Nagyobb kockázat, nagyobb növekedési ütem - kockázat nélkül nincs növekedés! Hozzászólás Thomas Piketty A tőke a 21. században című könyvéhez (Why are interest rates higher than growth rates? A comment on Thomas Piketty's Capital in the Twenty-First Century)

E rövid írás aktualitását az adja, hogy nemrégen jelent meg magyarul Thomas Piketty híres könyve: A tőke a 21. században. A könyv központi gondolata, hogy az elmúlt kétszáz év átlagában a gazdaság átlagos növekedési üteme, a g jelentősen elmarad az r értékétől, vagyis a tőke átlagos hozamától. A nevezetes r>g összefüggés egyik lehetséges oka, hogy az r szórása nagyobb, mint a g-é. A nagyobb szórás mögött nagyobb kockázati motívumok állhatnak. Ebből következően a Piketty által javasolt adókat jelentős mértékben a pénzügyi tőkének kellene viselnie. ____ The immediacy of this note derives from the fact that Picatty's famous Capital in the Twenty-First Century has been recently published in Hungarian. The central issue in the book is that taking the average of 200 years, the mean growth rate g is lower than the average return on capital r. One possible explanation of this famous r > g inequality may be that the standard deviation of r is greater than that of g because of the greater appetite for risk. The implication to draw from this is that financial capital should bear the majority of the taxes being suggested by Piketty.

Modelling the growth of young individuals of Pinus nigra on thin carbonate soils under climate change in Hungary

Climate change highly impacts on tree growth and also threatens the forest of the karstic terrains. From the 1980s the frequency of decay events of the Pinus nigra Arnold forests showed a marked increase in Hungary. To understanding the vulnerability of Pinus nigra forests to climate change on shallow karstic soils in continental-sub Mediterranean climatic conditions we developed the study of three sampled population in the typical karstic landscape of Veszprém in North Transdanubia. We built our model on non-invasive approach using the annual growth of the individuals. MPI Echam5 climate model and as aridity index the Thornthwaite Agrometeorological Index were used. Our results indicate that soil thickness up to 11 cm has a major influence on the main growth intensity, however, aridity determines the annual growth rate. Our model results showed that the increasing decay frequency in the last decades was a parallel change to the decreasing growth rate of pines. The climate model predicts the similar, increased decay frequency to the presents. Our results can be valid for a wider areas of the periphery of Mediterranean climate zone while the annual-growth based model is a cost-effective and simple method to study the vitality of pine trees in a given area.