• 한국토양비료학회지
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• 제43권1호
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• pp.90-95
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• 2010

전 세계적으로 가축분뇨를 농경지에 시용하는 것은 작물과 토양에 양분을 공급하는 측면에서 오래 전부터 이용되어 왔으며, 최근 들어서는 자원을 재순환하기 위한 측면으로 이용되고 있다. 그러나, 환경적인 측면에서 가축분뇨를 농경지에 시용하였을 때 미생물적 평가나 규제기준은 비용과 시간이 많이 요구되어 우리나라에서는 이에 대한 연구가 수행되지 못한 실정이다. 따라서, 본 연구는 밭토양에서 토양수분과 온도조건에 따른 분변성 대장균의 사멸율을 조사하여 분변성 대장균이 외부 환경에 영향을 미칠 수 있는 수준을 평가하고자 수행하였다. 시료는 토양수분조건(10, 35, 65, 80%) 및 온도조건 (20, 25, $30^{\circ}C$)별로 정해진 기간 (3, 7, 14, 21, 28일) 동안 배양되었으며 각각의 시료에 포함된 대장균의 수는 plating method 를 이용하여 측정되었다. 분산분석을 통한 측정자료의 통계분석 결과, 분변성 대장균의 생존에는 토양수분함량과 온도가 주 요인이었는데, 특히 토양수분함량이 감소할수록 그리고 온도가 증가할수록 E. coli의 사멸율은 직선적으로 증가하였다. 또한, 토양수분 조건과 온도조건 중에서 분변성 대장균의 사멸율은 온도조건에 더 상관이 높은 것으로 나타났으며, 모든 온도조건에서 10%의 토양수분조건에서 분변성 대장균의 사멸율이 높았다. 이는 토양수분이 E. coli의 사멸에 제한적인 요인으로 작용하였음을 의미한다. 따라서, 본 연구는 가축분뇨를 농경지에 시용할 때 인체의 위해성과 외부 환경의 건전성을 유지하기 위해서는 고온 저습한 토양조건에서 시용하여야 한다는 현실적인 가이드라인을 제시하고자 한다.

• 한국환경과학회지
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• 제22권1호
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• pp.17-23
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• 2013

In order to evaluate the effect of various organic soil conditioner ratios on the soil moisture content and growth of Cotoneaster horizontalis, a container type for wall-planting experiment was conducted in a greenhouse at Konkuk University under non-irrigation. The experimental planting grounds were prepared with different organic soil conditioner ratios ($A_1L_0$, $A_8L_1$, $A_4L_1$ $A_2L_1$ and $A_1L_1$), and a drought-tolerant ornamental variety of Cotoneaster horizontalis was planted. The change in soil moisture content, plant height, number of branches, number of dead leaves, number of leaves, number of shoots, length of node, length of leaf, width of leaf, root-collar caliper, chlorophyll content, and survival rate were investigated, from April to Jun 2010. The results of soil moisture content measurements were analyzed with weight units in the container type for wall-planting during the dry summer season. The soil moisture contents were significantly enhanced in the container type for wall-planting in increasing order as the amount of soil conditioner level was increased ($A_1L_1$ > $A_2L_1$ > $A_4L_1$ > $A_8L_1$ > $A_1L_0$). Compared to the control treatment application (amended soil with 100% + organic soil conditioner 0%), the highest plant growth was observed in the treatment of $A_1L_1$ application (amended soil with 50% + organic soil conditioner 50%). However, the differences between the organic soil conditioner ratio treatments of $A_1L_1$, $A_4L_1$, and $A_8L_1$ organic soil conditioner application were mostly not significant. The survival rate increased with the increasing application of organic soil conditioner, but in the control treatment application all the plants died. The experimental results from clearly demonstrated that the organic soil conditioner improved the survival rate more than the growth of Cotoneaster horizontalis. Therefore, Cotoneaster horizontalis is expected to be a highly valuable shrub for green wall systems, when considered for us in integration system or for increasing soil water contents in planting grounds.

