台灣大學漁業科學研究所

研究重點：

研究重點：

ㄧ、鰻魚資源與生態研究

(1) 鰻魚資源長期監測

(2) 鰻苗來游量預測

(3) 鰻魚生物地理學

(3) 鰻魚資源管理與復育

 

二、鰻魚繁養殖研究

(1) 日本鰻人工繁殖

(2) 鰻魚基因體/轉錄體學研究

(3) 室內循環水養鰻系統開發

(4) 鰻魚膏狀飼料與添加劑的研發

 

三、白蝦室內漁電共生養殖技術開發

(1) 藻菌絮團養殖白蝦

(2) 室內循環水系統養殖白蝦

(3) 白蝦有機養殖技術開發

 

四、翡翠水庫生態研究

(1) 水庫魚類相監測

(2) 水庫浮游動物相監測

(3) 水庫生態系的長期變遷

 

近年執行之研究計畫：

研究主題： ㄧ、鰻魚資源與生態研究 (1) 鰻魚資源長期變遷與波動機制 (2) 鰻魚生物地理學 (3) 鰻魚資源管理與復育   二、白蝦室內漁電共生養殖技術開發 (1) 藻菌絮團養殖白蝦 (2) 室內循環水系統養殖白蝦   三、翡翠水庫生態研究 (1) 水庫魚類相監測 (2) 水庫浮游動物相監測 (3) 水庫生態系的長期變遷   近年研究成果簡介 鰻苗來游與生物地理分布機制: 鰻苗來游與其生物地理分布，受許多環境因子與生物因子影響，如北赤道洋流分岔點波動、黑潮入侵流強弱、仔魚期長短、以及沿岸水溫等等所控制。以日本鰻與鱸鰻為例，兩者在馬里亞納群島西方海域進行繁殖，而孵化出來的柳葉鰻會從產卵場隨著北赤道洋流、黑潮、民答那峨洋流以及東亞沿岸流，歷經數個月的漂送後，變態成為鰻苗進入東亞/東南亞沿岸，因此海流對於鰻苗的輸送與分布有很大的影響。而因鱸鰻之平均柳葉期較日本鰻者為短，因此鱸鰻較早變態，分布在菲律賓為主，日本鰻則分布在緯度較高的東亞 (台日韓中) 為主，研究成果已刊登於期刊 Marine Biology, PLoS ONE, Fisheries Oceanography, Zoological Studies, MEPS 等。     5個主要的來游區塊: (1) 黑潮區; (2) 台灣海峽暖流區; (3) 台灣暖流區; (4) 黃海暖流區; (5) 黃海暖流分支區。研究成果已刊登於期刊 Sustainability。     (2010-2020) 捕撈數據，歸納出台灣地區的日本鰻鰻苗的來游和時間序列，與周邊三種海流密切相關，當鰻苗在冬季時隨著黑潮經過台灣地區時最早加入的一批鰻苗，隨著黑潮主流經由台灣東部由南向北進入宜蘭地區，而另一部分鰻苗則藉由台灣海峽南端的黑潮支流，經巴士海峽到達高屏地區，並沿著台灣西海岸北上穿越台灣海峽。而加入至台灣中北部的玻璃鰻，則是來自台灣南部以及中國沿岸流的輸送。而反聖嬰年時，較強的季風可能會影響玻璃鰻加入至台灣北部和東部的時間序列。研究成果已刊登於知名期刊 Fisheries Oceanography 與 Journal of Marine Science and Engineering。     10-20度之低水溫，因此當水溫過熱或是過冷時，即會抑制鰻苗之上溯，形成鐘形上溯曲線; 而鱸鰻苗上溯時，偏好攝氏 >25度之水溫，低溫 <15度時會死亡，因此冬季漂送至東亞陸棚之鱸鰻苗，因遭逢低溫而死亡，僅能在台灣東岸上溯。而在夏季時，因台灣海峽受南海暖流佔據，黑潮入侵流勢力減弱，阻擋了鱸鰻苗之輸送，因此鱸鰻苗集中在台灣東部地區和南部屏東的枋山溪以南，研究成果已刊登於知名期刊 PLoS ONE。       日本鰻鰻苗資源波動預測: 日本鰻為台灣重要的經濟養殖魚種。然而，由於養鰻產業完全依賴天然鰻苗之供給，因此鰻苗的資源榮枯，決定了產業的永續發展性。近三十年來，日本鰻鰻苗之產量長期趨勢，不但有明顯下降之現象，每年鰻苗的資源量還因為某些未知的理由，而有高度波動的現象，一直以來困擾著整個東亞的鰻魚產業。實驗室近年來深入探討日本鰻資源的短期與長期變遷現象，分析生物因子與環境因子對每年日本鰻鰻苗來游量波動之影響，已成功建構日本鰻之資源預測模型，近4年皆於日本養殖新聞發布當年度鰻苗來游情形之預測，連續4年皆成功預測當年度鰻苗來游量的豐歉，現今已成為東亞鰻魚業最重要的評估報告，對鰻魚產業之穩定發展具有重大影響。   利用衛星遙測技術來評估東亞地區鰻魚河川棲地品質: 本實驗室多年來積極投入東亞日本鰻資源變動與長期變遷之研究，持續針對東亞鰻苗的洄游動態，進行大規模的監測調查，建立了長期資源監測資料庫。並利用衛星遙測技術 (ArcGIS)，結合鰻魚資源生態調查，快速估計東亞地區各河川鰻魚有效棲地指數 (HQI) 的歷史變遷，發現東亞地區日本鰻棲地被破壞程度達 75% 以上，研究成果已刊登於知名期刊 Estuarine, Coastal and Shelf Science，備受國內外重視。由於日本鰻資源自1970年代即快速下降，鰻魚資源的保育與管理政策，近年來受到國際關注，本人亦受政府委託，研擬台灣地區鰻魚資源復育之管理政策，並屢次於國際會議呼籲東亞各國禁捕野生成鰻，已獲得高度共識並積極推動。   種鰻增殖放流及其效益評估: 鰻魚於降海洄游時具有晝夜垂直洄游的行為。本實驗室針對台灣常見的三種鰻魚：日本鰻、鱸鰻以及太平洋雙色鰻，進行上浮式衛星標籤的放流，發現鰻魚在不同的太陽高度角，會呈現不同的日間垂直洄游深度；在不同的月相週期，亦會呈現不同的夜間垂直洄游深度。鰻魚的晝夜垂直洄游行為，和光照強度之間有密切相關。此外，數據顯示放流鰻在大洋中的移動，養殖鰻或野生鰻均順著黑潮進行移動，洄游行為及路徑並無顯著差異。   日本鰻轉錄體與基因體的組裝: 本實驗室與中研院資訊所林仲彥老師合作，利用新世代定序技術，建構臺灣原生種鰻魚轉錄體與生物學資訊服務平台，包括台灣四種原生種的鰻魚:日本鰻、鱸鰻、太平洋雙色鰻、呂宋鰻。我們成功組裝出日本鰻之轉錄體與基因體，提供各界基礎研究所需之資料，可協助與鰻魚相關的生理機制研究的進行，對台灣鰻魚產業發展有所貢獻。   日本鰻人工繁殖技術的開發: 由於鰻魚為目前廣泛養殖的魚種中，唯一尚必須利用野生苗作為種苗來源的魚種，形成產業發展上之主要瓶頸。尤其近年來鰻魚資源量嚴重下降，因此，進行日本鰻人工繁殖技術的研發，為鰻魚養殖產業永續發展之關鍵之一，對於鰻魚生態保育上，亦具有積極的意義。本研究室多年來與利生生技公司產學合作，積極進行日本鰻人工繁殖技術的開發，結合實驗室過去對鰻魚銀化機轉之研究，以及近年來參加鰻魚產卵場調查所收集樣本，進行日本鰻高通量轉錄體定序，建構鰻魚生活史全階段之轉錄體序列資料庫，亦利用此平台，分析胚胎與幼苗的發育、營養的代謝與吸收、免疫功能、以及變態機制等等，提供日本鰻人工繁殖技術開發的基礎，釐清日本鰻在人工環境下成熟受到抑制之原因。研究團隊已於 2024 年成功培育出台灣第一隻人工繁殖之日本鰻鰻苗，提升我國在水產研究上的實力與能見度。   新型循環水養殖系統建置: 台灣傳統養殖已面臨瓶頸，必須邁向低碳、節能、節水的智慧化養殖。本實驗室研究團隊近年來積極投入室內型漁電共生的養殖系統研發，已開發出新型鰻魚循環水養殖系統，具有低成本、低耗能、智能化、環境友善等優點，可完美結合室內漁電共生廠，提供室內水產養殖整合解決方案。此外，實驗室正積極開發結合生物絮團與循環水之心型室內養蝦系統，解決目前台灣室內型漁電共生養殖之困境。目前已有金屬工業中心海洋創新園區、民間漁電共生廠採用我們團隊的新型循環水養殖系統解決方案，未來會積極推廣至全台以及全世界。團隊陸續榮獲U-start績優團隊、聯發科技智在家鄉團隊入選等佳績。   農業廢棄物再循環利用: 本實驗室研究團隊與雲林縣大埤鄉合作，將酸菜醃漬廢液進行生物循環再利用，培養藻菌絮團與餌料生物，作為雲嘉在地養殖戶水產養殖生物 (文蛤) 之餌料，可大幅降低養殖生產成本與處理酸菜醃漬廢水。研究成果榮獲嘉義縣「創新創意競賽」第一名、東元科技「2023淨零碳排科技國際競賽」第五名等佳績。2025 年進一步與雲林縣合作，擬建立全國第一座酸菜醃漬廢液之生物循環再利用示範工廠，將醃漬廢水製作成商用培養餌料生物之肥料，可大幅減少酸菜醃漬廢液對當地土壤與水源的危害。   翡翠水庫魚類多樣性研究:     臺北翡翠水庫管理局自1987年水庫啟用以降遂持續建立水質資料，並於1988年起執行含魚類等水生動物監測計畫，針對水庫9處採樣點，結合傳統漁具法及環境DNA (eDNA) 技術進行調查，並比較歷年文獻資料。結果顯示，翡翠水庫內魚類相組成已發生顯著變化，尤其外來魚種花身副麗魚 (珍珠石斑) 數量持續增長，並成為優勢物種，對原生魚類如大眼華鯿及吻鰕虎產生顯著影響。相較傳統漁具法之調查結果，eDNA的調查分析則彰顯翡翠水庫內仍有相當可觀的原生魚種種類，如臺灣鏟頜魚 (苦花)、鱸鰻、日本鰻、香魚等不易由傳統漁具法捕獲之魚種，更甚也記錄到過去難以鑑定之物種，如臺灣吻鰕虎、大吻蝦虎等。此外，eDNA的調查結果亦顯示庫區有過去未有紀錄的強勢外來入侵種大口黑鱸。   參與學術組織會員: 1. IUCN鰻魚評估小組專家 2. 東亞鰻魚學會 (East Asian Eel Society, EASEC) 3. 亞洲水產學會 4. 台灣水產學會 5. 台灣魚類學會 6. 中華民國海洋學會     近5年執行之研究計畫： 計 畫 名 稱 擔任工作 起迄年月 委託機構 尋找與人工繁殖之柳葉鰻成長相關的分子標記 (產學合作) (08HTB45001) 計畫主持人 2019/04/01- 2020/03/31 利生生技 雲林六輕化學災害影響地區農漁業影響調查和環境管理系統建置計畫-化學災害對養殖漁業的損害調查 (108農科-1.2.1-科-m3) (109農科-1.2.1-科-m3) 共同主持人 2019/04/15- 2020/12/31 農委會 日本鰻人工繁殖之關鍵技術開發與整合 -以高成長、性別決定和良好激素反應相關之基因標誌建立日本鰻種鰻篩選技術 (MOST 108-2321-B-002-071) 計畫總主持人 2019/10/01- 2020/09/30 科技部 促進鰻苗成長與增強免疫力之最適LED波長光照 (產學合作) (09HTB45001) 計畫主持人 2020/01/01- 2020/12/31 億光科技 日本鰻棲地之長期變遷與資源評估 (MOST 109-2313-B-002-001-MY2) 計畫主持人 2020/08/01- 2022/07/31 科技部 臺灣沿近海鰻苗捕撈熱點及慣用漁法調查暨作業遭遇危險因子評估 (110漁管-2.17-政-03) 計畫主持人 2021/06/01- 2021/12/31 農委會 日本鰻柳葉鰻苗人工繁殖之飼料配方研究及開發 (產學合作) (111HTB45001) 計畫主持人 2022/01/01- 2022/12/31 利生生技 臺灣沿近海鰻苗來游機制與洋流之相關性分析 (111漁管-2.37-政-02) 計畫主持人 2022/03/01- 2022/12/31 農委會 111年食農教育推廣計畫 (一般型-社會組) (111農再-1.2.2-1.1-輔-015) 計畫主持人 2022/04/01- 2022/12/31 農委會 北赤道洋流/黑潮之短中長期變遷對日本鰻鰻苗輸送與分布之影響 (MOST 111-2313-B-002-016-MY3) 計畫主持人 2022/08/01- 2025/07/31 科技部 大埤鄉酸菜專業區醃漬廢水生物循環回收再利用計畫專業服務委託工作 (產學合作) (111BTB45002) 計畫主持人 2022/11/02- 2023/04/30 雲林縣政府 臺灣地區日本鰻鰻苗來游分析以及日本水產流通適正化法對臺灣鰻苗管理之影響評估 (112漁管-2.37-政-03) 計畫主持人 2023/02/01- 2023/12/31 農委會 日本鰻鰻苗人工繁殖之飼料配方研究及開發 (產學合作) (112HTB45002) 計畫主持人 2023/06/01- 2024/05/31 利生生技 112年大專院校農村實踐共創計畫: 農漁共生趣 - 活餌一把罩 (112農再-1.1.1-1.1-保-114) 計畫主持人 2023/07/01- 2023/11/30 水保署 113年大專院校農村實踐共創計畫: 農漁共生趣 - 活餌一把罩 (113農再-1.1.1-1.1-保-114) 計畫主持人 2024/01/01- 2024/11/30 水保署 翡翠水庫水生動物與水質關係監測案 (113BTB45001) 計畫主持人 2024/03/01- 2024/12/20 翡翠水庫管理局 以eDNA偵測技術評估台灣河川日本鰻資源量 (113漁管-2.36-沿-03) 計畫主持人 2024/02/01- 2024/12/31 農委會 翡翠水庫水生動物與水質關係監測案 (114BTB45001) 計畫主持人 2025/02/01- 2025/12/20 翡翠水庫管理局 日本鰻鰻苗人工繁殖之飼料配方研究及開發 (產學合作) (114HTB45002) 計畫主持人 2025/03/01- 2026/04/30 利生生技 114年度年度雲林縣大埤鄉酸菜專業區農剩餘資材再利用應用研究及示範計畫 共同主持人 2025/04/01- 2026/04/30 雲林縣政府 以eDNA偵測技術評估台灣河川日本鰻資源量 (114漁管-2.3-沿-01) 計畫主持人 2025/05/01- 2025/12/31 農委會 日本鰻Anguilla japonica 無危害評估 (NDF) 之研究 (114農科-6.4.1-漁-04) 計畫主持人 2025/08/01- 2025/12/31 農委會 以環境DNA評估東亞河川的日本鰻與鱸鰻資源現況，並探討影響河川鰻魚資源量之主要因子 (NSTC 114-2313-B-002 -048 -MY3) 資源量之主要因子 計畫主持人 2025/08/01- 2028/07/31 國科會   開設課程: 水產養殖技術 水產概論 洄游性魚類專題討論 專題研究 (碩博士班)

