1 |
Wetzel, R. G., Limnology: lake and river ecosystems, Academic press, NY (2001)
|
2 |
김용재,낙동강 중 하류의 식물플랑크톤 군집의 월 변화,Algae, 19(4), pp. 329-337 (2004)
DOI
|
3 |
선성교,백경훈,송미경,낙동강 중 하류에서 클로로필 a 최대농도 출현지역 평가,한국육수학회지,35(1), pp. 21-27 (2002)
|
4 |
이주동,최상준,김영훈,김한순,이정호,담수 규조류 침전거동 첨강속도 측정을 중심으로,한국물환경학회지,18(6), pp. 683-692 (2002b)
|
5 |
조경제,신재기,낙동강 주요 담수조류의 생장 및 영양염 반포화 계수, Algae, 13(2), pp. 235-240 (1998a)
|
6 |
조경제,신재기,낙동강 하류에서 동 하계 무기 N, P 영양 염류와 식물플랑크톤의 동태,한국육수학회지,31(1), pp. 67-75 (1998b)
|
7 |
최광현,황순진,김호섭,한명수,팔당호 식물플랑크톤의 제한영양염과 성장률의 경시적 변화,한국육수학회지,36(2), pp. 139-149 (2003)
|
8 |
Baca, R. G. and Arnett, R. C., A Limnological Model for Eutrophic Lakes and Impoundments, Battelee, Inc., Pacific Northwest Laboratories, Richlann nnd, Washington (1976)
|
9 |
Smayda, T. J., Some Experiments on the Sinking characteristics of two freshwater diatoms, Limnol. Oceanogr., 19(4), pp. 628-635 (1974)
DOI
ScienceOn
|
10 |
Waite, A., Fisher, A., Thompson, P. A. and Harrison, P. J., Sinking rate versus cell volume relationships illuminate sinking rate control mechanisms in marine diatoms, Mar. Ecol, Prog. Ser., 157, pp. 97-108 (1997)
DOI
|
11 |
신재기,이옥희,조경제,진양호와 남강의 수질에 대한 Algal growth potential test(AGPT) 적용,한국육수학회지, 36(1), pp. 57-65 (2003a)
|
12 |
신재기,황순진,평택호와 유역 하천에서 조류생장잠재력 측정,한국육수학회지,36(2), pp. 172-180 (2003b)
|
13 |
Peperzak, L., Colijn, F., Koeman, R., Gieskes, W. W. C. and Joordens, J. C. A., Phytoplankton sinking rates in the Rhine region of freshwater influence, J Plankton Res., 25(4), pp. 365-383 (2003)
DOI
ScienceOn
|
14 |
허우명,김범철,황길순,최광순,박원규,낙동강 수계의 인,질소 및 Chl.a 농도 분포,한국육수학회지,28(2), pp. 175-181 (1995)
|
15 |
김범철 외 15 명,낙동강수계 수중생태계 수질모델인자 조사,국립환경연구원 (2003)
|
16 |
Bienfang, P., A new phytoplankton sinking rate method suitable for field use, Deep-Sea Research, 26(6A), pp. 719-729 (1979)
DOI
ScienceOn
|
17 |
Waite, A. M. and Nodder, S. D., The effect of in situ iron addition of the sinking rates and export flux of Southern Ocean diatoms, Deep-Sea Research II, 48, pp. 2635-2654 (2001)
DOI
ScienceOn
|
18 |
APHA, Standard methods for the examination of water and wastewater, 20th ed. (1998)
|
19 |
Walsby, A. E., Hayes, P. K., and Boje, R., The gas vesicles, buoyancy and vertical distribution of cyanobacteria in the Baltic sea, Eur. J. Phycol., 30(20), pp. 87-94 (1995)
DOI
ScienceOn
|
20 |
김호섭,황순진,부영양 저수지에서 식물플랑크톤 성장에 대한 제한영양염과 질소/인 비의 영향,한국육수학회지,37(1), pp. 36-46 (2004)
|
21 |
Titman, D. and Kilham, P., Sinking in freshwater phytoplankton : some ecological implications of cell nutrient status and physical mixing processes, Limnol. Oceanogr., 21(3), pp. 109-117 (1976)
|
22 |
Cole, T. and Buchak, E. M., CE-QUAL-W2: A two-dimensional, laterally averaged, hydrodynamic and water quality model, Version 2.0 User Manual, U.S. Army Corps of Enginerrs, Waterways Experiment Station, Vicksburg, MS 39180-6199 (1995)
|
23 |
Collins, C. D. and Wlosinski, J. H., Coefficients for use in the US. Army Corps of Engineers reservoir model, CEQUAL-RI, Technical Report E-83-15, U.S. Army Engineer Waterways Experiment Station, Vicksburg, MS (1983)
|
24 |
김범철,사승환,김문숙,이윤경,김재구,국내 호수의 제한 영양소와 하수처리장 방류수 인기준 강화의 필요성,한국물환경학회지,23(4),pp. 512-517 (2007)
|
25 |
박혜경,이문호,유재근,AGP spike test에 의한 국내 대형댐호의 조류생장 제한 영양염의 추정,한국물환경학회지,8(3), pp. 159-166 (1992)
|
26 |
Eppley, R. W., Holmes, R. W. and Strickland, J. D. H., Sinking rates of marine phytoplankton measured with a fluorometer, J Esp. Mar. Biol. Eco.., 1, pp. 191-208 (1967)
DOI
ScienceOn
|
27 |
Judit, P., Eva, S. and Zsuzsanna, R., Sinking properties of some phytoplankton shapes and the relation of form resistance to morphological diversity of plankton-an experimental study, Hydrobiologia, 500, pp. 243-257 (2003)
DOI
ScienceOn
|
28 |
Bienfang, P., Laws, E. and Johnson, W., Phytoplankton sinking rate determination: technical and theoretical aspects, an improved methodology, J. Esp. Mar. Biol. Eco., 30, pp. 283-300 (1977)
DOI
ScienceOn
|
29 |
Burns, N. M. and Rosa, F., In situ measurement of settling velocity of organic carbon particles and 10 species of phytoplankton, Limnol. Oceanogr., 25, pp. 855-864 (1980)
DOI
ScienceOn
|
30 |
Kellar, P. E., Paulson, S. A. and Paulson, L. J., Methods for biological, chemical and physical analyses in reservoirs, Tech. Rep. Lake Mead Limnological Res. Center, UNLV, NV (1980)
|
31 |
Welch, E. B., Homer, R. R. and Patmont, C. R., Prediction of nuisance periphytic biomass: a management approach, Water Res., 23, pp. 401-405 (1989)
DOI
ScienceOn
|
32 |
이정호,권정남,양상용,낙동강의 식물플랑크톤 군집의 계절 변화,Algae, 17(4), pp. 267-273 (2002a)
DOI
|
33 |
Reynolds, C. S., The ecology of freshwater phytoplankion, Cambridge University Press, NY (1984)
|
34 |
Thomas, O. B. Jr, Rates, Constants, and Kinetics Formulations in Surface Water Quality Modeling, 2nd ed., E.P.A., pp. 281-345 (1985)
|
35 |
Harrison, P. J., Turpin, D. H. and Bienfang, P. K., Sinking as a factor affecting phytoplankton species succession: the use of selective loss semi-continuous cultures, J Esp. Mar. Biol. Eco., 99, pp. 19-30 (1986)
DOI
ScienceOn
|
36 |
Horne, A. J. and Goldman, C. R., Limnology, McGraw-Hill Inc, NY (1994)
|