It was Sunday, 20 January and Tim Wardlaw of the University of Tasmania (UTAS) sat nervously, constantly checking updates on the Tasmanian Fire Service website as bushfires slowly surrounded TERN’s Warra Tall Eucalypt SuperSite—one of Australia’s longest running long-term ecological research (LTER) sites and part of the International LTER network (ILTER).
On Wednesday, the prognosis was surprisingly positive with the fires closest to the Warra SuperSite being kept under control by water bombing and high fuel moisture levels.
“The forest seems like it’s wet enough to restrict the fires to a smoldering, slow spread,” reported Tim in a remarkably positive early email. As a precaution, debris and vegetation around the site’s flux tower were cleared by fire authorities.
A screenshot from Geoscience Australia's Sentinel Hotspots taken on Wednesday, 23 January showing a number of fires in Tasmania's Huon Valley region
By the following Monday, 28 January it was not looking good for the site’s 80m tall eddy covariance tower and its sensitive ecosystem monitoring equipment.
Several days of dry weather and high temperatures quickly established dangerous fires that exceeded the control of firefighting authorities. The latest mapping by the fire service had the fire burning just a few hundred metres from the flux tower.
“The fire is likely to impact the site today or tomorrow,” laments Tim via email. “Currently all roads into the area are closed and viewing conditions from the air are likely to be limited because of smoke. Conditions will be better on Thursday with the passage of a cold front (unfortunately without much rain) and I may be able to get on site either by road or helicopter then to inspect.”
By 30 January the fire situation in the Huon Valley and around TERN's Warra Tall Eucalypt SuperSite has significantly worsened
The smoke finally cleared on Wednesday 6 February and helicopter captured images confirmed the tower remained standing. Tim was safely able to visit the landscape he’s been working at for over 20 years on 11 February, but when he got there it wasn’t the lush wet eucalypt forest he was used to.
“The fire had consumed much of the surrounding understorey and scorched crowns of the eucalypt and blackwood overstorey,” reported Tim.
Smokey images of the flux monitoring tower at TERN's Warra Tall Eucalypt SuperSite were captured by helicopter on 6 February showing the patchiness of the crown scorching of the overstorey eucalypts; and the variation in the severity of crown scorching with severe scorching (red-brown colour) of the mid-storey vegetation and light scorching of the overstorey eucalpyts (yellow-brown colour)(image courtesy of Sustainable Timber Tasmania)
The tower was still standing and thankfully most of the instruments survived. But down on the ground, inspections revealed a sorry story. Soil sensors, destroyed. Dataloggers, multiplexers and a time-domain reflectometer, either melted or irreparable. Power and communication cables melted. The site’s acoustic recorder; melted beyond recognition.
As well as the SuperSite, the fires had also burnt three of TERN’s smaller 1 ha ecosystem surveillance plots ha plots and the TERN Landscapes remote sensing calibration site.
Two other long-term experiments—the Silvicultural Systems Trial and the Wildfire Chrono-sequence Plots—being conducted at Warra by TERN’s partners Sustainable Timber Tasmania and UTAS Warra were also impacted by the fire.
A weatherproof enclosure housing a multiplexer showing evidence of exposure to extreme heat (left) and all that remains of the acoustic recorder (right) (images courtesy of Tim Wardlaw)
Despite the destruction and subsequent large sum of money and effort required to get things going again, the event has offered up a great opportunity to augment the decades of data collected so far and look at the effect of fire—one of the most important processes in carbon cycling—for an important Australian ecosystem.
“The burnt research sites, including the TERN LTER site and 1 ha plots, and numerous other vegetation and biodiversity monitoring plots scattered in the landscape, will provide useful baseline data to assess fire impacts and ecosystem recovery,” says Dr Sue Baker, a research fellow in forest ecology and conservation biology at UTAS.
Fire damage at the Warra site illustrating the complete consumption of the ground layer vegetation (image courtesy of Tim Wardlaw)
“Wildfires provide an ideal natural benchmark to assess the impacts of forest management on biodiversity,” says Sue. “But, there hasn’t been a wildfire in this landscape since 1967 so we’re keen to use this opportunity to do some post-fire research to tie in with the biodiversity studies that have been going on at the site for the last twenty years.”
Preliminary analyses of the data collected by the site’s flux tower during the fires indicate that there were several spikes in atmospheric concentrations of CO2 and that around 10 tonnes CO2 per hectare was lost within a few hours during the passage of the fire.
“The data from the flux tower during the fire event are very rare globally and may challenge some of our assumptions about carbon losses during fires” adds Tim, the Principal Investigator at the Warra SuperSite.
As the data comes online via the TERN Data Discovery Portal it’s reassuring to think of the exciting science that will surely rise from the ashes.
30-minute time-series of temperatures measured by the Warra flux tower during the passage of the fire through the site (courtesy of Tim Wardlaw)
A time-series of CO2 concentrations measured at the Warra site during the fortnight following the ignition of fires in the Huon Valley during a dry lightning storm on the evening of the 15th January 2019 (courtesy of Tim Wardlaw)
Published in TERN newsletter March 2019