우리나라는 1996년 WTO/SPS(동식물검역협정)에 따라 검역병해충제도를 정비하였으며, 해외병해충의 위험으로부 터 자국내 생물자원과 자연환경을 보호하기 위하여 다양한 노력을 하고 있다. 현재까지의 수입식물 검역과정에서 검출된 병해충을 분석한 결과 병해충 검출건수는 수입량이 늘어나면서 증가하는 추세이다(00년 6,233건 → 17년 12,749건). 하지만 식물의 수입 유형에 따라 곡류, 사료류 등 비재식용 식물의 경우 병해충 검출률은 07년 이후 감소하고 있으며(07년 9.8% → 17년 3.3%), 묘목류, 종자류 등 재식용 식물의 경우 11년 이후로 지속적으로 증가하고 있어(11년 7.9% → 17년 22.0%) 재식용 식물을 통한 해외 병해충의 유입 위험도가 가증되고 있는 상황이다. 따라서 우리는 검역본부에서 운영하고 있는 자체 전산시스템인 병해충정보시스템(PIS)을 이용하여 2000년 이후 식물검역과 정에서 발견된 병해충 검출동향과 수입 유형에 따른 검출동향을 비교분석하고, 2016년 대비 2017년 병해충 검출동향을 파악하였다.
μ방lt emitting diodes (LED) devices are commercially introduced as an alternative for low-Ievellaser therapy (11ι,T) , and it has several advantages over lasers such as a safe, efficient, and less-expensive altemative to treat wounds. And LED irradiation at the same biostimulatory wavelength has similar bíochemical effεαs. In the present study, to asses whether the I핑ht-emitting diode (LED) irradíation can stimulate bone regeneration, irradiated bony defects with or without grafting materials on rat calvaria were compared to corresponding nonirradiated control. Fifty male Sprague-Dawly rats weighing about 150g, were used. Factors for present study were designed as follows, 1) presence or absence of grafting materials, 2) with or without irradiation, and 3) number of irradiation. Two weeks after operation, rats were sacrifìced. Radiologic and 비stomorphologic fmdings were evaluated. Macrospically, there were no incidents of infection, dehiscence, hematoma and necrosis during study. Radiological findings showed greater radiopacity in the graft group and radiopacity increased as the number of irradiation increase. And microscopically, new bαle formation was great in the graft group and increased as the number of irradiation increase, Present study has shown that LED irradiation improved bone regeneration through radiologic and histomorphologic fmdings in rat.
To investigate the variations of physico-chemical factors and microbial population, in ten stations at water region of coastal area of Chagwi-Do, Nutritive salts, water temperature, transparency, suspended solid, salinity, COD, DO, pH, heterotrophic bacteria, coliform group and Vibrio spp. were analysed three times in September, November in 2004 and February in 2005.
Heterotrophic bacteria in surface water was 3.5×101~1.16×103 cfu/ml, 1.0×102~5.2×101 cfu/ml, 2.0×101~7.6×101 and bottom water counted 7.0×102~1.0×103 cfu/ml, 1.4×101~2.5×102 cfu/ml, 2.0×102~4.2×101 cfu/ml in September, November in 2004 and February in2005, respectively. The cell number of total coliform bacteria in the surface water amounted to 0~4.3×102 cfu/ml, 0~6.0×101 cfu/ml, 0~1.0×101 cfu/ml and bottom water amounted 0~2.2×102 cfu/ml, 0~5.4×102 cfu/ml, 0~2.0×101 cfu/ml in September, November in 2004 and February in 2005, respectively. As for Vibrio spp., the cell number in the surface water was 1.0×101~2.5×102 cfu/ml, 1.0×101~2.0×101 cfu/ml, 0 cfu/㎖ and bottom water counted 1.0×101~5.2×102 cfu/ml, 0 cfu/㎖, 2.0×101 cfu/ml in September, November in 2004 and February in 2005, respectively.