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학위논문
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정성재 (서울시립대학교, 서울시립대학교 과학기술대학원)

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김계훈
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2021
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이 논문의 연구 히스토리 (2)

2021

경의선 및 경춘선 철도 폐선부지를 활용한 도시선형공원 토양의 건전성
정성재 ,  김계훈 한국토양비료학회 학술발표회 초록집 2021.11 학술대회자료
경의선 및 경춘선 철도 폐선부지를 활용한 도시선형공원 토양의 건전성
정성재 환경원예학과 2021.01 학위논문

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최근 전 세계적으로 기후변화와 환경에 대한 우려와 관심이 집중되고 있으며 이와 더불어 도시민들은 도시환경에서의 녹지확보와 확보된 녹지의 확대에 관심이 높아지고 있다. 우리나라는 다른 선진국들에 비하여 1인당 녹지면적의 부족과 도시공원일몰제에 따른 녹지면적 축소에 대한 우려가 있는 가운데 도심 내 철도 폐선부지를 활용한 선형공원들이 생겨나면서 도시민의 삶에 긍정적 영향을 주고 있다. 철도 폐선부지는 철도시설들이 고속화에 부합되는 선형이나 선로로 개량되거나 투자확대에 따른 복선전철화 등이 증가하면서 일부 구간들의 선로 폐선으로 폐선부지가 발생하였다. 이에 따라 철도 폐선부지를 활용하는 도시 재생과 지역경제 활성화 차원에 따른 방안들이 모색되고 다양한 성공사례들이 제시되고 있다. 이 중 폐선부지를 활용으로 조성된 선형공원은 도시미관 및 도시생태계의 연결통로 역할과 미세먼지 저감효과 등 긍정적 측면이 부각되고 있다. 폐선부지를 활용한 성공사례로 서울시 경의선숲길과 경춘선숲길 공원을 들 수 있다. 두 곳의 숲길공원은 도심 생활권 내 시민들에게 쾌적한 환경을 제공하는 등 일상적 생활에 밀접하게 이용되고 있어 공원관리의 중요성과 공원 내 전문적 수목관리를 통하여 도시환경과 시민의 건강을 보호해야 할 필요성이 높아지고 있다. 본 연구는 도심 공원의 토양 건전성을 평가하고자 철도 폐선부지를 활용한 도시 선형공원인 경의선숲길 공원(GU)과 경춘선숲길 공원(GC)을 대상으로 몇몇 지점에서 토양시료를 채취, 분석, 평가하였다. 그 결과 공원(GU, GC)의 토성은 사질양토 또는 양질사토로 통기성과 배수성은 좋으나 공원(GU, GC) 모두 점토함량이 적은 토성으로 유기물함량(1.64, 1.92%)과 양이온교환용량(8.74, 7.8 cmolc kg-1)이 낮은 반면, pH(8.96, 7.97)와 Ca함량(11.74, 5.97 cmolc kg-1)이 높고 유효인산함량(8.64, 16.35 mg kg-1)이 낮게 나타나 식물영양소 불용성과 불균형으로 수목생육에 영향을 주리라 판단된다. 토양환경보전법 상 토양오염기준과 비교할 때 공원(GU, GC) 토양의 중금속별 함유량의 분포 범위와 평균치를 1지역 토양오염우려기준을 적용한 결과, As(평균 4.37, 3.0 mg kg-1), Cd(평균 2.75, 1.15 mg kg-1), Cu(평균 37.93, 13.11 mg kg-1), Ni(평균 28.71, 8.02 mg kg-1), Pb(평균 22.52, 13.67 mg kg-1), Zn(평균 91.43, 55.94 mg kg-1)의 중금속함량은 토양오염우려기준(As 25 mg kg-1, Cd 4 mg kg-1, Cu 150 mg kg-1, Ni 100 mg kg-1, Pb 200 mg kg-1, Zn 300 mg kg-1)보다 낮은 것으로 분석되었다.

주요어: 선형공원, 철도 폐선부지, 토양 건전성, 토양질 평가.
#토양 건전성

목차

1. 서 언 ································································································································· 1
2. 연구사 ······························································································································ 3
2.1 철도 폐선부지 ······································································································· 3
2.1.1 철도 폐선부지의 발생 ············································································· 4
2.1.2 철도 폐선부지의 활용 ············································································· 6
2.1.3 국외 철도 유휴부지의 활용사례 ························································· 8
2.2 도시공원 ················································································································ 11
2.2.1 도시공원의 기능 ······················································································· 13
2.2.2 도시공원의 가치 ······················································································· 16
2.3 선형공원 ················································································································ 18
2.3.1 선형공원의 특징 ······················································································· 19
2.3.2 선형공원의 가치 ······················································································· 20
2.4 경의선숲길 공원의 개황 ················································································ 21
2.5 경춘선숲길 공원의 개황 ················································································ 22
2.6 토양 건전성 ········································································································· 23
2.6.1 토양 건전성과 토양의 질 ····································································· 26
2.6.2 토양 건전성 평가 ····················································································· 28
2.6.3 토양 건전성 평가 지표 ········································································· 29
2.6.3.1 토양의 이화학적 특성 ··································································· 32
2.6.3.2 토양의 생물학적 특성 ··································································· 33
2.7 토양관리 기술 ···································································································· 36
3. 재료 및 방법 ·············································································································· 38
3.1 공시토양 ················································································································ 38
3.1.1 토양시료 채취 및 전처리 ····································································· 38
3.2 토양의 특성 분석 ····························································································· 43
3.2.1 이화학적 특성 분석 ················································································ 44
3.2.2 생물학적 특성 분석 ··············································································· 49
4. 결과 및 고찰 ·············································································································· 50
4.1 경의선숲길 공원 ································································································ 50
4.2 경춘선숲길 공원 ································································································ 82
5. 종합고찰 ···················································································································· 105
6. 인용문헌 ···················································································································· 108
ABSTRACT ·················································································································· 126

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