The fading home of Homo ‘sapiens’

In front of our eyes green forests are blackened by fire, draughts turn grassy planes to brown semi-deserts,fertile  fields are flooded by muddy water,white snow and ice  melt to pale blue water and clear blue skies turn grey with aerosols.

Preamble

The inhabitants of planet Earth are in the process of destroying the habitability of their world through the perpetration of the largest mass extinction of species since 66 million years ago when a large asteroid impacted Earth and 55 million years since the Paleocene-Eocene Thermal Maximum (PETM) reaching +5 to +8°C.The late Holocene-Anthropocene climate change represents an unprecedented event, triggering a fast shift in climate zones and a series of extreme weather events,with consequences for much of nature and civilization. The changes are manifest where green forests are blackened by fire, draughts are turning grassy planes to brown semi-deserts, brilliant white snow and ice caps are melting into pale blue water and clear blue skies turn grey due to aerosols and jet contrails, most particularly in the northern hemisphere. Unless effective efforts are undertaken at CO2 down-draw, the consequence would include demise of much of nature and a collapse of human civilization.

  1. The scorched Earth

The transfer of hundreds of billions of tonnes of carbon from the Earth crust, the residues of ancient biospheres, to the atmosphere and oceans, condemning the bulk of life through the most extreme shift in the composition of the atmosphere and ocean Earth has experienced since 55 million years ago, with changes taking place in front of our eyes. Since the industrial revolution, about 375 billion tonnes of carbon(or 1,374 billion tonnes CO2) have been emitted by humans into the atmosphere. The consequences are everywhere, from mega-droughts, to heat waves, fires, storms and floods. With atmospheric CO2-equivalent rising above 500 ppmand mean temperatures by more than 1.5oC (Figure 1) look no further than the shift in climate zones, displayed for example on maps of the expanding wet tropical zones, drying sub-tropical latitudes and polar-ward migration of temperate climate zone. The ice sheets and sea ice are melting, huge fires overtake Siberia, the Sahara is shifting northward, large parts of southern Europe are suffering from draughts, heat waves and fires, the Kalahari Desert dunes are shiftingand much of southern Australia is affected by warming and draughts. This is hardly compensated by a minor increase in precipitation and greening such as at the southern fringes of the Sahara Desert and parts of northern Australia.

Induced by anthropogenic carbon emissions reaching 37.1 billion tonnes CO2in 2018and their amplifying feedbacks from land and oceans, ranging from where the US produces 16.5 tonnes CO2 per capita per year, to 35.5 tonnes CO2 per capita per year from Saudi Arabia’s and 44 tons export per capita per yearfrom Australia. The inexorable link between these emissions and the unfolding disaster is hardly mentioned by mainstream political classes and the media.

co2

Figure 1(A)Growth of CO2-equivalent level and the annual greenhouse gas Index (AGGI[1]). Measurements of CO2 to the 1950s are from (Keeling et al., 1958) and air trapped in ice and snow above glaciers. Pre-1978 changes are based on ongoing measurements of all greenhouse gases. Equivalent CO2 amounts (in ppm) are derived from the relationship between CO2 concentrations and radiative forcing from alllong lived gases;(B)showing how much warmer each month of the GISTEMP data is than the annual global mean. For July (2019)temperatures rose by about +1.5oC.

  1. Migrating climate zones

As the globe warms, to date by a mean of near ~1.5 oC, or ~2.0oCwhen the masking effects of sulphur dioxide and other aerosols are considered, and by a mean of ~2.3oCin the polar regions, the expansion ofwarm tropical latitudesand the pole-wardmigration of subtropical and temperate climate zones(Figure 2) ensue in large scale draughts such as parts of inland Australia and southern Africa. A similar trend is taking place in the northern hemisphere where the Sahara desert is expanding northward, with consequent heat waves across the Mediterranean and Europe.

