Encyclopedia of geology, five volume set, volume 1 5 (encyclopedia of geology series) ( PDFDrive ) 245

Reduced greenhouse forcing and glaciation at the end of the Palaeozoic with the assembly of Pangaea reduced organic-matter burial, and there was a slow rise in carbon dioxide levels to a

of oxygen through their exoskeletons: to be big they

need to live in conditions of high atmospheric oxygen,

so that sufficient oxygen passively diffuses into their

blood to power muscles for flight

Reduced greenhouse forcing and glaciation at the

end of the Palaeozoic with the assembly of Pangaea

reduced organic-matter burial, and there was a slow

rise in carbon dioxide levels to around six times PAL

in the Permian and Triassic Levels of carbon dioxide

gradually decreased, and stabilized near present-day

levels in the Mesozoic Oxygen tends to track carbon

dioxide inversely; geological evidence and

palaeocli-mate models suggest a maximum of near 35% oxygen

in the atmosphere at the beginning of the Permian

During the Permian, the oceans were highly stratified,

with carbonate-rich water at depth that was depleted

in oxygen This system was unstable: ocean hypoxia

could occur if ocean circulation intensified enough

to mix deep-water carbon dioxide and hydrogen

sulphide into surface waters A protracted (20 Ma)

whole-ocean hypoxia event is considered to be a

major mechanism in the Permian–Triassic extinction

event, which wiped out 90%–95% of all marine

species (see Palaeozoic: End Permian Extinctions)

Carbon Dioxide and Climate Changes

High-resolution information about changes in

atmos-pheric chemistry over the past 160 000 years can be

obtained by studying the record of trapped gases in ice

cores from the Greenland and Antarctic ice-caps

Fur-thermore, oxygen isotopic values from marine

sedi-ments, marine planktonic and benthonic fossils, cave

deposits, and other sources can be used to estimate

marine palaeotemperatures Direct measurements of

carbon dioxide and methane concentrations in ice

cores permit assessment of past atmospheric levels of

these gases, providing factors to incorporate into

models of past air temperatures and sea-levels

Data from deep ice cores taken in polar

re-gions, coupled with complex palaeoclimate models

(Figure 9), show large fluctuations in atmospheric

carbon dioxide, oxygen and methane levels, leading

to long-term temperature changes of the order of

6C or more There is a strong correlation between

levels of atmospheric greenhouse gases and

palaeo-temperature The periodicities in these data provide

clear evidence of the role of Milankovitch forcing by

changes in the Earth’s orbital parameters The two

strongest Milankovitch cycles observed correspond

to the 26 000 year precession of the equinoxes and

the 100 000 year period of rotation of the Earth’s

orbital axis (see Earth: Orbital Variation (Including

Milankovitch Cycles)) Changes in greenhouse-gas

concentrations appear to follow rather than guide

long-term climate, suggesting that Milankovitch

cycles are the prime mechanism bringing the Earth into a greenhouse or icehouse condition Greenhouse gases do provide positive feedback at the beginning of temperature changes by boosting insolation Anthro-pogenic emissions of greenhouse gases are not governed by Milankovitch cycles and represent a sep-arate and increasingly important climate-forcing mechanism.Figure 9shows that carbon dioxide con-centrations changed by almost 100 ppm(vol.) towards the end of the last glaciation Modern levels of carbon dioxide are near 370 ppm(vol.) and rising Almost all

of this change has occurred since the Industrial Revo-lution, and high-resolution monitoring at the Mauna Loa observatory shows clear diurnal and annual cycles in carbon dioxide levels (Figure 10), with a mean annual increase of 1.16 ppm(vol.) year 1 This

is over one hundred times the rate of increase of carbon dioxide levels inferred from all available

Figure 9 Phanerozoic carbon dioxide and oxygen concentra tions.

Figure 10 Changes in the concentration of atmospheric carbon dioxide over the last 60 years as measured at Mauna Loa, Hawaii Data provided by D Keeling and T Whorf.

206 ATMOSPHERE EVOLUTION