Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
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Variations in Air Temperature and Water Temperature with Tide at the Intertidal Zone : Odo Island, Yeosu

조간대에서 조위에 따른 기온과 수온 변화 : 여수 오도섬

  • Won Gi, Jo (Institute of Environmental Geosciences, Pukyong National University) ;
  • Dong-hwan, Kang (Institute of Environmental Geosciences, Pukyong National University) ;
  • Byung-Woo, Kim (K-water Institute, Korea Water Resources Corporation)
  • 조원기 (부경대학교 지질환경연구소) ;
  • 강동환 (부경대학교 지질환경연구소) ;
  • 김병우 (한국수자원공사 K-water)
  • Received : 2022.10.06
  • Accepted : 2022.12.05
  • Published : 2022.12.31
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Abstract

The intertidal zone has both land and marine characteristics and shows complex weather environments. These characteristics are suited for studying climate change, energy balance and ecosystems, and may play an important role in coastal and marine weather prediction and analysis. This study was conducted at Odo Island, approximately 300m from the mainland in Yeosu. We built a weather observation system capable of real-time monitoring on the mud flat in the intertidal zone and measured actual weather and marine data. Weather observation was conducted from April to June 2022. The results showed changes in air temperature and water temperature with changes in the tide level during spring. Correlation analysis revealed characteristic changes in air temperature and water temperature during the day and night, and with inundation and exposure.

Keywords

Acknowledgement

본 논문은 "기상청 「기상관측장비 핵심기술 및 관측자료 활용기법 개발』(KMI2021-074010)" 및 "2020년도 정부(교육부)의 재원으로 한국연구재단의 지원을 받아 수행된 기초연구사업(2020R1I1A1A01073860)"의 지원을 받아 수행되었습니다.