In southern Africa “Widespread shifts in climate regimesare projected, of which the southern and eastern expansion of the hot desert and hot steppe zones is most prominentFrom occupying 33.1 and 19.4 % of southern Africa under present-day climate, respectively, these regions are projected to occupy between 47.3 and 59.7 % (hot desert zone) and 24.9 and 29.9 % (hot steppe zone) of the region in a future world where the mean global temperature has increased by ~3°C.

Closely linked to the migration of climate zones is the southward drift of Antarctic- sourced cold moist fronts which sustain seasonal rain in south-west and southern Australia. A feedback loop has developed where deforestation and decline in vegetation in southern parts of the continent result in the rise of thermal plumes of dry air masses that deflect the western moist fronts further to the southeast.

koppen

Figure 2.Köppen-Geiger global Climate zones classification map

koppen2

Since 1979 the planet’s tropics have been expanding pole-ward by 56 km to 111 km per decade in both hemispheres, leading one commentator to call this Earth’s bulging waistline. Future climate projections suggest this expansion is likely to continue, driven largely by human activities – most notably emissions of greenhouse gases and black carbon, as well as warming in the lower atmosphere and the oceans.”

An analysis of the origin of Australian draughts suggests, according to both observations and climate models, that at least part of this decline is associated with changes in large-scale atmospheric circulation, including shrinking polar ice and  a pole-ward movement of polar-originated westerly wind spirals, as well as increasing atmospheric surface pressure and droughts over parts of southern Australia (Figure 3). Simulations of future climate with this model suggest amplified winter drying over most parts of southern Australia in the coming decades in response to changes in radiative forcing. The drying is most pronounced over southwest Australia, with total reductions in austral autumn and winter precipitation of approximately 40% by the late twenty-first century. Thus rainfall in southwestern Australia has declined sharply from about 1965 onward, concomitant with the sharp rise of global temperatures.

bom

Figure 3(A) Bureau of Meteorology (BOM) draught map, showing rainfall levels for the southern wet season from April 1 to July 31 in 2019; (B) NASA satellite image displaying asouthward deflection of Antarctic-sourced moist cold fronts from southern Australia, a result of (1) southward migration of climate zones; (2) increasing aridity of southern and southwestern Australia due to deforestation; (3) rising hot plumes from warming arid land..

  1. Extreme weather events

The consequences of the migration of climate zones are compounded by changes in flow patterns of majorriver systems around the world, for example in southern an southeastern Asia, including the Indus, Ganges, Brahmaputra and Mekong river basins, the home and bread basket for more than a billion people. With warming, as snow cover declines in the mountainous source regions of rivers, river flows are enhanced, with ensuing floods, in particular during the Monsoon. For example, in 2010 approximately one-fifth of Pakistan’s total land area was affected by floods (Figure 4A), directly affecting about 20 million people, with a death toll close to 2,000. And about 700 people in cyclone Isai in Mozambique (Figure 4B, C).Such changes in climate and geography are enhanced once sea level rise increases from the scale of tens of centimeters, as at present, tometers, as predicted to take place later this and next century.

An increasing frequency and intensity of cyclones constitute an inevitable consequence of rising temperatures over warm low pressure cell tracks in tropical oceans, already affecting large populations in the Caribbean and west Pacific island chains, encroaching into continental coastal zones, China, southeast USA, southeast Africa, India, northern Australia, the Pacific islands. According to Sobel et al. (2016)We thus expect tropical cyclone intensities to increase with warming, both on average and at the high end of the scale, so that the strongest future storms will exceed the strength of any in the past”. Likewise increasing temperatures, heat waves and droughts, compounded by deforestation over continents, constitute an inevitable consequence of heat waves and droughts. A prime exampleis the Siberian forest fires (Figure 5B), covering an area larger than Denmark and contributing significantly to climate change. Since the beginning of the year a total of 13.1 million hectares has burned.Total losses from natural catastrophes on 2018 stated as US$160 billion.

