• The Journal of Fisheries Business Administration
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• v.30 no.2
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• pp.91-105
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• 1999

본 연구는 필자가 미국 Oregon 주의 수산업사를 조사하던 중 1940년대부터 시작된 미국으로 이민 한 중국인들이 미국 서부 수산업에 미친 영향이 거대하다는 것을 발견하고, 이에 관련된 문헌을 찾아 최초 미국 서부(특히, California 주)에 이민하기 시작했던 중국 이민자들이 미국에서 수산업 활동을 시작한 배경과 그에 따른 영향 등을 살펴본 것이다. 중국인이 미국에 이민하기 시작한 배경은 두 가지가 있다. 하나는 국내적인 요인으로서 중국에서의 경제적 빈곤과 정치적 핍박이었고, 다른 하나는 국외적인 요인으로서 금캐기가 가능하다는 소식 등 미국 생활에 대한 동경이었다. 중국인의 미국 이민사에서 독특한 점의 하나는 중국 남부지 방에 위치한 광동성 지방민들이 절대적인 비중(90% 이상)을 차지하고 있다는 것이다. 가장 큰 이유는 광동성은 일찌기 외국문물이 드나드는 곳이어서 인근 광동성 지방민들은 다른 지방민보다 외국소식을 쉽게 접할 수 있었기 때 문이었다. 미국에 도착한 광동성 지방민들은 쉽게 직업을 구할수 없는 처지이 되자 그들이 익숙하게 알고 있는 바다생활에 뛰어들었고, 마침내는 미국 서부에서 진취적인 어업인이 되었다. 따라서 서부에서 최초의 상업적 어업인이 되었으며, 미국 서부에서 시작한 중국인의 수산업은 점차 다른 주로 퍼져 나갔다는 기록은 중국인이 미국 전역에서 최초의 상업적 어업인이었음을 알게 한다. 최초의 중국인 어촌은 1854년 San Francisco의 Rincon Point에 세워졌으며, 25척의 어선과 150여명의 주민이 살았다. 그들이 사용한 어구ㆍ어업은 통발, 정치망, 선망, 낚시, 연승 등이었으며, 중국풍의 어선과 어구를 직접 만들어 새우, 철갑상어, 대구, 우럭, 넙치, 게, 가재, 전복 등을 어획했다. 1888년에는 San Francisco 전역에 20개의 어촌이 형성되었고, 2천여명의 어업종사자가 있었다. 1900년부터는 점차 그 수가 줄기 시작하였다. 가장 크고 오래 지속된 어업은 새우어업은 1860년대부터 1940년 중반까지 계속되었으며, 이 어업에 의해 새우가 인근 지역의 보편적인 식품으로 자리하게 되었다. 인디언에 의해 단순한 장식품으로 사용되던 전복은 중국인에 의해 그 맛이 알려지게 되었고, 유럽이나 미국 동부로 팔려 나갔다. 상어 또한 중국인에 의해 먹기 시작하였으며, 내장에서 뺀 기름이 사용되기 시작하였다. 게를 잡기 위한 통발과 시장형성으로 San Francisco부두의 많은 부분이 차지되었다. 1880년대부터 시작된 해조류의 채취는 처음에는 인디언들에 의해 시작되었으나, 곧 중국인들에 의해 본격화되었다. 광동성 지방민들의 초속식품의 하나인 오징어를 잡기 위해 중국인들은 배를 만들어 야간에 횃불을 밝혔다. 오징어는 곧 San Francisco 주민은 물론 태평양 연안주와 미국 전역에 있는 중국식당에서 수요가 지속되었다. 중국인들은 1849년부터 연어를 상업적으로 잡기 시작하였으며, Washington주에서 시작되어 Oregon, British Columbia, Alaska로 퍼진 통조림 공장은 주로 중국인의 노동력에 의해 운영되었다. 위와 같이 중국인들이 미국 수산업 분야에서 크게 활동하자 미국인들은 그들의 수산업 활동을 제재 또는 통제하고자 일정한 납세를 명시한 각종 법률, 특히 The Chinese Exclusion Act 등을 제정하였다. 미국 서부에서 중국인의 수산업은 미국인의 법적 제재, 중국인의 다른 직업으로의 이직 등으로 1940년대를 끝으로 막을 내렸다.

