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2020 Vol.53, Issue 3 Preview Page

Original research article

Distribution of Nitrogen and Phosphorus in Arable and Forest Stand along the Boundary of Upstream Daechung Reservoir
Il Whan Seo1
,
Chul Soon Lim1
,
Hyun Gyu Jung2
,
Dong Sung Lee3
,
Se Won Min4
,
Kyo Suk Lee5
,
Doug Y. Chung6*
1Doctoral Student, Dept. of Bio-environmental Chemistry, Collage of Agriculture and Life Sci. Chungnam National Univ.
2Adjunct Professor, Dept. of Bio-environmental Chemistry, Collage of Agriculture and Life Sci. Chungnam National Univ.
3Manager, National Agricultural Cooperative Federation
4Undergraduate student, Dept. of Bio-environmental Chemistry, Collage of Agriculture and Life Sci. Chungnam National Univ.
5Reserch Professor, Dept. of Bio-environmental Chemistry, Collage of Agriculture and Life Sci. Chungnam National Univ.
6Professor, Dept. of Bio-environmental Chemistry, Collage of Agriculture and Life Sci. Chungnam National Univ.
* Corresponding Author
† These authors contributed equally to this work.
31 August 2020. pp. 287-300
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Abstract

This investigation was conducted to provide the control methods of N and P by observing the distribution of nitrogen and phosphorus in arable and forest stands along the boundary of upstream Daechung Reservoir in which water quality properties caused by N and P from land uses was not extensively studied. To do this, we selected three different soil zone such as arable (paddy and upland), orchard, and forest stands including pine and larch of which inputs of N and P have been known to be different due to their foliage properties. Soil samples were collected from surface and subsurface to measure soil physical and chemical properties. The results showed that the soil textures of investigation sites are loamy sand and sandy loam and the stone ratio of both forest stand are approximately 38.7%. The organic matter content in both forest stands was above 5.6% while that of the paddy and upland are less than 3%. Soil pHs are strongly acidic except for orchard of which it is above 5.7 but less than 6.64. However, pHs of all the sites slightly increased from May to October. The amount of NO3- and NH4+ as water soluble phase is less than that of exchangeable phase in paddy while that of NO3- and NH4+ as exchangeable phase is greater than that of water soluble phase in upland and the forest stands of pine and larch. For the proportions of phosphorus remained as water soluble- and exchangeable phase depending on the total P, the proportion of water soluble in paddy and pine stand was greater than 10% while those of exchangeable P are less than 10% in upland, orchard, and larch stands. From these results based on the amount and the proportion of N and P in soil, we could assume that N and P from the both pine and larch stands may contribute the deterioration of water quality of Daechung Reservoir.

Comparison of chemical properties for different land uses in the investigation sites of Daechung reservoir. Changes of T-N and ratio of A/B in top 20cm soil for various land uses along Daechung reservoir from May to October of 2019.

Keywords
Nitrogen and Phosphorus
Paddy
Upland
Pine and larch stand

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Information
  • Publisher :Korean Society of Soil Science and Fertilizer
  • Publisher(Ko) :한국토양비료학회
  • Journal Title :Korean Journal of Soil Science and Fertilizer
  • Journal Title(Ko) :한국토양비료학회 학회지
  • Volume : 53
  • No :3
  • Pages :287-300
  • Received Date : 2020-07-14
  • Revised Date : 2020-08-21
  • Accepted Date : 2020-08-25
  • DOI :https://doi.org/10.7745/KJSSF.2020.53.3.287
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