References

  1. Ahn, J. B., Kim, H. J., 2010, Characteristics of monsoon climate in the Korean Peninsula, Clim. Pred., 5, 91-99.
  2. Ahn, J. B., Lee, H. S., 1998, Development of oceanic general circulation model for climate change prediction, J. Korean Soc. Oceanogr., 3, 16-24.
  3. An, H. Y., Jeong, J. H., Kim, Y. K., 2021, Impacts of tidal effects on fog events in the western coast of Korea, J. Environ. Sci. Int., 30, 925-936. https://doi.org/10.5322/JESI.2021.30.11.925
  4. An, H. Y., Kim, Y. K., Jeong, J. H., 2017, Impacts of land cover change of tidal flats on local meteorology in Gyeongi bay, West Sea of Korea, Atmos., 27, 399-409. https://doi.org/10.14191/Atmos.2017.27.4.399
  5. Asselman, M. E. M., Middelkoop, H., Dijk, P. M., 2003, The impact of changes in climate and land use on soil erosion, transport and deposition of suspended sediment in the River Rhine, Hydrol. Proc., 17, 3225-3244. https://doi.org/10.1002/hyp.1384
  6. Befus, K. M., Cardenas, M. B., Erler, D. V., Santos, I. R., Eyre, B. D., 2013, Heat transport dynamics at a sandy intertidal zone, Water Resour. Res., 49, 3770-3786. https://doi.org/10.1002/wrcr.20325
  7. Bigg, G. R., Jickells, T. D., Liss, P. S., Osborn, T. J., 2003, The role of the oceans in climate, Int. J. Climatol., 23, 1127-1159. https://doi.org/10.1002/joc.926
  8. Cho, H. Y., Lee, K. H., Cho, K. J., Kim, J. S., 2007, Correlation and hysteresis analysis between air and water temperatures in the coastal zone-Masan Bay, J. Korean Soc. Coast. Ocean Eng., 19, 213-221.
  9. Choi, J. M., Woo, H. J., Lee, Y. G., 2007, Suspended sediments influx and variation of surface sediments composition in semi-enclosed bay - Spring season in Yeoja Bay, south coast of Korea -, J. Korean Soc. Marine Environ. Eng., 10, 1-12.
  10. Choo, H. S., Lee, K. H., 1993, Sea-air energy exchange in Yosu coastal sea, Bulletin of the Fisheries Science Institute Chonnam National University, 2, 1-13.
  11. Choo, H. S., 1993, The relationship of fluctuations of sea surface temperature and wind speed on the Southern Coast of Korea, Bulletin of the Fisheries Science Institute Chonnam National University, 2, 14-24.
  12. Firth, L. B., Knights, A. M., Bell, S. S., 2011, Air temperature and winter mortality Implications for the persistence of the invasive mussel, Perna viridis in the intertidal zone of the south-eastern United States, J. Exp. Marine biol. Ecol., 400, 250-256. https://doi.org/10.1016/j.jembe.2011.02.007
  13. Geng, X., Boufadel, M. C., Jackson, N. L., 2016, Evidence of salt accumulation in beach intertidal zone due to evaporation, Sci. Rep., 6, 1-5. https://doi.org/10.1038/s41598-016-0001-8
  14. Ishida, K. Tsujimoto, G., Ercan, A., Tu, T., Kiyama, M., Amagasaki, M., 2020, Hourly-scale coastal sea level modeling in a changing climate using long short-term memory neural network, Sci. Total Environ., 720, 137613.
  15. Jabir, A. A., Hasan, G. J., Anam, M. M., 2021, Correlation between temperature, sea level rise and land loss: An assessment along the Sundarbans coast, J. King Saud University-Eng. Sci., 10.1016/j.jksues.2021.07.012.
  16. Jang, C. I., Jeong, D. W., Kim, D. S., 2018, A Study on the distribution of summer water temperature in Wando using time-series analysis and numerical experiments, J. Korean Soc. Marine Envion. Safety, 24, 188-195. https://doi.org/10.7837/kosomes.2018.24.2.188
  17. Jang, C. I., Kim, D. S., 2018, Fluctuation characteristics of seawater temperature identified by time series analysis off the southern coast of Korea, J. Korean Soc. Marine Envion. Safety, 23, 893-901. https://doi.org/10.7837/kosomes.2017.23.7.893
  18. Jo, W. G., Kang, D. H., Lee, D. H., 2022, Weather observation system building in the intertidal zone, J. Environ. Sci. Int., 31, 357-363. https://doi.org/10.5322/JESI.2022.31.4.357
  19. Jung, J. A., 2016, A Numerical study using coupled model on cold water region and fog occurrence over the Southwest Coast of the Korean Peninsula. Ph. M. Dissertation, Pusan National University, Pusan, Republic of Korea.
  20. Jung, S., Kim, Y. J., Park, S., Im, J., 2020, Prediction of Sea surface temperature and detection of ocean heat wave in the South Sea of Korea using time-series deep-learning approaches, Korean J. Remote Sens., 36, 1077-1093. https://doi.org/10.7780/KJRS.2020.36.5.3.7
  21. Khafid, M. A., Wicaksono, A. P., Saputra, D. R., Andita, F. W., Wibowo, D. S., 2019, Geospatial modeling analysis of potential inundation impact of sea level rise: A case study of south coast Yogyakarta, IOP Conference Series: Mat. Sci. Eng., 830, 032075.
  22. Kim, H. G., Kang, Y. H., 2012, The 2010 wind resource map of the Korean Peninsular, J. Wind Eng. Inst. Korea, 16, 167-172.
  23. Kim, H. Y., Seo, K. S., Cho, C. B., Kim, H. D., 2016, Seasonal variation of the surface heat budget in the Gumi reservoir of Nakdong River, J. Environ. Sci. Int., 25, 1057-1063. https://doi.org/10.5322/JESI.2016.25.8.1057
  24. Kim, S. O., Yun, J. I., Chung, U., Hwang, K. H., 2010, A Geospatial evaluation of potential sea effects on observed air temperature, Korean J. Agric. Forest Meteorol., 12, 217-224. https://doi.org/10.5532/KJAFM.2010.12.4.217
  25. Kirby, R. R., Beaugrand, G., Lindley, J. A., 2009, Synergistic effects of climate and fishing in a marine ecosystem, Ecosyst., 12, 548-561. https://doi.org/10.1007/s10021-009-9241-9
  26. Kuklinski, P., Balazy, P., 2014, Scale of temperature variability in the maritime Antarctic intertidal zone, J. Sea Res., 85, 542-546. https://doi.org/10.1016/j.seares.2013.09.002
  27. Lee, H. W., Park, S. Y., Lee, S. H., Leem, H. H., 2009, Characteristics of ozone advection in vertical observation analysis around complex coastral area, J. Korean Soc. Atmos. Environ., 25, 57-74. https://doi.org/10.5572/KOSAE.2009.25.1.057
