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AOSC 200Lesson 12
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Past and present climates
• weather - short time fluctuations• climate – long-term behavior
- location- time- average and extremes
• climate controls- latitude- elevation- topography- proximity to large bodies of water- atmospheric circulation
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THE CHANGING CLIMATE
• Climate involves more than just the atmosphere.• Climate may be broadly defined as the long-term
behavior of global environmental system • “To understand fully and to predict changes in the
atmospheric component of the climate system. one must first understand the sun, oceans, ice sheets, solid earth, and all forms of life"
• Thus we talk about a climate system consisting of the atmosphere, hydrosphere, solid earth, biosphere and cryosphere.
• Climate system involves the exchange of energy and moisture among these components
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Fig. 14-3, p. 414
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Climate Zones
• In the three cell model discussed before the intersections were shown at 30 and 60 degrees latitude.
• However these intersections move over the year. • In the winter they move South. In the summer
they move North. This is because the axis of rotation of the earth is tilted with respect to the sun-earth plane. Seasons.
• This gives a variation in the climate at any latitude.
• A variation can also be induced by other effects.
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Effect of the Olympic Mountains on average annual rainfall.
Rain Shadow effect
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Annual precipitation for three cities across the US
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CLIMATE ZONES
• VLADIMAR KOPPEN ZONES • TROPICAL MOIST – A• DRY – B• MOIST WITH MILD WINTERS – C• MOIST WITH SEVERE WINTERS – D• POLAR – E• HIGHLAND – H
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Fig. 14-2, p. 413
World map of the Kopper climate classification scheme
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Tropical Humid Climates - A
• High mean monthly temperature, at least 18.3 C.
• Rage of temperature is small, less than 10 degrees.
• Divided into three sub-types
• Tropical wet climates (Af)
• Tropical wet and dry climates (Aw)
• Tropical monsoon climates (Am)
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Fig. 14.4
Tropical Humid Climates
Iquitos, Peru (Af), Pirenopolis, Brazil, Aw, Rochambeau French Guiana, Am
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Tropical rain forest near Iquitos, Peru, (Af)
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Baobob and Acacia trees in grassland savanna (Aw)
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Dry Climates• Evaporation plus transpiration exceeds
precipitation. Descending branch of the Hadley cell.
• Mainly over land, diurnal variation larger than annual variation.
• Two subtypes• Steppe or semi-arid (BS)• Arid or desert (BW)• BSh and BWh are warm dry climates• BSk and BWk are cold dry climates
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Fig. 14.5
Dry Subtropical Climates
Dakar, Senegal BSh, Cairo, Egypt BWh
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Fig. 14.6
Warm Dry Climates
San Diego, Calif.BSk, Santa Cruz, Argentina, BWk
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Rain streamers are common in warm dry climates. Rain evaporates before it reaches the ground.
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Creosote bushes and cactus in the arid southwestern deserts (BWh)
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Steppe grasslands of western North America (BS)
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Moist Subtropical and Midlatitude Climates
• Characterized by humid and mild winters.
• Lie between the tropics and mid-latitudes
• Three major subgroups
• Marine West Coast Cfb and Cfc
• Humid Subtropical Cfa and Cwa
• Mediterranean Csa or Csb
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Fig. 14.7
Marine West Coast Cfb, Cfc
Bergen, Norway Cfb, Reykjavik, Iceland Cfc
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Fig. 14.8
Humid Subtropical Cfa, Cwa
New Orleans, Louisiana, Cfa, Hong Kong China, Cwa
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Fig. 14.9
Mediterranean , Csa, Csb
Lisbon, Portugal, Csa, Santiago, Chile, Csb
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Mediterranean-type climate of North America. Chaparral : foothill pine, chamise and manzanita.
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Severe Midlatitude Climates, D
• Tend to be located in the eastern regions of continents.
• Temperature range is generally greater than seen in the western climates (C)
• To be classified as D the average cold temperature must be less than -3 C, and the average summer temperature must exceed +10 C.
