바로가기메뉴

본문 바로가기 주메뉴 바로가기

ACOMS+ 및 학술지 리포지터리 설명회

  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

logo

  • ENGLISH
  • P-ISSN2287-8327
  • E-ISSN2288-1220
  • SCOPUS, KCI

Changes in Benthic Macroinvertebrate Communities in Response to Natural Disturbances in a Stream

Journal of Ecology and Environment / Journal of Ecology and Environment, (P)2287-8327; (E)2288-1220
2009, v.32 no.3, pp.197-206
배미정 (경희대학교)
박영석 (경희대학교)

Abstract

Benthic macroinvertebrate communities were collected from six different sites in the Dobong Stream in Seoul, Korea to investigate spatial and temporal changes in benthic macroinvertebrate communities in response to natural isturbances such as floods and droughts. We collected samples monthly or semimonthly with a Surber net (30 cm × 30 cm), and measured environmental factors, including stream temperature, discharge, width, conductivity, dissolved oxygen and pH at each sampling site. Benthic macroinvertebrates were strongly affected by floods as well as droughts. In addition, benthic macroinvertebrate communities displayed different responses to the onset of the rainy season in summer 2006 and 2007, apparently due to differences in the inten-sity and amount of precipitation. Chironomids were particularly sensitive to heavy rain. Floods and droughts also affected the proportions of functional feeding groups during the survey period: the proportion of scrapers was high right after heavy rains, while the proportion of predators tended to increase in intermittent-type streams as the riffle zone decreased. Finally, although species richness and abundance were strongly influenced by heavy rain, they recovered to background levels for within one month, and varied consistently among stream types, indicating habitat stability.

keywords
Benthic macroinvertebrates, Community, Disturbance, Functional feeding groups, Heavy rain, Stream, Benthic macroinvertebrates, Community, Disturbance, Functional feeding groups, Heavy rain, Stream

참고문헌

1.

APHA, AWWA, WPCF. 1985. Standard Methods for the Examination of Water and Waste, 16th ed. Washington D.C.

2.

Bae MJ, Kwon YS, Hwang SJ, Park YS. 2008. Comparison of four different ordination methods for patterning water quality of agricultural reservoirs. Korean J Limnol 41 (Special issue): 1-10.

3.

Bae MJ, Park YS. 2008. Characterizing ecological exergy as an ecosystem indicator in streams using a self-organizing map. Korean J Env Biol 26: 202-213.

4.

Batzer DP, Palik BJ, Buech R. 2004. Relationships between environmental characteristics and macroinvertebrate communities in seasonal woodland ponds of Minnesota. J N Am Benthol Soc 23: 50-68.

5.

Borg I, Groenen P. 1997. Modern Multidimensional Scaling: Theory and applications. Springer, New York.

6.

Brasher AMD. 2003. Impacts of human disturbances on biotic communities in Hawaiian streams. Bioscience 53: 1052-1060.

7.

Brigham AR, Brigham WU, Gnilka A. 1982. Aquatic Insects and Oligochaetes of North and South Carolina. Midwest Aquatic Enterprise, Mahomet, Ill.

8.

Brinkhurst RO, Jamieson BGM. 1971. Aquatic Oligochaeta of the World. Oliver and Body, Edinburgh.

9.

Brinkhurst RO. 1986. Guide to the freshwater aquatic microdrile Oligochaetes of North America. Can Spec Publ Fish Aquat Sci 84: 259 pp.

10.

Cazaubon A, Giudicelli J. 1999. Impact of the residual flow on the physical characteristics and benthic community (algae, invertebrates) of a regulated Mediterranean river: the Durance, France. Reg Riv Res Manag 15: 441-461.

11.

Changnon SA. 1987. Detecting drought conditions in Illinois. Ill St Wat Sur Cir 169: 1-36.

12.

Cowx IG, Young WO, Hellawell JM. 1984. The influence of drought on the fish and invertebrate populations of an upland stream in Wales. Freshw Biol 14: 165-177.

13.

Cox TF, Cox MAA. 2001. Multidimensional Scaling. Chapman and Hall/CRC, Boca Raton.

14.

Dahm CN, Baker MA, Moore DI, Thilbault JR. 2003. Coupled biogeochemical and hydrological responses of streams and rivers to drought. Freshw Biol 48: 1219-1232.

15.

Daniel CL, Scott AR. 2007. Abiotic and biotic factors explain independent gradients of plant community composition in ponderosa pine forests. Ecol Model 205: 231-240.

16.

Gjerlov C, Hildrew AG, Jones JI. 2003 Mobility of stream invertebrates in relation to disturbance and refugia: a test of habitat template theory. J N Am Benth Soc 22: 207-223.

17.

Gore JA. 1977. Reservoir manipulations and benthic macroinvertebrates in a prairie river. Hydrobiologia 55: 113-123.

18.

