Abstract
Cloud computing has developed rapidly in China in recent years and has been widely used in people’s daily lives. Services are provided through the use of cloud resources. These services are basically the architecture created by the cloud computing platform. To a certain extent, the water and soil environment determines the capacity and level of agricultural production and planting in this area, and it can also cause water congestion and excessive nutrition. These are the main problems faced by soil and water in mountainous areas and rural areas. The integration of urban and rural tourism can promote the rapid development of rural tourism to a certain extent, and can solve the problems of urban planning and road layout design. To a certain extent, rural tourism will also increase farmers’ economic income and expand farmers’ employment channels. For rural tourism, comprehensive planning and design should be carried out according to the ecological environment in rural areas so that the rural tourism landscape ecological resources can be reconstructed and integrated to achieve sustainable development. The increase in the degree of pollution of the water environment has made the topography of the experimental area more severe. In the experimental area, due to the influx of pesticides and fertilizers in this water area, the water and soil pollution is serious. The integration of urban and rural industrial structure is the general development direction of rural tourism. How to evaluate and optimize the rural tourist attractions and tourism ecological environment from the overall macro perspective? This question is already the main aspect of landscape design and tourism development research, and it is also the focus of this article.
Similar content being viewed by others
Change history
06 December 2021
This article has been retracted. Please see the Retraction Notice for more detail: https://doi.org/10.1007/s12517-021-09160-2
28 September 2021
An Editorial Expression of Concern to this paper has been published: https://doi.org/10.1007/s12517-021-08471-8
References
Carey JM, McSaveney MJ, Petley DN (2016) Dynamic liquefaction of shear zones in intact loess during simulated earthquake loading. Landslides 14(3):789–804
Chen H, Lai HP, Qiu YL, Chen R (2020) Reinforcing distressed lining structure of highway tunnel with bonded steel plates: case study. J Perform Constr Facil 34(1):04019082
Elbaz K, Shen JS, Arulrajah A, Horpibulsuk S (2016) Geohazards induced by anthropic activities of geoconstruction: a review of recent failure cases. Arab J Geosci 9(18):708
Elkamhawy E, Wang HB, Zhou B, Yang ZY (2018) Failure mechanism of a slope with a thin soft band triggered by intensive rainfall. Environ Earth Sci 77(9):6–15
Fang Q, Zhang DL, Wong LNY (2012) Shallow tunnelling method (STM) for subway station construction in soft ground. Tunn Undergr Space Technol 29:10–30
Feng SJ, Du FL, Shi ZM, Shui WH, Tan K (2015) Field study on the reinforcement of collapsible loess using dynamic compaction. Eng Geol 185:105–115
Garakani AA, Haeri SM, Desai CS, Ghafouri SMHS, Sadollahzadeh B, Senejani HH (2019) Testing and constitutive modeling of lime-stabilized collapsible loess. II: modeling and validations. International Journal of Geomechanics 19(4):04019007
Ghadakpour M, Choobbasti AJ, Kutanaei SS (2020) Experimental study of impact of cement treatment on the shear behavior of loess and clay. Arab J Geosci 13(4):184
Haeri SM, Garakani AA, Roohparvar HR, Desai CS, Ghafouri SMHS, Kouchesfahani KS (2019) Testing and constitutive modeling of lime-stabilized collapsible loess. I: experimental investigations. International Journal of Geomechanics 19(4):04019006
Heidari M, Tonon F (2015) Ground reaction curve for tunnels with jet grouting umbrellas considering jet grouting hardening. Int J Rock Mech Min Sci 76:200–208
Hu SM (2012) Research on deformation characteristics and control measures of the large-section loess tunnel (Ph.D. Thesis), Beijing Jiaotong University (in Chinese)
Jin XG, Li YY, Luo YJ, Liu HW (2016) Prediction of city tunnel water inflow and its influence on overlain lakes in karst valley. Environ Earth Sci 75(16):1162
Karimi A, Khormali F, Wang X (2017) Discrimination of sand dunes and loess deposits using grain-size analysis in northeastern Iran. Arab J Geosci 10(2):275
Lai HP, Song WL, Liu YY, Chen R (2017) Influence of flooded loessial overburden on the tunnel lining: case study. J Perform Constr Facil 31(6):1–11
Li PF, Zhao Y, Zhou XJ (2016) Displacement characteristics of high-speed railway tunnel construction in loess ground by using multi-step excavation method. Tunnelling and Underground Space Technology incorporating Trenchless Technology Research 51:41–55
Li XJ, Lin XD, Zhu HH, Wang XZ, Liu ZM (2017) Condition assessment of shield tunnel using a new indicator: the tunnel serviceability index. Tunn Undergr Space Technol 67:98–106
Li P, Xie WL, Pak RYS, Vanapalli SK (2018) Microstructural evolution of loess soils from the loess plateau of China. Catena 173:276–288
Li J, Shao SJ, Shao S (2019) Collapsible characteristics of loess tunnel site and their effects on tunnel structure. Tunn Undergr Space Technol 83:509–519
Liang QG, Li J, Wu XY, Zhou AN (2016) Anisotropy of Q2 loess in the Baijiapo tunnel on the Lanyu railway, China. Bull Eng Geol Environ 75(1):109–124
Lin ZG, Wang SJ (1988) Collapsibility and deformation characteristics of deep-seated loess in China. Eng Geol 25:271–282
Lisjak A, Garitte B, Grasselli G, Muller HR, Vietor T (2015) The excavation of a circular tunnel in a bedded argillaceous rock (Opalinus Clay): short-term rock mass response and FDEM numerical analysis. Tunn Undergr Space Technol 45:227–248
Liu YY, Lai HP (2019) Load characteristics of tunnel lining in flooded loess strata considering loess structure. Adv Civil Eng 2019(7):1–13
Liu YY, Lai HP, Xie YL, Song WL (2017) Cracks analysis of highway tunnel lining in flooded loess. Geotech Eng 170(1):1–11
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The author(s) declare that they have no competing interests.
Additional information
Responsible Editor: Sheldon Williamson
This article is part of the Topical Collection on Environment and Low Carbon Transportation
This article has been retracted. Please see the retraction notice for more detail:https://doi.org/10.1007/s12517-021-09160-2
About this article
Cite this article
Tan, B., Liu, Z. RETRACTED ARTICLE: Cloud resources-based water and soil pollution control in mountainous areas and rural tourism landscape design. Arab J Geosci 14, 1500 (2021). https://doi.org/10.1007/s12517-021-07837-2
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12517-021-07837-2