 

開設課程:

水產養殖技術

水產概論

洄游性魚類專題討論

專題研究 (碩博士班)

1. 實驗室簡介

       本實驗室主要的研究物種為鰻魚 (genus Anguilla)，是一種陸海之間的洄游性魚類，成魚在海洋中產卵，孵化的幼苗藉由洋流的漂送，再將其送回大陸棚附近，接著就會進行變態，變態過後的鰻苗會經由河口上溯到河川棲地生長，幾年之後，長成的個體會再回到出生地海洋中產卵，完成其生活史。台灣地區最常見的鰻魚為日本鰻 (A. japonica) 與鱸鰻 (A. marmorata)。近年來，因棲地惡化、過度捕撈、以及全球氣候變遷等因素，使得鰻魚資源量大幅度下降。但是，日本鰻的人工繁殖技術目前尚無法達到商業化規模的量產，所以鰻魚養殖產業所需的鰻苗，仍完全依賴天然鰻苗之捕捉，因此，為了確保鰻魚資源的永續利用，以及鰻魚養殖產業的永續發展，我們實驗室積極的研究: (1) 東亞地區鰻苗的來游機制；(2) 利用衛星遙測技術與eDNA來評估東亞地區鰻魚河川棲地品質與豐度；(3) 鰻魚資源保育與管理策略；(4) 日本鰻的人工繁殖技術。

       此外，為了解決台灣室內漁電共生廠的養殖瓶頸與亂象，實驗室近年積極開發出高效/低成本之超級約循環水養殖系統，用來進行鰻魚與白蝦等物種之養殖。另外，實驗室自2024年起，開始投入翡翠水庫水質與生態研究，進行水庫魚類相與浮游動物相之監測，分析水庫生態系的健康程度與長期變遷。

    

   研究專長: 鰻魚資源與生態、水產養殖學、淡水魚類生態學

著作:

SCI學術期刊:

1. Shyu BC*, Han YS, Yen JT (1995). Spinal pathways of nociceptive information evoked by short CO2 laser pulse in rats. Chinese Journal of Physiology 38(1): 27-33. (SCI, IF=1.4, PHYSIOLOGY 71/79)

 

2. Han YS, Yu CH, Yu HT, Chang CW, Liao IC, Tzeng WN* (2002). The exotic American eel in Taiwan: Ecological implications. Journal of Fish Biology 60(6): 1608-1612. (Short Communication) (NSC-89-2313-B002-077) (SCI, IF=2.1, FISHERIES 25/55, MARINE & FRESHWATER BIOLOGY 38/108 (35%))

 

3. Han YS, Yu JYL* (2002). Molecular cloning and sequence analysis of the cDNAs for pituitary glycoprotein hormone α subunits from two species of Synbranchiformes, Monopterus albus and Ophisternon bengalense. Fish Physiology and Biochemistry 26(2): 111-120. (SCI, IF=2.7, FISHERIES 14/55 (25%), PHYSIOLOGY 38/79, BIOCHEMISTRY & MOLECULAR BIOLOGY 197/285)

 

4. Han YS, Liao IC, Huang YS, He JT, Chang CW, Tzeng WN* (2003). synchronous changes of morphology and gonadal development of silvering Japanese eel Anguilla japonica. Aquaculture 219(1-4): 783-796. (NSC 89-2313-B056-008 and 90AS -1.4.5-FA-F1-36) (SCI, IF=4.1, FISHERIES 7/55, MARINE & FRESHWATER BIOLOGY 8/108 (7%))

 

5. Han YS, Liao IC, Huang YS, Tzeng WN, Yu JYL* (2003). Profiles of PGH-α, GTH I-β, and GTH II-β mRNA transcript levels at different ovarian stages in the wild female Japanese eel Anguilla japonica. General and Comparative Endocrinology 133(1): 8-16. (NSC 89-2313-B056-008 and NSC 90-2313-B056- 005 and 90AS -1.4.5-FA-F1-36) (SCI, IF=2.2, ZOOLOGY 30176 (17%), ENDOCRINOLOGY & METABOLISM 118/143)

 

6. Han YS, Yu JYL, Liao IC, Tzeng WN* (2003). Salinity preference of the silvering Japanese eel Anguilla japonica: evidences from the pituitary prolactin mRNA levels and otolith strontium/calcium ratios. Marine Ecology Progress Series 259: 253-261. (90AS -1.4.5-FA-F1-36 and 91AS -2.5.1-FA-F1-8) (SCI, IF=2.5, MARINE & FRESHWATER BIOLOGY 26/108 (24%), OCEANOGRAPHY 28/62, ECOLOGY 84/171)

 

7. Han YS, Liao IC, Tzeng WN, Huang YS, Yu JYL* (2003). Serum estradiol-17β and testosterone levels during silvering of the wild Japanese eel Anguilla japonica. Comparative Biochemistry and Physiology A 136(4): 911-918. (NSC 89-2313-B056-008 and NSC 90-2313-B056-005) (SCI, IF=2.2, PHYSIOLOGY 53/79, ZOOLOGY 30/176 (17%), BIOCHEMISTRY & MOLECULAR BIOLOGY 230/285)

 

8. Han YS, Liao IC, Tzeng WN, Yu JYL* (2004). Cloning of the cDNA for thyroid stimulating hormone β subunit of the Japanese eel Anguilla japonica and changes in transcription levels and circulating levels of thyroxine during silvering of the wild females. Journal of Molecular Endocrinology 32(1): 179-194. (90AS -1.4.5-FA-F1-36 and 91AS -2.5.1-FA-F1-8) (SCI, IF=4.9, ENDOCRINOLOGY & METABOLISM 41/143 (29%))

 

9. Chien CH, Huang LH, Chou CY, Chen YS, Han YS, Chang GG, Liang PH, Chen X* (2004). One site mutation disrupts dimer formation in human DPP-IV proteins. Journal of Biological Chemistry 279(50): 52338-52345. (SCI, IF=4.4, BIOCHEMISTRY & MOLECULAR BIOLOGY 92/285 (32%))

 

10. Han YS, Chang GG, Juo CG, Lee HJ, Yeh SH, Hsu JTA, Chen X* (2005). Papain-like protease 2 (PLP2) from severe acute respiratory syndrome coronavirus (SARS-CoV): Expression, purification, characterization, and inhibition. Biochemistry 44(30): 10349-10359. (SCI, IF=2.8, BIOCHEMISTRY & MOLECULAR BIOLOGY 185/285)

 

11. Han YS, Tzeng WN* (2006). Use of the sex ratio as a means of resource assessment for the Japanese eel Anguilla japonica: A case study in the Kaoping River, Taiwan. Zoological Studies 45(2): 255-263. (90AS-1.4.5-FA-F1-36 and 91AS-2.5.1- FA-F1-8) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

12. Chu YW, Han YS^§, Wang CH, You CF, Tzeng WN^* (2006). The sex-ratio reversal of the Japanese eel Anguilla japonica in the Kaoping River of Taiwan: The effect of cultured eels and its implication. Aquaculture 261(4): 1230-1238. (NSC 94-2313-B-002-070) (SCI, IF=4.1, FISHERIES 7/55, MARINE & FRESHWATER BIOLOGY 8/108 (7%)) (§:co-first author)

 

13. Han YS, Tzeng WN* (2007). Sex-dependent habitat use by the Japanese eel Anguilla japonica in Taiwan. Marine Ecology Progress Series 338: 193-198. (NSC 94-2313-B-002-070 and 94 AS-14.12-FA-F1-5) (SCI, IF=2.5, MARINE & FRESHWATER BIOLOGY 26/108 (24%), OCEANOGRAPHY 28/62, ECOLOGY 84/171)

 

14. Chang KC^§, Han YS^§, Tzeng WN* (2007). Population genetic structure among intra-annual arrival waves of the Japanese eel Anguilla japonica in northern Taiwan. Zoological Studies 46(5): 583-590. (NSC 94-2313-B-002-070 and 94 AS-14.12- FA-F1-5) (SCI, IF=1.5, ZOOLOGY 69/176 (39%)) (§:co-first author)

 

15. Hsu CC, Han YS, Tzeng WN* (2007). Evidence of flathead mullet Mugil cephalus L. spawning in waters northeast of Taiwan. Zoological Studies 46(6): 717-725. (NSC 93-2313-B-002-054 and 94-2313-B-002-040) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

16. Chou CY, Chien CH, Han YS, Prebanda MT, Hsieh HP, Turk B, Chang GG, Chen X* (2008). Thiopurine analogues inhibit papain-like protease of severe acute respiratory syndrome coronavirus. Biochemical Pharmacology 75: 1601-1609. (NSC 95-2320-B-010-013 and 93-2751-B-400-002-Y and 95-3112-B-400-010) (SCI, IF=5.2, PHARMACOLOGY & PHARMACY 47/274 (17%))

 

17. Han YS*, Chang YT, Taraschewski FH, Chang SL, Chen CC, Tzeng WN* (2008). The swimbladder parasite Anguillicola crassus in native Japanese eels and exotic American eels in Taiwan. Zoological Studies 47(6): 667-675. (NSC 95-2313-B-002-027 and NSC 95-2313-B-002-119) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

18. Han YS*, Sun YL, Liao YF, Shen KN, Liao IC, Tzeng WN* (2008). Temporal analysis of population genetic composition in the overexploited Japanese eel Anguilla japonica. Marine Biology 155(6): 613-621. (NSC 95-2313-B-002-027 and NSC 95-2313-B-002-119) (SCI, IF=2.3, MARINE & FRESHWATER BIOLOGY 33/108 (31%))

 

19. Han YS*, Chang YT, Tzeng WN (2009). Variable habitat use by Japanese eel affects dissemination of swimbladder parasite Anguillicola crassus. Aquatic Biology 5: 143-147. (NSC 95-2313-B-002-019 and NSC 96-2313-B-002-008) (SCI, IF=2.0, MARINE & FRESHWATER BIOLOGY 43/108 (40%))

 

20. Han YS*, Tzeng WN, Liao IC (2009). Time Series Analysis of Taiwanese Catch Data of Japanese Glass Eels Anguilla japonica: Possible Effects of the Reproductive Cycle and El Niño Events. Zoological Studies 48(5): 632-639. (NSC 96-2313-B-002-038) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

21. Heitlinger EG*, Laetsch DR, Weclawski U, Han YS, Taraschewski H (2009). Massive encapsulation of larval Anguillicoloides crassus in the intestinal wall of Japanese eels. Parasites & Vectors 2:48-58. (NSC 96-2313-B-002-038) (SCI, IF=3.3, TROPICAL MEDICINE 4/24 (17%), PARASITOLOGY 9/39)

