• Title/Summary/Keyword: urban wetlands

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Development and Application of the Assessment Method of No Net Loss of Greenness for Urban Ecosystem Health Improvement (도시생태계 건전성 증진을 위한 녹지총량 평가법 개발과 적용)

  • Kim, Seung-Hyun;Kong, Hak-Yang;Kim, Tae-Kyu
    • Ecology and Resilient Infrastructure
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    • v.2 no.4
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    • pp.311-316
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    • 2015
  • This study defined and classified no-net-loss-of-greenness (NNLG) based on the law, and then assessed the NNLG index by metropolitan cities and provinces in Korea after estimating NNLG evaluation indicators for the introduction of NNLG for health improvement of urban ecosystems. The results are as follows. First, NNLG was the comprehensive meaning that was included in the greenbelt and park greenbelt and the green area which was defined by the Act on Urban Parks, Greenbelts, etc. and the National Land Planning and Utilization Act respectively. Second, NNLG was classified as a park greenbelt which was included urban parks and greenbelts such as buffer greenbelts, scenic greenbelts, and connecting greenbelts, green areas which was included in green conservation areas, green production areas, green natural areas, and green coverage which is included forests, grasslands, and wetlands that were occupied by vegetation such as trees, shrubs, and plants. Third, NNLG index by cities and provinces was assessed based on the estimation of NNLG evaluation indicators, which included parks and greenbelt areas per capita, green areas per capita, green coverage per capita, ratio of parks and greenbelts, ratio of green areas, and ratio of green coverage. As a result, Sejong city got the highest point of NNLG index and Seoul and Daegu got lowest points of NNLG index among metropolitan cities in Korea. Chungbuk got the highest point of NNLG index and Kyonggi and Jeju got lowest points of NNLG index among provinces in Korea.

A Study on Utilization Plan and Assessment of Ecological Carrying Capacity of Asan City - Focused on the Ecological Footprint Survey - (아산시 생태환경용량 평가를 통한 도시계획 활용방안 연구 - 생태발자국을 중심으로 -)

  • Joo, YongJoon;Sagong, Hee;Lee, SangYoon
    • Journal of Wetlands Research
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    • v.19 no.4
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    • pp.523-532
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    • 2017
  • Environmental problems in urban spaces tend to result from excessive use of resources faster than the ecosystem can recover itself. In order to address this problem, city or municipal governments tend to devise plans and policies to lead development within their ecological carrying capacity. This study computes ecological capacity of Asan city, Province Chung Nam, South Korea through applying the concept of ecological footprint. This study finds ecological footprint and deficit of Asan city in 2015 were 5.12 and -4.99, respectively. From 2001 to 2015, Asan city experienced not only an 81% increase of ecological footprint, but also a 190% increase of ecological deficit. Such results suggest that Asan city has experienced a steady increase of resource consumption due to population increase and urban growth, indicating that loss of ecological spaces such as green space, farmland, wetland and so on restoring the ecosystem has been accelerated. Therefore, in order to promote sustainable development, Asan city should not only protect green space, farmland, wetland, and so on but also create urban growth plans and policies taking into account its environmental capacity of the city. This study provides suggestions for Asan city to lead urban growth within its environmental capacity by applying ecological deficit.

Changes and Influences of Stream Water Quantity due to Urbanization: Focusing on Urban Streams in Gyeonggi-do (도시화에 따른 하천수량 변화 및 영향_경기도 도심하천을 중심으로)

  • Noh, Huiseong;Jo, Dongho;Kim, Yonsoo;Ahn, Taejin
    • Journal of Wetlands Research
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    • v.19 no.4
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    • pp.491-500
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    • 2017
  • Stream water quantity is the most basic, fundamental and important element for stream water quality and for conservation of ecological environment. This study aims to analyze causes of changes in stream water quantity based on the percentage of impervious surface area (%ISA) in urban streams of Gyeonggi-do, and also to present a method to secure water quantity of urban streams in Gyeonggi-do and data to be applied to River Management Policy. For this purpose, the Anyangcheon watershed, the Tancheon watershed, and the Osancheon watershed were selected as samples of the urban streams. In addition, the stream water quantity and the changes in stream water quality which were based on the amount of ISA, and methods to directly and indirectly secure stream water quantity were investigated. The results are as follows. The amounts of ISA of the Anyangcheon watershed, of the Tancheon watershed, and of the Osancheon watershed showed a 5.32%, 6.32%, and 7.22% increase, respectively, from 2014 which was approximately 10 years ago. The runoff coefficient generally increased as the amount of ISA was increased. Water reuse quantity of stream in the Tanchon watershed had a positive effect on securing stream water quantity, but both in the Anyangcheon watershed and in the Osancheon watershed, it did not have a positive effect on that. However, water reuse quantity of stream improved the water quality of each stream.

