We conducted a total of 28 surveys from March to October 2016 in Gayasan National Park, to identify threatened plants for climate change, as well as for the effective management of biological organisms and resources against climate changes in Korea. Regarding threatened plants for climate change, we identified a total of 39 taxa, with 11 northern, 2 southern, and 26 taxa of concern. Among these taxa, 33 were identified as wild species. The species threatened by climate change located in the subalpine regions of Gayasan National Park were Abies holophylla Maxim., Abies koreana Wilson, Pinus koraiensis Siebold & Zucc., Betula ermanii Cham., Berberis amurensis Rupr., Rhododendron tschonoskii Maxim., Vaccinium hirtum var. koreanum (Nakai) Kitam., Primula modesta var. hannasanensis T.Yamaz., Trientalis europaea var. arctica (Fisch.) Ledeb., Thymus quinquecostatus Celak., Parasenecio firmus (Kom.) Y.L.Chen, and Lilium cernuum Kom. These species are expected to be particularly vulnerable to the effects of global warming, since they were confirmed to have a very narrow vertical distribution range. Moreover, although the following species are not included in the list of plants threatened by climate change, it is assumed that the endemic species that grow at the summit, and Grade V floristics special plants, such as Pedicularis hallaisanensis Hurus., Allium thunbergii var. deltoides (S.O.Yu, S.Lee & W.Lee) H.J.Choi & B.U.Oh, Heloniopsis tubiflora Fuse, N.S.Lee & M.N. Tamura, Aletris glabra Bureau & Franch, and Gymnadenia cucullata (L.) Rich., will also be extremely vulnerable to climate change. Therefore, we believe that measures for the conservation of these species are urgently needed, and also that the definition of species threatened by climate change should be broadened to include more objective and valid taxa through the long-term monitoring of species distributed around the summit area.

본 연구에서는 SLURP 준 분포형 수문모형을 이용하여 기후변화가 만경강유역의 수문순환 구조에 미치는 영향을 분석하고자 한다. 만경강유역은 총 유역면적 1405.6km2으로 서울시의 약 2.3배 이고, 총 하천길이는 73.92km, 평균 경사는 25.08%, 평균 표고는 123.51m이다. 금강 동진강과 함께 호남평야의 중앙을 서류하여 악산 남쪽을 지나 황해로 흘러든다. 본 논문에서는 만경강유역의 대천관측소를 대상으로 2008년의 일별 유출량 자료를 바탕으로 모형을 보정을 하고, 지역기후모형을 이용하여 미래를 3개의 기간(future 1: 2011년∼2040년, future 2 : 2041년∼2070년, future 3 : 2071년∼2100년)으로 나누어 만경강유역에서 기후변화가 수문순환 구조에 미치는 영향을 분석하였다. 또한 유황분석을 통해 미래의 하천의 유황의 변화를 전망, 시공간적 분포를 통해 공간적인 변화를 분석하였다. 월 유출량변화량을 분석한 결과 미래로 갈수록 월 유출량의 변동 폭이 커졌고, 평균 유출량이 증가하리라 전망되었다. 유황분석 결과 미래로 갈수록 풍수량과 갈수량이 증가하리라 전망되었고, Future2기간일 때 가장 많이 증가하리라 전망되었다.

This study was carried out to investigate the distribution and their change of Pinus densiflora forests by climate change in Mt. Hallasan. The results showed that the areas of P. densiflora forests of Mt. Hallasan varied by region, with a total area of 1,324.3 ha, concentrated mostly in the region 1,000 m - 1,400 m above sea level. The temperate coniferous forest zone are distributed in the upper part of temperate forest zone composed of deciduous broad-leaved trees. Most of the P. densiflora forests in the lower parts were found not to be spreading because they are located close to the deciduous broad-leaved trees. However, the P. densiflora forests in the Sajebi and Pyeonggwe regions composed of the grasslands and shrub forests were found to be spreading. In addition, the altitude of the P. densiflora forests distribution increased by about 50 m and 90 m in the Sajebi and Pyeonggwe regions, respectively. The spread rate is expected to become faster than in the past due to the rate of climate change. The structure of the vegetation in Mt. Hallasan and the changes in the vegetation due to various factors need to be investigated from a long-term point of view.

