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http://dx.doi.org/10.5322/JESI.2013.22.12.1633

Correlation Analysis between Phenology of Salix spp. and Meteorological Factors  

Kim, Seong-Bo (Department of Biological Sciences, Pusan National University)
Kim, Ji Yoon (Department of Biological Sciences, Pusan National University)
Im, Ran-Young (Department of Biological Sciences, Pusan National University)
Do, Yuno (Department of Biological Sciences, Pusan National University)
Park, Hee-Sun (Department of Biological Sciences, Pusan National University)
Joo, Gea-Jae (Department of Biological Sciences, Pusan National University)
Kim, Gu-Yeon (Department of Biological Sciences, Pusan National University)
Publication Information
Journal of Environmental Science International / v.22, no.12, 2013 , pp. 1633-1641 More about this Journal
Abstract
The objective of this study was to analyze correlation between phenological characteristics of Salix spp. and meteorological factors in the Upo wetlands. Phenology of Salix subfragilis Andersson and Salix chaenomeloides Kimura was monitored from 2007 to 2012. Meteorological variables were monitored by Korea Meteorological Administration (Hap-chon). Average date of flowering, fruiting, seed dispersion was 86, 113, 136 days for S. subfragilis and 112, 140, 164 days for S. chaenomeloides as Julian days. Flowering of S. subfragilis and S. chaenomeloides were correlated with daily mean air temp. in March (r=-0.92, r=-0.85, p<0.05). Fruiting of S. subfragilis was correlated with total precipitation between Jan and March of previous year (r=-0.90, p<0.01), however, the fruiting of S. chaenomeloides was highly correlated with max. temp. in Jan of previous year (r=0.99, p<0.01). Seed dispersion of both species is correlated with min. temp. in Feb. Phenology monitoring will contribute to understanding Salix spp. response against climate change.
Keywords
Phenology; Salix spp.; Upo wetlands;
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1 Choi, C. M., Moon, S. G., 2009, Changes of flowering time in the weather flora in Busan using the time series analysis, J. Enviro. Sci., 18(4), 369-374.
2 Do, Y., Jang, M. H., Kim, D. K., Joo, G. J., 2007, Change of Carabid Beetle (Coleoptera, Carabidae) diversity and species composition after flooding events in Woopo wetlands, Korean J. Limnol., 40(2), 346-351.   과학기술학회마을
3 Doi, H., Katano, I., 2008, Phenological timings of leaf budburst with climate change in Japan, Agr. Forest Meteorol., 148(3), 512-516.   DOI   ScienceOn
4 Erwin, K. L., 2009, Wetlands and global climate change: the role of wetland restoration in a changing world, Wetl. Ecol. Manag., 17, 71-84.   DOI
5 Fitter, A. H., Fitter, R. S. R., Harris, I. T. B., Willianmson, M. H., 1995, Relationships between first flowering date and temperature in the flora of a locality in central England, Funct. Ecol., 9(1), 55-60.   DOI   ScienceOn
6 Gordo, O., Sanz, J., 2009, Long-term temporal changes of plant phenology in the Western Mediterranean, Glob. Change Biol., 15, 1930-1948.   DOI   ScienceOn
7 Han, S. J., Kim, H. W., Kim, H. R., Kim, H. J., Han, D. U., Park, S. K., You, Y. H., 2010, Net primary production, annual accumulation of organic carbon and leaf decomposition in Salix plant community, J.Wetlands Res., 12(1), 15-22.
8 Heller, N. E., Zavaleta, E. S., 2009, Biodiversity management in the face of climate change: A review of 22 years of recommendations, Biol. Conserv., 142, 14-32.   DOI   ScienceOn
9 Kim, H. J, Hong, J. K., Kim, S. C., Oh, S. H., Kim, J. H., 2011, Plant Phenology of Threatened species for Climate change in Sub-alpine zone of Korea, Korean J. Plant Res., 24(5), 549-556.   과학기술학회마을   DOI   ScienceOn
10 Kim, J. W., Ryu, S. W., Lee, J. K., Park, J. W., Lee, Y. K., Shim, J. H., Kang, Y. H., Kim, S. K., Joo, G. J., Kim, G. Y., Do, Y. H., Lee, C. W., Yoon, J. D., 2009, Stream Ecology and The Nakdong River, Keimyung University Press, Daegu.