• 한국작물학회지
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• 제23권1호
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• pp.26-31
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• 1978

맥류의 생육시기에 따라 토양분을 과습상태로 침수하였을 때 생육과 수양에 미치는 피해양상과 정도의차이를 조사하였는 바 그 결과를 요약하면 다음과 같다. 1. 침수기간중 토양온도는 표준구보다 침수구가 고온으로 경과하였는데 오후 3시가 오전 10시보다 더욱 높았으며 토양산화환원전위는 표준구에 비하여 침수구가 현저히 저하하였다. 2. 침수로 인한 초장생육에 피해가 심한 시기는 전맥종이 신장기였으며 다음은 분얼기였고 경수증가피해가 심한 시기는 반대로 분얼기이고 다음이 신장기였으며 수잉기와 등숙기에는 그 차가 경징하였는데 맥종별로 초장과 경수피해가 큰것은 대맥이었고 적은것은 소맥이었다. 3. 침수로 인하여 수획시 간장감소가 심하였던 시기는 이조맥과 대맥은 신장기였으나 소맥은 수잉기였으며 수장은 이조맥과 소맥이 분얼기에 가장 저하하였다. 주당수수와 수당립수의 감소피해가 큰 시기는 전맥종의 유방분얼이 결정되고 소수분화가 이루어지는 분얼기와 신장기였다. 5. 천립중의 피해가 큰 시기는 입의 대소가 결정되는 수잉기로서 특히 소맥과 이조맥의 피해가 심하였는데 이때는 상위절간신장이 조해되어 출수는 지연되고 등숙이 불량하였다. 6. 침수구의 수양감수는 이조맥과 대맥은 수수와 입수감소 피해가 심하였던 신장기였고 다음은 분얼기였으며 소맥은 천립중의 피해가 큰 수잉기였고 다음이 신장기였는데 맥종별로는 소맥의 피해가 적고 다음이 대맥이었으며, 이조맥의 감수가 가장 심한 경향이었다.

• 한국조경학회지
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• 제38권3호
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• pp.98-106
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• 2010

본 연구는 옥상녹화 생태면적률 기준을 효과적으로 시행하기 위해, 식재지반이 토양수분과 순비기나무의 생육 특성에 미치는 영향을 살펴보고자 수행하였다. $500{\times}500{\times}300mm$의 실험구에 토심 15cm와 25cm로 대별하였으며, 배합비율에 따라 $S_10$, $L_10$, $S_7L_3$, $S_5L_5$, $P_7P_1L_2$, $P_6P_2L_2$, $P_5P_3L_2$, $P_4P_4L_2$ 등 총 8가지로 하였다. 본 연구는 2006년 4월에서 9월까지 약 5개월간 진행되었으며, 그 결과는 다음과 같다. 옥상녹화 식재기반에 따른 토양수분함량은 점점 감소하는 경향을 보이다가 강우 시 상승한 반면, $S_10$, $S_7L_3$, $S_5L_5$ 실험구의 경우 수분함량이 급격히 떨어지는 경향을 나타내었다. 이에 비해 피트모스와 펄라이트가 포함된 $P_7P_1L_2$, $P_6P_2L_2$, $P_5P_3L_2$, $P_4P_4L_2$에서는 완만하게 감소하여 저관리형 옥상녹화에 보수성이 높은 토양개량제 사용은 불가피할 것으로 판단된다. 순비기나무의 생육실험 결과, $P_6P_2L_2$, $P_5P_3L_2$, $P_4P_4L_2$ 실험구의 경우 생육이 양호하였다. $S_{10}$은 다른 실험구에 비해 미비한 성장을 보였으며, 이것은 낮은 토양수분함량과 유기물부족이 원인으로 작용한 것으로 본다. $L_{10}$ 실험구는 토양수분함량 및 유기물은 풍부한데도 불구하고 낮은 성장량을 보인 것은 유기질비료의 낮은 토양산도와 과잉 양이온함량에 의한 것으로 판단된다. 토심 15cm 실험구와 25cm 실험구를 비교해 보았을 때, 확연한 차이는 없었으나 토심 25cm 실험구에서 좀 더 원활한 생육을 보였다. 하지만 토심 15cm 실험구의 14일 무관수에서도 순비기나무가 고사하지 않고 생육 가능했던 점과 P6P2L2 이상의 피트모스 배합비에서 왕성한 생육이 이루어진 점을 미루어 볼 때, 저관리에 적합한 토양배합비는 인공토가 포함된 $P_6P_2L_2$, $P_5P_3L_2$, $P_4P_4L_2$로 파악할 수 있었다.