 

22. Han YS*, Iizuka Y, Tzeng WN (2010). Variable habitat use by Japanese eel: a behavioral plasticity or a heritable character? Zoological Studies 49(3): 392-397. (NSC 95-2313-B-002 -119 and NSC 96-2313-B-002- 038) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

23. Kania PW, Taraschewski H, Han YS, Cone DK, Buchmann K* (2010). Divergence between Asian, European and Canadian populations of the monogenean Pseudodactylogyrus bini indicated by ribosomal DNA patterns. Journal of Helminthology 84 (4): 404-409. (NSC 96-2313- B-002-038) (SCI, IF=1.4, PARASITOLOGY 26/39, ZOOLOGY 78/176)

 

24. Han YS*, Hung CL, Liao YF, Tzeng WN (2010). Population Genetic Structure of the Japanese Eel Anguilla japonica: Panmixia in Spatial and Temporal Scales. Marine Ecology Progress Series 401:221-232. (NSC 96-2313-B-002-038, NSC 97-2621-B-002 -011, and 98 AS-10.3.1-F2-5) (SCI, IF=2.5, MARINE & FRESHWATER BIOLOGY 26/108 (24%), OCEANOGRAPHY 28/62, ECOLOGY 84/171)

 

25. Han YS*, Hung CL, Iizuka Y, Chang HC, Chang BJ, Ho HC, Shiao JC (2010). Does Larval Duration Contribute to Population Genetic Isolation of the Japanese Eel Anguilla japonica? Fisheries Management and Ecology 17(4): 366-368. (NSC 96-2313-B-002- 038, NSC 97-2621-B-002 -011, and 98 AS-10.3.1-F2-5) (SCI, IF=2.0, FISHERIES 27/55)

 

26. Han YS* (2011). Temperature-dependent recruitment delay of the Japanese glass eel Anguilla japonica in East Asia. Marine Biology 158(10): 2349-2358. (NTU 98R0314, NSC 99-2923-B-002-005 and NSC 99-2313-B-002-021) (SCI, IF=2.3, MARINE & FRESHWATER BIOLOGY 33/108 (31%))

 

27. Tzeng WN, Tseng YH^*, Han YS, Hsu CC, Chang CW, Lorenzo ED, Hsieh CH ^*(2012). Evaluation of multi-scale climate effects on annual recruitment levels of the Japanese eel, Anguilla japonica, to Taiwan. PLoS One 7(2): e30805. (SCI, IF=3.3, MULTIDISCIPLINARY SCIENCES 26/72 (36%))

 

28. Han YS*, Zhang H, Tseng YH*, Shen ML, Hung CL (2012). Larval Japanese eel (Anguilla japonica) as sub-surface current bio-tracers on the East Asia continental shelf. Fisheries Oceanography 21(4): 281-290. (NTU 98R0314, NSC 99-2923-B-002-005 and NSC 99-2313-B-002-021) (SCI, IF=2.6, FISHERIES 16/55 (29%), OCEANOGRAPHY 24/62)

 

29. Han YS*, Yambot AV, Zhang H, Hung CL (2012). Sympatric spawning but allopatric distribution of Anguilla japonica and Anguilla marmorata: temperature- and oceanic current-dependent sieving. PLoS One 7(6): e37484. (NSC 99-2923-B-002-005 and NSC 99-2313-B-002-021) (SCI, IF=3.3, MULTIDISCIPLINARY SCIENCES 26/72 (36%))

 

30. Weclawski U, Heitlinger EG, Baust T, Klar B, Petney T, Han YS, Taraschewski H* (2013). Evolutionary divergence of the swim bladder nematode Anguillicola crassus after colonization of a novel host, Anguilla anguilla. BMC Ecology and Evolution 13:78 doi:10.1186/1471-2148-13-78. (SCI, IF=2.3, EVOLOGY 93/171, GENETICS & HEREDITY 111/169, EVOLUTIONARY BIOLOGY 31/52)

 

31. Lien HW, Yang CH, Cheng CH, Hung CC, Liao WH, Hwang PP, Han YS^*, Huang CJ^* (2013) A novel zinc finger protein 219-like (ZNF219L) is involved in the regulation of collagen type 2 alpha 1a (col2a1a) gene expression in zebrafish notochord. International Journal of Biological Sciences 9(9):872-886. (SCI, IF=8.3, BIOCHEMISTRY & MOLECULAR BIOLOGY 36/285 (13%))

 

32. Leander NJ, Tzeng WN*, Yeh NT, Shen KN, Han YS (2013) Effects of metamorphosis timing and the larval growth rate on the latitudinal distribution of sympatric freshwater eels, Anguilla japonica and A. marmorata, in the western North Pacific. Zoological Studies 52:30. (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

33. Lien HW, Yang CH, Cheng CH, Liao YF, Han YS^*, Huang CJ^* (2013) Zinc finger protein 219-like (ZNF219L) and Sox9a regulate synuclein-g2 (sncgb) expression in the developing notochord of zebrafish. Biochemical and Biophysical Research Communications 442(3-4):189-194. (SCI, IF=2.7, BIOCHEMISTRY & MOLECULAR BIOLOGY 197/285, BIOPHYSICS 38/70)

 

34. Huang YC, Han YS* (2014) Determining anti-betanodavirus compounds through a GF-1 cell-based screening platform. Antiviral Research 105:47-53. (SCI, IF=5.0, VIROLOGY 8/36, PHARMACOLOGY & PHARMACY 52/274 (19%))

 

35. Chen JZ, Huang SL, Han YS* (2014) Impact of long-term habitat loss on the Japanese eel Anguilla japonica. Estuarine Coastal and Shelf Science 151:361-369. (NSC 102-2321-B-002 -073, NSC 102-2628-B-002 -023 -MY3, and 102 AS-11.2.1-FA-F4(2)) (SCI, IF=2.8, MARINE & FRESHWATER BIOLOGY 18/108 (17%), OCEANOGRAPHY 18/62)

 

36. Weclawski U, Heitlinger E, Baust T, Klar B, Petney T, Han YS, Taraschewski H (2014) Rapid evolution of Anguillicola crassus in Europe: species diagnostic traits are plastic and evolutionarily labile. Frontiers in Zoology 11:74. (SCI, IF=2.6, ZOOLOGY 15/176 (9%))

 

37. Aoyama J*, Yoshinaga T, Shinoda A, Yambot AV, Han YS (2015) Seasonal changes in species composition of glass eels of the genus Anguilla (Teleostei: Anguillidae) recruiting to the Cagayan River, Luzon Island, the Philippines. Pacific Science 69(2):263-270. (NSC 102-2321-B-002 -073, NSC 102-2628-B-002 -023 -MY3, and 102 AS-11.2.1-FA-F4(2)) (SCI, IF=0.8, MARINE & FRESHWATER BIOLOGY 87/108, ZOOLOGY 139/176)

 

38. Huang YC, Lin TS, Peng C, Chan NL, Han YS* (2015) Strong inhibition of betanodavirus replication by ribavirin targeting RNA-dependent RNA polymerase. Journal of Fish Diseases (Short Communication) DOI: 10.1111/jfd.12398 (SCI, IF=2.4, FISHERIES 19/55, MARINE & FRESHWATER BIOLOGY 28/108, VETERINARY SCIENCES 29/142 (20%))

 

39. Hsu HY^§, Chen SH^§, Cha YR, Tsukamoto K, Lin CY*, Han YS* (2015) De novo assembly the whole transcriptome of the wild embryo, preleptocephalus, leptocephalus, and glass eel of Anguilla japonica and deciphering the digestive and absorptive capacities during early development. PLoS One 10(9): e0139105. doi:10.1371/journal. pone.0139105 (SCI, IF=3.3, MULTIDISCIPLINARY SCIENCES 26/72 (36%))

 

40. Han YS*, Lin YF, Wu CR, Iizuka Y, Castillo TR, Yambot IU, Mamalangkap MD, Yambot AV (2016) Biogeographic distribution of the eel Anguilla luzonensis: dependence upon larval duration and oceanic currents. Marine Ecology Progress Series 551: 227-238. doi: 10.3354/meps11728 (NSC 102-2628-B-002 -023 -MY3) (SCI, IF=2.5, MARINE & FRESHWATER BIOLOGY 26/108 (24%), OCEANOGRAPHY 28/62, ECOLOGY 84/171)

 

41. Han YS*, Wu CR, Iizuka Y (2016) Batch-like arrival waves of glass eels of Anguilla japonica in offshore waters of Taiwan. Zoological Studies 55:36. (NSC 102-2628-B-002 -023 -MY3) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

42. Hsu A*, Xue H, Chai F, Xiu P, Han YS (2017) Variability of the Pacific North Equatorial Current and its implications on Japanese eel (Anguilla japonica) larval migration. Fisheries Oceanography 26(3):251-267. doi:10.1111/fog.12189 (SCI, IF=2.6, FISHERIES 16/55 (29%), OCEANOGRAPHY 24/62)

 

43. Lin YF, Wu CR*, Han YS (2017) A combination mode of climate variability responsible for extremely poor recruitment of the Japanese eel (Anguilla japonica). Scientific Reports 7:44469. DOI: 10.1038/srep44469 (NSC 102-2628-B-002 -023 -MY3) (SCI, IF=4.3, MULTIDISCIPLINARY SCIENCES 20/72 (28%))

 

44. Lin YJ*, Tzeng WN, Han YS, Roa-Ureta RH (2017) A stock assessment model for transit stock fisheries with explicit immigration and emigration dynamics: application to upstream waves of glass eels. Fisheries Research 195: 130-140. (SCI, IF=2.4, FISHERIES 19/55 (35%))

 

45. Chang YLK*, Miyazawa Y, Béguer-Pon M, Han YS, Ohashi K, Sheng J (2018) Physical and biological roles of mesoscale eddies in Japanese eel larvae dispersal in the western North Pacific Ocean. Scientific Reports 8:5013. DOI:10.1038/s41598-018-23392-5 (SCI, IF=4.3, MULTIDISCIPLINARY SCIENCES 20/72 (28%))

 

46. Hsiung KM,* Kimura S, Han YS, Takeshige A, Ilzuka Y (2018) Effect of ENSO events on larval and juvenile duration and transport of the Japanese eel (Anguilla japonica). PLoS One 13(4):e0195544. DOI:10.1371/journal.pone.0195544 (NSC 102-2628 -B-002 -023 -MY3) (SCI, IF=3.3, MULTIDISCIPLINARY SCIENCES 26/72 (36%))

 

47. Hsu HY, Chang FC, Wang YB, Chen SH, Lin CY, Han YS* (2018) Revealing the compositions of the intestinal microbiota of three Anguillid eel species by using 16S rRNA metagenomics. Aquaculture Research 00:1-12. DOI:10.1111/are.13700  (NSC 102-2628 -B-002 -023 -MY3) (SCI, IF=2.2, FISHERIES 23/55)

 

48. Chen SC, Chang CR, Han YS* (2018) Seaward migration routes of Anguilla japonica, A. marmorata, and A. bicolor pacifica via satellite tags. Zoological Studies 57:21. (NSC 102-2628-B-002 -023 -MY3, and 106AS-11.3.4-FA-F1(1)) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

49. Igarashi Y, Zhang H, Tan E, Sekino M, Yoshitake K, Kinoshita S, Mitsuyama S, Yoshinaga T, Chow S, Kurogi H, Shinoda A, Han YS, Wakiya R, Mochioka N, Yamamoto T, Kuwada H, Kaji Y, Suzuki Y, Gojobori T, Kobayashi T, Saitoh K, Watabe S, Asakawa S* (2018) Whole-genome sequencing of 84 Japanese eels reveals evidence against panmixia and support for sympatric speciation. GENE 9:474. DOI:10.3390/genes9100474  (SCI, IF=3.3, GENETICS & HEREDITY 74/169)

 

50. Chen F, Lai F, Luo M, Han YS, Cheng H*, Zhou R* (2019) The genome-wide landscape of small insertion and deletion mutations in Monopterus albus. Journal of Genetics and Genomics 46:75-86. (SCI, IF=5.8, GENETICS & HEREDITY 25/169 (15%); Biochemistry and Molecular Biology 59/285)

 

51. Han YS*, Hsiung KM, Zhang H*, Chow LY, Tzeng WN, Shinoda A, Yoshinaga T, Hur SP, Hwang SD, Iizuka Y, Kimura S (2019). Dispersal characteristics and pathways of Japanese glass eel in the East Asian Continental Shelf. Sustainability 11(9): 2572. doi.org/10.3390/su11092572 (105R203315, 106R203307, 107L2033-04, NSC 102-2628-B -002-023-MY3, MOST 105-2313-B-002-030, MOST 106-2313-B-002-036-MY3, 106AS-11.3.4-FA-F1) (SCI, IF=3.6, ENVIRONMENTAL　SCIENCE　119/275; ENVIRONMENTAL STUDIES 56/128；GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY 42/53)

 

