All this proves is that scientists/meteorologists/etc. aren't as smart as they like to think they are.
The types of observational studies they are quoting here have only been available for a few decades. So as far as they know, this is a normal 50-100-200 year occurrence.

Just another alarmist cry for attention.

Interesting. However, Saharan dust storms affect weather much more than they do climate. We are frequently (2-3x per year) subject to them here, lasting 1-3 days on average. This picture shows one such episode covering the island.



Total aerosols are already well factored in into the IPCC calculations. These include anthropogenic dust pollution, which accounts for most of it because it is 24/7/52, and episodic causes, such as volcanic activity (a severe eruption can cause aerosols lasting from 1 - 3 years or exceptionally longer) and dust storms, such as are described. However, there is a big difference: particle size. The larger the particle, the shorter the time it remains suspended as an aerosol. 90% of the Saharan dust has a particle size >15 µm and, although carried by strong winds (e.g., khamseen, which is the one that affects us here), it settles out rapidly (rarely >2-3 days). Depending on weather conditions, the finer particles, mostly around 2-5 µm, can be carried considerable distances. Notwithstanding, the coarse particles, such as in the above image and in yours, very rarely reach an altitude >1000 m. The fine particles may reach 3000-5000 m before they settle or rain out. OTOH, volcanic and anthropogenic particles, such as fine soot from vehicle exhausts and oil-fired central heating systems, may reach altitudes of 20,000 m or more.

Having lived in Switzerland, I've often seen the effect of particular contamination of all types in the snow and ice. We did occasionally experience Saharan dust in the Lausanne region once every few years, north of the Alps, blowing up the Rhône valley. However, I used to do a lot of walking in the Alps and where perennial snow and ice had broken away, you could see a historical record, year by year. There was an annual dark band corresponding to the soot added, captured by snowflakes, each winter and thinner light bands in between. Once every few years, a very thin yellow band could be seen: this is Saharan sand. What is even more interesting is that, where there has been a thick ice fall, representing a few hundred years of snowfall, is that the "black band":"white band" ratio diminishes visibly over the years (almost no soot deposits 200 years ago), while the yellow bands are irregular but unchanged in frequency. Of course, there has been a lot of Alpine ice core research (e.g. Berne University), a lot more scientific than my subjective observations, and main eruptions and major N. American forest fire phenomena have been identified, as well.

As your article has stated, there are more uncertainty parameters in total aerosols vis-Ã*-vis climate change than any other cause. This well-illustrated here, where the uncertainty limits are shown:



Note that the caption specifically excludes volcanic activity from the chart. There will be occasional years of considerable cooling because of it (e.g., after Mt St Helens). On a global climatic scale, Saharan dust storms have almost no effect because of their low altitude, short time scale and very episodic frequency. On a local weather scale, they are very important (we had an episode this weekend!). When the dust is suspended, it is not like a mist. It has an almost ethereal appearance, even when the visibility is down to <100 m. I put this down to the thin layer, with the sun reflected from particle to particle. I'm not sure whether the observed polarisation effect could be due to particle orientation as the article hypothesises, because the particles are essentially fairly spherical. OTOH, about 7 times out of 10, a sand episode ends in a violent electrical storm, which rains out the dust and makes an unholy mess! My rain gauge mechanism (tipping buckets) requires cleaning after such a storm. So yes, there are electrical charges involved and the very fine particles probably seed water condensation at higher altitudes.

I would guestimate that the amount of sand reaching here is probably 1-3 mm in depth/decade. I know those who have swimming pools or who have their cars parked outside hate these episodes!!! They possibly help the natural fertility of the Cyprus soil.

All this proves nothing at all, for the moment. It may provide another small piece in the jigsaw puzzle of meteorological and climatic knowledge, in time.

If dust storms on this scale occurred every 50/100/200 years, as you suggest, then they would have zero climatic influence. Because they do occur 2-3 times/year, it is possible they may have a very small influence.

What is much more likely is that their influence may increase because their frequency is predicted to increase as part of the probable (IPCC terminology) predicted increased desertification of the Mediterranean basin due to climate change.

And what if their frequency and intensity changes over time due to changes in the electromagnetic fields caused by variations in solar activity and/or cosmic ray cycles? I think this is very, very likely given these fields are a big part of why the dust is polarizing to begin with and those who did the study say they 'have to rework" those parts of the model (DUH!).

Given how they've ignored the obvious before I don't hold a lot of hope for them getting it right this time...especially with $600 million of Obama Recovery Plan dollars targeted at NOAA for (politically correct) climate modeling. As they say; follow the money, or in this case - Federal grant money.

No more likely to produce contrary results than studies done for the National Petroleum Institute

IMO not a good day for the modelers....again.

Your whole premisse is based on one big 'if' for which you have no reason to suppose. Meteorological records have been kept on this island since the Ottoman mandate started in the 1870s, including Saharan dust storms. AFAIK, no cyclic phenomena have been observed in either frequency or intensity, which have been fairly constant, obviously with a noise level, as with all weather phenomena. Also, the same applies to Alpine ice cores.

To say 'very, very likely' on pure speculation is hardly scientific.

The whole notion of climate models being true representations consists of several big IF's on the IPCC's part, so what's one more?

And what influence does sporadic dust storms a few times/year have on climate? Almost none. You are talking about weather, not climate, and weather over very small fractions of the earth's surface, to boot. Get real!

FYI, I've e-mailed the local met service for statistical data on dust storms. As it is a government office, it is doubtful whether they will reply or even acknowledge my message, but one never knows, miracles happen occasionally!!! (In 12 years, I must have sent 100 e-mails to various government departments: I think I've had 2 replies)

I found thus on this site:

This shows how little effect Saharan dust storms has on weather, compared with anthropogenic sources. They will have even less effect on climate.

Maybe this is a duststorm in a teacup.