연안생태계의 영양상태와 환경적 질을 평가하기 위하여, 2007년 2월 남해연안의 총 25개 소해역, 131개 정점을 대상으로 표층 퇴적물의 입도조성, 광합성 색소, 총유기탄소, 총질소, 생화학적 조성(단백질, 탄수화물, 지질) 등을 분석하였다. 다차원 분석 결과 4개의 그룹으로 나뉘었으며, 일원분산분석에서 단백질, 탄수화물, biopolymeric carbon 농도의 차이가 뚜렷하게 나타났다. 이를 토대로 퇴적물 내 생화학적 조성을 이용한 영양상태 기준을 설정하였으며, 조사해역의 영양상태를 평가한 결과 산업폐수 및 생활하수 유입이 많은 마산만, 진해만, 행암만을 포함한 I그룹을 과영양 상태, 양식시설이 밀집한 통영, 고성 자란, 거제연안 등의 II그룹은 부영양 상태로 추정되었으며, 가막만, 득량만, 여자만 등의 III그룹은 중영양 상태로, 나머지 신안, 진도, 무안을 포함한 IV그룹은 빈영양 상태로 추정되었다. 본 연구결과로 퇴적물의 생화학적 조성을 이용한 영양상태 구분은 연안역의 영양도 평가를 위하여 유용한 방법으로 사용되어 질 수 있다고 판단된다.

We studied the ozone concentrations generated by low-temperature dielectric barrier discharge plasma reactor after adding air and phytoplankton to control the ozone concentrations in seawater. We also examined the numbers of bacteria and Vibrio spp. after treatment using the plasma reactor. As the airflow rate was increased, more ozone was removed. Although marked variation in the ozone decrease was observed with and without airflow, the rate of ozone removal did not increase proportionately with the airflow rates. The ozone concentration decreased with increasing organic matter and time. The amount of organic matter seems to be an important factor decreasing the dissolved ozone concentration in liquid. The ozone concentration was 0.07, 0.32, 1.28, and 2.3 mg/L when operating the plasma reactor for 30, 60, 180, and 300 s, respectively; i.e., the ozone concentration increased with the reactor operating time. The initial numbers of bacteria and Vibrio spp. were 800 and 480 CFU/mL, respectively. After operating the plasma reactor at a flow rate of 6 L/min for 30 s, no bacteria or Vibrio spp. were detected. The disinfection effect of this plasma reactor seems to be superior to that of a conventional ozone generator.

Ground seawater quality was investigated, and the algal growth potential (AGP) tests were performed along the Tongyeong coast to examine the inflow of materials, which is needed for the red tide species Cochlodinium polykrikoides to grow. The study was conducted to determine the mechanism for C. polykrikoidesred tides. Water temperature, salinity, pH, and dissolved oxygen (DO) ranged from 16.05 to 20.74°C, 18.20 to 32.11 psu, 6.00 to 7.61, and 3.41 to 7.91 mg/L (41.4– 96.1%), respectively. No seasonal variation was observed in water temperature. The salinity, pH, and DO saturations at most stations were lower than those of coastal seawater at Tongyeong. The NH4 +-N, NO2+3 --N, PO4 3--P concentrations ranged from 0.43 to 16.00μM, 1.50 to 132.38μM, and 1.30 to 6.29μM, respectively; the values at some stations were much higher than observed in Tongyeong coast seawater. Using seawater from station B, C. polykrikoides grew consistently, with a high growth rate, similar to the red tide in nature. This seawater appeared to contain materials needed by C. polykrikoides to grow. Therefore, C. polykrikoides red tides seem to occur wherever the ground sea water contains materials that are needed for its growth.