Study shows tropical cyclones moving south
By Summit Voice
FRISCO — Global warming is driving southern hemisphere tropical cyclones farther south, potentially putting South Africa at risk by mid-century, according to a new study from Wits University.
At the same time, the study debunked assumptions that tropical cyclones will become more frequent. A statistical analysis of the numbers for the past few decades show no trend of increasing cyclones.
Data for the south-west Indian Ocean over the past 161 years, Fitchett and co-author Professor Stefan Grab, also from GAES, confirmed the results of previous studies which have found that there has been no increase in the number of tropical cyclones and that much of the perceived change in numbers is a result of improved storm detection methods.
“From 1940, there was a huge increase in observations because of aerial reconnaissance and satellite imagery,” said Jennifer Fitchett, a PhD student in the Wits School of Geography, Archaeology and Environmental Studies.
The big surprise came when Fitchett and Grab looked at where storms have been happening. As the oceans have warmed and the minimum sea surface temperature necessary for a cyclone to occur (26.5 degrees Celsius) has been moving farther south, storms in the south-west Indian Ocean have been moving farther south too.
Most cyclones hit Madagascar and do not continue to Mozambique, and those which hit Mozambique develop to the North of Madagascar. but in the past 66 years there have been seven storms which have developed south of Madagascar and hit Mozambique head-on. More notable is that four of them occurred in the past 20 years.
“This definitely looks like the start of a trend,” Fitchett said.
South Africa is already feeling the effects of this shift. The cyclones that hit southern Mozambique cause heavy rain and flooding in Limpopo. But according to Fitchett, the trend becomes even more concerning when one considers that the 26.5 degrees Celsius temperature line (isotherm) has been moving south at a rate of 0.6 degrees latitude per decade since 1850.
“At current rates we could see frequent serious damage in South Africa by 2050,” she said. “This is not what we expected from climate change. We thought tropical cyclones might increase in number but we never expected them to move.”
In a separate study, Fitchett and co-authors looked at different types of citrus – oranges, lemons and tangerines – in two cities in Iran, where the existence of heritage gardens meant data were easily available. They found that, while global warming is causing the fruit trees to flower as much as a month earlier than 50 years ago, changes in late season frost are not happening nearly as quickly.
Before 1988 there were zero to three days between peak flowering and the last day of frost in Kerman, Iran; since then, the number has increased to zero to 15.
“The layman’s assumption is that as temperatures get warmer, there will be less frost. But although the severity of the frost has decreased, the last day of frost hasn’t been receding as quickly as the advances in flowering. The result is that frost events are increasingly taking place during flowering and damaging the flowers. No flowers equals no fruit,” said Fitchett.
According to the study, at current rates, it will take only 70 years before it becomes a certainty that frost will occur during peak flowering in Kerman. Already, since 1988, frost has occurred during peak flowering in 41 percent of the years.
“Iran is a top citrus producer but they don’t export and we don’t yet have data on whether there has been an impact on their citrus yields. We think that if there hasn’t already been a huge impact, there soon will be,” she explained.
South Africa also produces a lot of citrus – for local and international consumption – and the country has been experiencing similar climate warming to Iran. South African farmers are not yet recording the flowering dates of their crops which makes it hard to repeat the study locally, but according to Fitchett, the threat is of concern.