  28. Lee, M. E., Lee, J., Al-Osairi, Y., 2019, Study on the local sea water temperature variation for the industrial water use of Al-Zour coastal area in Kuwait, Desalination and Water Treatment, 176, 9-17. https://doi.org/10.5004/dwt.2020.25488
  29. Lee, M. O., Kim, J. K., Kim, B. K., 2020, Marine environmental characteristics of Yeoja Bay, Korea - A review on a basis of previous studies -, J. Korean Soc. Marine Environ. Energy, 23, 233-245. https://doi.org/10.7846/JKOSMEE.2020.23.4.233
  30. Lee, S. Y., Oh, J. H., Choi, C. I., Suh, Y. B., Mukai, H., 2005, Leaf growth and population dynamics of intertidal Zostera japonica on the western coast of Korea, Aquat. Bot., 83, 263-280. https://doi.org/10.1016/j.aquabot.2005.07.004
  31. Lee, Y. H., Ahn, K. D., Lee, Y. H., 2016, Parametrization of the tidal effect for use in the Noah land-surface model: Development and validation, Bound-Layer Meteorol., 161, 561-574.
  32. Li, Y., Wang, D., Chen, Z., Chen, J., Hu, H., Wang, R., 2021, Methane emissions during the tide cycle of a Yangtze estuary salt marsh, Atmos., 12, 245.
  33. Lionis, A., Chaskakis, G., Cohn, K., Blau, J., Peppas, K., Nistazakis, H. E., Tsigopoulos, A., 2022, Optical turbulence measurements and modeling over Monterey Bay, Opt. Commun., 520, 128508.
  34. Magni, P., Montani, S., 2000, Water chemistry variability in the lower intertidal zone of an estuary in the Seto Inland Sea, Japan: Seasonal patterns of nutrients and particulate compounds, Hydrobiol. 432, 9-23. https://doi.org/10.1023/A:1004064917794
  35. Moon, S. E., Rho, C. S., Kim, B. J., Ha, C. H., Choi, S. S., 1998, On the characteristics of vertical atmospheric structure in the western coastal region through the intensive observation period, J. Korean Environ. Sci. Soc., 7, 335-347.
  36. Morelissen, B., Harley, C. D. G., 2007, The effects of temperature on producers, consumers, and plant- herbivore interactions in an intertidal community, J. Exp. Marine Biol. Ecol., 348, 162-173. https://doi.org/10.1016/j.jembe.2007.04.006
  37. Nordlund, L. M., Torre-Castro, M. de la, Erlandsson, J., Conand, C., Muthiga, N., Jiddawi, N., Gullstrom, M., 2014, Intertidal zone management in the Western Indian Ocean: Assessing current status and future possibilities using expert opinions, AMBIO, 43, 1006-1019. https://doi.org/10.1007/s13280-013-0465-8
  38. Paganini, A. W., Miller, N. A., Stillman, J. H., 2014, Temperature and acidification variability reduce physiological performance in the intertidal zone porcelain crab Petrolisthes cinctipes, J. Exp. Biol., 217, 3974-3980. https://doi.org/10.1242/jeb.109801
  39. Pivato, M., Carniello, L., Viero, D. P., Soranzo, C., Defina, A., Silvestri, S., 2020, Remote Sensing for Optimal Estimation of Water Temperature Dynamics in Shallow Tidal Environments, Remote Sens., 12, 51.
  40. Rouse, W. R., 1989, Energy balance of the intertidal zone of Western Hudson bay II: Ice-dominated periods and seasonal patterns, Atmosphere-Ocean, 27, 346-366. https://doi.org/10.1080/07055900.1989.9649340
  41. Rukseniene, V., Kelpsaite-Rimkiene, I. D. L., 2016, Relationship between air temperature and sea water temperature in the different depths of SE Baltic Sea, Multiple drivers for Earth system changes in the Baltic Sea region, 160.
  42. Scrosati, R., Eckersley, L. K., 2007, Thermal insulation of the intertidal zone by the ice foot, J. Sea Res., 58, 331-334. https://doi.org/10.1016/j.seares.2007.08.003
  43. Seo, H. S., Jeong, Y. H., Kim, D. S., 2020, A Study on the characteristics of summer water temperature fluctuations by spectral analysis in coast of Korea in 2016, J. Korean Soc. Marine Environ. Safety, 26, 186-194. https://doi.org/10.7837/kosomes.2020.26.2.186
  44. Silis, A., Rouse, W. R., Hardill, S., 1989, Energy balance of the intertidal zone of Western Hudson bay I: Ice- free period, Atmosphere-Ocean, 27, 327-345. https://doi.org/10.1080/07055900.1989.9649339
  45. Stewart, H. B Jr., 1960, Coastal water temperature and sea level-California to Alaska, Mar. Res. Comm., Calif. Coop. Ocean. Fish. Invest., Rep., 7, 97-102.
  46. Sukhotin, A., Berger, V., 2013, Long-term monitoring studies as a powerful tool in marine ecosystem research, Hydrobiol., 706, 1-6. https://doi.org/10.1007/s10750-013-1456-2
  47. Tagliarolo, M., Clavier, J., Chauvaud, L., Grall, J., 2013, Carbon emission associated with respiration and calcification of nine gastropod species from the intertidal rocky shore of Western Europe, Marine biol., 160, 2891-2901.
  48. Tanaka, K., Narimatsu, A., Morimoto, K., Takikawa, K., 2005, Turbulent characteristics of the atmospheric surface layer in the inter-tidal zone of the ariake Sea, Asian and Pacific Coasts 2005, 1816-1829.
  49. Tinker, J. P., Howes, E. L., Wakelin, S., Menary, M., Kent, E., Berry, D., 2020, The impacts of climate change on temperature (air and sea), relevant to the coastal and marine environment around the UK, MCCIP Sci. Rev, 1-30.
  50. Yoon, H. J., Kim, S. C., Park, I. H., 2003, Characteristics of meteorological and marine environments for the red tide occurrence of mid-south sea in Korea, J. inf. commun. converg. eng., 7, 845-852.
  51. Yoon, H. J., Suh, Y. S., Jeong, J. C., Nam, K. W., 2004, Statistical analyses on the relationships between red tide formation and meteorological factors in the Korean coastal waters, J. inf. commun. converg. eng., 8, 926-932.
  52. You, S. H., 2009, Marine meteorological characteristics in 2006-2007 year near the Korean Peninsular : Wind wavers, Atmos., 19, 93-106.
  53. You, S. H., Kwun, J. H., Kim, J. S., 2009, Marine meteorological characteristics in 2006-2007 : Sea surface wind, Atmos., 19, 145-154.