• Two basic types• Humid Continental (Dfa/b and Dwa/b)• Subarctic (Dfc/d and Dwc/d)• a,b,c, - hot summers, d - severe winter and cold
summer
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Fig. 14.10
Humid Continental
Vladosvostok, Russia Dwb, Fargo, North Dakota, Dfb
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Adirondack Park - humid continental climate (Dfa)
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Fig. 14.11
Subarctic
Fairbanks, Alaska, Dfc, Verkhoyansk, Siberia, Dfd
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Coniferous forests occur where winter temperatures are low and precipitation is
abundant (Dfc)
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Polar Climates, E
• Occur poleward of the Arctic and Antarctic circles• Mean temperatures are less than 10 C for all
months.• Annual precipitation is less than 10 inches.• Two polar climate types are identified• Tundra (ET) and Ice Caps (EF)• EF have essentially no vegetation
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Fig. 14.12
Polar Climates, E
Barrow, Alaska, ET, Eismitte, Greenland, EF
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Tundra vegetation in Alaska – sedges and dwarfed wildflowers (ET)
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Highland climate (H)
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DETECTING CLIMATE CHANGE
• DIFFICULT TO DETECT CLIMATE CHANGE EXCEPT OVER LONG PERIODS OF TIME.
• INSTRUMENTAL RECORDS GO BACK ONLY A COUPLE OF CENTURIES. THE FURTHER BACK, THE LESS RELIABLE ARE THE DATA.
• SCIENTISTS MUST DECIPHER CHANGES FROM INDIRECT EVIDENCE
• HISTORICAL DOCUMENTS• TREE RINGS• POLLEN RECORDS• GLACIAL ICE – AIR BUBBLES AND DUST• SEA-FLOOR, MATINE SEDIMENTS. OXYGEN
ISOTOPE RATIOS IN FOSSIL SHELLS• FOSSIL RECORDS
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CLIMATE CLUES
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Fig. 14-14, p. 422
Cave drawing from the Sahara Desert
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TREE RINGS
• In regions with distinct growing seasons, trees growth appears as distinct rings. Typically one ring per year.
• Dendrochronology• Width of the ring is a function of available water,
temperature, and solar radiation.• Tree species have different responses to these
three factors – hence the factors can be separated by looking at different species
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TREE RINGS
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Fig. 14-16, p. 423
Plot of annual precipitation in Iowa derived from the analysis of tree rings
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POLLEN RECORDS
• Pollen degrades slowly and each species can be identified by the shape of its pollen
• Radioactive carbon dating gives the age of the pollen.
• As the climate changes, different types of species become dominant
• Hence the pollen record can be used to identify the type of climate that existed
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POLLEN RECORDS
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ICE SHEETS• Each year snow falls on the ice sheets and
glaciers. As it accumulates it compresses and traps air bubbles.
• These bubbles of air trapped in ice can be analyzed to determine atmospheric composition.
• Glaciers that exist today can hold bubbles that are tens or hundreds of thousand of years old.
• Dust in the ice sheets can be caused by climate-changing volcanoes, or dry windy conditions that lead to soil erosion.
• Find that the colder periods of the Earth history (20000, 60,000 and 100,000 years ago) are usually much dustier
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Fig. 14-18, p. 426
Concentration of Carbon Dioxide and Methane determined from air bubbles in ice cores.
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MARINE SEDIMENTS/FOSSIL RECORDS• Foraminifera are micro-organisms that live in the sea
and have a calcium carbonate shell. CaCO3
• As the foraminifera die they sink to the ocean floor to form chalk deposits.
• Among these chalk deposits one also find fossil shells.
• Oxygen has two isotopes which have an atomic mass of 16 and 18
• The ratio of these two isotopes in the shells and foraminifera is a function of the sea temperature
• Fossils reveal ancient animal and plant life that can be used to infer climate characteristics of the past
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Fig. 14-20, p. 428
Variation in average temperature determined from O18/O16 ratio in fossil shells
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ICE SHEETS• Each year snow falls on the ice sheets and
glaciers. As it accumulates it compresses and traps air bubbles.
