Green landscapes on school campuses are part of an important green space in an urban area, providing places for public recreational use. Some common problems on campus green space include excessive shading, poor plant growth, lack of plant diversity, and monotonous color configuration. Moreover, there were few studies about the ecological effects of different plant arrangement. This study aimed to analyze the plant arrangement, plant species used, overall landscape effects and maintenance frequency in nine crowded or attractive landscape locations on NTU campus (Xin-Hai entrance, Zhou-Shan Rd. entrance, Roosevelt Rd. entrance, College plaza, Administration Building, Zhen-Xing Lawn, alongside of Zhou-Shan Rd, LuMing Square and Dark Forest). In addition, we investigated the reasons for poor plant growth through observing the surrounding environment (specifically lighting and soil conditions) and annual changes in the visual appearances of the plants. Finally, we evaluated the ecological effects from landscaping by measuring NAI concentrations in the environment. Nine different survey locations on NTU campus were divided into 32 smaller areas. Flower beds are mostly located near entrances or where people gather and they form the visual focus for the area. Green-ground areas mainly consist of trees arranged based on different purposes (recreation or leisure). The application of landscaping types generally met planning guidelines. Maintenance frequency and the conditions of plant growth were associated with overall landscape effect. Plant growth was affected by maintenance frequency and this agreed with the result from overall landscape effect scoring. Plant arrangementies on campus are mostly multi-layered or bi-layered with much room for improvement for layering combinations of similar species. In terms of plant variety and selection, at least three plant varieties with different viewing attributes have been used in the allocation to increase viewing deciduous trees, foliage plants, color-leaf plants and seasonal floral plants. Species of different plant types with the highest usage rates include Ficus (Ficus microcarpa L. f.), Azalea (Rhododendron mucronatum), Tropical carpetgrass (Axonopus compressus (Sw.) P. Beauv), Lilac oxalis (Oxalis corymbosa DC.), New Guinea Impatiens (Impatiens hawkeri W. Bull). Soil and lighting conditions as well as visual effects of plants in each survey area revealed that poor plant growth was mostly the result of light intensity, individual plant growth habit and routine maintenance and management. When the rate of light penetration was smaller than 25% and soil hardness greater than 20 mm, inconsistent growth of ground coverings occurred. The plant affected the most was the tropical carpetgrass where growth worsened as shading increased. Soil hardness and soil moisture content in most survey areas were appropriate for plant growth. Locations with lower soil moisture generally exhibited higher soil hardness. Soil EC in general was lower on campus indicating poor soil structure, which may be improved with fertilization. Soil pH was within an acceptable range for plant growth (pH4.2-7.7) where most plants did not show symptoms of toxic injury or nutritional deficiency, except for Azalea which was iron-deficient. The plants that suffered from chilling injury during the winter included Golden dewdrop (Duranta repens ‘Golden leaves’), Ixora (Ixora x williamsii Hort.), Dumb canes (Dieffenbachia seguine (Jacq.) Schott var. seguine), and Aglaonema (Aglaonema spp.). Never-never plant (Ctenanthe oppenheimiana (E.Morren) K.Schum) grown alongside of Zhou-Shan Rd. with good air circulation resulted in leaf curl and negatively affected viewing aesthetics. We recommend using this plant in a location with more stable atmospheric humidity for better viewing results. Plant community also affected the NAI concentration. Areas with plants had higher NAI concentrations than those without. The highest NAI concentration was found near combinations of tree-shrub-ground covers, followed by the bi-layer combinations with trees. Single layers had the lowest NAI concentration. A significant positive correlation was found between NAI concentration and green coverings in survey areas (r＝0.9362***). Also, NAI concentration was seasonal and diurnal with summer and 10am having the highest concentration. Although this study did not find a significant correlation between NAI, temperature, relative humidity and light intensity, NAI concentration may be related to the optimal period for plant growth by observing the seasonal and diurnal variations.