본 연구에서는 1차 농수산물 및 축산물의 기능성 표시광고를 제한하는 법 제도적 제한요인을 탐색하 였다. 우선 이를 위해 선행연구들을 참조하여 농수산물의 품질 및 안전성과 직결되거나 식품표시와 관 련된 법령인 양곡관리법, 축산물위생관리법, 식품위생법, 건강기능식품에 관한 법률, 시행령, 시행규칙 및 표시광고 관련 조항들을 고찰하였다. 법 조항의 적용 시 법률간 관리대상 식품 형태 및 범위의 모호 성, 규제대상 영업자 모호한 설정이 농수산물 기능성 표시광고의 주요 제한요인으로 판단된다. 또한 법 령 주관부처 별 중복규제 가능성, 행정처분 기준의 모호성 등이 확인되었다. 본 연구를 통해 농식품의 기능성 표시광고 제한요인을 도출하였으며, 이는 1차 농수산물 경쟁력 강화를 위한 정책 기초자료로 활 용될 수 있다.
Ascotis selenaria, a major geometridae moth in citrus trees, annually damages the citrus leaves and fruits. The surface of young citrus fruit were usually fed by 1st larva of A. selenaria after landing or stepping onto the citrus fruits. To protect the larval damages of citrus fruits needs to predict the accurate occurrence time of the 1st larva for spraying. Because larval occurrences is dependent on the oviposition of adult female and the eggs were not found in/on citrus trees, oviposition model of A. selenaria linked with the egg development model will be helpful of protecting larval damages on citrus fruits. Adult longevity, survival and fecundity of A.selenaria was investigated at 13, 16, 20, 24, 28, 30, 32, and 35℃. The longevity decreased as the temperature increased and the female development rates (1/median longevity) were well described by a modified sigmoid model, which was used to calculate the adult physiological age. Description of the total fecundity was used by a non-linear model: The maximum fecundity of A. selenaria was estimated as 2490 eggs and peaked temperature was 19.7℃ according to the fecundity model. The cumulative age-specific oviposition rate and the age-specific survival rate was well described by 2 parameters Weibull function and a reverse logistic curve respectively. Total fecundity model, age-sepecific oviposition model, and age-specific survival model were incorporated into the oviposition model.