• These bubbles of air trapped in ice can be analyzed to determine atmospheric composition.
• Glaciers that exist today can hold bubbles that are tens or hundreds of thousand of years old.
• Dust in the ice sheets can be caused by climate-changing volcanoes, or dry windy conditions that lead to soil erosion.
• Find that the colder periods of the Earth history (20000, 60,000 and 100,000 years ago) are usually much dustier
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Fig. 14-18, p. 426
Concentration of Carbon Dioxide and Methane determined from air bubbles in ice cores.
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MARINE SEDIMENTS/FOSSIL RECORDS• Foraminifera are micro-organisms that live in the sea
and have a calcium carbonate shell. CaCO3
• As the foraminifera die they sink to the ocean floor to form chalk deposits.
• Among these chalk deposits one also find fossil shells.
• Oxygen has two isotopes which have an atomic mass of 16 and 18
• The ratio of these two isotopes in the shells and foraminifera is a function of the sea temperature
• Fossils reveal ancient animal and plant life that can be used to infer climate characteristics of the past
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Fig. 14-20, p. 428
Variation in average temperature determined from O18/O16 ratio in fossil shells
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NATURAL CAUSES OF CLIMATE CHANGE
• UNRELATED TO HUMAN ACTIVITY. • VOLCANIC ACTIVITY• ASTEROID IMPACTS• SOLAR VARIABILITY• VARIATIONS IN THE EARTH'S ORBIT• PLATE TECTONICS• CHANGES IN THE OCEAN CIRCULATION
PATTERNS
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Fig. 14-21, p. 430
Annual acidity of layers of an ice core in Greenland
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VOLCANIC ACTIVITY• MOST VOLCANOES EJECT DUST ETC. INTO THE
TROPOPSHERE WHERE IT IS QUICKLY RAINED OUT.
• HOWEVER LARGE VOLCANOES CAN EJECT GASES, ESPECIALLY SULFUR DIOXIDE, INTO THE STRATOSPHERE.
• IN THE STRATOSPHERE THE SULFUR DIOXIDE TRANSFORMS INTO AEROSOLS, WHICH REMAIN IN THE STRATOSPHERE FOR ONE TO TWO YEARS.
• THIS WILL TEND TO COOL THE TROPOSPHERE - SCATTERS SOLAR RADIATION BACK TO SPACE.
• ERUPTION OF MOUNT TAMBORA IN INDONESIA LED TO 'YEAR WITHOUT A SUMMER'
• MOUNT PINATUBO, 1991, LOWERED TEMPERATURE BY 0.5 C
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Variations in the Earth’s orbit
• Over long time periods the shape of the earth’s orbit around the sun, and the tilt of its axis are not constant. We can identify three ways in which these factors change
• Precession – the Earth wobbles on its axis similar to a spinning top. (27,000 years)
• Obliquity – its inclination to the solar plane changes (41,000 years)
• Eccentricity – the elliptical shape of the orbit changes (100,000 years)
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SUNSPOT NUMBERS 1600-2000
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SUNSPOT NUMBERS
• The output of energy from the Sun has an eleven year cycle – which also follows the number of dark spots on the Sun – sunspots.
• People have been observing sunspots since the invention of the telescope, 1600
• In the period 1645 and 1715 the number of sunspots was dramatically lower – Maunder minimum.
• Coincided with the little ice age (1400-1850)
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Fig. 14-26, p. 436
Continental Drift
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Continental Drift
• The Appalachians are a major source of coal. Among the coal can be found fossil remains of ferns.
• The coal came from the decay of ferns. This requires a moist warm climate such as at the equator in order to grow at a rate to produce enough vegetative matter to produce coal.
• So the Appalachians had to be much close to the equator when coal was deposited
• Continental drift.
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North Atlantic ocean conveyor belt keeps Northern Europe warm. Any disruption will mean colder climate.
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Fig. 14.27
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Changes in the Ocean Circulation Patterns
• The ocean circulation tends to keep the northern latitudes warmer.
• However if the overall flow patterns are changed then the northern latitudes can get colder, and ice sheets can expand southward.