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보문 : 장흥댐에 설치되어 있는 어도와 담수어류의 이용 분석
윤주덕 ( Ju Duk Yoon ),김정희 ( Jeong Hui Kim ),주기재 ( Gea Jae Joo ),서진원 ( Jin Won Seo ),( Hubert Pak ),장민호 ( Min Ho Jang ) 한국하천호수학회(구 한국육수학회) 2011 생태와 환경 Vol.44 No.3
At the Jangheung multipurpose dam, which is on the Tamjin River, a trapping and trucking operation was established to maintain continuous upstream migration of fish,. To facilitate fish gathering, installation of an effective fishing trap was required. In this study, we evaluated the fish trap, established at the Jangheung dam, using PIT (Passive Integrated Transponder) telemetry. A total of 254 individuals from 15 species were monitored. Among these tagged species, 36 individuals from 6 species (Carassius auratus, C. cuvieri, Zacco temminckii, Z. platypus, Pungtungia herzi, and Pseudobagrus koreanus) were detected; a 14.2% detection rate. C. auratus recorded the highest detection rate of 44.2% while P. herzi was 14.3%. Z. temminckii and Z. platypus showed relatively low detection, 5% and 7.7% respectively. Some of individuals from C. auratus and Z. platypus did not pass through the antenna at the first attempt but were continuously detected on multiple days. There were no statistical differences in body size (total length, standard length and body weight) of individuals that did or did not swim into the trap (Mann-Whitney U test, p>0.05). Fish mainly swam into the trap during outflow of water from the dam (Mann-Whitney U test, p<0.001) and showed a higher detection frequency in daytime than nighttime (Mann-Whitney U test, p<0.001). Thus, for fish movement into the trap, external factors such as outflow from dam and time of day have important roles. Based on detection rate, not all fishes showed upstream migration but represented selective migration. Consequently, the establishment of flexible outflow strategies that take into consideration ecological characteristics of fishes should required for improving the efficiency of fishway.
낙동강 중,하류 구간에서 수중 음향측정방식을 이용한 강준치의 이동성 평가
윤주덕 ( Ju Duk Yoon ),김정희 ( Jeong Hui Kim ),인동수 ( Dong Su In ),유재정 ( Jae Jeong Yu ),허문석 ( Moon Suk Hur ),장광현 ( Kwang Hyeon Chang ),장민호 ( Min Ho Jang ) 한국하천호수학회(구 한국육수학회) 2012 생태와 환경 Vol.45 No.4
Acoustic telemetry is used to obtain a relatively continuous record of fish movement. This method has several advantages for studying migrating fish populations that are moving from large rivers. The Nakdong River is the longest river in South Korea and the main stream has faced a change, which consists of the installation of the large weirs. In this study, we applied acoustic telemetry to monitor the movement pattern of Erythroculter erythropterus (family Cyprinidae) and identified home range and movement distance in the Nakdong River. A total of fourteen individuals were released at three different locations and around 80 km section from the estuary barrage was investigated. Eight individuals were tagged and released at estuary barrage (N02) utilized up to 15.9 km (home range) upstream from the release site as home range. Four individuals were tagged and released at Samrangjin (N07), most fish moved and stayed within 9.7 km (home range) downstream area, except E12, which did not show any movement. Two individuals were tagged and released at Changnyeong- Haman weir (N10), and all individuals migrated downstream from the release site. Especially, E14 recorded the longest accumulated detected distance, 36.7 km downstream during 32 days after release. There was no correlation identified between movement (accumulated detected distance and home range) and standard length (Spearman rank correlation, p¤0.05). Although, this technique could be an available method to monitor behavior and ecology of freshwater fish effectively, increment of number of receivers and tags are required for more detailed results of fish migration.
수중 음향 측정방식을 이용한 금강 중,하류의 눈불개 이동성 평가
윤주덕 ( Ju Duk Yoon ),김정희 ( Jeong Hui Kim ),인동수 ( Dong Su In ),황은지 ( Eun Ji Hwang ),윤조희 ( Jo Hee Yoon ),이영준 ( Young Joon Lee ),장광현 ( Kwang Hyeon Chang ),장민호 ( Min Ho Jang ) 한국하천호수학회(구 한국육수학회) 2012 생태와 환경 Vol.45 No.4
Visual monitoring is hard to apply on fish because they are living in a water system. To overcome this problem, acoustic telemetry, which is effective for underwater monitoring, is often used for studying fish behaviors, such as movement distance, route and patterns. In this study, in order to monitor the movement pattern of Squaliobarbus curriculus (family Cyprinidae), we used acoustic telemetry and identified the home range and movement distances. A total of nine individuals were released at two different locations: one is at the estuary barrage (Sc1~~3) and the other is at the lower part of Baekjae Weir (Sc4~~9), located in Geum River. Approximately, a 70 km section from the estuary barrage was investigated. Fish, which were released at the estuary barrage, utilized up to 12.7 km upstream as home range from the release site. At the lower part of Baekjae Weir, most of the fish moved and stayed within a 7.2 km downstream area, except for Sc6, which moved 53.4 km (linear maximum distance from release site) downstream from the release site. Relatively small sized fish (Sc7~~9) did not show any movement. Accumulated movement distance significantly correlated with the standard length of S. curriculus (rs=0.715, p=0.03). Moreover, the standard length of moving fish was significantly larger than that of not moving fish (Mann- Whitney U test, p=0.024). Therefore, the movement distance of S. curriculus has been correlated with fish size; movement distance was increased with the standard fish length. Although the sample size of monitored fish was small, various meaningful data were collected by acoustic telemetry. Consequently, this technique could be a method available for effectively monitoring the behavior and ecology of native Korean and endemic species.
