As early as 2013, the Hamburg botanist Norbert Jurgens published, that purely subterranean sand termites of the genus Psammotermes cause the bare patches and, by eliminating the plants in the sandy soils, enable long-lasting storage of water after infrequent rainfall. This explanation, published in "Science", was confirmed in the years that followed by entomologists from southern Africa (Prof Mike Picker, Dr Joh Henschel, Dr Kelly Vlieghe).
Other researchers also investigated the mysterious phenomenon, e.g. at the University of Gottingen using modelling approaches. The researchers published (Getzin et al. 2015, 2022) that the bare patches are caused by self-organisation of the grass plants, which draw water unevenly to themselves with their roots and through extensive diffusion in the sandy soils, thus causing the death of grasses in the bare patches. Furthermore, by measuring soil moisture beneath the fairy circle in 20 cm depth, they found desiccation, which they interpreted as caused fast horizontal sucking of water by the grasses of the surrounding.
Norbert Jurgens and Alexander Grongroft now refute the central arguments of the modellers from Gottingen in the article published by PPEES: In their study, Jurgens and Grongroft demonstrated the presence of sand termites on more than 1,700 fairy circles in Namibia, Angola and South Africa.
The soil moisture measurements cited by Getzin et. al (2022) as evidence for the self-organisation hypothesis coincide with Jurgens' soil moisture measurements in 2013. However, the interpretations differ: While the modellers measure in the topsoil and interpret its drying out as withdrawal of water by the surrounding grasses, Jurgens showed in 2013 by simultaneous measurement at four different depths of up to 90 cm that the fairy circles in the subsoil store the water for a long time.
"Of even greater significance is that the analysis of my colleague Grongroft and the measurements of the hydrological properties of the desert sand carried out in the laboratory invalidate the crucial foundations of the assumption of self-regulation," says Jurgens.
"The water conductivity of the coarse-grained sand of the fairy circles, in which the termites live, is indeed very high when a lot of water is present during a heavy rain event, which can then quickly seep away in the large pores. However, the situation is completely different when the sand has released the easily movable water into the depths and has dried out to less than about eight percent of the soil volume.
Then water is only stored at the points of contact between the sand grains, a continuous film of water is missing and the soil's ability to conduct water drops to very low levels. This means that at the levels of moisture found below fairy circles (=5% by volume), very little liquid water transport can take place over short distances." The formation of dry sand layers on the soil surface directly above moist subsoil demonstrates this physical phenomenon.
"The horizontal water transports over metres in a few days assumed by the representatives of self-regulation are physically impossible according to current knowledge. The debate about opposing interpretations of a biological phenomenon is thus surprisingly decided by physics, in this case soil physics," says Jurgens.
"The soil moisture measurements on the fairy circles and the soil hydraulic properties of the sand found in the laboratory thus rule out the self-regulation hypothesis as an explanation for the fairy circles. The cause for the formation of the fairy circles is thus clear - it is the sand termites that secure a considerable survival advantage through soil moisture storage."
Research Report:Sand termite herbivory causes Namibia'?s fairy circles - A response to Getzin et al. (2022)
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