92: 331–362.82 Pickett, S.T., Cadenasso, M.L., Childers, D.L. et al. (2016). Evolution and future of urban ecological science: ecology in, of, and for the city. Ecosystem Health and Sustainability 2 (7): e01229.
83 Raciti, S.M., Hutyra, L.R., Rao, P., and Finzi, A.C. (2012). Inconsistent definitions of “urban” result in different conclusions about the size of urban carbon and nitrogen stocks. Ecological Applications 22: 1–58.
84 Rai, P.K. and Kim, K.H. (2019). Invasive alien plants and environmental remediation: a new paradigm for sustainable restoration ecology. Restoration Ecology 28 (1): 3–7.
85 Ramyar, R. and Zarghami, E. (2017). Green infrastructure contribution for climate change adaptation in urban landscape context. Applied Ecology and Environmental Research 15 (3): 1193–1209.
86 Reich, P.B., Luo, Y., Bradford, J.B. et al. (2014). Temperature drives global patterns in forest biomass distribution in leaves, stems, and roots. Proceedings of the National Academy of Sciences of the United States of America 111: 13721–13726.
87 Ren, N., Wang, Q., Wang, Q. et al. (2017). Upgrading to urban water system 3.0 through sponge city construction. Frontiers of Environmental Science and Engineering 11 (4): 9.
88 Restrepo, J.D.C. and Morales‐Pinzon, T. (2018). Urban metabolism and sustainability: precedents, genesis and research perspectives. Resources, Conservation and Recycling 131: 216–224.
89 Richards, D., Masoudi, M., Oh, R.R. et al. (2019). Global variation in climate, human development, and population density has implications for urban ecosystem services. Sustainability 11 (22): 6200.
90 Richardson, D.M., Pyšek, P., Rejmánek, M. et al. (2000). Naturalization and invasion of alien plants: concepts and definitions. Diversity and Distributions 6: 93–107. https://doi.org/10.1046/j.1472‐4642.2000.00083.x.
91 Rosenzweig, C., Solecki, W., Hammerm, S.A., and Mehrotra, S. (2010). Cities lead the way in climate‐change action. Nature 467: 909–911.
92 Savard, J.P.L., Clergeau, P., and Mennechez, G. (2000). Biodiversity concepts and urban ecosystems. Landscape and Urban Planning 4: 131–142. https://doi.org/10.1016/S0169‐2046(00)00037‐2.
93 Schadler, E. and Danks, C. (2011). Carbon Offsetting through Urban Tree Planting. Burlington, VT: University of Vermont.
94 Seto, K.C. and Shepherd, J.M. (2009). Global urban land‐usetrends and climate impacts. Current Opinion in Environment Sustainability 1: 89–95.
95 Seto, K.C., Güneralp, B., and Hutyra, L.R. (2012). Global forecasts of urban expansion to 2030 and direct impacts on biodiversity and carbon pools. Proceedings of the National Academy of Sciences of the United States of America 109 (40): 16083–16088.
96 Singh, R.P. and Raghubanshi, A.S. (2020). ‘Green building’ movement in India: study on institutional support and regulatory support. In: Urban Ecology, 435–455. Elsevier.
97 Singh, P., Borthakur, A., Singh, R. et al. (2021). A critical review on the research trends and emerging technologies for arsenic decontamination from water. Groundwater for Sustainable Development 14: 100607.
98 Steiner, F. (2014). Frontiers in urban ecological design and planning research. Landscape and Urban Planning 125: 304–311.
99 Sun, Y. and Cui, Y. (2018). Evaluating the coordinated development of economic, social and environmental benefits of urban public transportation infrastructure: case study of four Chinese autonomous municipalities. Transport Policy 66: 116–126. https://doi.org/10.1016/j.tranpol.2018.02.006.
100 Tigges, J., Lakes, T., and Hostert, P. (2013). Urban vegetation classification: Benefits of multitemporal RapidEye satellite data. Remote Sensing of Environment 136: 66–75.
101 Tzoulas, K. and Greening, K. (2011). Urban ecology and human health. In: Urban Ecology – Patterns, Processes, and Applications (eds. J. Niemelä, J. Breuste, T. Elmqvist, et al.), 263–271. Oxford: Oxford University Press.
102 UN (2011). Department of Economic and Social Affairs; World Population Ageing 2009. Population and Development Review 37: 403.
103 Upadhyay, S., Singh, R., Verma, P., and Raghubanshi, A.S. (2021). Spatio‐temporal variability in soil CO2 efflux and regulatory physicochemical parameters from the tropical urban natural and anthropogenic land use classes. Journal of Environmental Management 295: 113141.
104 Vasenev, V. and Kuzyakov, Y. (2018). Urban soils as hot spots of anthropogenic carbon accumulation: review of stocks, mechanisms and driving factors. Land Degradation & Development 29 (6): 1607–1622.
105 Vasishth, A. (2015). Ecologizing our cities: a particular, process‐function view of southern California, from within complexity. Sustainability 7 (9): 11756–11776.
106 Velasco, E. and Roth, M. (2010). Cities as net sources of CO2: review of atmospheric CO2 exchange in urban environments measured by Eddy covariance technique. Geography Compass 4: 1238–1259.
107 Velasco, E., Roth, M., Norford, L., and Molina, L.T. (2016). Does urban vegetation enhance carbon sequestration? Landscape and Urban Planning 148: 99–107.
108 Verma, P., Singh, R., Bryant, C., and Raghubanshi, A.S. (2020c). Green space indicators in a social‐ecological system: a case study of Varanasi, India. Sustainable Cities and Society 60: 102261.
109 Verma, P., Singh, R., Singh, P., and Raghubanshi, A.S. (2020a). Urban ecology–current state of research and concepts. In: Urban Ecology (eds. P. Verma, P. Singh, R. Singh and A.S. Raghubanshi), 3–16. Elsevier.
110 Verma, P., Singh, R., Singh, P., and Raghubanshi, A.S. (2020b). Critical assessment and future dimensions for the urban ecological systems. In: Urban Ecology (eds. P. Verma, P. Singh, R. Singh and A.S. Raghubanshi), 479–497. Elsevier.
111 Vesala, T., Järvi, L., Launiainen, S. et al. (2008). Surface–atmosphere interactions over complex urban terrain in Helsinki, Finland. Tellus B 60: 188–199.
112 Vitousek, P.M. (1994). Beyond global warming: ecology and global change–Macarthur award lecture. Ecology 75: 1861–1876.
113 Walther, G.R., Roques, A., Hulme, P.E. et al. (2009). Alien species in a warmer world: risks and opportunities. Trends in Ecology and Evolution 24: 686–693. https://doi.org/10.1016/j.tree.2009.06.008.
114 Wamsler, C., Brink, E., and Rivera, C. (2013). Planning for climate change in urban areas: from theory to practice. Journal of Cleaner Production 50: 68–81.
115 Wang, C., Wang, Z.‐H., Wang, C., and Myint, S.W. (2019). Environmental cooling provided by urban trees under extreme heat and cold waves in U.S. cities. Remote Sensing of Environment 227: 28–43.
116 Wang, J., Zhou, W., Jiao, M. et al. (2020). Significant effects of ecological context on urban trees’ cooling efficiency. ISPRS Journal of Photogrammetry and Remote Sensing 159: 78–89.
117 Wang, X., Zhang, Y., Zhang, J. et al. (2021). Progress in urban metabolism research and hotspot analysis based on CiteSpace analysis. Journal of Cleaner Production 281: 125224.
118 Weissert, L.F.,
