The Journal of
the Korean Society on Water Environment

The Journal of
the Korean Society on Water Environment

Bimonthly
  • ISSN : 2289-0971 (Print)
  • ISSN : 2289-098X (Online)
  • KCI Accredited Journal

Editorial Office

  1. Home
  2. All Issues
  3. 2025-09 (Vol. 41, No. 5)
  4. 10.15681/KSWE.2025.41.5.403
XML PDF INFO REF

References

1 
Barba, B., Larrañaga Arrizabalaga, A., Otermin, A., Basaguren, A., and Pozo Martínez, J. (2010). The effect of sieve mesh size on the description of macroinvertebrate communities, Limnetica, 29(2), 211-220.Google Search
2 
Barbour, M. T. (1999). Rapid bioassessment protocols for use in wadeable streams and rivers: Periphyton, benthic macroinvertebrates and fish, U.S. Environmental Protection Agency, Office of Water.Google Search
3 
Behney, A. C., O’Shaughnessy, R., Eichholz, M. W., and Stafford, J. D. (2014). Influence of item distribution pattern and abundance on efficiency of benthic core sampling, Wetlands, 34(6), 1109-1121. https://doi.org/10.1007/s13157-014-0570-xDOI
4 
Birk, S. and Hering, D. (2006). Direct comparison of assessment methods using benthic macroinvertebrates: a contribution to the EU Water Framework Directive intercalibration exercise, Hydrobiologia, 566, 401–415 (2006)DOI
5 
Brinkhurst, R. O. and Jamieson, B. G. (1971). Aquatic Oligochaeta of the world.Google Search
6 
Chao, A., Chazdon, R. L., Colwell, R. K., and Shen, T. J. (2005). A new statistical approach for assessing similarity of species composition with incidence and abundance data, Ecology Letters, 8(2), 148-159. https://doi.org/10.1111/j.1461-0248.2004.00707.xDOI
7 
Colwell, R. K. and Coddington, J. A. (1994). Estimating terrestrial biodiversity through extrapolation, Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, 345(1311), 101-118. https://doi.org/10.1098/rstb.1994.00911949DOI
8 
Diaz, R. J. and Rosenberg, R. (1995). Marine benthic hypoxia: a review of its ecological effects and the behavioural responses of benthic macrofauna, Oceanography and marine biology. An annual review, 33(245), 03.Google Search
9 
Elliott, J. M. and Drake, C. M. (1981). A comparative study of seven grabs used for sampling benthic macroinvertebrates in rivers, Freshwater Biology, 11(2), 99-120. https://doi.org/10.1111/j.1365-2427.1981.tb01247.xDOI
10 
Flannagan, J. F. (1970). Efficiencies of various grabs and corers in sampling freshwater benthos, Journal of the Fisheries Board of Canada, 27(10), 1691-1700. https://doi.org/10.1139/f70-191DOI
11 
Ghani, W. M. H. W. A., Rawi, C. S. M., Abd Hamid, S., and Al-Shami, S. A. (2016). Efficiency of different sampling tools for aquatic macroinvertebrate collections in Malaysian streams, Tropical Life Sciences Research, 27(1), 115-127.Google Search
12 
Gotelli, N. J. and Colwell, R. K (2001). Quantifying biodiversity: Procedures and pitfalls in the measurement and comparison of species richness, Ecology Letters, 4(4), 379-391. https://doi.org/10.1046/j.1461-0248.2001.00230.xDOI
13 
Growns, I. O. (1990). Efficiency estimates of a stream benthos suction sampler, Marine and Freshwater Research, 41(5), 621-626. https://doi.org/10.1071/MF9900621DOI
14 
Gutiérrez, D., Gallardo, V. A., Mayor, S., Neira, C., Vásquez, C., Sellanes, J., Rivas, M., Soto, A., Carrasco, F. D., and Baltazar, M. (2000). Effects of dissolved oxygen and fresh organic matter on the bioturbation potential of macrofauna in sublittoral sediments off Central Chile during the 1997/1998 El Niño, Marine Ecology Progress Series, 202, 81–99. https://doi.org/10.3354/meps202081DOI
15 
International Organization for Standardization (IOS). (1985). Water quality—Methods of biological sampling; Guidance on hand-net sampling of aquatic benthic macro-invertebrates (ISO 7828:1985), Geneva, Switzerland: ISO.Google Search
16 
Kawai, T. and Tanida, K. (2005). Aquatic insects of Japan: Manual with keys and illustrations, Tokai University, Kanagawa, Japan, 1-1342.Google Search
17 
