Professor Ehud Meron will give a lecture on this topic on February 25. Entrance is free!
We now know that the different vegetation patterns are a result of differences in rainfall. The vegetation patterns organize themselves. An important factor is also the infiltration of the rain into the soil, a factor that plants themselves can also regulate. But the climate is changing, so will rainfall. So what will this mean for the tiger bush? You are welcome to attend the lecture of professor Ehud Meron to learn more.
SUMMARY
Pattern formation - a missing link in the study of ecosystem response to climate change
Date, time and place: Wednesday 25 February 11.00-12.00 in Ruppert-D
Speaker: Ehud Meron
Affiliation: Blaustein Institutes for Desert Research & Physics Department, Ben-Gurion University
NO ENTRANCE FEE
Self-organization processes leading to pattern formation phenomena are ubiquitous in nature. Cloud streets, sand ripples, stone patterns and animal-coat patterns are a few examples. Intensive theoretical and experimental research efforts during the past few decades have resulted in a mathematical theory of pattern formation whose predictions are well confirmed by controlled laboratory experiments. There is increasing observational evidence that pattern formation also plays an important role in shaping water-limited landscapes. Depending on the rainfall regime, self-organized vegetation patchiness in the form of nearly periodic spot, stripe and gap patterns has been reported. Supporting these observations are studies of spatially explicit vegetation models that have reproduced many of the observed patterns. In this talk I will review the state of art in studies of vegetation pattern formation, and delineate manners by which pattern formation processes can affect ecosystem response to environmental changes. The latter include gradual and incipient regime shifts induced by droughts and disturbances, resilient restoration of degraded vegetation as a spatial resonance problem, and mechanisms of species coexistence in stressed environments.
Ineke Roeling - PhD student
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