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http://dx.doi.org/10.13047/KJEE.2019.33.1.16

Proposition of Dragonfly's Appropriate Survey Period Inhabited in Temperate Zone  

Lee, Soo-Dong (Dept. of Landscape Architecture, Gyeongnam National University of Science and Technology)
Publication Information
Korean Journal of Environment and Ecology / v.33, no.1, 2019 , pp. 16-27 More about this Journal
Abstract
This study was identified the survey period and emergence of main species of dragonfly species, an indicator species that can identify the characteristics of wetland ecosystem. I surveyed the species and population of dragonflies once every two weeks from May 2015 to October 2016(29 times). From January to March, November and December were excluded from the cluster classification because the dragonflies were not observed. In April and October, the species was emerged but it was not suitable because it could not represent the time of the seasons. When we divide by month, it was able to judge from April to June as spring. Except the May, there were some changes due to rainfall and temperature, and sometimes June was included in the summer season. June, July and August correspond to summer, and September and October fall in Autumn. In June and October, the change was expected due to the effects of temperature and so it was judged as a partial fit. Looking at the change of the species, Coenagrion johansson and Paracercion calamorum were increase at the spring, and then Crocothemis servilia mariannae, Paracercion calamorum, Anax nigrofasciatus, Lyriothemis pachygastra, Orthetrum melania were abruptly enlarge in summer. At last, Sympetrum kunckeli, Lestes temporaris tended to be higher in Autumn.
Keywords
WETLAND DEPENDENT SPECIES; INDACTOR SPECIES; WETLAND;
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1 Chen, I.C., J.K. Hill, R. Ohlemuller, D.B. Roy and C.D. Thomas(2011) Rapid Range Shifts of Species Associated with High Levels of Climate Warming. Science 333: 1024-1026.   DOI
2 Clark, T.E. and M.J. Samways(1996) Dragonflies(Odonata) as indicators of biotope quality in the Kruger National Park, South Africa. Journal of Applied Ecology 33(5): 1001-1012.   DOI
3 Curtis, J.T. and R.P. McIntosh(1951). An Upland Forest Continuum in the Prairie-Forest Border Region of Wisconsin. Ecology 31: 476-496.   DOI
4 Dunn, E.H., J. Bart, B.T. Collins, B. Craig, B. Dale, C.M. Downes, C.M. Francis, S. Woodley and P. Zorn(2006) Monitoring bird populations in small geographic areas. Special publication Canadian Wildlife Service, Ottawa.
5 Forister, M.L. and A.M. Shapiro(2003) Climatic trends and advancing spring flight of butterflies in lowland California. Glob. Change Biol. 9: 1130-1135.   DOI
6 Gaston, K.J. and J.H. Lawton(1988) Patterns in the distribution and abundance of insect populations. Nature 331: 709-712.   DOI
7 Harrington, R., I. Woiwood and T.H. Sparks(1999) Climate change and trophic interactions. Trends in Ecol. Evol. 14: 146-150.   DOI
8 Ibanz, I., R.B. Primack, A.J. Miller-Rushing, E. Ellwood, H. Higuchi, S.D. Lee, H. Kobori and J.A. Silander(2010) Forecasting phenology under global warming. Phil. Trans. R. Soc. B 365: 3247-3260.   DOI
9 Jung, K.S.(2007) Odonata of Korea. Ilgongyouksa, Seoul.
10 Kim, D.S., D.S. Park, H.S. Oh, D.H. Kim and J.C. Jeong(2013) Butterfly Community Monitoring on Wolchulsan National Park in Korea. Korean J. Environ. Ecol. 27(2): 196-203.
11 New Mexico Department of Game and Fish(2010) Baseline wildlife study guideline.
12 Lawton, J.H., D.E. Bignell, B. Bolton, G.F. Bloemers, P. Eggleton, P.M. Hammond, M. Hodda, R.D. Holt, T. B. Larsen, N.A. Mawdsley, N.E. Stork, D.S. Srivastava and A.D. Watt(1998) Biodiversity inventories, indicator taxa and effects of habitat modification in tropical forests. Nature 391: 72-75.   DOI
13 Lim, H.M., Y.H. Cho, Y.J. Park, Y.G. Han and S.H. Nam(2013) A Comparative Study ofInsect Community at Streamside zones at the Daejeon and Yudeung Streams. Korean J. Environ. Ecol. 27(1): 30-51.
