Complete eradication of non-native species has been unpractical in urban wetlands which commonly colonized by these species due to continuous anthropogenic disturbances. Despite non-native species have long been regarded as damages, some could provide ecological benefits to the intensively human-disturbed ecosystems (e.g. food provision for native species, and habitat modification). However, potential benefits caused by non-native species to urban wetlands have not been well documented. Therefore, we investigated if non-native species could provide good benefits to the ESs of urban wetlands. The qualitative non-native species effect assessment based on ES-approach was conducted to link the benefits and damages of non-native species to the ESs of urban wetlands. Results showed that three study wetlands were seriously colonized by non-native fishes (> 35%), but non-native birds comprised only < 3% in our study sites. Our results showed that the non-native species from our study sites could provide essential trophic support to the important native and migratory birds with predatory habit, and enhance the recreational and aesthetic values of urban wetlands. Natural wetlands have been extensively impaired due to increasing human activities. Free water surface constructed wetlands (FWSs) have been commonly established as a common method of off-site wetland restoration. But, research focusing on optimizing the biodiversity enhancement potential of FWSs is relatively limited. Therefore, it would be essential to investigate the factors, including fish and waterbird predation, dissolved oxygen (DO) and nutrient levels, constraining the dominant inhabitants of FWSs, i.e. macroinvertebrate community. A predator exclusion experiment was conducted in two FWSs from northern Taiwan to investigate the influence of fish and waterbird presence on the macroinvertebrate community structure of FWSs. Relative importance of different factors on macroinvertebrate abundance and diversity was also compared. Total macroinvertebrate abundance of fish-absence treatment was obviously higher than fish-presence treatment in our study FWSs during both study seasons. Taxon richness and abundance of dominant macroinvertebrate taxa (Diptera and Oligochaeta) were also higher in fish-absence treatment than fish-presence treatment. Our results confirmed that DO and fish presence were the two most important constraining factors for the macroinvertebrate community structure of FWSs. However, no obvious difference was found in macroinvertebrate community composition of our study FWSs between different treatments. Because of the low waterbird abundance and the relatively deep and fluctuated water depth of our study FWSs, there was no clear effect of waterbird presence on macroinvertebrate community structure. We concluded that the beneficial non-native species could be retained to provide good ecological benefits to the ESs for facilitating the restoration of urban wetlands. A framework for the non-native species effect assessment based on ES-approach is also proposed to facilitate developing the management priority of non-native species in the degraded urban wetland ecosystems. Our results also confirmed that DO and fish presence were the two most important constrains for the macroinvertebrate community structure of FWSs. Our results could provide important information for the design and management of FWSs with respect to biodiversity enhancement.