Kim, A. R., Oh, M. W., and Kong, D. S. (2013). The influence of sample size on environment assessment using benthic macroinvertebrates, Journal of Korean Society on Water Environment, 29(6), 790-798. [Korean Literature]Google Search
18 
Kim, P. J., Kim, A. R., Kwon, Y. J., Min, J. K., Huh, I. A., and Kong, D. S. (2018). Comparative study on the sampling methods of benthic macroinvertebrates in the fine sediments of freshwater, Journal of Korean Society on Water Environment, 34(1), 84-95. [Korean Literature]DOI
19 
Klimaszyk, P. and Heymann, D. (2010). Vertical distribution of benthic macroinvertebrates in a meromictic lake (Lake Czarne, Drawieński National Park), Oceanological and Hydrobiological Studies, 39(4), 99-106.Google Search
20 
Kong, D. S. and Kim, A. R. (2015a). Analysis on the relationship between number of species and survey area of benthic macroinvertebrates using Weibull distribution function, Journal of Korean Society on Water Environment, 31(2), 142-150. [Korean Literature]Google Search
21 
Kong, D. S. and Kim, A. R. (2015b). Analysis on the relationship between biological indices and survey area of benthic macroinvertebrates using mathematical model, Journal of Korean Society on Water Environment, 31(6), 610-618. [Korean Literature]DOI
22 
Kornijów, R., Pawlikowski, K., Błędzki, L. A., Drgas, A., Piwosz, K., Ameryk, A., and Całkiewicz, J. (2021). Co-occurrence and potential resource partitioning between oligochaetes and chironomid larvae in a sediment depth gradient, Aquatic Sciences, 83(3), 51. https://doi.org/10.1007/s00027-021-00800-zDOI
23 
Kwak, I. S. (2015). Introduction to the Chironomidae as a water pollution indicator, Chonnam National University Press, 13–156. [Korean Literature]Google Search
24 
Lazorchak, J. M., Klemm, D. J., Peck, D. V., and Branch, R. E. (1998). Field operations and methods for measuring the ecological condition of wadeable streams, EP Agency, Editor, US EPA, 270.Google Search
25 
Lewis, F. G. and Stoner, A. W. (1981). An examination of methods for sampling macrobenthos in seagrass meadows, Bulletin of Marine Science, 31(1), 116-124.Google Search
26 
Loke, L. H., Clews, E., Low, E. W., Belle, C. C., Todd, P. A., Eikaas, H. S., and Ng, P. K. (2010). Methods for sampling benthic macroinvertebrates in tropical lentic systems, Aquatic Biology, 10, 119-130. https://doi.org/10.3354/ab00274DOI
27 
Magurran, A. E. (2004). Measuring biological diversity, Blackwell Publishing.Google Search
28 
Margalef, R. (1958). Information theory in ecology, General Systems, 3, 36–71.Google Search
29 
Matisoff, G., Wang, X., and McCall, P. L. (1999). Biological redistribution of lake sediments by tubificid oligochaetes: Branchiura sowerbyi and Limnodrilus hoffmeisteri/Tubifex tubifex, Journal of Great Lakes Research, 25(1), 205-219. https://doi.org/10.1016/S0380-1330(99)70729-XDOI
30 
McNaughton, S. J. (1967). Relationships among functional properties of Californian grassland, Nature, 216(5111), 168-169. https://doi.org/10.1038/216168b0DOI
31 
Merritt, R. W. and Cummins, K. W. (2008). An introduction to the aquatic insects of North America (4th ed.), Kendall/Hunt Publishing Company, Dubuque, Iowa.Google Search
32 
Milbrink, G. (1973). On the vertical distribution of oligochaetes in lake sediments, Report of the Institute of Freshwater Research Drottningholm, 53, 34-50.Google Search
33 
Misteli, B., Pannard, A., Labat, F., Fosso, L. K., Baso, N. C., Harpenslager, S. F., Motitsoe, S. N., Thiebaut, G., and Piscart, C. (2022). How invasive macrophytes affect macroinvertebrate assemblages and sampling efficiency: Results from a multinational survey, Limnologica, 96, 125998.DOI
34 
O’Callaghan, I., Fitzpatrick, D., and Sullivan, T. (2022). Thiophilicity is a determinant of bioaccumulation in benthic fauna, Environmental Pollution, 294, 118641. https://doi.org/10.1016/j.envpol.2021.118641DOI
35 
Park, H. J., Timm, T., and Bae, Y. J. (2013). Taxonomy of the Korean freshwater oligochaeta (Annelida) with eight species new to Korea, Entomological Research Bulletin, 29(2), 180-188.Google Search
