Water-sensitive urban design: sponge-cities and “smart” landscapes
- Authors: Zaykova E.Y.1, Feofanova S.S.1
-
Affiliations:
- Moscow State University of Civil Engineering (National Research University) (MGSU)
- Issue: Vol 19, No 4 (2024)
- Pages: 499-514
- Section: Architecture and urban planning. Reconstruction and refurbishment
- URL: https://bakhtiniada.ru/1997-0935/article/view/255911
- ID: 255911
Cite item
Full Text
Abstract
Introduction. In 2023, an increase in cases of urban flooding was recorded worldwide. The amount of stormwater has increased manifold, but there is nowhere to apply this supernumerary resource in the cities. Water-sensitive design of territories should become a priority in the planning of cities and updating of normative documents of the urban sphere in the face of global warming.Materials and methods. The given analysis of climatic data of the study area is of key importance in calculating the irrigation rate for the functioning of green infrastructure in urban conditions. It is proposed to consider vegetative irrigation — the most important and regulated watering activity, which is vital for all plants in urban conditions.Results. Stormwater management will reduce irrigation costs and simplify the maintenance of urban green spaces throughout growing season. The amendments and additions proposed by the authors of the regulatory documents of the Russian Federation in the field of green infrastructure will facilitate the implementation of a new ecosystem approach in practice. The light conditions for the high-quality functioning of the green infrastructure in the study area are also considered.Conclusions. The author’s biotopes are sustainable by technological solutions of engineering preparation of the territory, developed in the context of the spirit of the place using plants of local flora based on the developed regulatory recommendations for the new concept of water-sensitive design of the urban environment.
About the authors
E. Yu. Zaykova
Moscow State University of Civil Engineering (National Research University) (MGSU)
Email: lena_landscape21@mail.ru
ORCID iD: 0000-0002-0555-9941
SPIN-code: 3019-6269
S. S. Feofanova
Moscow State University of Civil Engineering (National Research University) (MGSU)
Email: sonyafeofanova@mail.ru
SPIN-code: 8352-1211
References
- Chu X., Campos-Guereta I., Dawson A., Thom N. Sustainable pavement drainage systems: Subgrade moisture, subsurface drainage methods and drainage effectiveness // Construction and Building Materials. 2023. Vol. 364. P. 129950. doi: 10.1016/j.conbuildmat.2022.129950
- Гинзбург А.И., Лебедев С.А., Шеремет Н.А. Южные моря России. М. : Росгидромет, 2014. 1008 с.
- Dias F.T., Pereira D.M., Clemente C.M.S., Parma G.O.C., Beattie V.I., de Andrade Guerra J.B.S.O. Environmental challenges to gray cities becoming green cities // Implementing the UN Sustainable Development Goals — Regional Perspectives. 2023. Pp. 521–544. doi: 10.1007/978-3-031-16017-2_2
- Li H., Zhang C., Chen M., Shen D., Niu Y. Data-driven surrogate modeling: Introducing spatial lag to consider spatial autocorrelation of flooding within urban drainage systems // Environmental Modelling & Software. 2023. Vol. 161. P. 105623. doi: 10.1016/j.envsoft.2023.105623
- Zhuravlev P., Sborshchikov S., Kochenkova E. Managerial features of the design of technical solutions for engineering protection of the territories during the life cycle and their reengineering // Building Life-cycle Management. Information Systems and Technologies. 2022. Pp. 467–476. doi: 10.1007/978-3-030-96206-7_49
- Strassburg B.B.N., Iribarrem A., Beyer H.L., Cordeiro C.L., Crouzeilles R., Jakovac C.C. et al. Glo-bal priority areas for ecosystem restoration // Nature. 2020. Vol. 586. Issue 7831. Pp. 724–729. doi: 10.1038/s41586-020-2784-9
- Feofanova S.S., Zaykova E.Y. Territorial physical and mathematical model of stormwater management // E3S Web of Conferences. 2023. Vol. 403. P. 04003. doi: 10.1051/e3sconf/202340304003
- Литвенкова И.А. Экология городской среды: урбоэкология : курс лекций. Витебск : Изд-во УО «ВГУ им. П.М. Машерова», 2005. 163 с.
- Прокофьева Т.В., Мартыненко И.А., Иванников Ф.А. Систематика почв и почвообразующих пород Москвы и возможность их включения в общую классификацию // Почвоведение. 2011. № 5. С. 611–623. EDN NTOPHL.
- Кузнецов В.А. Почвы и растительность парково-рекреационных ландшафтов Москвы : дис. … канд. биол. наук. М., 2015. 170 с. EDN MIICSY.
- Зайкова Е.Ю., Феофанова С.С. Зеленая инфраструктура как инструмент управления ливневыми водами // Вестник МГСУ. 2022. Т. 17. № 11. С. 1429–1452. doi: 10.22227/1997-0935.2022.11.1429-1452
- Калмыкова А.Л. Строительство и содержание объектов ландшафтной архитектуры: краткий курс лекций для студентов направления подготовки 35.04.09 «Ландшафтная архитектура». Саратов, 2016. 37 с. URL: https://www.vavilovsar.ru/files/pages/25758/14725337574.pdf
- Хольцер Й.А., Хольцер К., Калькхоф Й. Травяные спирали, сады на террасах. Орел : Зенина С.В., 2012. 271 с. EDN QLCSKH.
- Максимович М. Список растений Московской флоры, составленный Михаилом Максимовичем. М. : Университетская типография, 1826. 24 с.
- Ворошилов В.Н., Скворцов А.К., Тихомиров В.Н. Определитель растений Московской области. М. : Наука, 1966.
- Щербаков А.В., Любезнова Н.В. Список сосудистых растений Московской флоры : монография. М. : ООО Галлея-Принт, 2018. 160 с. EDN FMRRLL.
- Akaev A., Davydova O. Climate and energy: energy transition scenarios and global temperature changes based on current technologies and trends // Reconsidering the Limits to Growth. 2023. Pp. 53–70. doi: 10.1007/978-3-031-34999-7_4
- Fuso F., Stucchi L., Bonacina L., Fornaroli R., Bocchiola D. Evaluation of water temperature under changing climate and its effect on river habitat in a regulated Alpine catchment // Journal of Hydrology. 2023. Vol. 616. P. 128816. doi: 10.1016/j.jhydrol.2022.128816
- Vitiuk E.Yu. Biodrainage ditches and rain gardens as improvement tools in a modern city // Architecton: Proceedings of Higher Education. 2022. Issue 3. doi: 10.47055/1990-4126-2022-3(79)-11
- Zaykova E.Y. Healing landscapes in the multifunctional hybrid objects // Proceedings of the Annual International Conference on Architecture and Civil Engineering. 2019. Pp. 347–355.
- Zaykova E. Formation methods of hybrid urban spaces in the historic city center // E3S Web of Conferences. 2019. Vol. 97. P. 01031. doi: 10.1051/e3sconf/20199701031
- Zaykova E. Strategies ensuring the stability of natural and urbanized biotopes in hybrid multifunctional objects // IOP Conference Series: Materials Science and Engineering. 2021. Vol. 1030. Issue 1. P. 012065. doi: 10.1088/1757-899x/1030/1/012065
Supplementary files
