The restoration technique importance resides on the assessment of its impact on biodiversity. This assessment is possible by the use of some environmental indicators extracted from a diachronic study of land cover changes in protected areas. Our study is carried out with the evaluation of some indicators inside Sidi Toui national park. These indicators are measured on the one hand from a land cover map of 1988 (3 years before the creation of the park) and the map of 2007 on the other hand (16 years after the park creation). An important landscape heterogeneity, as a result of the progressive vegetation dynamic, was observed in 2007. This heterogeneity is indicated by an increasing of the Shannon diversity index under fencing impacts. The majority of 1988 vegetation units are replaced by new ones in 2007. The cover of all vegetation units is more important in 2007. 1. Introduction It is considered that the Mediterranean region, subjected to pronounced climatic and edaphic droughts, does not contain any unaltered terrestrial ecosystems [1–3]. In Presaharian Tunisia, defined by Floret and Pontanier [4] as the zone located between the isohyets 100 and 200?mm, the consequences of desertification became progressively a major environmental problem during the last decades [5]. In this zone the natural vegetation cover, mainly composed by very sparse steppic vegetation units, is altered by various human activities [6, 7]. Usually these activities lead to overgrazing after losing rangeland area (cultivation and ploughing impact) and increasing the number of animals (mainly sheep and goats). In order to protect natural vegetation units and limit their degradation, it should be necessary to decrease the human impact and enhance the ecosystems regeneration. This last can be carried out with protection, reducing grazing pressure and soil fertility improvement [8, 9]. Otherwise, it is necessary to identify and to use a lot of ecological indicators [10] in order to facilitate the vegetation dynamic monitoring. The environmental monitoring indicators can be considered like a particular case of indicators ([11] (OSS: Observatoire du Sahara et du Sahel (Sahara and Sahel Observatory); ROSELT: Réseau d’Observatoires de Surveillance écologique à Long-Terme (Long-Term Ecological Monitoring Observatories Network))). They permit, on the basis of data collected from the observation sites, the invention of structural elements describing and valuing the environmental status. These indicators are considered like an adapted tool for the natural resource managers and policies makers.
References
[1]
J. Aronson, C. Floret, E. Le Floc'h, C. Ovalle, and R. Pontanier, “Restoration and rehabilitation of degraded ecosystems in arid and semi-arid lands. I. A view from the South,” Restoration Ecology, vol. 1, no. 1, pp. 8–17, 1993.
[2]
J. Aronson, C. Floret, E. Le Floc'h, C. Ovalle, and R. Pontanier, “Restoration and rehabilitation of degraded ecosystems in arid and semi-arid lands. I. A view from the South,” Restoration Ecology, vol. 1, no. 3, pp. 168–187, 1993.
[3]
F. Ramade, “Conservation des écosystèmes méditerranéens,” in Les Fascicules du Plan Bleu, Economica, Paris, France, 1997.
[4]
C. Floret and R. Pontanier, L'aridité en Tunisie Présaharienne: Climat, Sol, Végétation et aménagement, vol. 150, ORSTOM, 1982.
[5]
A. O. Belgacem and M. Neffati, “Etude de la dynamique de la végétation en milieu saharien,” Revue des Régions Arides, pp. 252–257, 1996.
[6]
C. Floret, E. Le Floc’h, and R. Pontanier, “Phytomasse et production végétale en Tunisie présaharienne,” Acta Oecologica, vol. 4, no. 18, pp. 133–152, 1983.
[7]
E. Le Floc’h, “Les écosystèmes des zones arides du Nord de l’Afrique: orientation pour l’établissement d’un réseau de réserves de biosphère,” in Essai de Synthèse sur la Végétation et la Phyto-écologie Tunisienne, M. A. Nabli, Ed., vol. 5 et 6 of Ouvrage Collectif sur le Milieu Physique et la Végétation, pp. 309–321, Faculté des Sciences de Tunis, Agence de Coopération Culturelle et Technique, MAB, Tunis, Tunisie, 1995.
[8]
P. Martiniello, G. D’Agnano, O. Padalino, and F. Nardelli, “Effects of fertilisation on flora, biomass and seed production and soil fertility in four natural pastures of the Mediterranean basin,” Options Mediterraneennes, vol. 12, pp. 87–90, 1995.
[9]
M. Tarhouni, A. Ouled Belgacem, M. Neffati, and M. Chaieb, “Dynamique des groupements végétaux dans une aire protégée de Tunisie méridionale,” Cahiers Agricultures, vol. 16, no. 1, pp. 23–29, 2007.
[10]
OCDE, Indicateurs d’environnement, Organisation de Coopération et Développement Economiques, 1994.
[11]
OSS/ROSELT, “Surveillance environnementale à long terme en réseau circum-saharien: synthèse Afrique du Nord ‘Flore—Végétation—Occupation des terres’,” DRAFT, 2008.
[12]
M. Chaieb, Influence des Réserves Hydriques du Sol sur le Comportement Comparé de Quelques Espèces Végétales de la Zone Aride Tunisienne, Lille University of Science and Technology, Montpellier, France, 1989.