52. Huang B, Wang ZX, Zhang C, Zhai SW, Han YS, Huang WS*, Nie P* (2019). Identification of a novel RIG-I isoform and its truncating variant in Japanese eel, Anguilla japonica. Fish & shellfish immunology 94: 373-380. (SCI, IF=4.2, VETERINARY SCIENCES 6/142 (4%); MARINE & FRESHWATER BIOLOGY 7/108; FISHERIES 6/55; IMMUNOLOGY 72/160)

 

53. Zhang B, Ye Y, Ye W, Perčulija V, Jiang H, Chen Y, Li Y, Chen J, Lin J, Wang S, Chen Q, Han YS, Ouyang S* (2019). Two HEPN domains dictate CRISPR RNA maturation and target cleavage in Cas13d. Nature Communication 10:2544. https://doi.org/10.1038/s41467-019-10507-3 (SCI, IF=16.1, MULTIDISCIPLINARY SCIENCES 5/72 (7%))

 

54. Hsu HY, Chen HW, Han YS* (2019). Habitat partition and its possible genetic background between two sympatrically distributed eel species in Taiwan. Zoological Studies 58:27. doi:10.6620/ZS.2019.58-27 (NSC 102-2628-B-002 -023 -MY3, MOST 105-2313-B-002-030, MOST 106-2313-B-002 -036 -MY3, 106AS-11.3.4-FA-F1) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

55. Kuroki M, Miller MJ, Feunteun E, Sasal Pierre, Pikering T, Han YS, Faliex E, Acou A, Dessier A, Schabetsberger R, Watanabe S, Kawakami T, Onda H, Higuchi T, Takeuchi A, Shimizu M, Hewavitarane CA, Hagihara S, Taka T, Kimura S, Mochioka N, Otake T, Tsukamoto K (2019). Distribution of anguillid leptocephali and possible spawning areas in the South Pacific Ocean. Progress in Oceanography 180:102234. https://doi.org/10.1016/j.pocean.2019.102234 (SCI, IF=4.4, OCEANOGRAPHY 5/63 (7.9%))

 

56. Barth JMI, Gubili C, Matschiner M, Tørresen OK, Watanabe S, Egger B, Han YS, Feunteun E, Sommaruga R, Jehle R, Schabetsberger R (2020). Stable Species Boundaries Despite Ten Million Years of Hybridization in Tropical Eels. Nature Communication 11:1433. https://doi.org/10.1038/s41467-020-15099-x

(SCI, IF=16.1, MULTIDISCIPLINARY SCIENCES 5/72 (7%))

 

57. Itakura H, Wakiya R, Sakata M, Hsu HY, Chen SC, Yang CC, Huang YC, Han YS, Yamamoto S, Minamoto T (2020). Estimations of riverine distribution, abundance and biomass of anguillid eels in Japan and Taiwan using environmental DNA analysis. Zoological Studies 59:17. doi:10.6620/ZS.2020.59-17 (NSC 102-2628-B-002 -023 -MY3, MOST 105-2313-B-002-030, MOST 106-2313-B-002 -036 -MY3, 106AS-11.3.4-FA-F1)

  (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

58. Huang YC^§, Li ZK^§, Chen WL, Chan CC, Hsu HY, Lin YT, Han YS* (2021). First record of the invasive biofouling mussel Mytella strigata (Bivalvia: Mytilidae) from clam ponds in Taiwan. BioInvasions Records 10(2): 204-312. (MOST 106-2313-B-002 -036 -MY3, MOST 109-2313-B-002 -001 -MY2, 108AS-1.2.1-ST-m3, 109AS-1.2.2-ST-m1) (SCI, IF=1.5, BIODIVERSITY CONSERVATION 38/64)

 

59. Hsiung KM, Lin YT, Han YS* (2022) Current Dependent Dispersal Characteristics of Japanese Glass Eel around Taiwan. Journal of Marine Science and Engineering 10: 98. https://doi.org/10.3390/jmse10010098 (MOST 106-2313-B-002-036-MY3; MOST 109-2313-B-002-001-MY2, 110-FRM-2.17-G-03) (SCI, IF=2.8, Engineering, Marine 5/16 (31%), Engineering, Ocean 6/16, OCEANOGRAPHY 18/62)

 

60. Hsiung KM^§, Ma J^§, Ko CY^§, Tseng YH, Kuo YC, Han YS* (2022). Effects of environmental factors within the spawning area and migration routes on the length of Anguilla japonica glass eels recruited to Taiwan. Marine Ecology Progress Series 683: 109-121. DOI: https://doi.org/10.3354/meps13931 (NSC 102-2628-B-002 -023 -MY3, MOST 105-2313-B-002-030, MOST 106-2313-B-002 -036 -MY3, 106AS-11.3.4-FA-F1) (SCI, IF=2.5, MARINE & FRESHWATER BIOLOGY 26/108 (24%), OCEANOGRAPHY 28/62, ECOLOGY 84/171)

 

61. Hsiung KM^§, Kuo YC^§, Lin YT, Tseng YH*, Han YS* (2022). North Equatorial Current and Kuroshio velocity variations affect body length and distribution of the Japanese eel Anguilla japonica in Taiwan and Japan. Scientific Reports 12: 2888. DOI: 10.1038/s41598-022-06669-8 (MOST 106-2313-B-002-036-MY3; MOST 109-2313-B-002 -001-MY2, 110-FRM-2.17-G-03) (SCI, IF=4.3, MULTIDISCIPLINARY SCIENCES 20/72 (28%))

 

62. Lu YM^§, Shih CH^§, Chen PC*, Kao WC, Lee YC, Han YS, Tzeng TD* (2022). Phylogeography and Genetic Structure of the Swimming Crabs Portunus sanguinolentus (Herbst, 1783) in East Asia. Journal of Marine Science and Engineering 10(2): 281. https://doi.org/10.3390/jmse10020281 (SCI, IF=2.8, Engineering, Marine 5/16 (31%), Engineering, Ocean 6/16, OCEANOGRAPHY 18/62)

 

63. Miller MJ*, Shimizu M, Aoyama J, Watanabe S, Kuroki M, Feunteun E, Onda H, Higuchi T, Takeuchi A, Han YS, Sasal P, Jellyman D, Schabetsberger R, Kimura S, Mochioka N, Otake T, Tsukamoto K (2022). Distribution and abundance of leptocephali in the western South Pacific region during two large-scale sampling surveys. Progress in Oceanography 206: 102853. https://doi.org/10.1016/j.pocean.2022.102853 (SCI, IF=4.0, OCEANOGRAPHY 9/62 (15%))

 

64. Lu YM, Shih CH*, Chen PC*, Kao WC, Lee YC, Han YS, Tzeng TD* (2022). Genetic variations and expansion of blue swimmer crab Portunus pelagicus in Southeast Asia. Journal of Marine Science and Engineering 10(8): 1071. https://doi.org/10.3390/jmse10081071 (SCI, IF=2.8, Engineering, Marine 5/16 (31%), Engineering, Ocean 6/16, OCEANOGRAPHY 18/62)

 

65. Hou EJ, Huang CS, Lee YC, Han YS*, Chu HT* (2022). Using the concept of circular economy to reduce the environmental impact of COVID-19 face mask waste. Sustainable Materials and Technologies 33: e00475. doi:10.1016/j.susmat.2022.e00475 (SCI, IF=9.5, ENERGY & FUELS 16/121 (13%), GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY 12/53, MATERIALS SCIENCE, MULTIDISCIPLINARY 49/342)

 

66. Lin YT, Chang FC, Chung MT, Li ZK, Chen WL, Chan CC, Huang YS, Huang KF*, Han YS* (2022). Evaluation of the potential heavy metals in the hard clam shell which can be used as the bio-indicator. Fishes 7(5): 290. https://doi.org/10.3390/fishes7050290 (MOST 109-2313-B-002 -001 -MY2, 108AS-1.2.1-ST-m3, 109AS-1.2.2-ST-m1, MOST 111-2313-B-002-016-MY3) (SCI, IF=2.4, FISHERIES 19/55; MARINE & FRESHWATER BIOLOGY 28/108 (26%))

 

67. Hsu HY, Lin CY, Han YS* (2023). Identification of sexually dimorphic genes in pectoral fin as molecular markers to predict the gender of Japanese silver eels (Anguilla japonica).

  Zoological Studies 62: 2 doi:10.6620/ZS.2023.62-02 (MOST 107-2321-B-002-057, MOST 108-2321-B-002-071, MOST 111-2313-B-002-016-MY3) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

68. Lin YT, Hung WC, Yeh YF, Lu KM, Cherng DH, Han YS* (2023). Effects of different LED light spectra on growth and immunity of the Japanese eel (Anguilla japonica) and giant mottled eel (A. marmorata). Zoological Studies 62: 28 doi:10.6620/ZS.2023.62-28 (09HTB45001, MOST 109-2313-B-002 -001 -MY2, MOST 111-2313-B-002-016-MY3) (SCI, IF=1.5, ZOOLOGY 69/176 (39%))

 

69. Kao WC, Chang PH, Shih CH*, Chen PC, Tzeng TD, Han YS*, Lu YM (2023).   Morphometric differentiation of the swimming crab (Portunus sanguinolentus) populations in East Asia: implications for stock identification and management. Water 15: 3335 https://doi.org/10.3390/w15193335 (MOST 111-2313-B-002-016-MY3) (SCI, IF=3.3, ENVIRONMENTAL SCIENCES 136/275; WATER RESOURCES 35/99 (35%))

 

70. Hsu HY, Wu KJ, Han YS* (2023). Detecting Japanese Eels (Anguilla japonica) and Revealing Their Distribution in Taiwanese Rivers by Environmental DNA Analysis. Fishes 8: 483 https://doi.org/10.3390/fishes8100483 (MOST 111-2313-B-002-016-MY3) (SCI, IF=2.4, FISHERIES 19/55; MARINE & FRESHWATER BIOLOGY 28/108 (26%))

 

71. Lin YT, Pan YF, Han YS* (2023). Effects of adding spermidine carbon quantum dots in feed on growth, intestinal morphology, immunity and disease resistance of Anguilla japonica and Anguilla marmorata. Aquaculture Reports 33: 101847 (MOST 111-2313-B-002-016-MY3) (SCI, IF=3.5, FISHERIES 10/62 (16%))

 

72. Chen VY*, Lu DJ, Han YS* (2024). Hybrid intelligence for marine biodiversity: Integrating citizen science with AI for enhanced intertidal conservation efforts at Cape Santiago, Taiwan. Sustainability 16: 454. https://doi.org/10.3390/su16010454 (MOST 111-2313-B-002-016-MY3) (SCI, IF=3.6, ENVIRONMENTAL　SCIENCE　119/275; ENVIRONMENTAL STUDIES 56/128；GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY 42/53)

 

73. Chen VY, Wu YW, Hu CW, Han YS* (2024). Enhancing green sea turtle (Chelonia mydas) conservation for tourists at Little Liuqiu island, Taiwan: Application of deep learning algorithms. Ocean & Coastal Management 252: 107111. https://doi.org/10.1016/j.ocecoaman.2024.107111 (MOST 111-2313-B-002-016-MY3) (SCI, IF=4.2, OCEANOGRAPHY 5/62 (8%)；WATER RESOURCES 25/99)

 

74. Lin YT, Hung YC, Chen LH, Lee KT, Han YS* (2024). Effects of adding Bacillus subtilis natto NTU-18 in paste feed on growth, intestinal morphology, gastrointestinal microbiota diversity, immunity, and disease resistance of Anguilla japonica glass eels. Fish and Shellfish Immunology 149: 109556. doi: 10.1016/j.fsi.2024.109556. (MOST 111-2313-B-002-016-MY3) (SCI, IF=4.2, VETERINARY SCIENCES 7/167 (4%); MARINE & FRESHWATER BIOLOGY 7/119; FISHERIES 6/62; IMMUNOLOGY 74/181)

 

75. Lin YT, Han YS* (2024). Species diversity of freshwater glass eel (Anguilliformes: Anguillidae) of Yilan, Taiwan, with remark on two new records. Zookeys 1220: 5-14. DOI: 10.3897/zookeys.1220.125590 (MOST 111-2313-B-002-016-MY3) (SCI, IF=1.2, ZOOLOGY 75/182)

 

76. Hsu HY, Han YS* (2024). A migratory lifecycle model of Anguilla anguilla: A mirror symmetry with A. japonica. Journal of Fish Biology 1-19. DOI: 10.1111/jfb.15966 (MOST 111-2313-B-002-016-MY3) (SCI, IF=2.1, FISHERIES 25/55, MARINE & FRESHWATER BIOLOGY 38/108 (35%))

 

77. Lin YT, Hsu HY, Han YS* (2024). Evaluation of different initial feed on growth performance, intestinal morphology and microbiota diversity, immunity response, and disease resistance of pacific short-finned glass eel, Anguilla bicolor pacifica. Aquaculture Reports 39: 102436. https://doi.org/10.1016/j.aqrep.2024.102436 (MOST 111-2313-B-002-016-MY3) (SCI, IF=3.5, FISHERIES 10/62 (16%))

 

