Work at UA’s Tree Ring Lab, studying old trees from the San Juan Mountains in Colorado indicates a megadrought about 1,800 years ago.

From the press release:

A new study at the UA’s Laboratory of Tree-Ring Research has revealed a previously unknown multi-decade drought period in the second century A.D. The findings give evidence that extended periods of aridity have occurred at intervals throughout our past.

Almost nine hundred years ago, in the mid-12th century, the southwestern U.S. was in the middle of a multi-decade megadrought. It was the most recent extended period of severe drought known for this region. But it was not the first.

 The second century A.D. saw an extended dry period of more than 100 years characterized by a multi-decade drought lasting nearly 50 years, says a new study from scientists at the University of Arizona.

 UA geoscientists Cody Routson, Connie Woodhouse and Jonathan Overpeck conducted a study of the southern San Juan Mountains in south-central Colorado. The region serves as a primary drainage site for the Rio Grande and San Juan rivers.

 ”These mountains are very important for both the San Juan River and the Rio Grande River,” said Routson, a doctoral candidate in the environmental studies laboratory of the UA’s department of geosciences  and the primary author of the study, which is upcoming in Geophysical Research Letters.

 The San Juan River is a tributary for the Colorado River, meaning any climate changes that affect the San Juan drainage also likely would affect the Colorado River and its watershed. Said Routson: “We wanted to develop as long a record as possible for that region.”

 Dendrochronology is a precise science of using annual growth rings of trees to understand climate in the past. Because trees add a normally clearly defined growth ring around their trunk each year, counting the rings backwards from a tree’s bark allows scientists to determine not only the age of the tree, but which years were good for growth and which years were more difficult.

 ”If it’s a wet year, they grow a wide ring, and if it’s a dry year, they grow a narrow ring,” said Routson. “If you average that pattern across trees in a region you can develop a chronology that shows what years were drier or wetter for that particular region.”

 Darker wood, referred to as latewood because it develops in the latter part of the year at the end of the growing season, forms a usually distinct boundary between one ring and the next. The latewood is darker because growth at the end of the growing season has slowed and the cells are more compact.

 To develop their chronology, the researchers looked for indications of climate in the past in the growth rings of the oldest trees in the southern San Juan region. “We drove around and looked for old trees,” said Routson.

 Literally nothing is older than a bristlecone pine tree: The oldest and longest-living species on the planet, these pine trees normally are found clinging to bare rocky landscapes of alpine or near-alpine mountain slopes. The trees, the oldest of which are more than 4,000 years old, are capable of withstanding extreme drought conditions.

 ”We did a lot of hiking and found a couple of sites of bristlecone pines, and one in particular that we honed in on,” said Routson.

 To sample the trees without damaging them, the dendrochronologists used a tool like a metal screw that bores a tiny hole in the trunk of the tree and allows them to extract a sample, called a core. “We take a piece of wood about the size and shape of a pencil from the tree,” explained Routson.

 ”We also sampled dead wood that was lying about the land. We took our samples back to the lab where we used a visual, graphic technique to match where the annual growth patterns of the living trees overlap with the patterns in the dead wood. Once we have the pattern matched we measure the rings and average these values to generate a site chronology.”

 ”In our chronology for the south San Juan mountains we created a record that extends back 2,200 years,” said Routson. “It was pretty profound that we were able to get back that far.”

 The chronology extends many years earlier than the medieval period, during which two major drought events in that region already were known from previous chronologies.

 ”The medieval period extends roughly from 800 to 1300 A.D.,” said Routson. “During that period there was a lot of evidence from previous studies for increased aridity, in particular two major droughts: one in the middle of the 12th century, and one at the end of the 13th century.”

“Very few records are long enough to assess the global conditions associated with these two periods of Southwestern aridity,” said Routson. “And the available records have uncertainties.”

 But the chronology from the San Juan bristlecone pines showed something completely new:

 ”There was another period of increased aridity even earlier,” said Routson. “This new record shows that in addition to known droughts from the medieval period, there is also evidence for an earlier megadrought during the second century A.D.”

 ”What we can see from our record is that it was a period of basically 50 consecutive years of below-average growth,” said Routson. “And that’s within a much broader period that extends from around 124 A.D. to 210 A.D. – about a 100-year-long period of dry conditions.”

 ”We’re showing that there are multiple extreme drought events that happened during our past in this region,” said Routson. “These megadroughts lasted for decades, which is much longer than our current drought. And the climatic events behind these previous dry periods are really similar to what we’re experiencing today.”

 The prolonged drought in the 12th century and the newly discovered event in the second century A.D. may both have been influenced by warmer-than-average Northern Hemisphere temperatures, Routson said: “The limited records indicate there may have been similar La Nina-like background conditions in the tropical Pacific Ocean, which are known to influence modern drought, during the two periods.”

 Although natural climate variation has led to extended dry periods in the southwestern U.S. in the past, there is reason to believe that human-driven climate change will increase the frequency of extreme droughts in the future, said Routson. In other words, we should expect similar multi-decade droughts in a future predicted to be even warmer than the past.

Comment:

This is interesting research that shows extreme weather is part of the natural cycle.  Drought cycles are most closely correlated with various solar cycles of 1,533 years (the Bond cycle), 444 years, 170 years, 146 years, and 88 years (the Gleissberg cycles).  Asmerom,et al. report that periods of increased solar radiation correlate with periods of decreased rainfall in the southwestern United States (via changes in the North American monsoon).   These solar cycles control the Pacific Decadal Oscillation and the El Nino system which control weather and climate in the southwest.

