I think that tree ring data must
always be compared as much as possible to similar sources, nearby and also far
away in order to determine if there are any possible gaps. However, I am skeptical about a significant
loss. A year or two maybe, and perhaps
in the lee of the erupting volcano, a pause of several years could occur. After
that if not long before, the tree is just as likely to expire.
Besides, the actual proxies
happen to be always a long ways away and wind variability will open plenty of
growth spurts. Thus tree ring accuracy
should be around plus or minus five years at most for a continuous record. Since nothing else provides anything like
such a record, except humanity sometimes and then only recently, it is an error
to worry about it much.
Thus we can quote the Hekla Blast
ending the European Bronze Age at 1159BC and expect to err by as little as a
couple of years. Yet the Thera Blast is
more difficult because we do not have a good tree ring record to work with,
although that is not impossible as we keep digging. There has to be a formally living tree there
some where that was old enough to provide a great sequence. In the meantime 1450BC plus or minus around
fifty years is as good as we have.
With the great Pyramid we are
using 2450BC with a century either way to play with.
I will suggest though, that
further tree ring work in northern bogs may help, and perhaps we can find a way
to produce a Mediterranean sequence, because enough samples exist to actual pin
down exact dates if that could be done.
It will take a lot of work but well worth while, because fixing those
dates exactly ax I can do with 1159BC is extremely valuable.
From that I know from the
contained astronomy in the Iliad that the sky described was around 1177BC or a
generation before. It is reasonable that
we can pin down other key dates from this era as well.
One thing that should have long
been obvious is that the world described in the Iliad is not the Aegean of the high Bronze Age. That Aegean had large
towns and an active trade with Egypt Egypt Hellespont even then and everything that goes with
that. My point is that the tale of the
Iliad has none of this background story at all.
This is very much the tale of the dog that did not bark.
Instead, if we place that story
in the Baltic as DiVinci does in his recent book of around five years ago, this
problem disappears and the rest also falls nicely into place. This is not the place to run through the
textual evidence and all that but I have posted on this in the past so google
Divinci on this blog.
Tree rings may underestimate climate response to volcanic eruptions
by Staff Writers
Some climate cooling caused by past volcanic eruptions may not be
evident in tree-ring reconstructions of temperature change because large enough
temperature drops lead to greatly shortened or even absent growing seasons,
according to climate researchers, who compared tree-ring temperature
reconstructions with model simulations of past temperature changes.
"We know these tree rings capture most temperature changes quite
well," said Michael Mann, professor of meteorology and geosciences and
director of the Penn
State Earth
System Science
Center
"But the problem appears to be in their response to the intense
short-term cooling that occurs following a very large volcanic eruption.
Explosive volcanic eruptions place particulates called aerosols into the
stratosphere, reflecting back some fraction of incoming sunlight and cooling
the planet for several years following the eruption."
Tree rings are used as proxies for climate because trees create unique
rings each year that often reflect the weather conditions that influenced the
growing season that year. For reconstructing climate conditions, tree-ring
researchers seek trees growing at the extremes of their growth range. Inferring
temperature changes required going to locations either at the tree line caused
by elevation or at the boreal tree line, the northern most place where the
trees will grow.
For these trees, growth is almost entirely controlled by temperature,
rather than precipitation, soil nutrients or sunlight, yielding a good proxy
record of surface temperature changes.
"The problem is that these trees are so close to the threshold for
growth, that if the temperature drops just a couple of degrees, there is little
or no growth and a loss of sensitivity to any further cooling. In extreme
cases, there may be no growth ring at all," said Mann. "If no ring
was formed in a given year, that creates a further complication, introducing an
error in the chronology established by counting rings back in time."
The researchers compared temperature reconstructions from actual
tree-ring data with temperature estimates from climate models driven with past
volcanic eruptions.
Comparing the model-simulated temperatures to the Northern Hemisphere
temperatures reconstructed from tree-ring thickness, Mann, working with Jose D.
Fuentes, professor of meteorology, Penn
State , and Scott Rutherford, associate
professor of environmental science, Roger
Williams University
However, they report in the current issue of Nature Geoscience that
"there is one glaring inconsistency; the response to the three largest
tropical eruptions - AD 1258/1259, 1452/1453 and the 1809+1815 double pulse of
eruptions - is sharply reduced in the reconstruction."
Following the 1258 eruption, the climate model simulations predict a
drop of 3.5 degrees Fahrenheit, but the tree ring-based reconstruction shows
only about a 1 degree Fahrenheit dip and the dip occurs several years too late.
The other large eruptions showed the same type of discrepancy.
Using a theoretical model of tree-growth driven by the simulated
temperature changes, the team determined that the cooling response recorded by
the trees after a volcanic eruption was limited by biological growth effects.
Any temperature drop exceeding roughly 1 degree Fahrenheit would lead to
minimal tree growth and an inability of trees to record any further cooling.
When growth is minimal enough, it is likely that a ring will not be detectable
for that year.
The potential absence of rings in the first one to three years
following eruption further degrades the temperature reconstruction. Because
tree-ring information is averaged across many locations to obtain a
representative estimate of northern hemisphere temperature, tree-ring records
with and without missing rings for a given year are merged, leading to a
smearing and reduced and delayed apparent cooling.
The researchers also noted that aerosol particles forced into the air
by volcanoes block some direct sunlight causing cooling and they produce more
indirect, scattered light at the surface. Trees like indirect sunlight and grow
better under those conditions. However, this effect is small compared to that
of lower temperatures and shorter growing seasons.
By accounting for these various effects in the tree growth model, the
researchers were able to reproduce the reduced and smeared cooling seen in the
actual tree-ring temperature reconstruction, including the near absence - and
delay - of cooling following the massive 1258 eruption.
"Scientists look at the past response of the climate to natural
factors like volcanoes to better understand how sensitive Earth's climate might
be to the human impact of increasing greenhouse gas concentrations," said
Mann. "Our findings suggest that past studies using tree-ring data to
infer this sensitivity have likely underestimated it."
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