References

  1. J. delBarco-Trillo, Tardigrades in the city: a review of diversity patterns in response to urbanization, Ecol. Res., 34 (2019) 872–878.
  2. S.A. Woznicki, K.L. Hondula, S. Taylor Jarnagin, Effectiveness of landscape-based green infrastructure for stormwater management in suburban catchments, Hydrol. Processes, 32 (2018) 2346–2361.
  3. N. Mori, B. Debeljak, M. Škerjanec, T. Simčič, T. Kanduč, A. Brancelj, Modelling the effects of multiple stressors on respiration and microbial biomass in the hyporheic zone using decision trees, Water Res., 149 (2019) 9–20.
  4. A.J. Parolari, S. Pelrine, M.S. Bartlett, Stochastic water balance dynamics of passive and controlled stormwater basins, Adv. Water Resour., 122 (2018) 328–339.
  5. J.G. Miguelena, P.B. Baker, Effects of urbanization on the diversity, abundance, and composition of ant assemblages in an arid city, Environ. Entomol., 48 (2019) 836–846.
  6. O.M. Wright, E. Istanbulluoglu, R.R. Horner, C.L. DeGasperi, J. Simmonds, Is there a limit to bioretention effectiveness? Evaluation of stormwater bioretention treatment using a lumped urban ecohydrologic model and ecologically based design criteria, Hydrol. Processes, 32 (2018) 2318–2334.
  7. S.Y. Fan, Y. Wang, S.X. Cao, T.Y. Sun, P. Liu, A novel method for analyzing the effect of dust accumulation on energy efficiency loss in photovoltaic (PV) system, Energy (Oxford), 234 (2021) 121112, doi:10.1016/j.energy.2021.121112.
  8. K.A. Lockmiller, K. Wang, D.A. Fike, A.R. Shaughnessy, E.A. Hasenmueller, Using multiple tracers (F, B, δ11B, and optical brighteners) to distinguish between municipal drinking water and wastewater inputs to urban streams, Sci. Total Environ., 671 (2019) 1245–1256.
  9. J.L. Shen, T.T. Xing, Detection technology of void temperature field inside hot hull forgings, J. Coastal Res., 103 (2020) 397–401.
  10. K.G. Hopkins, A.S. Bhaskar, S.A. Woznicki, R.M. Fanelli, Changes in event-based streamflow magnitude and timing after suburban development with infiltration-based stormwater management, Hydrol. Processes, 34 (2020) 387–403.
  11. H.-Y. Lee, Y.-H. Jeong, D.-H. Kim, D.-S. Kim, W.-H. Cho, S.-J. Hong, Effects of large-scale coastal construction on storm surge height in shallow coastal zones of the Yellow Sea, South Korea, J. Coastal Res., 95 (2020) 252–256.
  12. B. Meshgi, M. Majidi-Rad, A.A. Hanafi-Bojd, S. Fathi, Ecological niche modeling for predicting the habitat suitability of fascioliasis based on maximum entropy model in southern Caspian Sea littoral, Iran, Acta Trop., 198 (2019) 105079, doi: 10.1016/j.actatropica.2019.105079.
  13. X.J. Du, F.J. Shao, R.C. Sun, Simulation study on eutrophication assessment of marine water, Comput. Simul., 36 (2019) 377–380, 460.
  14. N. Rosas-Ramos, L. Baños-Picón, E. Tobajas, V. de Paz, J. Tormos, J.D. Asís, Value of ecological infrastructure diversity in the maintenance of spider assemblages: a case study of Mediterranean vineyard agroecosystems, Agric. Ecosyst. Environ., 265 (2018) 244–253.
  15. Ü. Mander, A. Kull, E. Uuemaa, K. Mõisja, M. Külvik, T. Kikas, J. Raet, J. Tournebize, K. Sepp, Green and brown infrastructures support a landscape-level implementation of ecological engineering, Ecol. Eng., 120 (2018) 23–35.
  16. A. Islam, M. Hyland, The drivers and impacts of water infrastructure reliability – a global analysis of manufacturing firms, Ecol. Econ., 163 (2019) 143–157.
  17. T. Falk, S. Kumar, S. Srigiri, Experimental games for developing institutional capacity to manage common water infrastructure in India, Agric. Water Manage., 221 (2019) 260–269.