• The Korean Journal of Ecology
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• 제21권5_3호
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• pp.649-663
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• 1998

The clarify the ecological properties, and to predict change of understory vegetation of mt. Nam Park, population dynamics and interspecific competition of D. smilacinum and D. viridescens, which grow in understory of deciduous broad-leaved forest and pseudo-annuals, were studied from May 20 to May 30 1998. The depth of litter layer, soil moisture content, soil organic matter and soil texture were surveyed in 18 populations (15 D. smilacinum populations and 3 D. viridescens populations). Mean litter layer of d. smilacimum population was thinner than that of D. viridescens populations). Mean litter layer of D. smilacnum population was thinner than that of D. viridescens population. The contents of soil moisture and organic matter of D. smilacinum population were lower than that of D. viridescens population. The D. smilacinum growed in broad range of soil texture but D. viridescens in loamy soil. Because D. smilacinum could tolerate more broad range of soil moisture and soil texture than D. viridescens, the former covered the herb layer in earlier stage and the latter introduced in later stage when rhizome could grow easily. The numbers of individual in two marginal parts were smaller than that in center in same D. smilacinum patch. And the total numbers of individuals grown in (10 ${\times}$ 10)cm were from 0 to 12. The rhizome (subterranean runner) weight, rhizome length, root weight, shoot weight, lea weight and leaf number per subquadrat (cell) increased along the number of individual, that is, increased from marginal part to center. But rhizome weight and rhizome length per individual were vice versa. Therefore, the individuals in marginal part reproduced longer and stronger asexual propagules than that in center. The distribution pattern of D. smilacinum was contageous and that of D. viridescens was random or regular. Therefore, population growth of former was independent on density and that of latter was dependent on density. The distributions of size-class showed normal curves in two population, but the curves based on data of total dry weight showed positive skewness and those of leaf number showed negative skewness The correlation coefficient (CC) values between the properties of each organ were high in two population and significant at 0.1% level. The CC values of D. viridescens were higher of the two. Therefore, the former allocated the energy to each organ stable. The rhizome depth of d. viridescens was 2 times deeper than that of D. smilacinum. And rhizome length and weight of D. viridescens were longer (2 times) or heavier (4 times) than those of D. smilacinum. The patch size of D. viridescens increased 60 cm per year and that of D. smilacinum 30 cm. On this results, the intrinsic increase velocity of d. viridescens patch was 2 times faster than that of d. smilacinum, therefore, on the competition, the former had an advantage over D. smilacinum. The reason why d. viridescens defeated D. smilacinum resulted from that the leaf area of former was 4 times broader than that of latter. in Mt. Nam Park, it was thought that two disporum Population would change with the 3 thpes of environmental change as followings. First, no human impact and increase of soil moisture content resulted in increase of D. viridescens population. Second, mild human impact and similar condition of soil moisture content resulted in slow increase or no changes of D. smilacinum and d. viridescens population. Third, severe human impact and dry condition resulted in decrease or vanishment of two disporum populations.

• 한국농공학회지
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• 제32권1호
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• pp.72-86
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• 1990

This study was carried out to get the basic information of irrigation plans for upland crops such as the optimum irrigation level and the project water requirement. Red peppers and cucumbers were cultivated in PVC pot lysimeters filled with 60cm deep clay loam soil. Four tensiometers were installed in each pot to measure the soil water pressure head. Six levels of irrigation were used. The results obtained from this study are summarized as follows: 1.The optimum irrigation level. The irrigation level of FC-PF2.7 was found to be the optimum level for both red pepper and cucumber with respect to the yield and the weight per fruit. In case of FC-PF2.7, total ET during the irrigation period were 1005.2mm for red pepper, and 429.6mm for cucumber, respectively. 2.soil moisture extraction patterns. Average soil moisture extraction patterns (SMEP)during the irrigation period were from 1st soil layer 43% : 32% : 16% : 9% for red pepper and 39% : 34% : 15% : 12% for cucumber, respectively. The extraction ratio of the upper soils showed very large values during the early stage of growth and decreased largely during the middle stage, and became larger in the last stage. 3.The project water requirement. Among the reference crop evapotranspiration(ETo) computation methods presented by FAO, the Penman method was found to be the best. The effective rainfall was computed by a modified USDA-SCS curve number equation. Availability ratios of the total rainfall during irrigation season were 59.2% for red pepper and 48.9% for cucumber, respectively. Net project water requirement of design year are 837.3mm for red pepper. and 502.Smm for cucumber, respectively.

• 농약과학회지
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• 제4권4호
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• pp.61-65
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• 2000