[13]
M. Moussa and M. Zaafouri, “Carte d'occupation des terres et des ressources pastorales d'el-Ouara, projet: TUN 86/002,” Cartographie des Ressources Pastorales dans les Zones de Mise en Valeur de Sud, 1988.
[14]
M. Tarhouni, Indicateurs de biodiversité et dynamique du couvert végétal naturel aux voisinages de trois points d’eau en zone aride tunisienne: cas des parcours collectifs d’el-Ouara [Ph.D. thesis], Faculte des Science de Tunis, 2008.
[15]
J. Braun-Blanquet, in Premier Aper?u Phytosociologique du Sahara Tunisien, Travaux botaniques dédiés à René Maire, Societé d'Histoire Naturelle de l'Afrique du Nord, 1949.
[16]
P. Daget and M. Godron, Pastoralisme: Troupeaux, Espèces et Sociétés, Hatier, Paris, France, 1995.
[17]
F. E. Clements, Plant Succession: On Analysis of the Development of Vegetation, vol. 242, Carnegie Institution for Science, Washington, DC, USA, 1916.
[18]
P. Roovers, B. Bossuyt, H. Gulinck, and M. Hermy, “Vegetation recovery on closed paths in temperate deciduous forests,” Journal of Environmental Management, vol. 74, no. 3, pp. 273–281, 2005.
[19]
T. Telahigue, C. Floret, and E. Le Floc'h, “Post-cultivational succession in the arid zone of Tunisia,” Acta Oecologica/Oecologia Plantarum, vol. 8, no. 1, pp. 45–58, 1987.
[20]
J. M. Connell and R. O. Slatyer, “Mechanism of succession in natural communities and their role in community stability and organisation,” The American Naturalist, vol. 111, pp. 1119–1144, 1977.
[21]
E. P. Odum, “The strategy of ecosystem development,” Science, vol. 164, no. 3877, pp. 262–270, 1969.
[22]
C. Prado, Un modèle de succession végétale: r?le des traits biologiques des espèces et des contraintes spatiales [Ph.D. thesis], University of Paris VI, Paris, France, 1988.
[23]
M. Tarhouni, A. O. Belgacem, M. Neffati, and B. Henchi, “Validation de quelques attributs structuraux de l’écosystème sous l’effet de la sécheresse saisonnière et la pression animale autour de points d’eau en zone aride tunisienne,” Belgian Journal of Botany, vol. 139, no. 2, pp. 188–202, 2006.
[24]
F. Bendali, C. Floret, E. Le Floc'h, and R. Pontanier, “The dynamics of vegetation and sand mobility in arid regions of Tunisia,” Journal of Arid Environments, vol. 18, no. 1, pp. 21–32, 1990.
[25]
M. Tarhouni, A. O. Belgacem, M. Neffati, and B. Henchi, “Qualification of rangeland degradation using plant life history strategies around watering points in southern Tunisia,” Pakistan Journal of Biological Sciences, vol. 10, no. 8, pp. 1229–1235, 2007.
[26]
A. Bonet, “Secondary succession of semi-arid Mediterranean old-fields in south-eastern Spain: insights for conservation and restoration of degraded lands,” Journal of Arid Environments, vol. 56, no. 2, pp. 213–233, 2004.
[27]
J. Zhang, H. Zhao, T. Zhang, X. Zhao, and S. Drake, “Community succession along a chronosequence of vegetation restoration on sand dunes in Horqin Sandy Land,” Journal of Arid Environments, vol. 62, no. 4, pp. 555–566, 2005.
[28]
J.-T. Zhang, “Succession analysis of plant communities in abandoned croplands in the eastern Loess Plateau of China,” Journal of Arid Environments, vol. 63, no. 2, pp. 458–474, 2005.
[29]
K. L. Metzger, M. B. Coughenour, R. M. Reich, and R. B. Boone, “Effects of seasonal grazing on plant species diversity and vegetation structure in a semi-arid ecosystem,” Journal of Arid Environments, vol. 61, no. 1, pp. 147–160, 2005.
[30]
S. Jauffret, Validation et comparaison de divers indicateurs des changements à long terme dans les écosystèmes Méditerranéens arides [Ph.D. thesis], Univ de Droit, d'économie et des Sciences d' Aix- Marseille, 2001.
[31]
P. Waechter, Etude des relations entre les animaux domestiques et la végétation dans les steppes du sud de la Tunisie. Implications pastorales [Ph.D. thesis], University of Science and Techniques of Languedoc, Montpellier, France, 1982.
[32]
E. Le Floc’h, Biodiversité et Gestion Pastorale en Zones Arides et Semi-Arides Méditerranéennes du Nord de L’Afrique, vol. 13, Bocconea, 2001.
[33]
C. R?mermann, T. Dutoit, P. Poschlod, and E. Buisson, “Influence of former cultivation on the unique Mediterranean steppe of France and consequences for conservation management,” Biological Conservation, vol. 121, no. 1, pp. 21–33, 2005.
[34]
D. Tscherko, U. Hammesfahr, G. Zeltner, E. Kandeler, and R. B?cker, “Plant succession and rhizosphere microbial communities in a recently deglaciated alpine terrain,” Basic and Applied Ecology, vol. 6, no. 4, pp. 367–383, 2005.
