It is believed that more than 80–90 percents of the problems, associated with management of the urban landscape trees, are related to the rooting media of these plants. In these media, due to different limitations associated with the soil quality as well as the limited soil depth and volume, the root growth could not occur as much required for the normal growth of the aerial parts of the trees. Using unsuitable debris, in the past, as bedding materials in Isfahan urban landscape causes different physical and nutritional problems for the growing trees. Since these trees have been already grown for many years, it is not possible to replace the bedding material to improve the root bed condition: however, finding some more feasible alternatives is essential. In this work the effects of hole-mulching, using different enriched organic amendments, on alleviation of soil limitations for some Isfahan urban landscape trees were examined. The hole-mulching were performed in 5 regions, using a randomized complete block design with three replicates. The mulching materials were: 1- caw manure compost, 2- caw manure vermicompost, 3- urban waste compost, 4- urban waste vermicompost, 5- the dug hole refilled with the soil came out of the same hole and 6- blank with no hole digging. The results showed that; although, in short term, the hole-mulching may show some negative effects on nutrient uptake and plant root growth which is probably due to the injures caused by the hole digging, but after two years, all hole mulching treatments, improved the growth and nutritional condition of the elm and acacia trees; although, in the plane trees, almost no positive response observed. The caw manure compost and vermicompost treatments resulted in a greater increase in the nutrient concentrations of leaves and the annual branches growth over the other treatments. In this regard, the urban compost and vermin compost were in the next orders. Also, in the hole filled with the mulching materials, the root growth and the water infiltration rate were considerably higher than the adjacent soil showing that, the hole-mulching treatments improve the plant root bed physical and chemical conditions.