Industrial farming disrupts burn-regrowth cycle in grasslands, study finds – “Humans are interrupting the ancient, natural cycle of burning and recovery”
Irvine, California, 29 June 2017 (UCI) – The world’s open grasslands and the beneficial fires that sustain them have shrunk rapidly over the past two decades, thanks to a massive increase in agriculture, according to a new study led by University of California, Irvine and NASA researchers published today in Science.Analyzing 1998 to 2015 data from NASA’s Terra and Aqua satellites, the international team found that the total area of Earth’s surface torched by flames had fallen by nearly 25 percent, or 452,000 square miles (1.2 million square kilometers). Decreases were greatest in Central America and South America, across the Eurasian steppe and in northern Africa, home to fast-disappearing lions, rhinoceroses, and other iconic species that live on these fire-forged savannas.“A billion and a half more people have been added to the planet over the past 20 years, livestock has doubled in many places, and wide-open areas once kept open by fire are now being farmed,” said James Randerson, Chancellor’s Professor of Earth system science at UCI. “Our fire data are a sensitive indicator of the intense pressure humans are placing on these important ecosystems.”Modelers had forecast that as global temperatures rose, fire risk would soar. But the researchers learned that widely used prediction tools didn’t account for surging population growth or the conversion of grasslands and subsistence farming to industrial agriculture in some of the world’s poorest regions.Fire has been an important factor for millennia in the maintenance of healthy grasslands, which support many large mammals. Without occasional blazes, trees and shrubs encroach on this habitat, which covers about a fifth of the planet’s terrain. The researchers discovered a profound transformation over the past two decades.“Satellite images revealed clear relationships among the rapid disappearance of fires from grassland ecosystems across the world, human activity and changes in plant cover,” said lead author Niels Andela, a research scientist at NASA’s Goddard Space Flight Center and UCI.Sharp increases in the number of livestock, the expansion of croplands, and new buildings and roads have fragmented the savannas and reduced highly flammable dried grasses. The expanses have become prized assets for private landowners who want to prevent brush fires. Unlike international efforts to combat tropical deforestation, there’s been less focus on protecting these vast semiarid stretches.“Humans are interrupting the ancient, natural cycle of burning and recovery in these areas,” Randerson said.Losing a fourth of the planet’s fires has benefits, increasing storage of dangerous carbon emissions and reducing lung-damaging smoke. But the drop-off in smoke in the atmosphere also allows more sunlight to reach the Earth’s surface, causing more global warming.The change is not uniform. Consistent with previous reports, more wildfires have occurred in the western U.S. and across North American boreal forests, where climate change is lengthening the fire season and drying out flammable vegetation faster.Researchers from NASA’s Goddard Space Flight Center, the University of Maryland, Vrije Universiteit Amsterdam, Duke University, Columbia University, the Karlsruhe Institute of Technology, the Max Planck Institute for Meteorology, Oregon State University, the Senckenberg Biodiversity & Climate Research Centre, the Chinese Academy of Sciences, Imperial College London, Environment Canada’s Climate Research Division and the Universite Paris-Saclay also participated in this study, which was funded by the Gordon and Betty Moore Foundation, NASA, the Netherlands Organisation for Scientific Research, the National Science Foundation of China and the European Space Agency.
UCI: Earth is losing its fire power
ABSTRACT: Fire is an essential Earth system process that alters ecosystem and atmospheric composition. Here we assessed long-term fire trends using multiple satellite data sets. We found that global burned area declined by 24.3 ± 8.8% over the past 18 years. The estimated decrease in burned area remained robust after adjusting for precipitation variability and was largest in savannas. Agricultural expansion and intensification were primary drivers of declining fire activity. Fewer and smaller fires reduced aerosol concentrations, modified vegetation structure, and increased the magnitude of the terrestrial carbon sink. Fire models were unable to reproduce the pattern and magnitude of observed declines, suggesting that they may overestimate fire emissions in future projections. Using economic and demographic variables, we developed a conceptual model for predicting fire in human-dominated landscapes.