14 Loarie, S.R., P.B. Duffy, H. Hamilton, G.P. Asner, C.B. Field and D.D. Ackerly(2009) The velocity of climate change. Nature 462: 1052-1055.   DOI
15 Marica, P.P., C.M. Francis, R.S. Mulvihill and F.R. Moore(2005) The influence of climate on the timing and rate of spring bird migration. Oecologia 142: 307-315.   DOI
16 McCallum, D.A.(2005) A conceptual guide to detection probability for point counts and other count-based survey methods. USDA Forest Service Gen. Tech. Rep. PSW-GTR-191.754-761.
17 Nichols, J.D.(1992) Capture-recapture models: Using marked animals to study population dynamics. BioScience 42(2): 94-102.   DOI
18 Oppel, S.(2005) Habitat associations of an Odonata community in a lower montane rainforest in Papua New Guinea. International Journal of Odonatology 8(2): 243-257.   DOI
19 Parmesan, C.(2006) Ecological and Evolutionary Responses to Recent Climate Change. Annu. Rev. Ecol. Evol. Syst. 37:637-669.   DOI
20 Pritchard, G.(1991) Insects in thermal springs. Mem. Entomol. Soc. Can. 155: 89-106.   DOI
21 Root, T.L., J.T. Price, K.R. Hall, S.H. Schneider, C. Rosenzweigk and J.A. Pounds(2003) Fingerprints of global warming on wild animals and plants. Nature 421: 57-60.   DOI
22 Roy, D.B. and T.H. Sparks(2000) Phenology of British butterflies and climate change. Glob. Change Biol. 6: 407-416.   DOI
23 Schowalter, T.D.(2006) Insect ecology: An ecosystem approach. MA, USA, Elsevier.
24 Stefanescu, C., J. Penuelas and I. Filella(2003) Effects of climatic change on the phenology of butterflies in the northwest Mediterranean Basin. Glob. Change Biol. 9: 1494.   DOI
25 Lutz, P.E. and A.R. Pittman(1970) Some Ecological Factors Influencing a Community of Adult Odonata. Ecology 51(2): 279-284   DOI
26 Weller, M.W.(1999) Wetland birds-Habitat resources and conservation implications. Cambridge university press. Cambridge, UK.
27 Svensson, S.E.(1978) Efficiency of two methods for monitoring bird population levels: breeding bird census contra counts of migrating birds. OIKOS 30: 373-386.   DOI
28 Triplehorn, C.A. and N.F. Johnson(2005) Borror and Delong's introduction to the study of insects. Belmont, CA, Thomson Brooks/Cole.
29 Ubukata, H. and Y. Kurauchi(2007) Assessment of lake environment using dragonfly assemblage: A case study at Lake Takkobu, Kushiro Marsh, northern Japan. Japanese Journal of Limnology 68: 131-144.   DOI
30 Weller, F.(2012) A comparion of different approaches to monitoring bird density on New Zealand sheep and beef farms. New Zealand Journal of Ecology 36(3): 1-9.
31 Wiensczyk, A., D. Gayton, T. Redding, J. Leach, K. Swift, S. Ran, A. Krishnaswamy, E. Simmons, L. Joseph, P.L. Almuedo and D. Cuzner(2012) Climate-induced changes to natural disturbance regimes and management responses in British Columbia: Impacts on natural and human systems. FORREX Forum for Research and Extension in Natural Resources, Kamloops, B.C. FORREX Series 28. URL: http://www.forrex.org/sites/default/files/forrex_series/FS28-Chapter-1-Introduction.pdf
32 Yang, L.H. and V.H.W. Rudolf(2009) Phenology, ontogeny and the effects of climate change on the timing of species interactions. Ecology Letters 12: 1-10.   DOI
33 Brower, J.E., J.H. Zar and C.N. von Ende(1998) Field and laboratory methods for general ecology. WCB/McGraw Hill. Boston, U.S.
34 Bae, S.H. and S.D. Lee(2018) Construction and Management Plan of Constructed Wetland for Promoting Biodiversity. J. People Plants Environ. 21(3): 185-202.   DOI
35 Beaumont, L.J., I.A.W. McAllan and L. Hughes(2006) A matter of timing: changes in the first date of arrival and last date of departure Australian migratory birds. Global Change Biology 12: 1339-1354.   DOI