Traditional Chinese ecological wisdom and its practical meaning: a case study of the river system in Lijiang Old Town

Abstract. Flood risk is impacted by a range of physical and socio-economic processes. Hence, the quantification of flood risk ideally considers the complete flood risk chain, from atmospheric processes through catchment and river system processes to damage mechanisms in the affected areas. Although it is generally accepted that a multitude of changes along the risk chain can occur and impact flood risk, there is a lack of knowledge of how and to what extent changes in influencing factors propagate through the chain and finally affect flood risk. To fill this gap, we present a comprehensive sensitivity analysis which considers changes in all risk components, i.e. changes in climate, catchment, river system, land use, assets, and vulnerability. The application of this framework to the mesoscale Mulde catchment in Germany shows that flood risk can vary dramatically as a consequence of plausible change scenarios. It further reveals that components that have not received much attention, such as changes in dike systems or in vulnerability, may outweigh changes in often investigated components, such as climate. Although the specific results are conditional on the case study area and the selected assumptions, they emphasize the need for a broader consideration of potential drivers of change in a comprehensive way. Hence, our approach contributes to a better understanding of how the different risk components influence the overall flood risk.

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The Warwickshire Avon: A Case Study of Water Demands and Water Availability in an Intensively Used River System

Transactions of the Institute of British Geographers ◽

10.2307/621724 ◽

1972 ◽

pp. 83 ◽

Cited By ~ 1

Author(s):

D. C. Ledger

Keyword(s):

Water Availability ◽

River System ◽

Water Demands

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Spatio-temporal analysis of fish and their habitat: a case study on a highly degraded Swiss river system prior to extensive rehabilitation

Aquatic Sciences ◽

10.1007/s00027-007-0912-3 ◽

2007 ◽

Vol 69 (1) ◽

pp. 162-172 ◽

Cited By ~ 18

Author(s):

Christine Weber ◽

Armin Peter ◽

Flavio Zanini

Keyword(s):

River System ◽

Temporal Analysis ◽

Spatio Temporal

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Microplastics Determination in the Rivers with Different Urbanisation Variances: A Case Study in Kuching City, Sarawak, Malaysia

Borneo Journal of Resource Science and Technology ◽

10.33736/bjrst.2475.2020 ◽

2020 ◽

Vol 10 (2) ◽

pp. 116-125

Author(s):

Georgina Johnson ◽

Wen San Hii ◽

Samuel Lihan ◽

Meng Guan Tay

Keyword(s):

Anthropogenic Activities ◽

River System ◽

Anthropogenic Activity ◽

Domestic Waste ◽

Shape Identification ◽

Suburban Areas ◽

Sampling Locations ◽

The Relationship ◽

Main Factor

The presence of microplastics in aquatic systems is mainly due to the anthropogenic activities such as domestic waste dumping. Undeniably, rivers either in urban or suburban areas are always a waste dumpling sites from the surrounding residences. Thus, the purpose of this study was to determine the relationship between microplastic abundance and different degree of urbanization across Kuching in Sarawak. Three sampling locations with different degrees of urbanisation had been studied across Kuching. A total of 137 pieces of microplastics were collected along the study and analysed using stereoscopic microscope for the shape identification and FTIR spectrophotometer for functional groups present in the microplastics. Filament was the most abundant microplastics shape found, whereas the IR results showed that ethylenevinylacetate (9%), polyamides or nylon (15%), polypropylene (42%), poly(methylmethacrylate) (16%) and polystyrene (18%) were found in the study. The most abundant microplastics in the water samples was polypropylene (42%), whereas ethylenevinylacetate (9%) was the least. The degree of urbanisation does not directly relate to the microplastic present in the river system in Kuching City, but the anthropogenic activity is the main factor that affecting the microplastic abundance in the river. Keywords: anthropologenic activity, FTIR, microplastics, polymer identification, urban, sub-urban

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Structural mitigation measures for flood reduction in urban area: A case study of Ciliwung watershed

E3S Web of Conferences ◽

10.1051/e3sconf/202020001004 ◽

2020 ◽

Vol 200 ◽

pp. 01004

Author(s):

Rizki Maulana Fadillah ◽

Hafizh Tsaqib ◽

Aryanti Karlina Nurendyastuti ◽

Miftahul Jannah ◽

Rian Mantasa Salve Prastica

Keyword(s):

River System ◽

Mitigation Measures ◽

Ideal Condition ◽

Water Infrastructure ◽

Embankment Dam ◽

The Earth ◽

Earth Embankment ◽

Infrastructure Maintenance ◽

The Ideal

Flooding is an obstacle for water infrastructure which installed in a river system in Ciliwung, West Java, Indonesia. The climate change triggers unpredictable rainfall which occurs in the watershed, therefore the vulnerability of river and other infrastructures are alarming. The rehabilitation and maintenance strategies are needed to make water infrastructures in the river system obtain lower damage. The research aims to simulate the 2-D HEC-RAS modelling of river system and stability. The result produces the water level of the river even in 1000-year discharge flood. Also, the research proposes the earth embankment dam for flood reduction in the watershed. The dam is designed according to the ideal condition. The simulation of HEC-RAS shows that the river experiences flooding in a certain condition. Besides, the research concludes that designed dam could overcome the flooding problem and suitable strategy for water infrastructure maintenance towards flooding impacts. Further investigation towards soil data for designed dam should be further analyzed to obtain better and comprehensive understanding.

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