• Korean Journal of Plant Resources
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• v.18 no.2
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• pp.325-336
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• 2005

The life form, the origin and the time of introduction of those naturalized plants grown in Jeju-Do, korea were grasped by conducting the documentary survey, and the field survey thereof. The naturalized plants were total 199 taxa including 185 species, 12 varieties and 2 cultivar, which belong to 115 genera, 32 families. The classification of families, there were 43 taxa of Compositae ($21.6\%$), 32 taxa of Gramineae ($16.8\%$), 17 taxa of Legumlinosae ($8.5\%$), and 13 taxa of Cruciferae ($6.5\%$). As the life forms of the naturalized plants in Jeju Island were there 91 taxa of annual plants, 31 taxa of biennial plants, 16 taxa of annual or biennial plants, 57 taxa of perennial plants, and 4 taxa of trees. The distribution of the naturalized plants, the were 29 taxa thereof were located in Jeju Island, 20 taxa in Jeju Island as well as in the southern part of Korean Peninsula, 33 taxa in Jeju Island as well as in the central part of Korean Peninsula, and 117 taxa in the entire area of South Korea. As 89 taxa thereof were originated from America, 69 taxa from Europe, 2 taxa from Africa, 22 taxa from Asia, 1 taxa from Oceania, and 16 taxa from other provinces. As 38 taxa thereof had been introduced into Jeju Island before 1921, 23 taxa from 1922 to 1963, and 138 taxa since 1964.

• The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY
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• v.21 no.2
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• pp.49-57
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• 2016

Even if an external forcing that will drive a climate change is given uniformly over the globe, the corresponding climate change and the feedbacks by the climate system differ by region. Thus the detection of global warming signal has been made on a regional scale as well as on a global average against the internal variabilities and other noises involved in the climate change. The purpose of this study is to estimate a timing of unprecedented climate due to global warming and to analyze the regional differences in the estimated results. For this purpose, unlike previous studies that used climate simulation data, we used an observational dataset to estimate a magnitude of internal variability and a future temperature change. We calculated a linear trend in surface temperature using a historical temperature record from 1880 to 2014 and a magnitude of internal variability as the largest temperature displacement from the linear trend. A timing of unprecedented climate was defined as the first year when a predicted minimum temperature exceeds the maximum temperature record in a historical data and remains as such since then. Presumed that the linear trend and the maximum displacement will be maintained in the future, an unprecedented climate over the land would come within 200 years from now in the western area of Africa, the low latitudes including India and the southern part of Arabian Peninsula in Eurasia, the high latitudes including Greenland and the mid-western part of Canada in North America, the low latitudes including Amazon in South America, the areas surrounding the Ross Sea in Antarctica, and parts of East Asia including Korean Peninsula. On the other hand, an unprecedented climate would come later after 400 years in the high latitudes of Eurasia including the northern Europe, the middle and southern parts of North America including the U.S.A. and Mexico. For the ocean, an unprecedented climate would come within 200 years over the Indian Ocean, the middle latitudes of the North Atlantic and the South Atlantic, parts of the Southern Ocean, the Antarctic Ross Sea, and parts of the Arctic Sea. In the meantime, an unprecedented climate would come even after thousands of years over some other regions of ocean including the eastern tropical Pacific and the North Pacific middle latitudes where an internal variability is large. In summary, spatial pattern in timing of unprecedented climate are different for each continent. For the ocean, it is highly affected by large internal variability except for the high-latitude regions with a significant warming trend. As such, a timing of an unprecedented climate would not be uniform over the globe but considerably different by region. Our results suggest that it is necessary to consider an internal variability as well as a regional warming rate when planning a climate change mitigation and adaption policy.

• Journal of Korea Port Economic Association
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• v.23 no.3
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• pp.165-184
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• 2007

This study reviews the concept and protection system for the geographical Indication(GI) to support the Korea-EU FTA. A geographical indication(GI) is a name or sign used on certain products or which corresponds to a specific geographical indication or origin (eg. a town, region, or country). The use of a GI may act as a certification that the product possesses certain qualities, or enjoys a certain reputation, due to its geographical origin. In the WTO Agreement on Trade-Related Aspects of Intellectual property Rights("TRIPS"). There are, in effect, two basic obligations from Article 22 to article 23 on WTO member governments relating to GIs in the TRIPS agreement. Geographical Indications have long been associated with Europe as an entity, where there is a tradition of associating certain food products with particular regions, Under European Union Law, the protected designation of origin system which came into effect in 1992 and 2003 regulates the following geographical indications: Protected designation of origin(PDO) and protected geographical indication(PGI) and Traditional Specialty Guaranteed(TSG). They have 5,000 articles for GI. We have the GI system and 40 articles rotating to registration by the law for quality management of production in agriculture. Cinclusinally, geographical indications could potentially serve as tools to helf holders of trade benefit more equitable through the mutual Acceptance for Korea-EU FTA.

