Evaluation of Practical Application of the Remote Monitoring System for Water Salinity in Estuary Lake During Farming Season

Lee, Kyung-Do; Hong, Suk-Young; Kim, Yi-Hyun; Na, Sang-Il; Oh, Young-Jin

doi:10.7745/kjssf.2014.47.5.313

Cited by 1 publication

(2 citation statements)

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“…간척지구별 EC w 차이는 통계적으로 유의하였으며 (P < 0. 로 판단된다 (Lee et al, 2014;Seong, 2014). 또한, 방조제 누수로 인한 해수 및 염분 유입 등 구조적인 요인도 고려할 필요가 있다 (Jung et al, 2009).…”

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“…이는 농업용수의 EC w 와 SAR은 기존 염분은 물론 강우와 기저유출 유입수에 의한 희석, 농경지 제염에 따른 회귀수 유입과 증발에 의한 염농도 증가 등 다양한 요인에 의해 영 향을 받기 때문으로 판단된다(Seong, 2014). 이와 같은 다양한 요인 중, 강우량에 따른 간척지구 호수의 염농도 변화 연구 결과에 의하면, 강우량이 증가하면 희석에 의해 염농도가 감소하는 경향이 있다(Lee et al, 2010;Seong, 2014).본 연구 기간 중 연 강우량이 2018년과 2020년 1,300 -1,700 mm에서 2022년 900 mm 이하로 크게 감소하였지만, 동 기간동안 삼산 지구 호수만 2022년에 EC w 와 SAR이 큰 폭으로 상승하였다 (Fig.1). 따라서, 기존 연구에서 보고된 강104 • 우량-염농도 관계는 원인을 특정하기는 어렵지만, 간척지구별로 다르다는 것을 알 수 있다.…”

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Agricultural Water Salinity of Reclaimed Tidelands in Southwestern Coastal Areas of South Korea

Park¹,

Choi²

2023

Korean J. Soil. Sci. Fert.

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Monitoring of the salinity of agricultural soil and water is necessary for sustainable food production in saltaffected reclaimed tidelands (RTLs). Soil salinity has been extensively monitored; however, little attention has been given to water salinity. In this study, agricultural water salinity of five RTLs located in the southwestern coastal area of South Korea was monitored. A total of 215 water samples were collected from estuary lakes and inland streams in Bojeon (BJ), Goheung (GH), Gunnae (GN), Samsan (SS), and Youngsangang (YSG) RTLs in 2018, 2020, and 2022. Water samples were analyzed for electrical conductivity (EC w ) and sodium adsorption ratio (SAR) to estimate the suitability of water salinity for agricultural uses based on the FAO guidelines. The EC w (average: 1.6 -3.6 dS m -1 ) and SAR (5 -8) were highly variable being dependent on RTL locations, water type (lake and stream), and sampling year and month. For rice cultivation, EC w of BJ, SS, and YSG RTLs was lower than the threshold EC w (2 dS m -1 ) for rice growth; whereas EC w of GN (2.1 ± 1.0 dS m -1 ) and GH (3.6 ± 1.2 dS m -1 ) RTLs were higher than the threshold EC w . For upland crops cultivation, both EC w and SAR of five RTLs were much higher than the FAO threshold values (EC w < 0.7 dS m -1 and SAR < 3). Therefore, our results suggest that agricultural water salinity of the study RTLs is not suitable for cultivation of upland crop. Therefore, long-term monitoring of water salinity as well as developments of advanced irrigation-drainage are necessary for diversification of agricultural uses of RTLs.

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