Urban Runoff According to Rainfall Observation Locations (강우 측정 지점에 따른 도시 유역 유출량 변화 분석)

  • Hyun, Jung Hoon;Chung, Gunhui
    • Journal of Wetlands Research
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    • v.21 no.4
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    • pp.305-311
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    • 2019
  • Recently, global climate change causes abnormal weather and disaster countermeasures do not provide sufficient defense and mitigation because they were established according to the historical climate condition. Repeated torrential rains, in particular, are causing damage even in the robust urban flood defense system. Therefore, in this study, the change of runoff considering the spatial distribution of rainfall and urban characteristics was analyzed. For rainfall concentrated in small catchment, rainfall in the watershed must be accurately measured. This study is based on the rainfall data observed with Automated Surface Observing System (ASOS) and Automatic Weather Stations (AWS) provided by the Seoul Meteorological Administration. Effluent from the pumping station was estimated using the EPA-SWMM model and compared and analyzed. Catchments with rainwater pumping station are small with large portion of impermeable areas. Thus, when the ASOS data where is located from from the chatchment, runoff is often calculated using rainfall data that is different from rainfall in the catchment. In this study, the difference between rainfall data observed in the AWS near the catchment and ASOS away from the catchment was calculated. It was found that accurate rainfall should be used to operate rainwater pumping stations or forecast urban flooding floods. In addition, the results of this study may be helpful for estimating design rainfall and runoff calculation.

Analysis of the Effect of Bio-Retention Cells to Improve Water Cycle and Water Quality in Urban Streams (도시하천의 물순환 및 수질 개선을 위한 생태저류지의 효과분석)

  • Kim, Kyungmin;Choi, Jeonghyeon;Kim, Suhyeon;Kang, Lim-Seok;Shin, Hyunsuk;Kim, Sangdan
    • Journal of Wetlands Research
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    • v.21 no.3
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    • pp.224-235
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    • 2019
  • Rapid urbanization poses three major problems in urban streams. The first problem is the reduction of soil wetting from rainfall as the impervious area increases. Decrease in soil wetting causes serious distortion in the water cycle of urban streams. The second problem is the increase of non-point sources pollutants by urban land use, and the third problem is the combined sewer overflows in the old city center. Increased non-point sources pollutants and combined sewer overflows are associated with water cycle distortion, which increases water pollution in urban streams. In this study, EPA SWMM was constructed for the Busan Oncheon-stream watershed in order to suggest solutions for these three problems, and the bio-retention cells installation project was planned by benchmarking the actual projects in New York City. Water cycle improvement and reduction of non-point sources pollutants and combined sewer overflows for each project scenario were analyzed together with required budgets.

The Application of Nature-Based Technologies for Addressing Urban Environmental Problems (도시 환경 문제를 해결하기 위한 자연 기반해법의 적용)

  • Haque, Md Tashdedul;Reyes, Nash Jett DG.;Lee, Jung-min;Guerra, Heidi B.;Jeon, Minsu;Choi, Hyeseon;Kim, Lee-Hyung
    • Journal of Wetlands Research
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    • v.24 no.4
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    • pp.367-376
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    • 2022
  • LID technologies are capable of mitigating the negative impacts of non-point source (NPS) pollution generated in different land uses. Apart from the increase in point and non-point pollutant generation, highly developed and paved areas generally affect microclimate conditions. This study evaluated both the efficiency of Low Impact Development (LID) facilities in treating NPS pollutant loads as well as the unit pollutant loads (UPL) generated in various urban features (such as parking lots and highways). This investigation also looked at how LID technology helped to alleviate Urban Heat Island (UHI) conditions. As compared to the typical unit pollutant loads in South Korea, the unit pollutant loads at Kongju National University were relatively low, because of no classes, limited vehicular transmission, and low anthropogenic activities during vacation. After receiving treatment from the LID facilities, the effluent pollutant loads were significantly decreased. The sedimentation in filtration mechanisms considerably reduced the pollutant fractions in the influent. Additionally, it was shown that LID facilities' mean surface temperatures are up to 7.2℃ lower than the nearby paved environment, demonstrating the LID systems reducing the UHI impact on an urban area.