• Korean Journal of Weed Science
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• v.31 no.2
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• pp.119-133
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• 2011

Sulfonylurea (SU)-resistant weeds include seven annual weeds such as Monochoria vaginalis, Scirpus juncoides and Cyperus difformis, etc., and three perennial weeds of Scirpus planiculmis, Sagittaria pigmaea and Eleocharis acicularis as of 2010 since identification Monochoria korsakowii in the reclaimed rice field in 1998. The Echinochloa oryzoides resistant to acetyl CoA carboxylase (ACCase) and acetolactate synthase (ALS) inhibitors has been confirmed in wet-direct seeding rice field of the southern province, Korea in 2009. In the beginning of occurrence of SU-resistant weeds the M. vaginalis, S. juncoides and C. difformis were rapidly and individually spreaded in different fields, however, theses resistant weeds have been occurring simultaneously in the same filed as time goes by. The resistant biotype by weed species demonstrated about 10- to 1,000-fold resistance, base on $GR_{50}$ (50% growth reduction) values of the SU herbicides tested. And the resistant biotype of E. oryzoides to cyhalofop-butyl, pyriminobac-methyl, and penoxsulam was about 14, 8, and 11 times more resistant than the susceptible biotype base on $GR_{50}$ values. In history of paddy herbicides in Korea, the introduction of SU herbicides including besulfuron-metyl and pyrazosulfuron-ethyl that control many troublesome weeds at low use rates and provide excellent crop safety gave farmers and many workers for herbicide business refreshing jolt. The products and applied area of SU-included herbicides have been rapidly increased, and have accounted for about 69% and 96%, respectively, in Korea. The top ten herbicides by applied area were composed of all SU-included herbicides by 2003. The concentrated and successive treatment of ACCase and ALS inhibitors for control of barnyardgrass in direct-seeded rice led up to the resistance of E. oryzoides. Also, SU-herbicides like pyrazosulfuron-ethyl and imazosulfuron which are effective to barnyardgrass can be bound up with the resistance of E. oryzoides. The ALS activity isolated from the resistant biotype of M. korsakowii to SU-herbicides tested was less sensitive than that of susceptible biotype. The concentration of herbicide required for 50% inhibition of ALS activity ($I_{50}$) of the SU-resistant M. korsakowii was 14- to 76-fold higher as compared to the susceptible biotype. No differences were observed in the rates of [$^{14}C$]bensulfuron uptake and translocation. ALS genes from M. vaginalis resistant and susceptible biotypes against SU-herbicides revealed a single amino acid substitution of proline (CCT), at 197th position based on the M. korsakowii ALS sequence numbering, to serin (TCT) in conserved domain A of the gene. Carfentrazone-ethyl and pyrazolate were used mainly to control SU-resistant M. vaginalis by 2006, the early period, in Korea. However, the alternative herbicides such as benzobicyclone, to be possible to control simultaneously the several resistant weeds, have been developing and using broadly because the several resistant weeds have been occurring simultaneously in the same filed. The top ten herbicides by applied area in Korea have been occupied by products of 3-way mixture type including herbicides with alternative mode of action for the herbicide resistant weeds. Mefenacet, fentrazamide and cafenstrole had excellent controlling effects on the ACCase and ALS inhibitors resistant when they were applied within 2 leaf stage.

• Economic and Environmental Geology
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• v.8 no.2
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• pp.73-87
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• 1975

Regional unconformities have been used as boundaries of major stratigraphic units in Korea. The term "synthem" has already been propsed for formal unconformity-bounded stratigraphic units of maximum magnitude (ISSC, 1974). The unconformity-based classification of the strata in the cratonic area in Korea comprises in ascending order the Kyerim, $Sangw{\check{o}}n$, $Jos{\check{o}}n$, $Py{\check{o}}ngan$, Daedong, and $Ky{\check{o}}ngsang$ Synthems, and the Cenozoic Erathem. The unconformites separating them from each other are either orogenic or epeirogenic (and vertical tectonic). The sub-$Sangw{\check{o}}n$ unconformity is a non-conformity above the basement complex in Korea. The unconformities between the $Sangw{\check{o}}n$, $Jos{\check{o}}n$, and $Py{\check{o}}ngan$ Synthems are disconformities denoting late Precambrian and Paleozoic crustal quiescence in Korea. The unconformities between the $Py{\check{o}}ngan$, Daedong, and $Ky{\check{o}}ngsang$ Synthems are angular unconformities representing Mesozoic orogenies. The bounding unconformities of the $Ky{\check{o}}ngsang$ Synthem involve non-conformable parts overlying the Jurassic and late Cretaceous granitic rocks.