홍수 혹은 융설로 인한 대량의 담수유입은 만에서의 염분농도를 급격히 저하시키며, 그러한 변화는 근해 생물들의 서식환경을 파괴하는 경우도 있다. 그러므로 자연환경의 적절한 활용 및 생물들의 보호를 위해 만에서의 염분분포를 정량적으로 파악하는 연구는 매우 중요하다. 본 연구에서는 1차적으로 위성영상과 탁도와의 상관성을 조사하고, 2차적으로는 탁도와 염분농도와의 상관성을 이용하여 만에서의 염분분포를 구하였다. 본 연구의 주요 성과는 다음과 같다. 첫째 위성영

Nowadays meteorological information is systemized as a useful knowledge which has a significant effect on the overall industrial domains over the simple data. The distribution industry, which has the short life cycle, depends on the meteorological information at the strategic level. However, it is necessary to pay attention to the continuous investment in meteorological information because there is a hostility to paying for a service, particularly it does not provide accurate and reliable information. Therefore, the purpose of this study is to increase the usefulness of meteorological information in the distribution industry for its economic effectiveness from the core meteorological factors. We found significant meteorological factors (temperature, precipitation, disaster) that have a critical influence on the distribution industry through the hierarchical analysis process, and their importance according to the type of distribution channels, such as department store, large-scale discount store, convenience store, and home shopping. We performed the AHP analysis with 103 survey samples by middle managers from the various distribution channels. We found that precipitation is the critical meteorological factor across the distribution industry. Based on this result, we stress the difference in the level of the meteorological information in order for the effectiveness of each type of distribution channels.

The purpose of this work is to investigate the water quality change characteristics of treated water in water distribution systems of Water Treatment Plants (WTPs) of Jeju City. For this, the raw water, treated water and tap water that did not pass (named as not pass-tap water) and passed through the water storage tank (named as pass-tap water) were sampled and analyzed monthly from September 2001 to August 2002, for four (W, S, B and O) WTPs except for D WTP (where treated water is not supplied continuously) among WTPs of Jeju City. The concentrations of NO3- and Cl- of treated water in distribution systems changed little, but changed seasonally, which is considered to be based on the seasonal variation of the quality of raw water. The pH of treated water changed little in distribution systems for S WTP, but for the other WTPs, the pH of not pass-tap water was similar to that of treated water and the pH of pass-tap water was higher than that of treated water. The turbidity of treated water in distribution systems changed little except for W2 of W WTP and S4 and S5 of S WTP, where it was higher than that of each treated water. The residual chlorine concentrations between treated water and not pass-tap water changed little, but those between treated water and pass-tap water changed greatly, based on the its long residence time in water storage tank and so its reaction with organic matter, etc or its evaporation. The concentrations of TTHMs (total trihalomethanes) and CHCl3 that induce cancers in water distribution systems of these WTPs, were much lower than their water quality criteria and those in other cities. The concentrations of TTHMs of treated water and not pass-tap water were similar, but concentrations of pass-tap water were 1.5 to 2.0 times higher than those of treated water and not pass-tap water, due to the reaction of residual chlorine and organic matter, etc, with the result of long residence time in water storage tank.

지구온난화의 영향으로 배증 CO2 상태가 되는 약 60년 후의 한반도 평균강수량은 약 5-10%정도의 증가로 예측되고 있다. 그러나 수자원분야에서 평균강수량의 증가보다 더 중요한 것은 홍수 또는 가뭄과 같은 극치기상의 빈도 변화이다. 현재 국제적으로 이러한 극치기상의 빈번한 발생이 지구온난화의 한 증거로 받아들여지고 있기는 하나 그 양상이 어떻게 되리라고는 예측되고 있지 않다. 따라서 본 연구에서는 그러한 변화 양상을 예측해 보기 위한 방법론을 제시해

지구 온난화는 산업혁명이후 이미 시작되었으며 최근에 와서 그 정도가 심해지고 있다. CO2와 같은 온실기체의 증가를 가장 큰 원인으로 하는 지구 온난화의 영향이 아직 정량적으로 밝혀지고 있지만 대기순환모형(General Circulation Model: GCM)을 이용한 연구에서 이러한 온실기체의 증가가 지구의 평균온도를 상승시킨다고 밝히고 있다. 지구 온난화는 전지구적 물의 순환에도 영향을 미쳐 지구 곳곳의 강수패턴에 변화를 가져오는데 근래에 자주 발