ORIGINAL PAPER The influence of soil pollution by heavy metals on the land suitability for irrigated wheat farming in Zanjan region, northwest Iran Yaser Safari 1 & Mohammad-Amir Delavar 2 Received: 17 June 2018 /Accepted: 21 December 2018 # Saudi Society for Geosciences 2019 Abstract The main objective of this study was to assess the land suitability for irrigated wheat farming, surrounding the Zinc Specialized Industrial Town (briefly, Zinc Town), northwestern Iran, with soils polluted by zinc (Zn), lead (Pb), and cadmium (Cd). The concentrations of heavy metals (HMs) were measured in 110 topsoil samples (020 cm), as well as in 65 samples of wheat grains. The limitation scores for the climatic factors, soil properties, and HMs were calculated based on their limitation for wheat cropping. Afterwards, the accumulated limitation scores were used for calculation of the land suitability membership scores using an exponential function, and then the maps were produced. The results showed that there were optimal climatic conditions for irrigated wheat, whereas due to the youthfulness of studied soils, the content of coarse fragments (CF), as the most limiting soil property, made moderate to very severe limitations in more than half of sampling points. Regarding the Iranian threshold values of 500, 75, and 5 mg kg -1 as the MPC for Zn, Pb, and Cd, respectively, 7.27, 30.0, and 20.0% of soil samples were classified as the polluted soil to these pollutants. On the other hand, Pb and Cd concentrations in 24.6 (16 samples) and 29.2 (19 samples) % of cultivated wheat in the studied area exceeded the threshold value of 0.2 mg kg -1 , respectively, whereas Zn concentration in none of the sampled plants was higher than the threshold value of 50.0 mg kg -1 . Land suitability for wheat farming significantly decreased near the Zinc Town due to the HMs transferring from polluted soils to wheat grains. Therefore, potential threat of metallic pollutants for secure and safe food production should be considered as an important environmental factor to accurate assessment of land suitability for a given crop. Keywords Calcisols . Land evaluation . Land suitability . Limitation scores . Soil contamination Introduction Land suitability evaluation (LSE) is vital to land use planning (Nguyen et al. 2015). In this process, matching the land char- acteristics with crop requirements, a suitability class ranging from highly suitable (S1) to not suitable (N2) is assigned to each parcel of land (FAO 2007). Substantial soil properties are considered in the common LSE procedures, like the widely accepted BA framework for land evaluation^ presented by FAO (FAO 1976), whereas relatively variable, management- related soil properties are less concerned (Canali et al. 2009). Therefore, it is believed that the common LSE methods are not effective to address many new agro-environmental challenges (Manna et al. 2009). As a substantial environmental issue, the accumulation of heavy metals (HMs) in the fertile layers of soils through the rapid grows of industries may decline the soil quality (Khosravi et al. 2018). It is reported that excess HM concen- trations in soil may affect the vital function of the soil to provide a safe environment for plant growth and lead to a significant decrease in final production (Hu et al. 2013). Out of that, considering HMslong retention time in the environ- ment and their limited physical movement through the soil profile, the plant uptake process may provide them a big chance to transfer to the human food chain (Huang et al. * Yaser Safari yaser.safari@shahroodut.ac.ir Mohammad-Amir Delavar amir-delavar@znu.ac.ir 1 Faculty of Agriculture, Shahrood University of Technology, Shahrood, Iran 2 Department of Soil Sciences, Faculty of Agriculture, University of Zanjan, Zanjan, Iran Arabian Journal of Geosciences (2019) 12:21 https://doi.org/10.1007/s12517-018-4190-2