78. Chen WL*, Tai HY, Chan CC, Lin HC, Hung TH, Tsai MH, Wei CC, Han YS, Shen CC (2024). Changes in the small molecule fingerprints of rice planted near an industrial explosion site in Taiwan. Environmental Science and Pollution Research. https://doi.org/10.1007/s11356-024-35565-z (108農科-1.2.1-科-m3; 109農科-1.2.1-科-m3) (SCI, IF=5.4, ENVIRONMENTAL SCIENCES 67/275 (24%))

 

79. Lin YT, Lin CH, Han YS* (2025). A southernmost record of the Pacific black scabbardfish Aphanopus arigato (Scombriformes, Trichiuridae) from the South China Sea. Journal of the Marine Biological Association of the United Kingdom 105: e3. doi:10.1017/S002531542400119X (MOST 111-2313-B-002-016-MY3) (SCI, IF=1.2, MARINE & FRESHWATER BIOLOGY 78/108)

 

80. Lin YT, Lin YH, Han YS* (2025). Cirrhimuraena taiwanensis sp. nov., a new species of cirri-bearing eel (Anguilliformes, Ophichthidae) from Yilan, northeastern Taiwan. Zookeys 1224: 129-140. https://doi.org/10.3897/zookeys.1224.141248 (MOST 111-2313-B-002-016-MY3) (SCI, IF=1.2, ZOOLOGY 75/182)

 

81. Kuroki M*, Hayasaka S, Nishida K, Ishimura T, Okamura A, Yamada Y, Han YS, Shirai K (2025). Reconstructing the experienced temperature during the larval oceanic migration of anguillid eels from otolith stable oxygen isotope. Scientific Reports 15: 1584. https://doi.org/10.1038/s41598-025-85523-z (SCI, IF=4.3, MULTIDISCIPLINARY SCIENCES 25/135 (19%))

 

82. Lin YT, Han YS* (2025). From the Atlantic-Mediterranean to the Western Pacific: first record of potentially harmful invasive gilthead sea bream (Sparus aurata) in the Northern Taiwan. Marine Pollution Bulletin 212: 117551. doi: 10.1016/j.marpolbul.2025.117551. (MOST 111-2313-B-002-016-MY3) (SCI, IF=6.1, ENVIRONMENTAL SCIENCES 60/275, MARINE & FRESHWATER BIOLOGY 2/108 (2%))

 

83. Kao WC, Shih CH, Sung YC*, Chen PC, Lu YM, Han YS*, Chu TJ, Tzeng TD (2025). Morphometric diversity and population structure of the crucifix crab (Charybdis feriatus) in East Asian recreational fisheries. Water 17(5): 688. https://doi.org/10.3390/w17050688. (MOST 111-2313-B-002-016-MY3) (SCI, IF=3.3, ENVIRONMENTAL SCIENCES 136/275; WATER RESOURCES 35/99 (35%))

 

84. Lin YF, Yu JY*, Wu CR , Han YS, Lo MH, Terng CT,  Liau JM, Lee TH, Xiao HM (2025). Evolving El Niño patterns and their potential to transform California market squid (Doryteuthis opalescens) fishing environment. Journal of Geophysical Research-Oceans 130 (5): e2024JC021951. https://doi.org/10.1029/2024JC021951 (SCI, IF=4.2, OCEANOGRAPHY 5/62 (8%))

 

85. Shiraishia H*, Han YS, Kaifu K (2025). Eel consumption in Japan: insights from genetic species identification and trade data. Fisheries Science https://doi.org/10.1007/s12562-025-01894-2. (SCI, IF=1.8, FISHERIES 37/61)  

 

86. Kaifu K*, Han YS, Shiraishia H (2025). Global consumption of threatened freshwater eels revealed by integrating DNA barcoding, production data, and trade statisticse data. Scientific Reports 15: 29968. https://doi.org/10.1038/s41598-025-15458-y. (SCI, IF=4.3, MULTIDISCIPLINARY SCIENCES 25/135 (19%))

 

87. Lin YT, Chang CH, Han YS*, Lin CH* (2025). Revision of Armoreye dory genus Zenion (Zeiformes: Zeniontidae) in the South China Sea, with descriptions of a new species. Journal of Fish Biology 1-12. DOI: 10.1111/jfb.70202 (MOST 111-2313-B-002-016-MY3, NSTC 114-2313-B-002 -048 -MY3) (SCI, IF=2.3, FISHERIES 25/61, MARINE & FRESHWATER BIOLOGY 43/120 (36%))

 

88. Lin YT*, Lin YH, Hou JC, Yang HY, Han YS* (2025). First and Northernmost Record of the Invasive Redhead Cichlid (Vieja melanurus) in East Asia: Evidence from Taipei City, Northern Taiwan. Biological Invasions 27: 212. https://doi.org/10.1007/s10530-025-03669-3 (MOST 111-2313-B-002-016-MY3, NSTC 114-2313-B-002 -048 -MY3) (SCI, IF=2.9, BIODIVERSITY CONSERVATION 21/74, ECOLOGY 77/200 (39%))

 

89. Kaifu K*, Itakura H, Kotani T, Shinoda A, Han YS, Yoshinaga T, Wakiya R (2025). A decade after being listed as Endangered: Japanese eel stock inferred from fishery-dependent and independent monitoring records. Regional Studies in Marine Science 90: 104456. https://doi.org/10.1016/j.rsma.2025.104456 (SCI, IF=2.4, MARINE & FRESHWATER BIOLOGY 29/119 (24%), ECOLOGY 90/200)

 

90. Lin YT*, Lin YH, Shiu YW, Han YS* (2025). Morphological and molecular evidence reveal the Sarotherodon melanotheron invasion off Taiwan, East Asia. Marine Pollution Bulletin 222: 118898. https://doi.org/10.1016/j.marpolbul.2025.118898 (NSTC 114- 2313-B-002-048-MY3) (SCI, IF=6.1, ENVIRONMENTAL SCIENCES 60/275, MARINE & FRESHWATER BIOLOGY 2/108 (2%))

 

91. Lin YT, Hsu HY, Lin YH, Yang HY, Chen YR, Han YS* (2025). Northernmost record of invasive jaguar cichlid (Parachromis managuensis) in East Asia: Ecological implications for native species in Feitsui Reservoir, Taiwan. Aquatic Conservation: Marine and Freshwater Ecosystems 35: e70264. https://doi.org/10.1002/aqc.70264. (NSTC 114- 2313-B-002-048-MY3) (SCI, IF=2.7, ENVIRONMENTAL SCIENCES 255/376, MARINE & FRESHWATER BIOLOGY 39/120 (33%))

 

92. Tseng PK, Tsai ML, Xu LX, Chen MM, Lai YH, Han YS*, Su FJ* (2026). A study of the sea cucumber, Holothuria Scabra, co-cultured with clams, Meretrix taiwanica, in Taiwan. Aquaculture International (In Press). (SCI, IF=2.7, FISHERIES 18/61 (30%))

 

學術會議口頭報告/壁報:

1. Han YS, Yu JYL (2000). Cloning of the cDNA for pituitary glycoprotein hormone α- subunit in a swamp eel (Ophisternon bengalensis McClelland). In Fourth Congress of the Asia and Oceania Society for Comparative Endocrinology. May 14-18, 2000, Academia Sinica, Taipei, Taiwan, ROC, p 80.

 

2. Han YS, He JT, Chang CW, Tzeng WN, Liao IC (2000). Changes in morphology, gonad development and muscle composition of silvering Japanese (Anguilla japonica) in the Kaoping River of southern Taiwan. In Concurrent Symposium of Aquaculture Sci- Tech and Utilization of Aquatic Bioresources in Food Industry. (Kuo CM ed.). Dec. 16-17, National Taiwan Ocean University, Keelung, Taiwan, ROC.

 

3. Han YS, Tzeng WN, Liao IC (2001). Evolutional scenario of the genus Anguilla based on the analysis of multiple genes. In Proceedings of the International Symposium: Advances in Eel Biology. (K. Aida, K. Tsukamoto and K. Yamauchi eds.). Yayoi Auditorium, university of Tokyo, Japan. Sep. 28-30, 2001. pp.152-154.

 

4. Han YS, Huang YS, Liao IC, Tzeng WN (2001). Age and energy store of the silvering Japanese eel in the Kaoping River of southwestern Taiwan. In Asian Fisheries Society, 6^th Asian Fisheries Forum, Book of Abstracts, Kaohsiung, Taiwan, 25-30 Nov., p 89.

 

5. 曾萬年、韓玉山、曾美珍、蕭仁傑 (2001).河川鰻魚資源的復育計劃之研究. In 漁業技術及資源管理研討會. 九十年度行政院農業委員會科技計畫研究報告, pp. 221-226.

 

6. 韓玉山, 廖一久, 曾萬年, 黃永森, 余玉林 (2002). 日本鰻黃體激素互補基因之選殖以及野生雌鰻卵巢發育過程中各促性腺激素次單元之表現. In 2002年魚類學學術研討會暨中華民國魚類學會91年會員大會. 26-27 June, National Taiwan University, Taipei, Taiwan, p 96.

 

7. 韓玉山、曾萬年 (2002). 利用性比估計台灣河川日本鰻之資源現況. In 台灣省水產學會九十一年度會員大會暨學術論文發表會. 14-15 December 2002, National Taiwan University, Taipei, Taiwan, pp. C3-4.

 

8. 曾萬年、韓玉山 (2002). 鰻魚的資源評估及保育之研究. In 漁業技術及資源管理研討會. 九十一年度行政院農業委員會科技計畫研究報告, pp. 49-53.

 

9. Han YS, Yu JYL, Liao IC, Tzeng WN (2003). Salinity preference of the silvering Japanese eel (Anguilla japonica): Evidences from the pituitary prolactin mRNA levels and otolith strontium/calcium ratios. In North Pacific Marine Science Organization (PICES) XII Annual Meeting, Seoul, Korea.

 

10. Lee HR, Han YS, Chen X (2005). Kinetic property and substrate selectivity of papain-like protease 2 (PLP2) from severe acute respiratory syndrome coronavirus (SARS-CoV). In Thirteenth Symposium on Recent Advances in Cellular and Molecular Biology. 26-27 Feb., Yoho Hotel, Pingtung, Taiwan, p 227.

 

 

11. Han YS, Tzeng WN (2005). Resource assessment of the Japanese eel Anguilla japonica by sex ratio: a case study in the Kaoping River of southwestern Taiwan. Analysis and interpretation of otolith elemental fingerprints. In The 7^th Indo-Pacific Fish Conference, 16-20 May 2005, Taipei, Taiwan, p S25-03.

 

12. Han YS, Tzeng WN, Liao IC (2005).

Gonadotropin induced synchronous changes    of morphology and gonadal development in the Japanese eel Anguilla japonica. In The 7^th Indo-Pacific Fish Conference. 16-20 May, Howard International House, Taipei, Taiwan, p

  

   224.

 

13. Han YS, Tzeng WN (2006). Use of the sex ratio as a means of resource assessment for the Japanese eel: A case study in the Kaoping River of Taiwan. In Symposium on Population Genetics, Stock Assessment and Restocking of the Freshwater Eel & The Annual Meeting for the Collaborative Study on the Application of Genetic and Microchemical Markers as Implements for Diadromous and Endangered Commercial Fish Species Populations Management (GMM project) among Lithuania – Latvia – Taiwan, 5-6 July, Taipei, Taiwan, p 14.

 

14. Han YS, Tzeng WN (2006). Gonadotropin induced synchronous changes of morphology and gonadal development in the Japanese eel (Anguilla japonica). In The VII^th International Congress on the Biology of Fish. 18-22 July, St. Jonh’s, Canada, p

 116.

 

15. Han YS, Tzeng WN (2006). Sex-dependent habitat use of the Japanese eel Anguilla japonica in Taiwan. In International Council for the Exploration of the Sea (ICES) Annual Science Conference 2006. 19–23 September, Maastricht Exhibition and Congress Centre, the Netherlands, J: 09.

 

16. Han YS, Chang YT, Taraschewski FH, Chang SL, Chen CC, Tzeng WN (2007). Diverse infective patterns of swimbladder parasite Anguillicola crassus in native Japanese eels and exotic American eels in Taiwan. In Asian Fisheries Society, 8^th Asian Fisheries Forum, Book of Abstracts, 20-23 Nov., Cochi, India, p 32.

 

17. 江俊億, 韓玉山, 曾萬年 (2007). Investigation of Angiogenesis-related genes expression in gas glands from wild Japanese eels. In 台灣省水產學會九十六年度會員大會暨學術論文發表會. 15-16 December 2007, National Sun Yat-Sen University, Kaohsiung, Taiwan, p 207.

 

18. 陳雅玫, 韓玉山, 黃永森 (2007). In 台灣省水產學會九十六年度會員大會暨學術論文發表會. 15-16 December 2007, National Sun Yat-Sen University, Kaohsiung, Taiwan, p 129.

 

19. 韓玉山, 張雅婷, Horst F. Taraschewski, 張賜玲, 陳哲俊, 曾萬年 (2007). 線鰾蟲在台灣本地種日本鰻與外來種美洲鰻中之感染研究. In 第一屆海峽兩岸「魚類生理與養殖」學術研討會. 18-19 Dec., National Taiwan Ocean University, Keelung, Taiwan, pp. 42-43.