배추 무사마귀병 뿌리혹의 부패에 미치는 온도 토양수분 담수, 토양미생물의 영향을 실내에서 조사하였다. 뿌리혹의 완전부패까지 소요일수는 온도가 높을수록 빨라서 $32^{\circ}C$ 이상에서는 3일, $16{\sim}20^{\circ}C$에서는 12일, $8^{\circ}C$에서는 28일이 소요되었다. 토양수분이 높을수록 뿌리혹의 부패도 빨라서 포화수분의 경우 $32^{\circ}C$에서는 3일, $24^{\circ}C$에서는 8일이 소요되었고, $32^{\circ}C$에서는 토양수분의 영향이 $24^{\circ}C$에서 보다 낮았다. 담수에 의한 뿌리혹의 부패촉진효과는 $32^{\circ}C$에서는 나타나지 않았으나, $24^{\circ}C$와 $12^{\circ}C$에서는 높았다. 뿌리혹의 부패에 대한 외부 토앙미생물의 영향은 나타나지 않았다. 뿌리혹의 부패에 가장 큰 영향을 미치는 요인은 온도였으며 온도가 비교적 낮을수록 다른 환경요인에 의해 영향을 많이 받는 것으로 나타났다. 뿌리혹내 휴면포자는 뿌리혹의 부패 후 시간이 경과할수록 그 성숙도가 증가하였으며, 신선한 뿌리혹은 부패한 혹에 비하여 휴면포자의 밀도도 낮았고 그 성숙도도 저조하였다. 완전히 부패한 뿌리혹내 휴면포자의 밀도는 1 g 조직당 $6.5{\times}10^{6}$개였으며 성숙 휴면포자율도 95% 이상에 달하였다.

• The Korean Journal of Ecology
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• 제21권5_3호
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• pp.695-702
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• 1998

This study was carried out to investigate to determine seasonal variation of dehydrogenase activity, phosphatase activity, adenosine tri-phosphate content and some physicochemical properties, such as soil pH, moisture content, organic matter and several heavy metal concentrations from Apr. 1997 to jan. 1998 in Pinus densiflora and Quercus mongolica forest in Mt. Nam, to explain a relationship between enzyme activity and the soil factors. There were ranges of 4.03-4.65 in soil pH, 18.65-51.09% in moisture content and 6.69-95.95% in orgainc matter. The organic matter content decreased with soil horizon, showing the higher values in Q. mongolica forest. In comparison to the results of Kawngneung site as control area, there were slightly differences due to a development level of forest ecosystem and microbial degradation of organic matter. The heavy metal concentrations showed 32.50-75.55 ${\mu}g/g$ in Cu, 69.33-134.84 ${\mu}g/g$ in Zn, 57.02-150.32 ${\mu}g/g$ in Pb, and 0.36-1.00 ${\mu}g/g$ in Mt. Nam. These values are higher than in Kwangneung site because of long-term exposure to air pollutants from central city. On the other hand, ATP contents in Mt. Nam were lower than in Kawngneung site in relation to soil organic matter, moisture content and relatively high heavy metal concentrations. ATP contents per soil weight was largest in F+H layer and in spring time of other seasons. Dehydrogenase activity as an index of soil microbial activity had a ranges of 170.67-1,221.66 ${\mu}g$ TPF/g that showed lower values than in Kawngneung site. However, phophatase activity had a contray tendency due to P fertilization for a continuous management. Those values increased through spring to a maximum in the summer and fall in autumn. This is basically caused by metabolic state of soil on the biological activity and several and several factors, such as aeration, soil temperature, vegetation and microflora.

• 한국농공학회지
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• 제22권4호
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• pp.82-95
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• 1980

