• Title/Summary/Keyword: Saline Soil

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Comparison of Dry-Seeding Methods for Improving Rice Seedling Stand on Reclaimed Saline Soil (간석지 벼 입모율 향상을 위한 건답직파 방법 비교)

  • 이인;성기영
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.41 no.3
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    • pp.370-375
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    • 1996
  • This study was conducted to find out the feasibility in direct seeded rice cultivation on the reclaimed saline soil. Seedling emergence was tested under the different application rates of rice straw and seeding depth, and also under combined treatments soil moisture regimes and seeding depth on saline soils in a greenhouse. The comparison of seedling stand and yield performance of rice in rotary till after broadcast seeding and in non-plow after broadcast seeding were tested on a field that reclaimed saline soil. Seedling emergence ratio in application of rice straw(4 and 6 tons /ha) was higher than that in non-application of rice straw. Seedling emergence and plant height were remarkably increased with the shallow seeding depth in the application of rice straw(4 tons /ha). The seedling emergence under proper soil moisture condition(25%) was higher than that under excess soil moisture condition(35%). Under proper soil moisture condition, the plant height was increased with the shallowed seeding depth. The number of seedling stand per m$^2$ in non-plow after broadcast seeding was larger than that in rotary till after broadcast seeding. Panicle number per m$^2$ in non-plow after broadcast seeding was much larger than that in rotary till after broadcast seeding and the yield showed the same trends as panicle number.

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Effect of Subsurface Drainage Systems on Soil Salinity at Saemangeum Reclaimed Tidal Land

  • Lee, Sanghun;Bae, Hui-Su;Lee, Soo-Hwan;Oh, Yang-Yeol;Ryu, Jin-Hee;Ko, Jong-Cheol;Hong, Ha-Chul;Kim, Yong-Doo;Kim, Sun-Lim
    • Korean Journal of Soil Science and Fertilizer
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    • v.48 no.6
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    • pp.618-627
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    • 2015
  • Soil salinity is the most critical factor for crop production at reclaimed tidal saline soil. Subsurface drainage system is recognized as a powerful tool for the process of desalinization in saline soil. The objective of this study was to investigate the effects of subsurface drainage systems on soil salinity and corn development at Saemangeum reclaimed tidal saline soil. The field experiments were carried out between 2012 and 2014 at Saemangeum reclaimed tidal land, Buan, Korea. Subsurface drainage was installed with four treatments: 1) drain spacing of 5 m, 2) drain spacing 10 m, 3) double layer with drain spacing 5 m and 10 m, and 4) the control without any treatment. The levels of water table showed shorter periods above 60 cm levels with the deeper installation of subsurface drainage system. Water soluble cations were significantly greater than exchangeable forms and soluble Na contents, especially in surface layer, were greatly reduced with the installation of subsurface drainage system. Subsurface drainage system improved biomass yield of corn and withering rate. Thus, the biomass yield of corn was improved and the shoot growth was more affected by salinity than was the root growth. The efficiency of double layer was not significant compared with the drain spacing of 5 m. The economic return to growers at reclaimed tidal saline soil was the greatest by the subsurface drainage system with 5 m drain spacing. Our results demonstrated that the installation of subsurface drainage system with drain space of 5 m spacing would be a best management practice to control soil salinity and corn development at Saemangeum reclaimed tidal saline soil.

Effect of Saline Soil and Crop Growth with Bottom Ash from Biomass Power Plant Based Wood Pellet (우드펠릿 기반 바이오매스 발전소로부터 배출된 저회를 활용한 염류토양 및 작물성장에 미치는 영향)

  • So-Hui Kim;Seung-Gyu Lee;Jin-Ju Yun;Jae-Hyuk Park;Se-Won Kang;Ju-Sik Cho
    • Korean Journal of Environmental Agriculture
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    • v.41 no.4
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    • pp.310-317
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    • 2022
  • BACKGROUND: The salt in soil interrupts crop growth. Therefore, water resources are used to remove any salt found in the soil. However, water resources have been reduced by global warming; thus, a new study is required into reducing the salt in soil. Recently, the bottom ash (BA) of a biomass power plant was found to be similar to biochar. Hence, it can be used to remove heavy metals and wastewater through the adsorption characteristics of BA. The objective of this study was to evaluate the improvement effects on crop growth in saline soil containing the BA from biomass power plants. METHODS AND RESULTS: The effect on crop growth in the saline soil supplemented with BA was studied with the crop-planted pots, which were packed by reclaimed greenhouse soils collected from Byolyang, Suncheon. The BA application level was 25, 50, 100, 200, and 400 kg/10a (referred as BA25, BA50, BA100, BA200, and BA400, respectively). The BA increased the fresh weights of the leaf and root, while nitrogen uptake increased by approximately 24-102% and 54-77%, respectively for the lead and root. The phosphorous uptake increased by 38%, although only in the leaf of the lettuce. In the case of soil, BA increased water content, pH, EC, CEC, and NH4+ and the SAR of the soil decreased by 5-15%. The bottom ash increased the contents of Ca2+ and Mg2+, and fixed the amount of Na+. CONCLUSION(S): It was confirmed the bottom ash of a biomass power plant, based on wood pellets, improved crop growth, and increased the nutrient uptake of crops in saline soil. In addition, bottom ash, which has a wide range of porosity and high values of pH and EC, improved properties of the saline soil. However, the BA has a large amount of B, As, and heavy metals. Finally, it may require a study on the safety and contamination of heavy metals contained in the bottom ash, which would be applied in soil for a long time.

