Abstract
Sustainable land resource management depends on the good assessment and planning of current landscapes. This may be possible with application of multidisciplinary researches, as this study presented a multidisciplinary approach in a spatial database frame work using Geographic Information System. ‘Agroecological zones’ concept is used to integrating and characterizing homogenous spatial units. This approach combine theme layers include of available water resources, climate, terrain and soil conditions, associated with land use and settlement patterns. Climatic indices layers, including of growing degree days, aridity index, length of growing period and freezing period were created using the correlation between climatic parameter and digital elevation model. Using this approach the Borujen watershed was divided in 28 ‘agroecological zones’ which defined 3 landscapes or agricultural regions. The most important constraints for developing agriculture in landscape I has topographic, climatic and soil constrains, landscape II has topographic and soil constrains and landscape III has the some limitations of soil. Landscape I and II are much less attractive from an agricultural perspective. Landscape III is suitable for agriculture but, the potential for rainfed cropping system is limited by a lack of growing period during which neither temperature nor moisture is limiting to plant production. In general, the case study of the Borujen watershed indicated that this approach can be used for different scales and adaptive to the particular planning.
Highlights
Iran is characterized by considerable weather variability in landscapes and soil patterns
This methodology was divided Borujen watershed to 4 agroclimatic zones. 64% of this region have ‘semi arid climate with cold winter and very warm summer (SA-CVW), ‘12.3% with cold winter and warm summer (SAC-W)’ and 20.8% with very cold winter and warm summer (SA-K-W), 2.3% semi arid climate, with cold winter and moderate summer (SA-K-M)
All systems for defining AEZs in different countries are ‘ad-hoc’ and stand alone based on different classification methods. In this study it has been presented a new agro-landscape zoning system, based on the correlations between elevation and temperature combined with the reference evapotranspiration, rainfall, temperature, landform, landuse and soil constrains
Summary
Iran is characterized by considerable weather variability in landscapes and soil patterns The combination of these interacting factors leads to different agroecological conditions, which can be suitable for specific land use, or unsuitable for others (Ghaffari, 2008). Designing and management a landscape is complex and can neither be solved neither by a single discipline nor by changes only at one particular scale, plot, farm or region. Exploring these alternatives is possible with application of multidisciplinary researches with knowledge and information from different viewpoints and scales (Hengsdijk and Van Ittersum, 2003; Sadras and Calderini, 2009). Use of spatial concept of “agro-ecological zone” is advanced as a support tool for agricultural planning
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