Advanced SearchSearch Tips
Functional Evaluation of Small-scale Pond at Paddy Field as a Shelter for Mudfish during Midsummer Drainage Period
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Functional Evaluation of Small-scale Pond at Paddy Field as a Shelter for Mudfish during Midsummer Drainage Period
Kim, Jae-Ok; Shin, Hyun-Sang; Yoo, Ji-Hyun; Lee, Seung-Heon; Jang, Kyu-Sang; Kim, Bom-Chul;
  PDF(new window)
BACKGROUND: The purpose of this study was to evaluate ecological function of small-scale pond and movement characteristics of mudfish (Misgurnus mizolepis) during midsummer drainage period. METHODS AND RESULTS: In situ experiments were performed in the paddy field with mudfish under the condition of midsummer drainage from 13 July to 29 July 2010. The mudfish used in this experiment is approximately 1,000 individuals with a cut tail. Mudfishs were released in the rice field before midsummer drainage and caught again in the small-scale pond and the paddy field after midsummer drainage. Results showed that the abundance of mudfish was higher in drainage canal than small-scale pond at the early stage of midsummer drainage, because flow was formed toward the drainage canal. In that time, 3% of the total marked mudfish were captured at outlet of drainage canal. As the paddy was drying, 5% of total marked mudfish moved to the small-scale pond during midsummer drainage period. Contrary to the general hypothesis, the marked mudfish was not found in holes in paddy field.of total caught in the small-scale pond ingested mainly animal prey, and it's frequency of empcy stomach was 10%.oOn the other hand, all m total collected in the paddy field showed empcy stomach. It was apparent from the experiment that m total are eeldng normally in the small-scale pond, while m total are not eat properly in paddy field. CONCLUSION(s): As the paddy was drying, mudfish moved to the small-scale pond during midsummer drainage period but mudfish was not found in holes in paddy field. It can be concluded that small-scale provides a shelter and prey to mudfish in the midsummer drainage period.
Midsummer drainage;Mudfish;Shelter;Smallscale pond;
 Cited by
논 생태계에서 영농방법에 따른 미꾸라지개체군의 변동 요인 분석,한민수;조광진;남형규;강기경;나영은;김미란;김명현;

한국환경농학회지, 2013. vol.32. 1, pp.24-34 crossref(new window)
서부 민간인 통제구역에 존재하는 둠벙의 유형분류,김승호;김재현;김재근;

한국습지학회지, 2011. vol.13. 2, pp.275-289
논 생태 증진을 위해 설치된 둠벙의 물리.화학적 및 생물학적 특성,김재옥;신현상;유지현;이승헌;장규상;김범철;

생태와환경, 2011. vol.44. 3, pp.253-263
얕은 연못에서 수위변동에 따른 담수 어류 피난처 확보를 위한 실험적 접근,안창혁;주진철;이새로미;오주현;안호상;송호면;

대한환경공학회지, 2013. vol.35. 9, pp.666-674 crossref(new window)
논 생태계 내 둠벙의 저서성 대형무척추동물 군집구조 특성,최락중;한민수;김미란;조광진;강기경;나영은;김명현;

한국환경농학회지, 2013. vol.32. 4, pp.304-314 crossref(new window)
Response of carabid beetles to wetland creation in an intensive agricultural landscape, Ecological Engineering, 2015, 84, 47  crossref(new windwow)
Characteristics Communities Structure of Benthic Macroinvertebrates at Irrigation Ponds, within Paddy Field, Korean Journal of Environmental Agriculture, 2013, 32, 4, 304  crossref(new windwow)
Variation in Population Size of Mudfish by Agricultural Practices in Paddy Fields, Korean Journal of Environmental Agriculture, 2013, 32, 1, 24  crossref(new windwow)
Benthic macroinvertebrate biodiversity improved with irrigation ponds linked to a rice paddy field, Entomological Research, 2016, 46, 1, 70  crossref(new windwow)
Using stable isotopes to investigate movement of fish in rice paddy fields, International Aquatic Research, 2015, 7, 3, 211  crossref(new windwow)
An Experimental Approach to Secure Freshwater Fish Shelter according to the Water Level Fluctuations in a Shallow Pond, Journal of Korean Society of Environmental Engineers, 2013, 35, 9, 666  crossref(new windwow)
Akada, J., Aoyama, S., Yodo, T., Motoi, Y., Kashiwagi, M., 2005. A method for individual identification using variations in white linear abdominal markings in the cobitid fish Lefua echigonia, Jpn. J. Ichthyol. 52, 153-156.

Cho, K.S., 1993. Illustration of the freshwater zooplankton of Korea, pp. 30-160, Academy Press, Seoul.

Han, J.H., 2005. Prevention and treatment of fish disease, Fish Farming21 4, 78-89.

Harding, J.S., Norton, D.A., McIntosh, A.R., 2007. Persistence of a significant population of rare Canterbury mudfish (Neochanna burrowsius) in a hydrologically isolated catchment, New Zeal. J. Mar. Fresh. 41, 309-316. crossref(new window)

Jung, M.R., 2010. A study of habitat environmental characteristics of mudfish inhabited in rice field, MS thesis, Korea National University of Education, Cheongwon, Korea.

Katano, O., Hosoya, K., Iguchi, K., Aonuma, Y., 2001. Comparison of fish fauna among three types of rice fields in the Chikuma River basin, Jpn. J. Ichthyol. 48, 19-25.

Kusuda, S., Noboru, K., 2009. Upstream-migrating loach in the fishway for a rice paddy, Fish Water 45, 19-22.

Ko, M.H., Park, J.Y., Kim, S.H., 2009. Habitat environment and feeding habitat of Iksookimia koreensis and Cobitis lutheri (Pisces: Cobitidae) in the Mangyeong river, Korea, Korean J. Ichthyol. 21, 253-261.

Lee, D.W., 2004. Ecological signification for landscape of tradition village, pp. 23-25, Seoul Nat. Univ. Press, Seoul.

Mizuno, T., 1964. Illustration of the freshwater plankton of Japan, pp. 10-120, Hoikusha Press, Japan.

Nakamura, T., Oda, N., 2003. Seasonal changes in fishes ascending a paddy field ditch in the Naka River system, central Japan, Jpn. J. Ichthyol. 50, 25-33.

Nakamura, K., 2007. An introduction to paddy field eco-engineering for sustaining and restoring biodiversity in rural areas, pp. 51-56, Nongmunhyup Press, Japan.

Nakatani, Y., Kudo, A., 2005. Studies on regeneration in fish : Fin regeneration in Medaka, Bio Ind. 22, 46-51.

Nam, H.B., Kim, S.S, Park, H.G., 1997. Influence of midsummer drainage times on growth and lodging of rice plant in direct seeding on flooded paddy surface, Korean J. Crop Sci, 42, 722-728.

Saitoh, K., Katano, O., Koizumi, A., 1988. Movement and spawning of several freshwater fishes in temporary waters around paddy fields, Jpn. J. Ecol. 38, 35-47.

Suzuki, M., Misutani, M., Goto, A., 2000. New technology for consideration of rural environment. 4. Development of small-scale fishway for preserving ecosystem in paddy fields, J. Jpn. Soc. Irrigat. Drain. Reclamat. Eng. 68, 1263-1266.

Yoon, I.B., 1995. Aquatic insects of Korea, pp. 174-179,Junghangsa Press, Seoul.