Biological Improvement of Reclaimed Tidal Land Soil(IV) Changes of Saline Soil by addition of Organic Acids (해안간척지 토양의 생물학적 토성개선에 관한 연구 (제4보) 유기산첨가에 따르는 토양성분의 제 변화에 대하여)

  • 홍순우
    • Journal of Plant Biology
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    • v.12 no.4
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    • pp.9-18
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    • 1969
  • In the previous paper(part III), a certian relationships between the changes of chlorinity and organic acid released from organic material were seemed to be concened to each other in saline soil suspension. Such a possibility had been a cause to take this experiments and this experiment was carried out under the treatment of organic acid crystal, oxalic acid and succinic acid, to the soil suspension(soil: water=20g:40cc) directly. The amount of organic acid treated to the suspension were related to the contents of organic material, as amount of organic acid per gram of organic material(391.76mg). The saline soil suspension were grouped and treated with the acids in order of 78.35mg(Group 1), 391.76mg(Group 2) 979.4mg(Group 3), and 1958.8mg(Group 4), respectively. Treated suspension had been incubated at room temperature and extract from suspension was used for analysis. Followings are summary of this report. 1) Changes of pH in soil suspension appeared a little increase after the treatment of organic acid until 168 hours. 2) Total acidity of soil suspension showed a variation, however, the values of total acidity appeared not to be increased or decreased during the period of experiment. 3) Sugar contents of soil suspension was increased until 168 hours after treatment. These results are similar tendency to the previous paper. 4) Addition of organic acid to soil suspension was confirmed not to be effective method for desalination from saline soil. Chlorinity of group 3 and 4 which were treated with high concentration of organic acid showed a decrease comparing to control group.

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Associated Nitrogen Fixation in the Rhizosphere of Rice in Saline and Reclaimed Saline Paddy Soil -1. Enumeration of aerobic heterotrophic bacteria associated in histosphere of grasses and rice (간척지토양(干拓地土壤)의 수도근권(水稻根圈)에서 협생질소고정(協生窒素固定)에 관(關)한 연구(硏究) -제(第)1보(報) 수도(水稻) 및 자연생잡초(自然生雜草) 근조직내(根組織內) 협생질소고정균(協生窒素固定菌)의 분리동정(分離同定))

  • Lee, Sang Kyu;Suh, Jang Sun;Ko, Jae Young
    • Korean Journal of Soil Science and Fertilizer
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    • v.20 no.1
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    • pp.69-76
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    • 1987
  • The aerobic heterotrophic bacteria in the histosphere associated with grasses (Gramineae, Caryphyllaceae, Crucifereae) and rice cultivars in saline and reclaimed saline paddy soils were varied with species and rice cultivars. The fraction of aerobic heterotrophic $N_2$-fixing bacteria to the total aerobic heterotrophic bacteria were averaged to eighteen percent in the histosphere of grasses and rice. Acetylene reducing activity of these bacteria were ranged from 1 to 24 n mole/tube/hr. Most of the bacteria strains were predominated of hydrogen utilizing bacteria. The majority of these bacteria were closed to Pseudomonas, Azospirillum, Klebsiella and Agrobacter.

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The changes of soil salinity in the Pinus densiflora forest after seawater spread using a fire-fight helicopter

  • Park, Jeong Soo;Koo, Kyu-Sang;Lee, Eun Ju
    • Journal of Ecology and Environment
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    • v.38 no.4
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    • pp.443-450
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    • 2015
  • The east coast of the Korean Peninsula is susceptible to fires because of the low rainfall in winter and spring, and large forest fires have occurred in this area. Lack of fresh water to combat fires has hampered efforts to prevent widespread forest fires in this region. Seawater has not been used as a suppressant because of possible detrimental effects of salt. We investigated the mobility of saline water in the forest soil and their effect on the microbial activity. Using a fire-fighting helicopter, seawater was sprayed over three plots (50 × 100 m) located on the eastern slope of the Baekdu mountain range in South Korea in April, 2011. We sampled the soil in April 4, May 20, and August 5 to determine the amount of salt that remained in the soil. The electrical conductivity value of the soil decreased to <400 μS/cm over a 1-month period. Approximately, four months after the application of seawater, the electrical conductivity value and Na+ content in all treatment plots did not significantly differ to those of the control plot, and total microbial activity also recovered to that of the control. Our results indicate that the amount of rainfall, soil physical-chemical properties, and topological factors may be a critical factor determining the mobility of saline water in forest soil.