A Review of the Risks and Treatment Options for the Veterinary Antibiotic Sulfamethoxazole (동물용 항생제 설파메톡사졸의 위해성 및 처리방안에 대한 고찰)

  • Mo, Seo Yeon;Choi, gae hong;Lee Do Gyun
    • Journal of Urban Science
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    • v.12 no.2
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    • pp.7-12
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    • 2023
  • The purpose of this study is to explore the issue of antibiotic misuse and the associated environmental problems, focusing on the antibiotic sulfamethoxazole used in animal agriculture. Antibiotic resistance is currently a global problem, exacerbated by the misuse of antibiotics in agriculture and animal husbandry. This study emphasizes the importance of investigating the potential environmental toxicity of antibiotics and discovering efficient treatment technologies. It discusses the use of advanced oxidation processes and artificial wetlands as potential approaches to mitigate the environmental impact of antibiotics, particularly sulfamethoxazole. In conclusion, the study underscores the need for research, data collection, monitoring, and effective environmental protection policies to combat antibiotic misuse and environmental pollution. It also emphasizes the significance of raising awareness and implementing proactive measures to address these issues.

Identifying dominant parameters of storm-sewer-overflows in seperate sewer system (강우시 도시배수구역의 유출특성 지배인자 분석)

  • Jung, Si Mon;Park, In Hyeok;Ha, Sung Ryong
    • Journal of Wetlands Research
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    • v.10 no.2
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    • pp.105-114
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    • 2008
  • Growth in population and urbanization has progressively increased the loadings of pollutants from non-point sources as well as point sources. Separated sewer overflows(SSO) have been considered as a major cause of water-quality deterioration of natural water-courses in the vicinity of the heavily urbanized areas. The factors defining the magnitude and occurrence of SSO are site-specific. It is important to know exact properties of pollutants contained in SSO to address water quality impacts that are caused by SSO inputs to the receiving waters. Site and event parameters found to have significant influences on urban runoff pollutant EMCs include total event rainfall, antecedent dry period, rainfall intensity. In this study, a field survey was carried out in some selected areas of Cheongju city. Literature from previous similar studies was consulted and some important factors affecting the runoff characteristics of urban drainage areas were analyzed for some selected survey points. It was found that the factors most affecting BOD are the number of dry days prior to rainfall and the intensity of the rainfall. The factor most affecting CODcr is the number of dry days prior to rainfall. The factors most affecting SS are the amount of rainfall and the number of dry days prior to rainfall. The factor most affecting TN is the amount of rainfall. The factor most affecting TP is the amount of rainfall and the number of dry days prior to rainfall.

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Analysis of RCSTP Wastewater Characteristics and Installed Treatment Process in Bong-Hwa Gun (봉화군에 도입된 마을하수도 하수 특성 및 처리 공법 분석)

  • Im, Jiyeol;Gil, Kyungik
    • Journal of Wetlands Research
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    • v.15 no.4
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    • pp.453-460
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    • 2013
  • Rural area sewage distribution rate is 40 % less than urban area. Previous research results announced that one of the reason in water resource pollution was caused of low rural area sewage distribution rate. Analysis on operation result of 11 RCSTP in Bong-hwa area which is located at the upper region of An-dong Dam and Im-ha Dam. Based on operation result, an analysis on characteristics of wastewater in Bong-hwa and treatment efficiency of installed treatment process was conducted. The wastewater influent of Bong-hwa contained high organic matter and nutrient than those of urban area. Treatment process showed totally stable treatment efficiency. But, The treatment efficiency for nutrient showed high fluctuation. This result means which is need to operation condition control of nutrient treatment when operating RCSTP.

Analysis of Nonpoint Source Pollutants in Urban Stormwater Runoff (강우시 도시지역 비점오염물질의 하천 유입 산정)

  • Son, Younggyu
    • Journal of Wetlands Research
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    • v.18 no.1
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    • pp.94-99
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    • 2016
  • Non-point source control has been issued and intensively studied for the control of water quality in streams and rivers. In this study, non-point source pollutants monitoring was conducted at the end of five small streams which were connected to a main stream in three stages including Phase I (one hr before the rainfall), Phase II (one hr after the rainfall), and Phase III (six hrs after the rainfall). For all five small streams, the concentrations and loading rates of non-point source pollutants significantly increased due to the rainfall. As a result of this, priority control streams and priority pollutants were suggested to prepare for future plans of the non-point source control.