Grigg NS. 1996. Water Resources Management. Principles, Regulations, and Cases. McGraw Hill, New York.

19.

Hart DD, Clark BD, Jasentuliyana A. 1996. Finescale field measurement of benthic flow environments inhabited by stream invertebrates. Limnol Oceanogr 41: 297-308.

20.

Holomuzki JR, Biggs BJF. 1999. Distributional responses to flow disturbance by a stream-dwelling snaile. Oikos 87: 36-47.

21.

Holomuzki JR, Biggs BJF. 2000. Taxon-specific responses to high-flow disturbance in streams: implications for population persistence. J N Am Benthol Soc 19: 670-679.

22.

Imbert JB, Gonzalez JM, Basaguren A, Pozo J. 2005. Influence of inorganic substrata size, leaf litter and woody debris removal on benthic invertebrates resistance to floods in two contrasting headwater streams. Internet Rev Hydrobiol 90(1): 51-70.

23.

Kinzie RAI, Chong C, Deverll J, Lindstrom D, Wolf R. 2006. Effects of water removal on a Hawaiian stream ecosystem. Pacific Sci 60: 1-47.

24.

Kruskal JB. 1964. Multidimensional scaling by optimizing goodness of fit to a nonmetric hypothesis. Psychometrika 29: 1-27.

25.

Kwak IS, Song MY, Chon TS. 2004. The effects of natural disturbances on benthic macroinvertebratre. Korean J Limnol 37: 87- 95.

26.

Lake PS. 2000 Disturbance, patchiness, and diversity in streams. J N Am Benth Soc 19: 573-592.

27.

Lake PS. 2003 Ecological effects of perturbation by drought in flowing waters. Freshw Biol 48: 1161-1172.

28.

Lee HG. 2008. Effects of floods on aquatic insect communities in a Korean Stream. Ph.D. Thesis, Seoul Women's University, Seoul.

29.

Mahecha MD, Martínez A, Lischeida G, Beckc E. 2007 Nonlinear dimensionality reduction: Alternative ordination approaches for extracting and visualizing biodiversity patterns in tropical montane forest vegetation data. Ecol Infor 2: 138-149.

30.

Merritt RW, Cummins KW. 2006. An Introduction to the Aquatic Insects of North America. Hunt Publishing Company, Dubugue.

31.

Nhiwatiwa T, Bie TD, Vervaeke B, Barson M, Stevens M, Vanhove MPM, Brendonck L. 2009. Invertebrate communities in dry-season pools of a large subtropical river: patterns and processes. Hydrobiologia 630:169-186.

32.

Pennak RW. 1978. Freshwater Invertebrates of the United States. John Wieley and Sons, Inc., New York.

33.

Power ME, Stount RJ, Cushing CE, Harper PP, Hauer FR, Matthews WJ, Moyle PB, Statzner B, De Badgen IRW. 1988. Biotic and abiotic controls in river and stream communities. J N Am Benth Soc 7: 456-479.

34.

Quigley M. 1977. Invertebrates of Streams and Rivers: a Key to Identification. Edward Arnold Ltd. London.

35.

Resh VH, Brown AV, Covich AP, Gurtz ME, Li HW, Minshall GW, Reice SR, Sheldon AL, Wallace JB, Wissmar R. 1988. The role of disturbance in stream ecology. J N Am Benth Soc 7: 433-455.

36.

Shepard RN. 1962. The analysis of proximities: multidimensional scaling with an unknown distance function. II. Psychometrika 27: 219-246.

37.

Stanley EH, Fisher NB, Grimm NB. 1997. Ecosystem expansion and contraction in streams desert streams vary in both space and time and fluctuate dramatically in size. Bioscience 47: 427-435.

38.

StatSoft Inc. 2004. STATSTICA (data analysis software system), version 7. www.statsoft.com.

39.

Suren AM, Jowett IG. 2006. Effects of floods versus low flows on invertebrates in a New Zealand gravel-bed river. Freshw Biol 51: 2207-2227.

40.

Ward JV. 1992. Aquatic Insect Ecology. Part 1. Biology and Habitat. John Wiley and Sons, Inc, New York.

41.

Wiederholm T. (ed) 1983. Chironomidae of the Holarctic region: Keys and Diagnoses. Part 1 - Larvae. Entomol Scand Suppl 19: 1-457.

42.

Wright JF, Berrie AD. 1987. Ecological effects of groundwater pumping and a natural drought on the upper reaches of a chalk stream. Reg Riv Res Manag 1: 145-160.

43.

Yoon IB. 1988. Illustrated Encyclopedia of Fauna and Flora of Korea. Aquatic Insects, vol. 30. Ministry of Education, Seoul.

44.

Zar JH. 1999. Biostatistical Analysis. Fourth Edition. Prentice-Hall, Englewood Cliffs, New Jersey.

Journal of Ecology and Environment