Showing total 2 results

1. Controlling the Spatial Spread of a Xylella Epidemic.

Author

Aniţa, Sebastian, Capasso, Vincenzo, and Scacchi, Simone

Subjects

XYLELLA fastidiosa, ORDINARY differential equations, EPIDEMICS, HOST plants, INTEGRATED pest control, ORCHARDS, OLIVE, EPIDEMIOLOGICAL models

Abstract

In a recent paper by one of the authors and collaborators, motivated by the Olive Quick Decline Syndrome (OQDS) outbreak, which has been ongoing in Southern Italy since 2013, a simple epidemiological model describing this epidemic was presented. Beside the bacterium Xylella fastidiosa, the main players considered in the model are its insect vectors, Philaenus spumarius, and the host plants (olive trees and weeds) of the insects and of the bacterium. The model was based on a system of ordinary differential equations, the analysis of which provided interesting results about possible equilibria of the epidemic system and guidelines for its numerical simulations. Although the model presented there was mathematically rather simplified, its analysis has highlighted threshold parameters that could be the target of control strategies within an integrated pest management framework, not requiring the removal of the productive resource represented by the olive trees. Indeed, numerical simulations support the outcomes of the mathematical analysis, according to which the removal of a suitable amount of weed biomass (reservoir of Xylella fastidiosa) from olive orchards and surrounding areas resulted in the most efficient strategy to control the spread of the OQDS. In addition, as expected, the adoption of more resistant olive tree cultivars has been shown to be a good strategy, though less cost-effective, in controlling the pathogen. In this paper for a more realistic description and a clearer interpretation of the proposed control measures, a spatial structure of the epidemic system has been included, but, in order to keep mathematical technicalities to a minimum, only two players have been described in a dynamical way, trees and insects, while the weed biomass is taken to be a given quantity. The control measures have been introduced only on a subregion of the whole habitat, in order to contain costs of intervention. We show that such a practice can lead to the eradication of an epidemic outbreak. Numerical simulations confirm both the results of the previous paper and the theoretical results of the model with a spatial structure, though subject to regional control only. [ABSTRACT FROM AUTHOR]

Published

2021

2. Public parks management via mathematical tools.

Author

Tamburino, Lucia and Venturino, Ezio

Subjects

PREDATION, MATHEMATICAL models, DOMESTIC animals, HERBIVORES, LANDSCAPES

Abstract

In this paper, we consider a mathematical model for the interaction of wild and domestic herbivores with a natural or man-maintained landscape. We focus our attention on parks in Piedmont (NW Italy), which are characterized by the presence of meadows, woods and herbivore populations, such as deer and sheep. Even if herbivores consume mainly grass, they can occasionally debark trees. This behaviour occurs especially in the winter season, when grass availability is reduced, and may cause the death of trees. Our model evaluates some possible policies for dealing with this problem. The results of this study show that it is wise to keep the number of herbivores in environments in which young trees are present in check. Grazing of domestic herbivores should be prohibited in newly planted tree areas. [ABSTRACT FROM PUBLISHER]

Published

2012