Full text: Resource and environmental monitoring

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THE CONTRIBUTION OF REMOTE SENSING AND GEOGRAPHIC INFORMATION 
SYSTEMS IN THE PREDICTION OF WATER RISING AND FLOODING FIELD 
Mohamed CHIKH 
CENTRE NATIONAL DES TECHNIQUES SPATIALES 
B.P 13- AZEW 31200 ALGERIE 
Tél 213. 6. 47. 22. 17, Fax : 213.6 .47. 34. 54 
ISPRS Commission VII Symposium, working group No:2 
KEY WORDS: Watershed, G.LS, D.T.M, Remote 
Sensing 
ABSTRACT: 
The conditions of an unexpected arrival of a flood depend 
directly on the hydrological behaviour of a watershed. As a 
consequence, the study of flooding fields involve — the 
knowledge of certain meteorological and physiographic 
characteristic of the zone of study. 
The work shows the contribution of Remote Sensing, a 
Digital Terrain Model (D.T.M) hydrologically consistent and 
G.LS in the fields of water rising, the cartography of fields 
and their integration in a coherent set. 
Each time, an important rain falls on a given region of the 
country, we expect floods. To apprehend these floods, it is 
important to understand the water cycle and its various 
interactions with the physical medium and to give bigger 
importance to the rain water draining. This attention has 
become obvious the ( past) years with the advent of a 
number of rain simulation watershed models . 
The spatio - temporal characterisation of a watershed with a 
G.S with different resolutions, the suitability of a 
deterministic hydrologic model of a conceptual type, 
distributed and meshed and the height flow transformation 
will be traited. 
The visualisation of the affected zones by floods was reported 
on D.T.M. The application was made on a watershed of 60 
km? of " Oued El Mohgoun" which is situated on the upwards 
the city of Arzew (ALGERIA). 
RESUME: 
les conditions de survenance d'une inondation dépendent 
directement du comportement hydrologique d'un bassin 
versant. Par conséquent, létude des champs d'inondation 
implique la connaissance de certaines caractéristiques 
météorologiques et physiographiques de la zone d'étude. 
Ce travail montre l'apport de la télédétection, d'un modèle 
Numérique du Terrain ( M.N.T) hydrologiquement consistant 
et les systèmes d'information géographique (S.1.G) dans le 
domaine de la prédiction des crues, la cartographie des 
champs d'inondations et leur intégration dans un ensemble 
cohérent. 
A chaque fois qu'une pluie importante tombe sur une région 
donnée du pays, on s'attend à des inondations. Afin 
d'appréhender ces dernières, il est important de comprendre 
le cycle de l'eau et ses diverses interactions avec le milieu 
physique et d'accorder beaucoup d'attention aux ouvrages 
d'évacuation des eaux pluviales. Cette attention s'est 
manifesté ces dernières années par l'apparition d'un grand 
nombre de modèle de simulation pluie- débit à l'exutoire d'un 
bassin versant. La caractérisation spatio-temporelle d'un 
bassin versant à l'aide d'un S.LG raster à différentes 
résolutions, la convenance d'un modèle hydrologique 
déterministe de type conceptuel, distribué et maillé et la 
transformation des débits en hauteur d'eau seront abordés. La 
visualisation des zones affectées par les inondations a été 
reporté sur le modèle numérique du terrain. L'application s'est 
faite sur le bassin versant de 60 km? de Oued El Mohgoun 
qui se trouve à l'amont de la ville d'Arzew (Algérie). 
1. INTRODUCTION 
The conditions of existence of a flood depend directly on the 
hvdrologic behavior of a watershed. Consequently the study 
of flood fields implies the knowledge of some physiographic 
and, meteorological characteristics of watershed and the 
capacity of outlet evacuation that are the main factors of a 
flood. 
For this , we are interested in the spatio - temporal 
characterization of a watershed with the help of a G.IS, the 
convenience of a hydrologic model of mesh, with the 
contribution of the new techniques (G.L.S, Remote sensing, 
numerical cartography) , meteorological data (hyetogramme), 
the hydrogramme simulated to the outlet of the watershed as 
well as the transformation of max debit in height to the 
endorsement of the watershed. 
The application has been made on a no gauged watershed 
with an area of 60 km2 of Oued El Mohgoun that is found in 
the 
uphill of the city of Arzew. It has been done according to a 
mesh of 100 x 100 m. 
2. ZONE Of STUDY 
The choice of the site of study was guided by the existence 
of a cartography to 1/25000 and a satellite image TM of 15 
March 1995, the vegetation in phase of degradation, growing 
urbanization and the appearance of flood fields for some 
episodes pluvieus. We have opted for the topographic 
watershed of the Oued El Mohgoun. It is situated in the 
west of Arzew and is between 35° 47 and 35° 53 in latitude 
and between 0°2' and 0°3 West in longitude. The barrage of 
Arzew is considered as the watershed outlet. 
The climate is typical Mediterranean: dryness in the Summer, 
lessened sometimes by some storms, maximum of 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXII, Part 7, Budapest, 1998 91 
Ty 
 
	        
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