pakistan flood

Figure 4(A)Pakistan flooding showing the 2010 Indus River spanning well over 10kilometers, completely filling the river valley and spilling over onto nearby land. Floodwaters have created a lake almost as wide as the swollen Indus that inundates Jhatpat; (B) Before-and-after satellite imagery of Mozambique showing massive flood described as an “inland ocean” up to 30 miles wide following the landfall of Tropical Cyclone Idai, 2019.

fire zone

Figure 5(A) Global fire zones, NASA. The Earth data fire map accumulates the locations of fires detected by moderate-resolution imaging radiometer (MODIS) on board the Terra and Aqua satellites over a 10-day period. Each colored dot indicates a location where MODIS detected at least one fire during the compositing period. Color ranges from red where the fire count is low to yellow where number of fires is large; (B)An ecological catastrophe in Russia: wildfires have created over 4 million square km smoke lid over central northern Asia. Big Siberian cities are covered with toxic haze that had already reached Urals.

  1. Shrinking Polar ice sheets

Last but not least, major changes in the Polar Regions are driving climate events in the rest of the globe. According to NOAAArctic surface air temperatures continued to warm at twice the rateof the rest of the globe, leading to major thaw at the fringes of the Arctic (Figure 6A) and a loss of 95 percent of its oldest ice over the past three decades. Arctic air temperatures during 2014-18since 1900 have exceeded all previous records and are driving broad changes in the environmental system both within the Arctic as well as through the weakeningof the jet stream which separates the Arctic from warmer climate zones. The recent freezing storms in North America represent penetration of cold air masses through an increasingly undulating jet stream barrier, as well as allowing warm air masses to move northward, further warming the Arctic and driving further ice melting (Figure 6B).

According to Rignot et al. (2011) in 2006 the Greenland and Antarctic ice sheets experienced a combined mass loss of 475 ± 158 billion tons of ice per year. IPCC models of future climate change contain a number of departures from the paleoclimate evidence, including the major role of feedbacks from land and water, estimates of future ice melt, sea level rise rates, methane release rates, the role of fires in enhancing atmospheric CO2, and the already observed onset of transient freeze events consequent on the flow of ice melt water into the oceans. Ice mass loss would raise sea level on the scale of meters and eventually tens of meters (Hansen et al. 2016). The development of large cold water pools south and east of Greenland (Rahmstorf et al. 2015) and at the fringe of West Antarctica, signify early stages in the development of a North Atlantic freeze, consistent with the decline in the Atlantic Meridional Ocean Circulation (AMOC).As the Earth warms the increase in temperature contrasts across the globe, in particular between warming continental regions and cooling ocean regions, leads to storminess and extreme weather events, which need to be taken into account when planning adaptation measures, including preparation of coastal defenses, construction of channel and pipelines from heavy precipitation zones to draught zones.

polar

Figure 6(A) Thawing at the fringes of Siberia and Canada. Scientists say 2019 could be another annushorribilis for the Arctic with record temperatures already registered in Greenland—a giant melting ice sheet that threatens to submerge the world’s coastal areas one day; (B) Weakening and increasing undulation of the polar vortex, allowing penetration of cold fronts southward and of warm air masses northward.

temperature

Figure 7(A) Surface air temperature (◦C) changein 2055–2060 relative to 1880–1920 according to. A1B model + modified forcings and ice melt to 1 meter sea level rise; (B)  Surface-air temperature change in 2096 relative to 1880–1920 according to IPCC model AIB adding Ice meltwith 10-year doubling of ice melt leading to +5 meters sea level rise;(C)Surface air temperature (◦C) relative to 1880–1920 for several scenarios taking added ice melt water into account(Hansen et al. 2016)

Postscript

None of the evidence and projections summarized above appears to form a priority consideration on the part of those in power—in parliaments, in corporations or among the wealthy elites and vested interests. Having to all intents and purposes given up on thehabitability of large parts of the Earthand on the survival of numerous species and future generations—their actionsand inactions constitutethe ultimatecrime against life on Earth

[1]TheAGGI index uses 1990 as a baseline year with a value of 1.  The index increased every year since 1979.

Andrew Glikson, Earth and Climate scientist


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