비선형 시계열 하천생태모형 개발과정 중 시간지연단계와 입력변수, 모형 예측성 간 관계평가
정광석,김동균,윤주덕,라긍환,김현우,주기재,Jeong, Kwang-Seuk,Kim, Dong-Kyun,Yoon, Ju-Duk,La, Geung-Hwan,Kim, Hyun-Woo,Joo, Gea-Jae 한국하천호수학회 2010 생태와 환경 Vol.43 No.1
In this study, we implemented an experimental approach of ecological model development in order to emphasize the importance of input variable selection with respect to time-delayed arrangement between input and output variables. Time-series modeling requires relevant input variable selection for the prediction of a specific output variable (e.g. density of a species). Inadequate variable utility for input often causes increase of model construction time and low efficiency of developed model when applied to real world representation. Therefore, for future prediction, researchers have to decide number of time-delay (e.g. months, weeks or days; t-n) to predict a certain phenomenon at current time t. We prepared a total of 3,900 equation models produced by Time-Series Optimized Genetic Programming (TSOGP) algorithm, for the prediction of monthly averaged density of a potamic phytoplankton species Stephanodiscus hantzschii, considering future prediction from 0- (no future prediction) to 12-months ahead (interval by 1 month; 300 equations per each month-delay). From the investigation of model structure, input variable selectivity was obviously affected by the time-delay arrangement, and the model predictability was related with the type of input variables. From the results, we can conclude that, although Machine Learning (ML) algorithms which have popularly been used in Ecological Informatics (EI) provide high performance in future prediction of ecological entities, the efficiency of models would be lowered unless relevant input variables are selectively used.
Radio telemetry를 이용한 금강 보 설치구간에서 쏘가리 (Siniperca scherzeri)의 이동 특성
백승호 ( Seung Ho Baek ),윤주덕 ( Ju Duk Yoon ),김정희 ( Jeong Hui Kim ),박상현 ( Sang Hyeon Park ),이진웅 ( Jin Woong Lee ),장민호 ( Min Ho Jang ),김수경 ( Su Kyung Kim ),변명섭 ( Myeong Seop Byeon ) 한국하천호수학회(구 한국육수학회) 2015 생태와 환경 Vol.48 No.2
Abstract Siniperca scherzeri is major target species for restocking and restoration project as it is one of the economic species in South Korea. In this study, to investigate their ecological characteristics movement pattern and habitat characteristic of S. scherzeri were analyzed using radio telemetry. Three specimens released during spawning season, moved more than 10 km toward upstream from the release site. Whereas the remains released after spawning season, settled within 400 m of their release site except two specimens (Ss 11, 3.2 km; Ss, 15, 1.4 km). One of possible reason of upstream movement during spawning season is reproduction. The conditions of their settlement area is similar with reference conditions of their spawning ground. S. scherzeri were mainly detected near the edge of the water, and it may related with the facts that rocks are mainly located at the edge of the water and S. scherzeri prefers rocks for their shelter. AMD (Accumulated movement distance) positively related with body weight and condition factor K, but no significant relationship was identified with gender and total length. Daily movement boundary of S. scherzeri was 214.94 m2~3,257.19 m2, and their movement was restricted near the edge of the water. The results of this study could be useful to restocking and restoration.
낙동강 상류에 서식하는 열목어의 일주기 이동 패턴 연구
김정희 ( Jeong Hui Kim ),윤주덕 ( Ju Duk Yoon ),조현빈 ( Hyunbin Jo ),장민호 ( Min Ho Jang ) 한국하천호수학회(구 한국육수학회) 2015 생태와 환경 Vol.48 No.2
To investigate seasonal (summer and fall) daily movement of Brachymystax lenok tsinlingensis that inhabit in upper part of the Nakdong River, we attached radio tags to seven individuals (summer: BL1-2; fall: BL3-7) and monitored them at an interval of 2 h. The survey results revealed that the average movement distance per day (m) (±SD) of B. l. tsinlingensis was 182.4±79.2 m, and most of the individuals migrated within 1 km as their habitat boundary. The maximum movement distance per day (m) and the home range (m) during summer season were 550.5±75.5 m and 649±53 m, respectively, compared to 283.8±55.1 m and 186±32 m during fall season. From these findings, it can be inferred that B. l. tsinlingensis exhibits seasonal changes in the distance of daily movement; however, it generally covers short distances without leaving the habitat boundaries during both seasons. The seasonal daily movement of B. l. tsinlingensis established in this study is expected to be useful in preserving their population.