

Sandy Shores

Difficult place to live

Abrasive sand

Tides = wave stress, wet/dry fluctuation

Animals live on sand (epifauna) or in sand (infauna)

Sand crabs (ampipods), worms (nematodes) burrow in sand & eat detritus

Clams (bivalves) breathe thru siphon

Shorebirds feed & nest

Marine Biomes - Estuaries

Swamps:

Wetland with trees

Present in Salt & Freshwater ecosystems

Mangroves (Tropical)

Everglades - Florida (Tropical/subtropical)

Salt Marshes:

Protected coastlines (mid-high latitudes)

No Trees

Grasses, succulents, small shrubs

Halophyte plants (“salt loving”)

Adaptations: exude salt from tips, shunt salt to old leaves & drop old leaves

Pacific Flyway: birds migrate between Northern breeding grounds (summer) & southern winter/feeding grounds

Estuary & Wetland Issues

Unappreciated

Most have been filled in:

Development, harbors, power plants, agriculture, roads

California has greatest wetland losses

90% total wetlands, 75% salt marsh

Restoration:

Return wetland to “natural state”, former function

Everglade Restoration: Largest restoration effort on Earth

Interagency effort: Federal & State, Universities, environmental groups