Desalinization of Tidal Saline Soil and Water Requirement (개흙의 제염(除鹽)과 세척수량(洗滌水量))

  • Oh, Wang-Keun
    • Korean Journal of Soil Science and Fertilizer
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    • v.23 no.2
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    • pp.114-118
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    • 1990
  • Water requirement for desalinization was studied in column experiment filled with a tidal saline soil treated with gypsum partially, one half of the gypsum was mixed to the top one tenth and the other half was spread on the surface of the column soil. Different doses of percolates were collected and analysed with sectionalized column soils after the last percolation. Results obtained are as follows ; 1. One point seven(1.7) times of percolate was enough to desaline sodium from the tidal saline soil to bring the activity ratio of $Na/{\sqrt{Ca+Mg)}}$ to 0.10 at which the mean % Na to the sum of cations was $1.64{\pm}0.57$, but for magnessium, twice as much the percalate as the saline soil was still not enough, so that the activity ratios, $(Na+{\sqrt{Mg}})/(K+{\sqrt{Ca}})$ of soil, at different depth were not contract to an equilibrium point. 2. Most free NaCl was washed out into 1.4 times of percolate to the saline soil There after which the leaching of K and Mg became obvious. 3. Iso ha lime curves of sodium were prepared for water requirement to desaline a tidal saline soil to a projected Na concentration and a predetermined soil depth.

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Electrokinetic Restoration of Saline Soil Accumulated with Nitrate and Sulfate (질산염 및 황산염 집적 염류 토양의 전기역학적 개량)

  • Cho, Jung-Min;Jo, Sung-Ung;Kim, Do-Hyung;Yang, Jung-Seok;Baek, Ki-Tae
    • Journal of Soil and Groundwater Environment
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    • v.16 no.5
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    • pp.18-23
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    • 2011
  • The electrokinetic transport characteristics of salts were investigated using nitrate and sulfate accumulated saline greenhouse soil. Within 8 days, 95% of nitrate was removed from the soil, while sulfate removal was 19% for 8 days. The low removal of sulfate came from adsorption reaction on the soil particles or organic matter and precipitation with calcium. Divalent cations such as calcium and magnesium were transported toward cathode via electromigration, and most monovalent cation such as potassium was removed. The pattern of residual electrical conductivity was similar with that of sulfate. Based on the results, electrokinetic technique is effective to restore nitrate-accumulated saline soil, but is not effective to restore sulfate-accumulated soil.

Economic Analysis on Desalination Technology for Saline Agricultural Land on the Basis of Crop Production (염류집적 농경지 제염기술에 대한 경제성분석 - 작물생산량을 기준으로)

  • Kim, Do-Hyung;Choi, Jeong-Hee;Kim, Lee-Yul;Nam, Chang-Mo;Baek, Ki-Tae
    • Journal of Soil and Groundwater Environment
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    • v.17 no.5
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    • pp.40-48
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    • 2012
  • In this study, economic analysis of five desalination technologies for saline agricultural land was carried out. The analysis was comprehensively evaluated by calculating changes in crop production and benefit/cost (B/C) ratio. The analysis of crop production was in the order of tomato > cucumber > a (musk) melon > watermelon > cabbage, and economical efficiency for desalination technology was in the order of soil exchange > soil addition > electrokinetics > under-drainage > subsoil reversal. In cost benefit analysis, B/C ratio was in the order of under-drainage > soil exchange > electrokinetics > soil addition > subsoil reversal, and all desalination technologies used in this study have the ratio higher than 1, which means economical efficiency was high. Based on the net production considering B/C ratio, the general economic analysis was exactly order from that of crop production analysis. As a result, economical efficiency of soil exchange was highest, and economical efficiency of soil addition and electrokinetic was relatively higher than others.

Agricultural Systems for Saline Soil: The Potential Role of Livestock

  • Masters, D.G.;Norman, H.C.;Barrett-Lennard, E.G.
    • Asian-Australasian Journal of Animal Sciences
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    • v.18 no.2
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    • pp.296-300
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    • 2005
  • Human-induced soil salinity is becoming a major threat to agriculture across the world. This salinisation occurs in both irrigated and rain-fed agricultural zones with the highest proportions in the arid and semi-arid environments. Livestock can play an important role in the management and rehabilitation of this land. There are a range of plants that grow in saline soils and these have been used as animal feed. In many situations, animal production has been poor as a result of low edible biomass production, low nutritive value, depressed appetite, or a reduction in efficiency of energy use. Feeding systems are proposed that maximise the feeding value of plants growing on saline land and integrate their use with other feed resources available within mixed livestock and crop farming systems. Salt-tolerant pastures, particularly the chenopod shrubs, have moderate digestible energy and high crude protein. For this reason they represent a good supplement for poor quality pastures and crop residues. The use of salt-tolerant pasture systems not only provides feed for livestock but also may act as a bio-drain to lower saline water tables and improve the soil for growth of alternative less salt tolerant plants. In the longer term there are opportunities to identify and select more appropriate plants and animals for saline agriculture.