 

20. 林靖婷, 韓玉山, 李宏仁, 卓群恭, 陳新 (2007). IGF-I is a substrate of prolyl dipeptidase DPP-IV. In 第二十二屆生物醫學聯合學術年會.17-18 Mar., 國防大學國防醫學院, Taipei, Taiwan, p296.

 

21. 鄭再宏, 許立人, 孫慶姝, 黃立豪, 韓玉山, 張固剛, 黃明經, 陳新 (2007). The transmembrane domain of DPP-IV is the third dimerization interface. In 第二十二屆生物醫學聯合學術年會.17-18 Mar., 國防大學國防醫學院, Taipei, Taiwan, p301.

 

22. Lin CT, Chien CH, Tseng B, Juo CG, Han YS, Chen X (2008). IGF-I is a substrate of prolyl dipeptidase DPP-IV. Clin Chem Lab Med 46(4): A30. In 3rd International Conference on Dipeptidyl Peptidase and Related Proteins. Antwerp, Belgium, April 23-25, 2008.

 

 

 

23. 韓玉山, 孫宇樑, 廖怡芬, 曾萬年 (2008). 日本鰻族群遺傳結構之時空分析. In 第二屆海峽兩岸「魚類生理與養殖」學術研討會. 13-18 Oct., Institute of Hydrobiology, The Chinese Academy of Sciences, Wuhan, China, p 60.

 

24. Han YS, Sun YL, Liao YF, Liao IC, Shen KN, Tzeng WN (2008). Population genetic structure of the Japanese eel in temporal scale in Taiwan. In 5^th World Fisheries Congress. Fisheries for Global Welfare and Environmental Conservation. 20-25 Oct., Yokohama, Japan, p 279.

 

25. Hipolito SG, Han YS (2008). Expression profiles of growth and gonadotropin hormones in yellow stage Japanese eel, Anguilla japonica. In 2008 台灣水產學會學術論文發表會. 20 December 2008, National Taiwan University, Taipei, Taiwan, p 85.

 

26. Han YS, Tzeng WN, Liao IC (2008). Eel resource management: Population genetic structure analysis and catch forecast of the Japanese eel elvers. In Innovations in Marine Biotechnology and Bioresources for Sustainable Development. Taiwan-Australia Aquaculture, Fisheries Resource and Management Forum IV. 16-22 Dec., National Taiwan Ocean University, Keelung, Taiwan, pp. 71-72.

 

27. Han YS (2009). The Japanese eel resource management. In Symposium on Current Research Trends in Fisheries Biology. 20 Jan., Freshwater Aquaculture Center - College of Fisheries, Central Luzon State University, Science City of Muñoz, Nueva Ecija, Philippines.

 

28. Hung CL, Han YS, Sun YL, Liao YF, Tzeng WN (2009). Population genetic structure of the Japanese eel in East Asia In: Symposium on Current Research Trends in Fisheries Biology. 20 Jan., Freshwater Aquaculture Center-College of Fisheries, Central Luzon State University, Science City of Muñoz, Nueva Ecija, Philippines.

 

29. Chang BJ, Han YS, Tzeng WN (2009). Fluctuation analysis of the recruitment of Japanese glass eel: possible effect of biotic and abiotic factors. In: Symposium on Current Research Trends in Fisheries Biology. 20 Jan., Freshwater Aquaculture Center-College of Fisheries, Central Luzon State University, Science City of Muñoz, Nueva Ecija, Philippines.

 

30. Han YS, Tzeng WN (2009) Diverse Habitat use by the Japanese eel is a phenotypic plasticity affecting the dispersal of swimbladder parasite Anguillicola crassus. In 8th Indo Pacific Fish Conference and 2009 ASFB Workshop & Conference. Perth, Australia, 31 May – 5 June., p A139.

 

31. 韓玉山 (2009). 日本鰻的養殖與資源管理. In第三屆海峽兩岸「魚類生理與養殖」學術研討會. 19-21 Oct., National Taiwan Ocean University, Keelung, Taiwan, pp. 142-143.

 

32. 韓玉山、曾萬年 (2009). 日本鰻的資源管理. In 2009台日鰻魚資源與養殖管理講習研討會. 臺灣區鰻蝦輸出業同業公會. 4-5 Nov., Chiayi, Taiwan, pp. 50-58.

 

33. 洪佳伶、韓玉山 (2009). Seasonal composition of anguillid glass eels at Taiwan. In 2009台灣水產學會學術論文發表會. 19-20 December 2009, National Kaohsiung Marine University, Kaohsiung, Taiwan, p 41.

 

34. 黃怡誠、韓玉山 (2009). Anti-Nervous Necrosis Virus Drug Screening Using Fish Cell Line. In 2009台灣水產學會學術論文發表會. 19-20 December 2009, National Kaohsiung Marine University, Kaohsiung, Taiwan, p 149.

 

35. 李桂香、韓玉山 (2009). The Resources Management of the Japanese eel. In 2009台灣水產學會學術論文發表會. 19-20 December 2009, National Kaohsiung Marine University, Kaohsiung, Taiwan, p 154.

 

36. Han YS (2010). The Japanese eel resource management. In International Symposium on Eel Culture and Trade: Sustainable Aquaculture and Marketing Prospects of Eels. 05 Feb., Freshwater Aquaculture Center - College of Fisheries, Central Luzon State University, Science City of Muñoz, Nueva Ecija, Philippines, pp. 17-20.

 

37. Han YS (2010). Population genetic structure of the Japanese eel and its resource management. In International Symposium on Eel 2010: Advances in Reproductive Ecology, Physiology and Artificial Production of the Japanese Eel & The 13th annual meeting of East Asia Eel Resource Consortium (EASEC). 24-25 June 2010, Atmosphere and Ocean Research Institute, the University of Tokyo, Kashiwa, Chiba, Japan, p 3.

 

38. 洪佳伶、韓玉山 (2010).日本鰻族群遺傳結構之時空分析. In 2010台灣水產學會學術論文發表會. 11 December 2010, National Taiwan Ocean University, Keelung, Taiwan, p 145.

 

39. 黃怡誠、韓玉山 (2010). 魚類神經壞死症病毒之藥物開發及其活性評估. In 2010台灣水產學會學術論文發表會. 11 December 2010, National Taiwan Ocean University, Keelung, Taiwan, p 3.

 

40. Leander NJ, Han YS, Chen RT, and Tzeng WN (2010). Species composition and

seasonal occurrence of tropical eel (Anguilla spp.) in the estuary of Hsiukuluan River, with reference to the revision of the Anguillid eel species found in Taiwan. The First Cross-Strait Workshop on Marine Biodiversity, November 4-7, 2010, Xiamen, China

 

41. Han YS (2011). Recruitment mechanism of the Japanese glass eel Anguilla japonica in 

   East Asia. In 9^th Asian Fisheries & Aquaculture Forum (9AFAF). 21^st – 25^th April 2011,

   Shanghai Ocean University, Shanghai, China, p 216.

 

42. 黃怡誠、張鴻鈞、韓玉山 (2011). 以石斑魚鰭細胞株及青將魚進行魚類神經壞死症病毒抑制劑之篩選及確效. In 2011台灣水產學會學術論文發表會. 3rd December 2011, National Sun Yat-Sen University, Kaohsiung, Taiwan, p 144.

 

43. 韓玉山 (2012). Dispersal of the Larval Japanese eel (Anguilla japonica) in East Asia: sub-surface current dependent transportation. In 6^th World Fisheries Congress. 7-11 May 2012, EICC, Edinburgh, UK. e-poster 120504AB.

 

44. Han YS (2012). Dispersal of the Larval Japanese eel (Anguilla japonica) in East Asia: Temperature and Oceanic Current- Dependent Recruitment. In 2012 ASLO Aquatic Sciences Meeting. 8-13 July, Lake Biwa, Shiga, Japan, p 57.

 

45. Han YS (2012). Dispersal of the Larval Japanese eel (Anguilla japonica) in East Asia: Temperature and Oceanic Current- Dependent Recruitment. In 第九屆海峽兩岸海洋科學研討會, 31 Aug – 4 Sep.,武夷山,中國.

 

46. Han YS (2012). Fisheries status and management of the Japanese eel. In 臺日漁業科研 

  合作諮商會議暨研討會. 06-09 Nov., 長崎,日本.

 

47. 韓玉山、吳朝榮 (2012). 以ENSO預報臺灣冬季西海岸之鰻苗來游豐度. In 第四屆海峽兩岸海洋環境監測及預報技術研討會. 10-11 Nov., 金門大學,金門.

 

48. Han YS (2012). Fisheries status and management of the Japanese eel. In 15^th EASEC 東亞鰻魚研討會, 海洋大學. 27-29 Nov.,基隆.

 

49. Han YS (2013). 日本鰻生態與資源之研究. In海峽兩岸漁業資源青年科學家研討會. 13-14 Sep., 福州海峽會議中心,福州.

 

50. Han YS (2013). Eel conservation in Taiwan. In 16^th EASEC 東亞鰻魚研討會, 東京大

學. 1st Dec., Tokyo, Japan.

 

51. 黃怡誠、韓玉山 (2014). 化學遺傳研究法顯示單胺類神經傳導系統可能與魚類神經

   壞死症病毒之感染有關. In 2014台灣水產學會學術論文發表會. 18th January 2014,

   國立嘉義大學, 嘉義, p 60.

 

52. 許翔奕、韓玉山、林仲彥 (2014). 利用次世代定序來解讀日本鰻的卵、前柳葉鰻、

   柳葉鰻的轉錄體並探討其仔稚魚的消化代謝模式. In 2014台灣水產學會學術論文發

   表會. 18th January 2014, 國立嘉義大學, 嘉義, p 109.

 

53. 韓玉山 (2014). 日本鰻的資源保育: 談台灣鰻魚放流計畫. In 2014中華民國魚類學

會第六屆第二次學術論文發表會. 26th April 2014, 國立臺灣大學, 台北, p 1.

 

54. 韓玉山 (2014). 日本鰻的資源保育: 談台灣鰻魚放流計畫. In 2014海峽兩岸海洋漁

業資源與生態養護學術研討會, 14th June 2014, 廈門集美大學, p 21.

 

55. Han YS (2014). Progress of Biotechnology in Aquaculture. In 1st International Symposium on Biotechnology: Tends in Agri-Fisheries and Health Biotechnology toward Progress and Development. 24-25 Jul., Philippine-Sino Center for Agricultural Technology (PhilSCAT), Central Luzon State University, Science City of Muñoz, Nueva Ecija, Philippines, pp. 27-28.

 

56. Han YS (2014) Resource Status and Conservation of the Eel in Chinese Taipei. In The 15th APEC Roundtable Meeting on the Involvement of the Business/Private Sector in the Sustainability of the Marine Environment. September 23-25, 2014, National Cheng Kung University, Tainan, Taiwan, pp. 27-28.

 

57. 韓玉山 (2014). 台灣鰻魚資源現況與保育. In 21世紀臺灣漁業永續論壇 - 鰻魚產業

    之危機與轉機 25th Sep, 2014, 國立臺灣海洋大學.

 

58. Han YS (2014). Resource Status and Conservation of the Eel in Taiwan. In International Eel Symposium & The 2014 Annual Meeting of the East Asia Eel Resource Consortium, Sep. 29-30, 2014, Kimdaejung Convention Center, Gwangju, Korea, p 17.

 

59. 韓玉山 (2014). 台灣鰻魚養殖產業前景分析. In 103年鰻魚品質向上講習座談會, 嘉義縣人力發展所, 28th October, 2014,台灣鰻魚發展基金會.

 

60. 韓玉山 (2014). 台灣鰻魚養護與管理措施. In國際保育趨勢下台灣鰻魚產業的調

    適研討會, 嘉義縣人力發展所, 16th December, 2014, 台灣水產協會.

 

61. Han YS (2014). Resource Status and Stock Releasing of the Eel in Taiwan. In Japan-Taiwan Fisheries Researh Symposium- Sustainable Utilization of Fishery Resources, with Emphasis on Fisheries Engineering, Oct. 29-31, 2014, Kamisu, Ibaraki, Japan, pp. 7-8.

 

62. Hsu HY, Chen SH, Han YS, Cha YR, Tsukamoto K, Lin CY (2015). De novo assembling the whole transcriptome of embryo, preleptocephalus, leptocephalus, and glass eel of Anguilla japonica, and deciphering the digestive and absorptive capacities of early developmental growth stage. In 2015台灣水產學會學術論文發表會. 18th January 2015 國立臺灣大學, 台北. P. 167.

 

63. Huang YC, Lin TS, Peng C, Chan NL, Han YS (2015). Inhibition of betanodavirus infection by an inhibitor of RNA-dependent RNA polymerase in grouper cell line. In 2015台灣水產學會學術論文發表會. 18th January 2015 國立臺灣大學, 台北. P. 132.

 

64. Han YS (2015). Eel Trading and Marketing in East Asia. In National Eel Forum, hosted by DA-BFAR. Feb. 24, 2015, BWSM Conference Hall, Quezon City, Manila, Philippines.

