Ecological resilience

Resilience in an ecological system is the capacity of the system itself to repair itself following a disturbance in order to return to an equilibrium condition. This perturbation can be anthropogenic (e.g. pollution, fire, deforestation, etc.) or natural (e.g. landslide, avalanche, eruption, etc.) in origin.

An example of a highly resilient system is the Mediterranean maquis, a widespread ecosystem along the central southern Italian coasts. This environment, characterised by highly variable soil and climate factors, has developed, over millions of years of evolution, a marked resilience such that it is able to counter even catastrophic natural events such as collapses, fires and strong sea storms. The species (plants and animals) that typically inhabit these contexts are able, more or less quickly, to recolonise degraded or damaged areas.

The speed with which the ecosystem repairs the damage suffered indicates the degree of greater or lesser resilience. In general, the greater the presence of biodiversity, the faster the system will react.

BioAksxter® makes it possible to re-establish the structural and functional integrity of the soil that expresses the capacity to react to the perturbations that the plant-soil system undergoes. Such as in the case of pollution, excessive use of synthetic chemicals, pathologies of various kinds, etc. 

BioAksxter®, used regularly, reactivates the microbial component responsible for humic and mineralisation processes so as to restore the soil to optimal agronomic conditions by accelerating resilience.

BioAksxter® was conceived with a view to meeting the increasingly pressing need to combine agricultural yields and profitability with environmental balance and protection. Thanks to its depolluting formulation, it repairs the damage done to the agro-ecosystem by decades of industrial agriculture.