Agricultural or rural landscape provides various ecosystem services. However, the ecosystem services function is declining due to various environmental problems such as climate change, land use change, stream intensification, non-point pollution and garbage. The A1B scenario predicts that the mean air temperature of South Korea will rise 3.8℃ degrees celsius in 2100. Agricultural sector is very vulnerable to climate change, so it must be thoroughly predicted and managed. In Korea, the facility horticulture complex is 54,051ha in 2016 and is the 3rd largest in the world(MAFRA, 2014). Facilities of horticultural complexes are reported to cause problems such as groundwater decrease, vegetation and insects diversity reduction, landscapes damage and garbage increase, compared with the existing land use paddy fields. Heat island phenomenon associated with climate change is also accelerated by the high heat absorption of horticultural sites. Therefore, we analyzed the heat island phenomenon occurring in the facility of horticultural complex in Korea. As an improvement measurement, I examined how much air temperature is reduced by putting the channel and the open space. In the case of the Buyeo area, the Computational Fluid Dynamics (CFD) simulation was analyzed for the average summer temperature distribution in the current land use mode at 38.9℃. As an improvement measurement, CFD simulation after 10% of 6m water channel was found to have an effect of lowering the summer temperature of about 2.7℃ compared with the present average of 36.2℃. In addition, CFD simulations after analyzing 10% of the open space were analyzed at 34.7℃, which is 4.2℃ lower than the present. For the Jinju area, CFD simulations were analyzed for the average temperature of summer at 37.8℃ in the present land use pattern. As an improvement measure, CFD simulations after 10% of 6m water channel were found to have an effect of lowering the summer temperature of about 2.6℃ compared to the current average of 35.2℃. In addition, CFD simulations after analyzing 10% of the open space were analyzed at 33.9℃, which is 3.9℃ lower than the present. It can be said that the effect of summer temperature drop in open space and waterway has been proven. The results of this study are expected to be reflected in sustainable agriculture land use and used as basic data for government - level policy in land use planning for climate change.

ABSTRACT
 I. 서 론
 II. 연구방법
  2.1 연구대상지 및 기상자료 수집
  2.2 CFD 시뮬레이션 분석방법
  2.3 연구대상지에 대한 개선방안 설정
 III. 결과 및 고찰
  3.1 기상현황 분석 및 현장조사를 통한 경계조건 설정
  3.2 시설원예단지 외부 열환경 분포특성(원안)
  3.3 연구대상지 개선방안 열환경 분포특성
 IV. 결 론
 References

• 손진관(농촌진흥청 국립농업과학원) | Son Jin-Kwan (National Institute of Agricultural Sciences, RDA)
• 공민재(농촌진흥청 국립농업과학원) | Kong Min-Jae (National Institute of Agricultural Sciences, RDA)
• 최덕규(농촌진흥청 국립농업과학원) | Choi Deuggyu (National Institute of Agricultural Sciences, RDA)
• 강동현(농촌진흥청 국립농업과학원) | Kang Dong-Hyeon (National Institute of Agricultural Sciences, RDA)
• 박민정(농촌진흥청 국립농업과학원) | Park Min-Jung (National Institute of Agricultural Sciences, RDA)
• 윤성욱(농촌진흥청 국립농업과학원) | Yun Sung-Wook (National Institute of Agricultural Sciences, RDA)
• 이승철(농촌진흥청 국립농업과학원) | Lee Seungchul (National Institute of Agricultural Sciences, RDA)
• 이시영(농촌진흥청 국립농업과학원) | Lee Si-Young (National Institute of Agricultural Sciences, RDA) Corresponding Author