 

65. Han YS (2015). Eel Fisheries and Resources in Taiwan. In Eel Planet International

Symposium, hosted by Nihon University, Jun. 27-28, 2015, Fugisawa, Japan.

 

66. Han YS (2015). Eel Fisheries and Resources in Taiwan. In漁業資源國際研討會, 國立臺

灣大學海洋研究所, Jun. 30 - Jul. 1, 2015, Taipei, Taiwan, p. 20.

 

67. Han YS (2015). Eel Management in Taiwan. In 2015 Annual Meeting of the East Asia Eel Resource Consortium, Shanghai, hosted by East China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Aug. 7-8, 2015, China, p.7.

 

68. Han YS (2015). 瀕危動物管理體系介紹. In 中日韓及台灣地區鰻業發展研討會,

   hosted by 廣東省鰻魚業協會, Sep. 7-9, 2015, 順德, 中國.

 

69. Han YS (2015). 台灣鰻魚養護與管理措施. In 2015年台日中鰻魚業民間協議會,

hosted by 台灣區鰻魚發展基金會, Oct. 23, 2015, 馥敦飯店17F, 台北.

 

70. Han YS (2015). 台灣鰻魚養殖產業現況與前景分析. In 2015年鰻魚品質向上講習座

   談會, hosted by 台灣區鰻魚發展基金會, Nov. 25, 2015, 嘉義縣人力發展所, 嘉義.

 

71. Han YS (2015). Reconstruction of the long term changes of the eel habitat and rapid evaluation the eel resource in the river of Taiwan. In UTokyo-NTU Joint Conference at UTokyo 2015, University of Tokyo, Dec. 9-10, 2015, Tokyo, Japan.

 

72. Han YS (2015). How to quickly evaluate the river eel resource? In Eel Planet International

Symposium, hosted by Nihon University, Dec. 19, 2015, Fugisawa, Japan.

 

73. Han YS (2016). 台灣鰻魚保育管理措施介紹. In台日鰻貿易會議, hosted by 日本鰻輸

    入組合, May 17, 2016, Tokyo, Japan.

 

74. Lin YJ, Tzeng WN, Han YS, Roa-Ureta RH (2016) Fish in transit: modelling upstream migrating pulses od juvenile anguillids. In 2016 Annual meeting of the Ichthyological Society of Taiwan and the Asian Society of Ichthyologists, hosted by Asian Society of Ichthyologists, May 18-21, 2016, Taipei, Taiwan.

 

75. 韓玉山 (2016). 東亞鰻魚資源現況與分析. In 105年鰻魚品質向上講習座談會, 嘉義縣人力發展所, 27th June, 2016,台灣區鰻魚發展基金會.

 

76. Han YS (2016). How to quickly evaluate the river eel resource? In Eel Planet International

Symposium, hosted by Nihon University, Nov. 27-28, 2016, Fugisawa, Japan.

 

77. 陳淑華、呂怡萱、謝秉衡、許翔奕、韓玉山、林仲彥 (2017). 日本鰻全基因體重組、結構解析與大數據基因資料平台之建立. In 2017台灣水產學會學術論文發表會. 17th January 2017, 國立臺灣海洋大學, 基隆.

 

78. 韓玉山、饒孝松、黃怡誠、楊謝樂 (2017). 以血液檢測實現阿爾滋海默病的早期預

防診斷. In 2017深圳羅湖老年性認知障礙醫養融合論壇, hosted by 廣東省保健協會老年性癡呆醫養融合分會, July 7-8, 2017, 羅湖醫院, 深圳.

 

79. Han YS (2017). Marketing and trade opportunities for Philippine eel: from the sea to the

table. In MINDANAO EEL SUMMIT, Managing Eel Resources for Livelihood Opportunities, 31 August 2017, Davao City.

 

80. 韓玉山 (2017). 異種鰻國際資源現況. In 106年中區異種鰻教育訓練, 15th September, 2017, 嘉義縣人力發展所, 國立臺灣海洋大學.

 

81. 韓玉山 (2017). 異種鰻國際資源現況. In 106年中區異種鰻教育訓練, 2nd October, 2017, 國立高雄海洋科技大學.

 

82. 韓玉山 (2017). 從大海到餐桌: 談菲律賓鰻的產業鏈與市場潛力. In中國鰻鱺現代產業論壇暨國家鰻鱺產業科技創新聯盟成立大會, 12-13 October, 2017, 廈門佰翔軟體園酒店. 福建省廈門市。

 

83. 韓玉山 (2017). 花鱺鰻生長環境棲地特性及保育方式. In雙溪生態水庫計畫-環境營造及環境教育工作坊, 27th October, 2017, 雙溪區魚行里.

 

84. 韓玉山 (2017). 國際的鰻魚資源現況. In 106年鰻魚品質向上講習座談會, 嘉義縣人力發展所,台灣區鰻魚發展基金會,Dec. 4, 2017.

 

85. 黃瀛生、張格銓、王友慈、李彥宏、杜金蓮、楊順德、韓玉山、陳君如 (2018). 臺

   灣鰻魚放流40年回顧. In 2018台灣水產學會學術論文發表會. 19th January 2018, 國

   立高雄海洋科技大學, 高雄.

 

86. 陳石崇、張清榮、韓玉山 (2018). 以衛星標籤研究日本鰻、鱸鰻及太平洋雙色鰻之

   降海洄游路徑. In 2018台灣水產學會學術論文發表會. 19th January 2018, 國立高雄

   海洋科技大學, 高雄.

 

87. 許翔奕、陳筱薇、韓玉山 (2018). 淡水鰻鱺在河川中之棲地利用與分棲: 體表著色

效果與生理機制的適應化. In 2018台灣水產學會學術論文發表會. 19th January 2018,

國立高雄海洋科技大學, 高雄.

 

88. 韓玉山、饒孝松、黃怡誠、何杰腾、楊謝樂 (2018). 以血液檢測實現阿爾滋海默病的早期預防診斷. In 2018昆明醫科大學第一附屬醫院疑難重症神經系統疾病診治聯盟成立大會暨神經系統疾病臨床新進展學習班, hosted by 昆明醫科大學第一附屬醫院, March 10, 2018, 昆明怡景園渡假酒店, 昆明.

 

89. Hsiung KM, Kimura S, Han YS, Takeshige A, Ilzuka Y (2018) Effect of ENSO events on larval and juvenile duration and transport of the Japanese eel (Anguilla japonica). In 6th International Otolith Symposium. April 15-20, Keelung,Taiwan.

 

90. Han YS (2018). 日本鰻資源的保護與管理措施建議. In日台鰻貿易會議, hosted by 日

   本鰻輸入組合, May 22, Tokyo, Japan.

 

91. 許翔奕、陳筱薇、陳石崇、韓玉山 (2018). 淡水鰻在河川中之棲地分棲: 體色與溯

河洄游能力的適應化. In 中華民國魚類學會2018年​學術研討會. 10th August, 國

立成功大學, 台南.

 

92. Han YS (2018). Eel resource and conservation status in Taiwan and East Asia. In Regional

Workshop on Japanese Eel, Tokyo, Japan, Sep. 20-21.

 

92. Han YS (2018). Eel resource and conservation status in Taiwan and East Asia. In Driving

Sustainable Development. Tsukuba Global Science Week, Tsukuba, Japan, Sep. 22.

 

93. Han YS (2018). Biogeographic distribution of Anguillid eels in the Philippines. In 2018

Forum on Global Ecology, Agriculture and Rural-Uplift Programs (GEAR-UP), National

Chung Hsing University, Taiwan, Nov. 12-13.

 

94. 韓玉山 (2018).鰻魚的CITES危機. In 107年鰻魚品質向上講習座談會, 嘉義縣人力

發展所,台灣區鰻魚發展基金會, Dec. 13.

 

95. 林仲彥、呂怡萱、謝秉衡、許翔奕、韓玉山、陳淑華 (2019). 台灣高經濟養殖水產生物之基因體定序組裝、註解分析與線上資料庫建置. In 2019台灣水產學會學術論文發表會. 12th January 2019, 國立台灣大學, 台北.

 

96. 許翔奕、陳筱薇、韓玉山 (2019). 淡水鰻在河川中之棲地分棲: 體色與溯河洄游能力的適應化. In 2019台灣水產學會學術論文發表會. 12th January 2019, 國立台灣大學, 台北.

 

97. 張清榮、陳石崇、韓玉山 (2019). 以衛星標籤研究日本鰻、鱸鰻及太平洋雙色鰻之降海洄游路徑. In 2019台灣水產學會學術論文發表會. 12th January 2019, 國立台灣大學, 台北.

 

98. 韓玉山 (2019). Dispersal pathways of Japanese glass eel in the East Asian continental shelf and its sustainable use. In國際鰻鱺產業發展論壇. 20-22 August 2019, 廈門香格里拉大酒店,中國.

 

99. 熊觀梅、馬霽、韓玉山、柯佳吟 (2019). The variability of Japanese eel body larval length concerning the environmental factors of the migration route. In國際鰻鱺產業發展論壇. 20-22 August 2019, 廈門香格里拉大酒店,中國.

 

100. Han YS (2019). Dispersal routes of Japanese glass eel in the East Asian continental shelf

    and its sustainable use. In PICES-2019 Annual Meeting. October 16-27, Victoria BC, Canada.

 

101. Hsiung KM, Ma C, Han YS, Ko CY (2019). The variability of Japanese eel body larval length concerning the environmental factors of the migration route. In PICES-2019 Annual Meeting. October 16-27, Victoria BC, Canada.

 

102. 韓玉山 (2019). 室內循環水養鰻之展望. In 108年鰻魚品質向上講習座談會, 嘉義

                  縣人力發展所,台灣區鰻魚發展基金會主辦, December 05, 嘉義.

 

103. 韓玉山 (2020). 認識鰻魚- 從鰻魚身世到鰻魚棲地. In 109年宜蘭永續海洋計畫北

               蘇澳漁村里海輔導計畫, July 11, 宜蘭蘇澳.

 

104. 韓玉山 (2020). 認識鰻魚2- 別讓鰻魚不開心. In 109年宜蘭永續海洋計畫北蘇澳

                  漁村里海輔導計畫, July 25, 宜蘭蘇澳.

 

105. 吳鎧任、陳石崇、許翔奕、黃怡誠、林晏廷、韓玉山 (2020). 鰻鱺屬光照度依賴之垂直洄游行為. In 中華民國魚類學會2020年學術研討會. August 26-27, 國立屏東科技大學, 屏東.

 

106. 許翔奕、林仲彥、韓玉山 (2020). 探討日本鰻胚胎與仔稚魚的營養代謝及利用機制. In 中華民國魚類學會2020年學術研討會. August 26-27, 國立屏東科技大學, 屏東.

 

107. 韓玉山 (2020). 鰻魚身世之謎與未來命運. In台南七股溪南休閒農業區, August 28,

                  台南七股.

 

108. 韓玉山 (2020). 鰻魚身世之謎與未來命運. In高雄市茄萣舢筏協會, September 6,

                  高雄市茄萣.

 

109. 韓玉山 (2020). 認識鰻魚. In洄瀾風生態公司環境教育, September 19-20, 花蓮.

 

110. 韓玉山 (2020). 河川保育-以鰻魚為例. In慈惠善導書院, October 19, 屏東.

 

111. 韓玉山 (2020). 河川保育-以鰻魚為例. In彰化區漁會, November 04, 彰化.

 

112. 韓玉山 (2020). 日本鰻苗的輸送機制. In 109年鰻魚品質向上講習座談會, 嘉義縣

                  人力發展所, 台灣區鰻魚發展基金會主辦, December 03, 嘉義.

 

113. 韓玉山 (2020). 從大海到餐桌:談鰻魚神秘生活史與資源管理. In國立高雄大學生

                  命科學系, December 08, 高雄.

 

114. 韓玉山 (2020). 從大海到餐桌:談鰻魚神身世之謎與資源管理. In洄瀾風生態公司

                  環境教育, December 12, 花蓮.

 

115. 韓玉山 (2021). 新型室內循環水養鰻系統簡介. In 110年鰻魚品質向上講習座談會, 嘉義縣人力發展所, 台灣區鰻魚發展基金會主辦, December 16, 嘉義.

 

116. 韓玉山 (2022). 新型室內循環水養鰻系統簡介. In 111年鰻魚品質向上講習座談會, 嘉義縣人力發展所, 台灣區鰻魚發展基金會主辦, November 10, 嘉義.

 

117. Han YS (2022). North Equatorial Current and Kuroshio velocity variations affect body length and distribution of the Japanese glass eel in Taiwan and Japan. In The 1st Scientific Meeting on Japanese Eel and Other Relevant Eels. April 13-14, Japan (On line).

 

118. Han YS (2023). Science and Management on Anguillid eels in Taiwan. In Workshop on Eel Management in East Asia. Feb. 9, Korakuen Campus, Chuo University, Tokyo, Japan.

 

119. Han YS (2023). What do the fisheries data tell us? The nature of Japanese glass eel fisheries data in Taiwan. In The 1st Online Workshop of Eel Task Team 1: Progress and challenges for the collection and analysis of long-term time-series data on Japanese eel, Feb. 13, Japan (On line).