36 
Peckarsky, B. L., Fraissinet, P. R., Penton, M. A., and Conklin Jr., D. J. (1990). Freshwater macroinvertebrates of Northeastern North America, Cornell University Press, Ithaca and London.Google Search
37 
Pfannkuche, O. (1980). Distribution and abundance of Tubificidae and Naididae (Oligochaeta) in a brackish-water fjord, with special reference to the α-mesohaline zone, Netherlands Journal of Sea Research, 14(1), 78-93. https://doi.org/10.1016/0077-7579(80)90014-9DOI
38 
Pielou, E. C. (1975). Ecological diversity, Wiley-Interscience, 165.Google Search
39 
Poznańska, M., Kobak, J., Wolnomiejski, N., and Kakareko, T. (2009). Shallow-water benthic macroinvertebrate community of the limnic part of a lowland Polish dam reservoir, Limnologica, 39(2), 163–176. https://doi.org/10.1016/j.limno.2008.10.001DOI
40 
Reynoldson, T. B., Norris, R. H., Resh, V. H., Day, K. E., and Rosenberg, D. M. (1997). The reference condition: A comparison of multimetric and multivariate approaches to assess water-quality impairment using benthic macroinvertebrates, Journal of the North American Benthological Society, 16(4), 833-852. https://doi.org/10.2307/1468175DOI
41 
Schlacher, T. A. and Wooldridge, T. H. (1996). How sieve mesh size affects sample estimates of estuarine benthic macrofauna, Journal of Experimental Marine Biology and Ecology, 201(1–2), 159-171. https://doi.org/10.1016/0022-0981(95)00198-0DOI
42 
Shannon, C. E. and Weaver, W. (1949). The mathematical theory of communication, University of Illinois Press, Urbana.Google Search
43 
Syomin, V. L., Zimina, O. L., Krylov, A. A., Nekhaev, I. O., Bogin, V. A., and Zakharov, V. Y. (2024). Vertical distribution patterns of macrofauna in the sediments of the Arctic cross-shelf trough and adjacent shelf: Similarities and differences from lower latitudes, Deep Sea Research Part I: Oceanographic Research Papers, 208, 104315. https://doi.org/10.1016/j.dsr.2024.104315DOI
44 
Tanaka, M. O. and Leite, F. P. P. (1998). The effect of sieve mesh size on the abundance and composition of macrophyte-associated macrofaunal assemblages, Hydrobiologia, 389(1), 21-28. https://doi.org/10.1023/A:1003589404593DOI
45 
Timm, T. (2009). Key to the freshwater oligochaetes of the northern and central Europe, Estonian University of Life Sciences.Google Search
46 
Tolonen, K. T. and Hämäläinen, H. (2010). Comparison of sampling methods and habitat types for detecting impacts on lake littoral macroinvertebrate assemblages along a gradient of human disturbance, Fundamental and Applied Limnology, 176(1), 43–55.Google Search
47 
Ulrich, W., Nakadai, R., Matthews, T. J., and Kubota, Y. (2018). The two-parameter Weibull distribution as a universal tool to model the variation in species relative abundances, Ecological Complexity, 36, 110-116. https://doi.org/10.1016/j.ecocom.2018.07.002DOI
48 
van der Lee, G. H., Kraak, M. H., Verdonschot, R. C., Vonk, J. A., and Verdonschot, P. F. (2017). Oxygen drives benthic–pelagic decomposition pathways in shallow wetlands, Scientific Reports, 7(1), 15051. https://doi.org/10.1038/s41598-017-15432-3DOI
49 
Weibull, W. (1951). A statistical distribution function of wide applicability, Journal of Applied Mechanics, 18(3), 293-297. https://doi.org/10.1115/1.4010337DOI
50 
Weigelhofer, G. and Waringer, J. (2003). Vertical distribution of benthic macroinvertebrates in riffles versus deep runs with differing contents of fine sediments (Weidlingbach, Austria), International Review of Hydrobiology, 88(3–4), 304-313. https://doi.org/10.1002/iroh.200390027DOI
51 
Wentworth, C. K. (1922). A scale of grade and class terms for clastic sediments, Journal of Geology, 30(5), 377–392. https://doi.org/10.1086/622910DOI
52 
Yoon, I. B. and Kim, K. H. (1988). Illustrated encyclopedia of fauna and flora of Korea, Vol. 30: Aquatic insects, A State Textbook, Seoul, 840. [Korean Literature]Google Search
뒤로가기