Browse > Article
http://dx.doi.org/10.13087/kosert.2017.20.6.161

A Study on the Establishment of the Fresh Water Plant Industry for the Response of the Nagoya Protocol  

Ryu, Yoon-Jin (NEXUS Environmental Design Centre)
Cho, Dong-Gil (NEXUS Environmental Design Centre)
Kim, Sang-Cheol (Nakdonggang National Institute of Biological Resources)
Shin, Su-Young (Nakdonggang National Institute of Biological Resources)
Cho, Soo-Hyun (National Institute of Biological Resources)
Publication Information
Journal of the Korean Society of Environmental Restoration Technology / v.20, no.6, 2017 , pp. 161-180 More about this Journal
Abstract
As the competition for securing cross-border biological sovereignty becomes intensified due to the adoption of the Nagoya Protocol, this study analyzed patent trends only for freshwater plants in order to secure national biological sovereignty. As a result, freshwater plants include a total of 68 genera and 128 species, and a total of 60 genera and 3,256 patents were surveyed. Among them, iris was the most industrialized, 14.71% followed by angelica(8.48%) and Mentha(6.94%). However, unconfirmed eight genera (Aneilema, Artemisia Cabomba, Nymphoides, Pistia stratiotes L., Pseudoraphis Griff., Ruppia) are not patented freshwater plants and it is expected that patent entry is high and barrier is low in the future. Based on patent results, Cooperative Patent Classification analysis was carried out and as a result, a total of 15 industry sectors were derived. And biopharmaceutical(30.24%) was found to be the most industrialized industry sector followed by agricultural chemistry (28.89%), biochemical industry (16.25%). In the biomedical industry, angelica(17.74%) was the most used and Iris (9.55%), Sium(20.56%) and angelica (20.48%) were found to be the most used in agricultural chemistry, biochemical industry and bio food industry, respectively. The analysis of detailed industry fields for 15 industry sectors showed that medicines of unknown structure containing substances from plants (37.77%), raw materials (46.57%) such as insect repellants, attracting agents and preparation of peptides(16.82%) with more than 21 amino acids were most frequently used in biopharmaceutical, agricultural chemistry and biochemical industry, respectively. This study is of significance as a basic data to know which freshwater plants are used in which field in order to secure biological sovereignty and patent analysis is considered necessary to continuously secure the biological sovereignty for freshwater plants.
Keywords
Beneficial Bio-resources; Nagoya Protocol; limnobios; CPC;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Hankookilbo. 2014. U.S. Bio pharmaceutical patent is released next year. 2014.12.07. Retrieved from NEWS1 in press.
2 Bruno David, Jean-Luc Wolfender and Daniel A Dias. 2014. The pharmaceutical industry and natural products: Historical status and new trends. Phytochem Rev DOI 10.1007/s11101-014-9367-z.   DOI
3 NNIBR. 2017. A Study on the Strategy and Cooperative Plan for the Use of Fresh Water Biological Resources. (in Korean)
4 NEWS1. 2012. Prepare for Nagoya Protocol, Creating a patent for a bio-objection resource database. 2012.10.25, Retrieved from NEWS1 in press. www.kbr.go.kr(2017.05.11.)
5 Kim, J.H. 2010. Contrarian strategy of excavating newbusiness 'Hidden market'. Leadersbook, Korea.
6 Son, JK.Kong, MJ.Kang, BH.Kim, MH.Kang, DH.Lee, SY and Han, SH. 2017. An Analysis on Use Patterns of Oriental Medicine of Pond Wetland Plants for the Ecological Experience in Rural Tourism Village. Journal of Wetlands Research, 19(2) : 230-239.   DOI
7 Daegushinmun. 2017. Discovery of fresh water resources, Industrialization study, It will make the best of the world. 2017.02.28, Retrieved from Daegushinmun in press.
8 Hankyoreh Newspaper. 2015. It is urgent to develop fresh water resources. 2015.06.22, Retrieved from Hankyoreh Newspaper in press.
9 FUTURE ECO. 2015. Purpose of the discovery and preservation of fresh water resources. 2015.09.30, Retrieved from FUTURE ECO in press.
10 Korea Intellectual Property Office. 2016. CPC (Cooperative Patent Classification). KIPO, 13pp. (in Korean)
11 www.kipris.or.kr(2017.01.02.)
12 KRICT. 2008. Current Status and Future Research Direction of Biological Pesticide Control. (in Korean)
13 Aquatic ecosystem restoration Business group. 2012. Classification of Wetlands Plants in Korea, Korea, 11pp. (in Korean)
14 National Institute of Biological Resources. 2016. National List of Species of Korea, Korea. (in Korean)