Claim: Global warming to make more lightning caused fires, but only in the Northern Hemisphere
From PORTLAND STATE UNIVERSITY and the “global warming, is there anything it can’t do with the help of interpreters” department:
Climate change increasing risks of lightning-ignited fires, study finds
Fires ignited by lightning have and will likely continue to increase across the Mediterranean and temperate regions in the Southern Hemisphere under a warmer climate, according to a new study co-led by a Portland State University researcher.
The study, published online in May in the journal Geophysical Research Letters, examined the observed and forecasted relationship between lightning-ignited fires, rising temperatures across the Southern Hemisphere and natural climate variability in three leading climate drivers that affect weather worldwide: El Niño-La Niña, the Indian Ocean Dipole and the Southern Annular Mode.
El Niño-La Niña, known as ENSO, is the periodic warming and cooling periods of the equatorial eastern and central Pacific Ocean that affects the world’s climate the most. The Indian Ocean Dipole, or IOD, is a similar ocean-atmospheric phenomenon characterized by changes in sea-surface temperatures between the eastern and western part of the Indian Ocean, while the Southern Annular Mode, or SAM, describes the north-south movement of the westerly wind belt that circles Antarctica and carries moisture to the southwest corners of all the Southern Hemisphere continents.
Heat, oxygen, fuel and an ignition source combine to start wildfires, but where and how quickly a fire moves depends on the terrain, the types and condition of vegetation present and the weather, said Andrés Holz, the study’s co-lead author and a geography professor in PSU’s College of Liberal Arts and Sciences.
The study found that of the three climate drivers, the SAM had the strongest impact on fire activity – both lightning- and human-caused wildfires – due to a combination of lower precipitation and higher temperatures, said Holz, who also serves as a faculty fellow at PSU’s Institute for Sustainable Solutions.
During the positive phase of SAM, the westerly winds contract toward Antarctica, leaving large areas in southern South America, South Africa and Australia rain-free. The recent positive trends in SAM are attributed to increasing greenhouse gas levels and the hole in the ozone layer.
“Now the winter is not as rainy and the summer is longer, drier and warmer,” Holz said.
Drier winters mean less moisture on the land, and warmer springs and summers are pulling the soil moisture into the air more quickly, allowing the soil and vegetation to dry out and ignite more readily, he said.
The study found that the natural influence of the three climate modes (ENSO, IOD and SAM) on fire activity was stronger during the 21st century than during the last couple of decades of the 20th century as a result of anthropogenic warming. That trend is expected to continue.
Among the study’s findings:
Global warming is linked to increased natural (lightning-ignited) fire occurrence
Climate change is amplifying climate-fire teleconnections, or the strength of long-distance relationships between weather patterns and fire During the onset of the 21st century, lightning-ignited fires were tightly coupled with upward trends in the SAM and rising temperatures across the Southern Hemisphere
“We think that by having warmer oceans and warmer temperatures in general, we’re going to see higher evaporation and heat transfer, and thus higher frequency of convective storms that in turn results in more lightning-ignited fires,” Holz said. “And with a climate mode such as SAM stuck in its positive, fire-prone phase that seems to amplify climate change, it doesn’t look good.”
But Holz cautions that it does not mean that there will be an increasing number of fires everywhere. Under warmer conditions, if precipitation stays constant, there will be increased fire activity in areas that already have plenty of fuel to burn but have historically been too humid or wet to burn. On the flip side, areas that are dry year-round will likely see a decline in fire activity with global warming unless there’s a strong increase in rainfall.
“These trends are expected worldwide, not just in the Southern Hemisphere,” Holz said.
Climate Change Amplifications of Climate‐Fire Teleconnections in the Southern Hemisphere
Recent changes in trend and variability of the main Southern Hemisphere climate modes are driven by a variety of factors, including increasing atmospheric greenhouse gases, changes in tropical sea surface temperature, and stratospheric ozone depletion and recovery. One of the most important implications for climatic change is its effect via climate teleconnections on natural ecosystems, water security, and fire variability in proximity to populated areas, thus threatening human lives and properties. Only sparse and fragmentary knowledge of relationships between teleconnections, lightning strikes, and fire is available during the observed record within the Southern Hemisphere. This constitutes a major knowledge gap for undertaking suitable management and conservation plans. Our analysis of documentary fire records from Mediterranean and temperate regions across the Southern Hemisphere reveals a critical increased strength of climate‐fire teleconnections during the onset of the 21st century including a tight coupling between lightning‐ignited fire occurrences, the upward trend in the Southern Annular Mode, and rising temperatures across the Southern Hemisphere.
Plain Language Summary
This paper provides a critical view on the impending fire danger under increased climatic pressures, which is of extreme importance for the immediate future of climate change policy making and of landscape management and conservation actions. Our analysis of documentary fire records from across the Southern Hemisphere reveals, for the first time, a critical increased strength of fire‐climate teleconnections and a tight coupling between lightning‐ignited fire occurrences, the upward trend in the Southern Annular Mode, and rising temperatures during the onset of the 21st century. A clear increase in the potential for lightning‐ignited fires in response to climate change is an important reminder of the multitude of impacts that global warming will wreak on the Earth System.
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