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이화현,손동화,김수암,LEE, HWAHYUN,SOHN, DONGWHA,KIM, SUAM 한국해양학회 2021 바다 Vol.26 No.3
해양에서 얻을 수 있는 여러 자료 중 화학, 물리, 지질분야에서 취득되는 비생물 자료에 대한 정도관리는 이미 부분적으로 정립되어 있으나, 생물자료는 채집과 분석 방법을 통일하기 어려워 자료의 정도관리 방법은 시작단계에 있다. 특히 해양어류의 경우, 자료의 사용 용도가 넓어 정도관리의 필요성이 더욱 요구되고 있지만 어종별 크기, 수명, 생활사 및 서식처에 따른 채집방법, 생산하는 자료의 종류가 다양하고 방대하여 현재 일관된 정도관리 지침을 제시하지 못하고 있다. 본 논문에서는 해양어류 자료가 활용되는 사례를 설명하고, 해양어류 자료수집 방법, 자료수집 방법의 한계, 그리고 해양어류 자료의 품질 개선 방안을 소개한다. 이 자료가 향후 국내에서 생산되는 해양어류자료에 관한 정도관리의 방향 정립에 도움이 되기를 희망한다. Among various data types obtained from the ocean, the quality controls for abiotic data collected from chemical, physical, and geological field surveys haves already been partially established. Due to the difficulties in standardization of the data collections and basic analyses, however, the quality controls of biotic data are in its early stage. For marine fish, the necessity of quality control is more demanded due to the wide range of data usage, but there are currently no consistent quality control guidelines because of the diversity and scope of data types derived from species-specific and age-specific information throughout various habitats. In this paper, we provide examples of marine fish data utilization and also show methods of the marine fish data collection, limitations of the data collection methods, and suggestions for improving the marine fish data quality. We hope this paper will help to establish the direction of quality control for marine fish data from both fishery-dependent and fishery-independent surveys in Korea in the near future.
Observed Pattern of Diel Variation in Specific Gravity of Pacific Mackerel Eggs and Larvae
Lee, Hwa Hyun,Kang, Sukyung,Jung, Kyung-Mi,Jung, Sukgeun,Sohn, Dongwha,Kim, Suam Korea Institute of Ocean ScienceTechnology 2017 Ocean and Polar Research Vol.39 No.4
Although Pacific mackerel (Scomber japonicus) is an important commercial species in Korea, its recruitment mechanism remains largely unknown. Diel vertical positioning of larvae in the water column, which is affected by their specific gravity and the surrounding water density, may help to provide an understanding on recruitment success through predator avoidance and prey availability. The specific gravity measurement on Pacific mackerel eggs and larvae would seem to be essential information necessary to learn about the transport process from spawning to nursery grounds, and consequently the recruitment success. Eggs were artificially fertilized, and larvae were fed with rotifer when their mouths opened 3-4 days after hatching. We conducted the experiment using a density gradient water column to measure the ontogenetic changes in specific gravity from fertilization to 10 days after hatching. Egg specific gravity was stable during most of the embryonic period, but a sudden increase to $1.0249g\;cm^{-3}$ happened just before hatching. However, the specific gravity of newly hatched larvae was much lighter ($1.0195g\;cm^{-3}$), and specific gravity tended to increase continuously after hatching. Comparison of specific gravity with seawater density reveals that eggs and newly hatched larvae can float in the surface layer of the ocean. For the later period of the experiment, the specific gravity showed a cyclic diel pattern: the highest in the evening while the lowest at dawn. The fullness of larval stomach may be responsible for the observed differences in specific gravity, because stomach fullness was lower (40-60%) at midnight, and higher (80-85%) in evening. The diel pattern of specific gravity might provide clues regarding how larvae match the diel vertical migration of prey organisms.