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영농형태별 영농기간 동안 비강우시 논 유출수의 수질 항목별 확률분포 추정 KCI 등재

The Estimation of Probability Distribution by Water Quality Constituents Discharged from Paddy Fields during Non-storm Period

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생태와 환경 (Korean Journal of Ecology and Environment)
한국하천호수학회 (The Korean Society Of Limnology)
초록

Analysis of water quality distribution is very important for river water quality management. Recently, various studies have been conducted on the analysis of water quality distribution according to reduction methods of nonpoint pollutant. The objective of this study was to select the probability distributions of water quality constituents (T-N, T-P, COD, SS) according to the farming forms (control, slow release fertilizer, water depth control) during non-storm period in the paddy fields. The field monitoring was conducted monitoring site located in Baeksan-myun, Buan-gun, Jeollabuk-do, Korea during non-storm period from May to September in 2016. Our results showed that there were no differences in water quality among three different farming forms, except for SS of control and water depth control. K-S method was used to analyzed the probability distributions of T-N, T-P, COD and SS concentrations discharged from paddy fields. As a results of the fitness analysis, T-N was not suitable for the normal probability distribution in the slow release fertilizer treatment, and the log-normal probability distribution was not suitable for the T-P in control treatment. The gamma probability distribution showed that T-N and T-P in control and slow release fertilizer treatment were not suitable. The Weibull probability distribution was found to be suitable for all water quality constituents of control, slow release fertilizer, and water depth control treatments. However, our results presented some differences from previous studies. Therefore, it is necessary to analyze the characteristics of pollutants flowing out in difference periods according to various farming types. The result of this study can help to understand the water quality characteristics of the river.

목차
Abstract
 서 론
 재료 및 방법
  1. 시험지구
  2. 시료채취 및 분석
  3. 확률분포모형
 결과 및 고찰
  1. 영농형태별 수질농도 비교
  2. 영농형태별 적정 확률분포모형 선정 및 중앙값
 적 요
 REFERENCES
저자
  • 최동호(국립농업과학원 농업환경부 기후변화생태과) | DongHo Choi (Climate Change & Agroecology Division, Department of Agricultural Environment, National Institute of Agricultural Sciences, Rural Development Administration)
  • 허승오(국립농업과학원 농업환경부 기후변화생태과) | Seung-Oh Hur (Climate Change & Agroecology Division, Department of Agricultural Environment, National Institute of Agricultural Sciences, Rural Development Administration)
  • 김민경(농촌진흥청 기술협력국 국제기술협력과) | Min-Kyeong Kim (International Technology Cooperation Center (ITCC), Rural Development Administration)
  • 엽소진(국립농업과학원 농업환경부 기후변화생태과) | So-Jin Yeob (Climate Change & Agroecology Division, Department of Agricultural Environment, National Institute of Agricultural Sciences, Rural Development Administration)
  • 최순군(국립농업과학원 농업환경부 기후변화생태과) | Soon-Kun Choi (Climate Change & Agroecology Division, Department of Agricultural Environment, National Institute of Agricultural Sciences, Rural Development Administration) Corresponding author