논문 상세보기

인공증식된 멸종위기종 여울마자의 포식 위험원 노출에 따른 포식자 인지 변화 KCI 등재

Change of Predator Recognition Depends on Exposure of Predation Risk Source in Captive Breed Endangered Freshwater Fish, Microphysogobio rapidus

  • 언어KOR
  • URLhttps://db.koreascholar.com/Article/Detail/429281
구독 기관 인증 시 무료 이용이 가능합니다. 4,000원
생태와 환경 (Korean Journal of Ecology and Environment)
초록

Captive breeding and reintroduction are crucial strategies for conserving endangered species populations. However, fish raised in predator-free environments, show a lack of recognition of predationrelated stimuli such as chemical and visual signals. It is critical to recognize chemical signals from injured conspecifics, also known as alarm signals, and the order or shape of predators to indicate the spread of predation risk in the habitat. We conducted a laboratory experiment to determine and adjust the optimal exposure period to induce appropriate anti-predator behavior response to different types of stimuli (Chemical, Visual and Chemical+Visual) for the endangered species Microphysogobio rapidus. Our results demonstrate that predator avoidance behavior varies depending on the types of stimuli and the duration of predation risk exposure. First, the results showed captive-breed M. rapidus show lack of response against conspecific alarm signal (Chemical cue) before the predation risk exposure period and tend to increase response over predation risk exposure time. Second, response to predator (visual cue) tend to peak at 48 hours cumulative exposure, but show dramatic decrease after 72 hours cumulative exposure. Finally, response to the mixed cue (Chemical+visual) tend to peak prior to the predation risk exposure period and show reduced response during subsequent exposure periods. This experiment confirms the lack of responsiveness to conspecific alarm signals in captive-bred M. rapidus and the need for an optimal nature behavior enhancement program prior to release of endangered species. Furthermore, responsiveness to predator visual signal peak at 48 hours cumulative exposure, suggest an optimal predation risk exposure period of up to 48 hours. Key words: predator cognition, captive breeding, chemical signal, visual signal, endangered

목차
서 론
재료 및 방 법
    1. 수중 포식위험 자극원 노출 실험
    2. 행동 분석 실험
    3. 분석
결 과
고 찰
적 요
저자
  • 허문성(국립생태원 멸종위기종복원센터) | Moon-Seong Heo (Research Center for Endangered Species, National Institute of Ecology, Yeongyang 36531, Republic of Korea)
  • 장민호(공주대학교 생물교육과) | Min-Ho Jang (Department Biology Education, Kongju National University, Gongju 32588, Republic of Korea)
  • 윤주덕(국립생태원 멸종위기종복원센터) | Ju-Duk Yoon (Research Center for Endangered Species, National Institute of Ecology, Yeongyang 36531, Republic of Korea) Corresponding author