INTEGRATING LANDSAT TM IMAGERIES AND AERIAL PHOTOGRAPHS FOR URBAN BIOTOPES MAPPING 
Vladimir Kusan & Renata Pernar 
Faculty of Forestry, Zagreb, Croatia 
Ivan Landek 
State Geodetic Administration, Zagreb, Croatia 
Commission VII, Working Group 3 
KEY WORDS: Biotopes mapping, Landsat TM^;'CIR and BW aerial photograps, urban planning, GIS model 
ABSTRACT 
Biotopes mapping is a base for landscape or urban plannig in the sense of sustainable development and nature 
protectionas well as change detection. The pilot project of biotopes mapping in Zagreb, the biggest urban center in 
croatia was established. The aim of this project is to find out methodology for convinient and efficient method for 
biotopes mapping and detection of changes in the fast development of town. For that purpose the aerial photographs 
(CIR and BW) from different periods (1982, 1997) and Landsat TM imageris (1995) were integrated in a GIS model 
over the base map in the scale of 1 : 5000. The maps of biotopes were prepared and changes within fifteen years 
were identified. 
1. INTRODUCTION 
The availability of valid environment status data is main 
prerequisite for the city development planning. Such data may 
be ensured by establishing a methodology for their permanent 
collection. In the last few years, in the cities of northern and 
central Europe, the function of the city as a natural 
environment, the so -called urban environment (Erz, 1993) has 
been more and more considered, and the researches have been 
developed accordingly. The objective of such researches is to 
enable in the urban environment a better quality of life for 
population and the development and the protection of life 
spaces for plant and animal species. In that, permanent changes 
of ecological conditions must be taken into consideration, so 
the planning should be made in accordance with the principles 
of a sustainable development and with the aim to increase 
standard of life for the population and to preserve natuaral 
functions and features of the respective area. As the basis for 
planning the actual status inventories are used, but it is 
important that they are carried out in a multidisciplinary 
manner. Taking inventory and preparation of space use and 
management plans is not enough, the implementation of these 
plans should be ensured, too. Their applicability and 
efficiency, as well as their impact on the natural features and 
functions require a permanent assessment. This can be 
achieved best by establishing a continuous monitoring system, 
i.e. by the biotope mapping. In this way the status of flora, 
fauna and biotopes, as bioindicators for the human life quality 
in the city of Zagreb, would be determined, and the 
knowledges of the biological diversity of the Zagreb urban 
environment would be gained. The most important prerequisite 
for its establishment is to determine a unique flora and fauna 
applicable system, which will put together all data on types, 
quantity, distribution and status of biotopes in the area of the 
city. Such data must be of good quality and readily accessible, 
because of the permanent environment changes. 
The first urban development researches for the city of Zagreb 
have been carried out within the "Ecological project for the city 
of Zagreb", and for this purpose the preliminary investigations 
of flora and fauna were made (MuZini¢, 1993). Lately, for the 
land use mapping purpose the satellite imageries have been 
used more and moreoften, among them particularly suitable 
being Landsat TM (Kusan and Lampek, 1994). In Croatia, the 
satellite imageries were used for the first time in making the 
urban environment ornithological evaluation for the town of 
Sisak, a heavy industry center located between two regions 
important for birds (Kusan et al., 1997). 
2. RESEARCH AREA 
By observing the space around us, we can see that the biggest 
changes in the space take place just in urban environments. 
From a planners point of view, these changes should be 
monitored and the methods and procedures for the 
implementation of the urban development strategy, namely 
policy should be found out. There is no simple or uniform 
solution for this, however, new technologies such as the remote 
sensing and GIS offer a completely new approach to the urban 
area planning (Pernar, 1997), the so-called "continuous" 
planning with a spatial change monitoring system, on the 
assumption of a permanent updating of data concerning 
changes in a certain period of time. 
The biotope mapping pilot project using the remote sensing 
methods (aerial and satellite imageries) has been carried out in 
Zagreb, as the biggest urgan center in Croatia. The objective of 
this project was to find the methodology for a reliable and 
efficient mapping of biotopes and of new changes under 
conditions of the fast city development. The biotope mapping 
has been made in the area of Maksimir municipality, which, 
due to its biotope type diversity, was chosen as suitable. 
3. METHODS OF WORK 
For biotope mapping in this pilot project, the CIR aerial 
photographs taken in 1982, and the cyclically taken black- 
white aerial photographs (1997), as well as Landsat TM 
imagery from 1995 have been used. In Croatia, there is not 
sufficient experience on such tasks as yet. Therefore, for the 
biotope mapping, the methodology and the  biotope 
identification key established for the region of Germany by the 
240 International Archives of Photogrammetry and Remote Sensing. Vol. XXXII, Part 7, Budapest, 1998 
  
Accord 
for the