While most people still worry about global warming, I am more concerned about the next Ice Age. A glaciation would present a serious problem for the survival of our present civilization, akin to a nuclear winter that many worried about 30 years ago.
Nuclear winter is all fantasy, of course; but ice ages are for real.
Natural warming of the Earth reached a peak 65 million years ago. The climate has been generally cooling ever since. Antarctic ice sheets started growing 25 million years ago.
In the last 2.5 million years, the Earth entered the period of Ice Ages [the geological name is The Pleistocene] and has been experiencing periodic glaciations where much of the land was covered by miles-thick ice sheets.
There have been about 17 glaciations, each lasting approx. 100,000 years, separated by short inter-glacials lasting about 10,000 years.
We are approaching the likely end of the present warm inter-glacial, called The Holocene. It’s time to prepare for the next glaciation to see how we can overcome it – or at least postpone its onset.
Although we don’t fully understand the gradual onset and sudden termination of each glaciation, their timing is determined by astronomical factors – the inclination and precession of the Earth’s spin axis.
They control the amount of sunshine [solar energy] reaching northern latitudes. The mathematics was worked out by the Serbian astronomer Milankovitch, but the physics is not yet certain.
It is currently believed that a glaciation gets underway when a northern snowfield [at a latitude of about 65 degrees N] survives during the summer and then gradually grows into an ice sheet.
The survived snowfield acts as a “trigger” for commencing a glaciation. Its growth into an ice sheet is conditioned by the “feedback” as it reflects solar radiation and thus resists being melted by solar energy in the following summers.
It is at this point where we can beneficially interfere. The effort involves two simple steps:
Step 1. Locate any snowfield that survives the summer, which can be done most readily by reviewing available satellite data.
Step 2. Spread soot onto the snowfield to reduce its albedo [reflectivity] and let the sun melt it during the following summer.
Note that this proposal has low cost and little environmental risk – unlike schemes of geoengineering to “fight” global warming.
This is a serious matter. The most recent glaciation which ended only 12,000 years ago covered Canada and the northern United States, as well as much of Europe.
It left us the Great Lakes and also many small lakes in Minnesota. The total human population at that time is estimated about 100,000 Neanderthalers and eventually also Homo Sapiens.
The present population explosion started with the growth of agriculture about 8,000 years ago. Harvest of crops continues to sustain such expansion but may become impossible during a glaciation.
We don’t know if the human population will shrink to the “carrying capacity” of the Earth. The Neanderthalers were hunters; when they ran out of animals, they starved. But with likely supplies of unlimited energy and some human ingenuity, we may surmount this limit.
S. Fred Singer is professor emeritus at the University of Virginia and a founding director and now chairman emeritus of the Science & Environmental Policy Project. In 2014, after 25 years, he stepped down as president of SEPP. His specialty is atmospheric and space physics. An expert in remote sensing and satellites, he served as the founding director of the U.S. Weather Satellite Service, now part of NOAA. More recently, he served as vice chair of the U.S. National Advisory Committee on Oceans & Atmosphere. He is an elected fellow of several scientific societies, including APS, AGU, AAAS, AIAA, Sigma Xi, and Tau Beta Pi, and a senior fellow of the Heartland Institute and the Independent Institute. He co-authored N.Y. Times best-seller Unstoppable Global Warming: Every 1,500 Years. In 2007, he founded and has chaired the NIPCC (Nongovernmental International Panel on Climate Change), which has released several scientific reports (see NIPCCreport.org). For recent writings, see http://www.americanthinker.com/s_fred_singer and also Google Scholar.
Read more at American Thinker
There’s no reason to worry about glacial advance. Axial precession, eccentricity and obliquity will be pretty neatly cancelling each other out for a long time to come, so this interglacial will be an extra long one. We’ve got no less than 50,000 more years.
Just don’t get the soot too thick. If it gets too thick, it acts as insulation. One thing I’ve noticed about snow in the spring – the dirtiest snow is the last to go.
Anything thicker than seven millimeters would be enough too act as insulation.
The concept of using soot to break the positive feed back mentioned in this article may have already been demonstrated. The retreat of some glaciers in the Andes, blamed on climate change by the environmentalists, is likely caused by the soot from China’s coal power plants. One theory is that soot too thin to be noticed by the human eye is enough to cause the ice to melt.
I would like to see a very hard winter for these Eco-Wackos i want to see their stranded in their homes without a snow shovel because they were dumb enough to throw it away thinking there will be no more snow over this Global Warming/climate change poppycock