I was amused by some of the terminology.  The authors refer to the “medieval period” and “Roman period” rather than the more commonly used terms “Medieval Warm Period” and “Roman Warm Period.”  This may reflect a concession to one of the co-authors, Overpeck, who is reputed to have told another scientist that we had to get rid of the Medieval Warm Period because it gave the lie to Michael Mann’s infamous hockey stick graph.  The last paragraph if the press release may also reflect a reluctance to admit that natural variation is dominant.

This graphic below shows where the Roman Period fits in with the other warm/cold cycles since the end of the last glacial epoch:

Reference cited:

Asmerom, Y., Polyak, V., Burns, S. and Rassmussen, J. 2007. Solar forcing of Holocene climate: New insights from a speleothem record, southwestern United States. Geology 35: 1-4.

See also:

Drought in the West

Droughts in the Southwest put in perspective

El Niño, bristlecone pines, and drought in the Southwest

Tomorrow the University of Arizona will present some political theater.  In the evening, UA presents will feature a troupe from several South Pacific islands in a program titled  “Water is Rising.”  Preceding that on Friday afternoon is a discussion led by the UofA  Institute of the Environment titled “Vanishing Islands: Culture and Climate Change.” (See article here.)

It is unfortunate that what will probably be an entertaining evening of song and dance is being used as political propaganda posing Pacific islanders as victims of global warming-caused sea level rise that will inundate their homes.  Such propaganda is not new.  Back in 2009, Members of the Maldives’ Cabinet donned scuba gear and held a meeting under water in a publicity stunt about sea level rise.

The UA’s Institute of the Environment has also, in the past, issued alarmist articles about sea level rise flooding low-lying coastlines, see Science Fiction from the University of Arizona.

If you decide to go to the afternoon discussion, here are a few things you should know. Auckland University Professor Paul Kench has measured 27 islands where local sea levels have risen 120mm – an average of 2mm a year – over the past 60 years, and found that just four had diminished in size, the remaining 23 had either stayed the same or grown bigger, according to the research published in a scientific journal, Global and Planetary Change.

The Australian government has been monitoring sea level on Pacific islands with modern instruments since 1992.   In the case of Tuvalu, they state, “If   the   depression   of   the   1998   cyclone   is   ignored,  there   was   no   change   in   sea   level   at   Tuvalu between 1994 and 2009: 14 years. The recent slight fall would probably be related to the recent earthquake.”

Here is the Australian record of sea level for Tuvalu.  Other South Pacific islands show a similar record.

See also:

Sea Level Rising?

Sea Level Rise Declining says EU

Obama parts the waters, sea level drops

Size matters in sea level studies

It is sometimes amusing to see how scientific papers are promoted by university communications departments. The study in question is modestly titled “The role of ocean thermal expansion in Last Interglacial sea level rise.” (Full citation below.) That’s not nearly as exciting as the alarmist headline of the press release:”Rising Oceans – Too Late to Turn the Tide?”

I don’t have a problem with the basic premise of the paper itself but I do have a problem with the press release . The basic premise of the paper is “Melting ice sheets contributed much more to rising sea levels than thermal expansion of warming ocean waters during the Last Interglacial Period.” I agree.

Within the press release is this sentence: “But the question remains: How much of that will be due to ice sheets melting as opposed to the oceans’ 332 billion cubic miles of water increasing in volume as they warm up?” 332 BILLION? That is hyperbole since the actual volume of the ocean is 332 MILLION cubic miles (see here and here). Okay, maybe that’s just a typo, but should not communications departments proofread their papers and have enough scientific knowledge to recognize a mistake, especially if they write about scientific research?

But apparently the English language is also a challenge. Consider this sentence that captions an accompanying photo: “If sea levels rose to where they were during the Last Interglacial Period, large parts of the Gulf of Mexico would be under water…” The Gulf of Mexico is water. Of course the intended meaning is that if sea level rose, then the land along the coast of the Gulf of Mexico would be flooded.

And, there is this almost obligatory agenda-driven sentence in the press release: “As the world’s climate becomes warmer due to increased greenhouse gases in the atmosphere, sea levels are expected to rise by up to three feet by the end of this century.” If the writer of the press release or the authors of the paper have some physical evidence that greenhouse gases, specifically carbon dioxide, cause significant warming, I would be most grateful to learn of such evidence because I have yet to find any.

The contention that sea level will rise at least three feet by the end of the century is highly speculative. The rate of sea level rise is decreasing in spite of rising carbon dioxide in the atmosphere.

Questionable statements and spin in press releases are not confined to the University of Arizona. Unfortunately, this practice is becoming too common, perhaps in an effort to grab headlines and grants. It would be nice to see press releases written in the “Dragnet style:” just the facts Ma’am.

Citation:

McKay, N., J. T. Overpeck, and B. Otto-Bliesner (2011). The role of ocean thermal expansion in Last Interglacial sea level rise. Geophys. Res. Lett., doi:10.1029/2011GL048280, in press.

Update: I notice that the University of Arizona has corrected the two errors that I pointed out in its press release.  Good for them.

See also:

Sea Level Rising?

Science Fiction from the University of Arizona?