11 Kim, J. Y., Joo, G. J., Do, Y., Kim, G. Y., Yang, B. G., Kim, M. J., Lee, C. S., 2011, Special Feature: Korea National Long-Term Ecological Research: provision against climate change and environmental pollution (Review), J. Ecol. Field Biol., 34(1), 3-10.   DOI   ScienceOn
12 Korea Meteorological Administration, 2012, http:// www.kma.go.kr
13 Ahn, K. H., 2009, Syntaxonomy and synecology of the Upo wetland, Ph.D. Dissertation, Keimyung University, Daegu.
14 Badeck, F. W., Bondeau, A., Bottcher, K., Doktor, D., Lucht, W., Schaber, J., Sitch, S., 2004, Responses of spring phenology to climate change, New Phytol., 162, 295-309.   DOI   ScienceOn
15 Korea Forest Service, 2011, Report of Conservation Project of Threatened Plants for Climate Change, 2011, Report No. 11-1400119-000146-01, Daejeon.
16 Kozlov, M. V., Berlina, G., 2002, Decline in length of the summer season on the Kola peninsula, RUSSIA, Climatic Change, 54, 387-398.   DOI   ScienceOn
17 Kuzovkina, Y. A., Quigley, M. F., 2005, Willows beyond wetlands: uses of Salix L. species for environmental projects, Water Air Soil Poll., 162, 183-204.   DOI
18 Kwon, Y. H., Choi, H. K., 2009, The impact of climate change on the ecosystem: the case of wetland plants, Korea Environment Institute, 2009(07), 1-131.
19 Lee, C. W., 2009, Spatial distribution patterns of major willow species (Salicaceae) in Upo wetland, MA Dissertation, Keimyung University, Daegu.
20 Lee, I. S., Lee, P. H., Son, S. G., Kim, C. S., Oh., K. H., 2001, Distribution and community structure of Salix species along the environmental gradients in the Nam-River watershed, Korean J. Ecol., 24(5), 289-296.   과학기술학회마을
21 Mawdsley, J. R., O'malley, R., Ohima, D. S., 2009, A Review of Climate-change adaptation strategies for wildlife management and biodiversity conservation, Conserv. Biol., 23(5), 1080-1089.   DOI   ScienceOn
22 Niiyama, K., 1990, The role of seed dispersal and seedling traits in colonization and coexistence of Salix species in a seasonally flooded habitat, Ecol. Res., 5, 317-331.   DOI   ScienceOn
23 Menzel, A., 2002, Phenology: Its importance to the global change community, Climatic Change, 54, 379-385.   DOI   ScienceOn
24 National Institute of Environmental Research, 2009, National Long-Term Ecological Research project (II) 2(1-2), Ministry of Environment, Incheon.
25 Niiyama, K., 1987, Distribution of Salicaceous species and soil texture of habitats along the Ishikari River, Jap. J.Ecol., 37, 163-174.
26 Post, E. S., Pedersen, C., Wilmers, C. C., Forchhammer, M. C., 2008, Phenological sequences reveal aggregate life history response to climatic warming, Ecology, 89(2), 363-370.   DOI   ScienceOn
27 Saska, M. M., Kuzovkina, Y. A., 2010, Phenological stages of willow (Salix), Ann. Appl. Biol., 156, 431-437.   DOI   ScienceOn
28 Saxe, H., Cannell, M. G. R., Johnsen, O., Ryan, M. G., Vourlitis, G., 2001, Tree and forest functioning in response to global warming, New Phytol., 149, 369-400.
29 Seiwa, K., Tozawa, M., Ueno, N., Kimura, M., Yamasaki, M., Maruyama, K., 2008, Roles of cottony hairs in directed seed dispersal in riparian willows, Plant Ecol., 198, 27-35.   DOI
30 Sparks, T. H., Jeffree, E. P., Jeffree, C. E., 2000, An examination of the relationship between flowering times and temperature at the national scale using long-term phonological records from the UK, Int. J. Biometeorol., 44, 82-87.   DOI   ScienceOn
31 Winter, T. C., 2000, The vulnerability of wetlands to climate change: a haydrologic landscape perspective, J. Am. Water Resour. As., 36(2), 305-311.   DOI   ScienceOn