This paper complies the results of the studies so far made on the subsoil improvement of subsurface drainage systems for wet paddy fields (those were located in the Gum-Ho area in Kyung Buk province) which had poor permeability and a high water table. In general, a drainage problem is an excess of water on the ground surface which can effect the productivity and bearing capacity of the soil. With drain pipe systems, (According to their depths and spacing) it may be possible to correct that problem. The experimentation consisted of three test plots, two of which included drain pipe systems with varing depths and width spacing of the pipes. The third plot (C) was an ordinary plot being exempt of a drain pipe system. In detail, the depth of plot A was 80 cm, and the width spacings began at 2. Om and increased by 2. Om up to 10. 0m. The depth of plot B was 60cm and the width spacing was the same as plot A. These tests were performed to research specific details; such as crop yeild, bearing capacity of the soil, the amount of underdrainage, surface cracks, root distribution, the water table level, the consumptive water depth and the soil moisture content. The test period lasted three years, from 1977 thru 1979. The results obtained were as follows: 1. During the test period, the weather conditions for the area tested were in accordance with the annual average for that area. Furthermore the precipitation factor during the spring cultivation season, the intermediate drainage period and the harvest drainage period was of optimum conditions for controling surface cracks, because of less precipitation than evaporation. 2. The difference in the level of the ground water table in plots A and B was hardly noticable, but the difference in the test plots and the ord. plot was greatly noticable. The test plots (A, B) were 30 to 40cm lower than the ordinary plot. On the whole, the ground water table of the ord. plot always stayed at a level of 15-20cm beneath the surface of the soil, the ground water table of the test plot A showed The difference in the depth of the pipe lower than the test plot B, while the test plots showed a remarkable descending effect. 3. The soil temperature in plot A was slightly core than in plot B with a difference of 0. 47$^{\circ}$C, but plot A was 1. 6$^{\circ}$C higher than the ord. plot during the flooding period, but after drainage the temperature difference climed to 2. 0$^{\circ}$C. 4. During the 3rd test year, the values of the cracks were recorded with the values of 59cm in plot A, 42cm in plot B and 15cm in the ordinary plot. Plots A and B had increased 2.5 times the value of the first year while the ordinary plot had remained the same. 5. The root weight of the rice was measured at a value of 77.2 gr. for plot A, 73.5 gr. for plot B and 65.3 gr. for the ord. plot. Therefore, the root growths in plots A and B were much more energetic than in the ord. plot. 6. The consumptive water depth measured during the 3rd year resulted in the values of 26. 0mm per day for plot A, and 24.9 mm per day for plot B, respectively. Therefore, both plot A and plot B maintained the optimum consumptive water depths, but the ordinary plot only obtained the value of 12.3 mm per day, which clearly showed less than the optimum consumptive water depth which is 20 to 30 mm/day. 7. The soil moisture content is in direct relationship to the ground water level. During drainage, test plot A decreased in its ground water level much more rapidly than the other two plots. Therefore, plot A had a much less soil moisture content. But this decreased water level could be directly effected by the weather conditions. 8. The relationship between the bearing capacity and the soil moisture content were directly inversely proportional. It can be assumed that the occurence of soil creaks is limited by the soil moisture content. Therefore, the greater the progress of the surface creaks resulted in a greater bearing capacity. So, tast plot A with a greater amount of surface cracks than the other test plots resulted in a greater bearing capacity. But, the bearing capacity at the harvest season could be effected by the drainage during the intermediate drainage period and by the weather conditions. 9. Comparing the production of the test plots to the ord. plot; there was an increased value of 840kg for plot A, 755kg for plot B and 695kg for the ord. plot in the rough rice. Therefore, plot A had an increase of 20% over the ordinary plot. The possibility of producing double crops was investigated. The effects on barley production in the test plots showed a value of 367kg per 10 acres, which substantiated the possibility of double crops because that value showed an increased value over the average yearly yield for those uplands. 10. So as a result, it can be recommended that by including a drain pipe system with the optimum conditions of an (80cm centimeter) depth and a (l0m) spacing will have a definite positive effect on the over all production capacity and quality of wetpaddy fields.

• 아시안잔디학회지
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• 제6권1호
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• pp.11-22
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• 1992

To determine the use of waste materials as root zone soil mixtures for turfgrass culture, the effects of paper mill sludge and briquet ash on physical and chemical properties of soil and growth of turfgrasses were examined. Three turfgrass species of zoysiagrass(Zoysia japonicaSteud.). kentycky bluegrass(Poa pratensis L. 'Ram I') and creeping bentgrass(Agrostis panistris Huds 'Persucross') were cultured in 32cm diameter plastic pots containing various soil mixtures. The basic ingredients used for mixtures included sand(SD), field soil(SL), paper mill sludge(PS), sphagnum peat moss(PM) and briquet ash(BA). Seven combinations using these ingreients were mixed in different percentage by volume as follows: SD+SL+PM(80:10.10), SH+SL+PS(80:10:10), SD-PM(80:20), SD+PS (80:20), SD+BA(80:20), SD+BA+PM(60:20:20) and SD+BA+PS(60:20:20). 1. Paper mill sludge showed pH of 6.6, more than 30% of organic matter content, and higher concentrations of total N, P, k, Ca, Mg and CEC. Bulk density, fild moisture capacity and electrical conductivity of soil mixtures were increased by the comimation of 10~20% PS by volume. 2. Briquet ash showed pH of 8.0, and higher levels of P, k, Ca and Mg than those of field soiks. Bulk density, field moisture capacity and hardenss of soil mixtures were increased but vertical water flow rate and electrical conductivity were decreased by the combination of 20% BA by volume. 3. Phytotoxic effects of PS and BA on growth of turfgrasses were not found. Shoot growth of all three species was higher in soil combination of SD+BA+PS than that of SD+SL+PM added with fertilizer. However, root growth was better in soil mixtures combined with PM. Soil mixtureomposed of 60% SD, 20% BA and 20% PS by volume was most effective on growth of all three species. 4. Paper mill sludge resulted in higher N level in the leaf tissue. The contents of heavy metals such as Cd and Ph did not vary significantly among soil mixtures and species. However, the Mn level was 2~3 times higher in plants growh in mixtures containing PM compared with others, and especially it was higher in creeping bentgrass than other species.