 

120. Han YS (2023). Status and problems of eel tracking experiments in Taiwan. In The 1st Online Workshop of Eel Task Team 2: Tracking the spawning migration of eel species: challenges and ways forward for Japanese eel, Feb. 17, Japan (On line).

 

121. Han YS (2023). The overview of Japanese eel catch and scientific activities in Taiwan. In The 2st Scientific Meeting on Japanese Eel and Other Relevant Eels. May 29-30, Ueda city, Nagano, Japan.

 

122. 何勝惟、詹明修、黃國文、蕭友晉、蘇豐傑、韓玉山 (2023). 台北溫泉廢水對溪流水質及生態之影響. 第27屆海峽兩岸水利科技交流研討會. 13-18 Aug., 西寧.

 

123. 韓玉山 (2023). 室內節能高效循環水養殖系統. In 112年鰻魚品質向上講習    

座談會, 嘉義縣人力發展所, December 4, 台灣區鰻魚發展基金會.

 

124. 林晏廷、韓玉山 (2024). 飼料中添加納豆枯草桿菌對日本鰻生長、腸道菌相、免疫和抗病力的影響. In 2024台灣水產學會學術論文發表會. 16th January 2024, 國立屏東科技大學, 屏東.

 

125. Han YS (2024). The potential effect of ten-year fishing ban in Yangtze River on eel resource. World Fisheries Congress, March 03-07, Seattle, USA.

 

126. Han YS (2024). Tracking Japanese eels and revealing their distribution in Taiwanese rivers by environmental DNA analysis. In The 3rd Scientific Meeting on Japanese Eel and Other Relevant Eels. June 3-4, Tokyo, Japan.

 

126. ​Barth JMI, Matschiner M, Ogutcen E, Paulus E, Gubili C, Jehle R, Razafindranaivo E, Andriamahefa D, Sztatecsny M, Tambets M, Miller MJ, Han YS, Watanabe S, Arai T, Bird T, Ebner B, Feunteun E, Koster W1, O’Brien G, Sasal P, Van der Merwe A, Ratsoavina F, Schabetsberger R (2024). Resolving the diversification history of anguillid eels across oceans with genome-wide data. In The 3rd Joint Congress on Evolutionary Biology, June 27-28, Montréal, Canada.

 

127. 韓玉山 (2024).日本鰻 Anguilla japonica 鰻苗在東亞之輸送、分布與資源管理. 第十屆閩台水產學術研討會June 28, 廈門, 中國

 

128. 何勝惟、韓玉山、蕭友晉、陳詣璿、何勝裕、詹明修、黃國文 (2025). 穩定同位素技術應用於酸性廢水污染對溪流水生物的影響. In 2025台灣水產學會學術論文發表會. 11 January 2025, 國立臺灣大學, 台北.

 

129. 吳俋賢、張秉宏、韓玉山 (2025). 堤岸廊道型漁電共構對文蛤殼色的影響評估. In 2025台灣水產學會學術論文發表會. 11 January 2025, 國立臺灣大學, 台北.

 

130. 曾柏錕、韓玉山、蘇豐傑、侯智耀、謝淑玲 (2025). 水產品加工廠之副產物調查. In 2025台灣水產學會學術論文發表會. 11 January 2025, 國立臺灣大學, 台北.

 

131. 楊弘煜、許翔奕、韓玉山 (2025). 以環境DNA調查北臺灣河川日本鰻資源. In 2025台灣水產學會學術論文發表會. 11 January 2025, 國立臺灣大學, 台北.

 

132. 林鈺翔、林晏廷、韓玉山 (2025).臺灣翡翠水庫花身副麗魚 (Parachromis managuensis) 入侵的生態影響評估. In 2025台灣水產學會學術論文發表會. 11 January 2025, 國立臺灣大學, 台北.

 

133. Ho SW, Han YS, Lay CH, Yen YC, Wang YH, Wu JY (2025). Antioxidant activity, whitening effect and cell repair of Taiwan Gracilaria tikvahiae extracts. In 4_th International Symposium on Carbon & Functional Materials for Energy & Environment. February 19-22, 2025, Bali, Indonesia.

 

134. Kao WC, Han YS (2025). Morphometric Divergence and Oceanographic Influence on Portunus sanguinolentus (Herbst, 1783) and Charybdis feriatus (Linneaeus, 1758) Populations in East Asian Waters. In 2025中華民國魚類學會學術論文發表會. 8 June 2025, 國立臺北教育大學, 台北.

 

135. 張書民、韓玉山 (2025). 單株納豆芽孢桿菌NTU-18用於白蝦飼料添加劑對生長指標、免疫基因表現及腸道的影響. In 2025中華民國魚類學會學術論文發表會. 8 June 2025, 國立臺北教育大學, 台北.

 

136. 黃莉、韓玉山 (2025). 飼料中添加有效微生物群(EM)對日本鰻玻璃鰻生長發育、腸道形態、免疫和抗病性的影響. In 2025中華民國魚類學會學術論文發表會. 8 June 2025, 國立臺北教育大學, 台北.

 

137. 楊弘煜、許翔奕、韓玉山 (2025). 以環境DNA調查北臺灣河川日本鰻資源. In 2025中華民國魚類學會學術論文發表會. 8 June 2025, 國立臺北教育大學, 台北.

 

138. 吳俋賢、張秉宏、韓玉山 (2025). 堤岸廊道型漁電共生於文蛤養殖之應用評估: 水質、生長分析與場域建模. In 2025中華民國魚類學會學術論文發表會. 8 June 2025, 國立臺北教育大學, 台北.

 

139. 何勝惟、蔡明展、何勝裕、詹明修、韓玉山 (2025). 不同餌料對河蚌生長與水質淨化能力之影響. In 114 年台灣農業工程研討會. 17 October 2025, 劍潭海外青年活動中心, 台北.

 

140. 韓玉山 (2024). 室內循環水養殖的未來展望. In 113年鰻魚品質向上講習座談會,

嘉義縣人力發展所, November 25, 台灣區鰻魚發展基金會.

 

141. Han YS (2025). Migratory life cycle of Anguilla anguilla: a mirror symmetry with A. japonica. In The 4th Scientific Meeting on Japanese Eel and Other Relevant Eels. June 16-17, Hamamatsu, Japan.

 

142. Han YS (2025). Eel Management in Taiwan. In. Tohoku University Public Symposium:  Conservation and Sustainable Use of Japanese Eel in East Asia. September 7, Tohoku University, Japan.

 

143. Han YS (2025). Migratory life cycle of Anguilla anguilla: a mirror symmetry with A. japonica. In. 1st Asian International Eel Symposium. September 12-15, Amami-Oshima, Japan.

 

144. 許翔奕，韓玉山 (2025). 日本鰻列入CITES 附錄二之危機與轉機. In 114年鰻魚

     品質向上講習座談會, 嘉義縣人力發展所, November 24, 台灣區鰻魚發展基金會.

 

145. 韓玉山 (2025). 日本鰻列入CITES 附錄二之危機與轉機. In 2025海上絲綢之路國際產學研用合作會議海洋科技工程與水產產業鏈研討會, November 22-23, 集美大學, 廈門, 中國

 

其他著作:

1. Han YS (1995). Characterization of intracellular calcium pools in bovine adrenal chromaffin cells. MD. Thesis. Institute of Zoology, National Taiwan University.

 

2. 韓玉山、曾萬年 (2000). 澳洲產扁紅目鱸 (Lates calcarifer) 人為移植的可行性評估. 國際農業科技新知 2: 5.

 

3. Han YS, Tzeng WN, Huang YS, Liao IC* (2000). The silvering of the Japanese eel Anguilla japonica: season, age, size and fat. Journal of Taiwan Fisheries Research 8(1&2): 37-45. (NSC 89-2313-B056-008)

 

4. Han YS, Chang CW, He JT, Tzeng WN* (2001). Validation of the occurrence of short-finned eel Anguilla bicolor pacifica in the natural waters of Taiwan. Acta Zoologica Taiwanica 12(1): 9-19. (NSC-89-2313-B002-077)

 

5. Huang JP, Han YS, Tzeng WN* (2001). Species identification of Anguilla eels by polymerase chain reaction /restriction fragment length polymorphism analysis of the gonadotropin II-beta subunit gene. Acta Zoologica Taiwanica 12(2): 41-49.

 

6. Han YS, Tzeng WN, Huang YS, Liao IC* (2001). Silvering in the eel: changes in morphology, body fat content, and gonadal development. Journal of Taiwan Fisheries Research 9(1&2): 119-127. (NSC-89-2311-B002-077 and NSC 89-2313-B056-008)

 

7. Chatterjee A, Han YS, Shen ST, Yu JYL* (2001). Teleostean gonadotropins: molecular structure, regulation of gene expression and evolution. In Perspective in Comparative Endocrinology: Unity and Diversity. (H. Goos, R. Rastogi, H.Vaudry, R. Pierantoni eds.). Sorrento (Napoli), Italy, May 26-30, 2001, pp. 1233-1241. (ISBN: 978-88-3231-526-4)

 

8. Tzeng WN, Han YS, He JT (2002). The sex ratios and growth strategies of wild and captive Japanese eels Anguilla japonica. In Developments in Understanding Fish Growth (B. Small and D. MacKinlay eds.). International Congress on the Biology of Fish. Univ. British Columbia, Vancouver, Canada, pp. 25-42.

 

9. 韓玉山、張賜玲、廖一久、曾萬年 (2003). 日本鰻人工繁殖的探討. 台大漁推 14: 17-27.

 

10. Han YS (2003). The studies of the changes on the morphology, physiology and endocrinology during silvering process of the Japanese eel Anguilla japonica. P.h. D. Thesis. Institute of Zoology, National Taiwan University.

 

11. Han YS, Tzeng WN (2004). Cultured aquatic animal species: Japanese eel.  Agricultural Economics Database, CABI Publishing, Wallingford, UK.

 

12. Han YS, Tzeng WN, Yu JYL, Liao IC^* (2007). Gonadotropin Induced Synchronous Changes of Morphology and Gonadal Development in the Japanese Eel Anguilla japonica. Journal of Fisheries Society of Taiwan 33(4): 333-343. (NSC 95-2313-B002-119 and 90AS -1.4.5-FA-F1-36 and 91AS -2.5.1-FA-F1-8) (國內優良期刊)

 

13. Tzeng WN*, Han YS, Jessop BM (2009). Growth and habitat residence history of migrating silver American eels transplanted to Taiwan. American Fisheries Society Symposium Series 58: 137-147. (NSC-89–2313-B002–077)

 

14. Lin CT, Tang HY, Han YS, Liu HP, Huang SF, Chien CH, Shyy J, Chiu JJ, Chen X* (2010). Downregulation of Signaling-active IGF-1 by Dipeptidyl Peptidase IV (DPP-IV). International Journal of Biomedical Science 6(4): 301-309.

 

15. Han YS* (2012). Wide geographic distribution with little population genetic differentiation: A case study of the Japanese eel Anguilla japonica. In: '''Eels: Physiology, Habitat and Conservation, Chapter 7, pp. 149-164.'' Sachiko N. and Fujimoto M. eds., New York: Nova Science Publishers. ISBN: 978-1-61942-231-5.

 

16. 韓玉山 (2012). 食補聖品: 鱸鰻營養價值面面觀. 漁業推廣 305: 32-35.

 

17. 韓玉山 (2013). 鰻魚資源養護新知. 漁業推廣 325: 6-9.

 

18. 韓玉山 (2014). 2014年台灣鰻魚產業展望. 台大漁推 25: 1-7.

 

19. 韓玉山 (2014). 台灣鰻魚產業之展望. 漁業推廣 339: 6-9.

 

20. 韓玉山 (2015). 談鰻魚人工放流之效益. 漁業推廣 342: 6-9.

 

21. 韓玉山 (2015). 瀕危動物管理體系介紹. 水產前沿11月號 72-73.

 

22. 韓玉山 (2015). 日本鰻的產業危機: 華盛頓公約解析. 台大漁推 26: 1-5.

 

23. 韓玉山 (2016). 台灣鰻魚史. 台大漁推 27: 1-6.

 

24. 韓玉山 (2016). 台灣漁業發展的問題與芻議. 臺大校友雙月刊 106: 30-33.

 

25. 韓玉山 (2016). 鰻魚資源與養殖現況. 臺大校友雙月刊 106: 38-41.

 

26. 韓玉山 (2016). 臺灣農業發展展望 - 行政院農業委員會曹啟鴻主委訪談. 科學月刊

                  47(10): 791-797.

 

27. 韓玉山 (2017). 2017年台灣鰻魚產業展望報告. 台大漁推 28: 1-6.

 

28. 韓玉山 (2018). 華盛頓公約對全球鰻魚產業的衝擊. 台大漁推 29: 1-6.

 

29. 韓玉山 (2018). 華盛頓公約對台灣與全球鰻魚產業的衝擊分析. 漁業推廣 386:

                  14-17.

 

30. Wu KJ, Chen SH, Hsu HY, Huang YC, Lin YT, Han YS* (2018). Illuminance dependent

diel-vertical migration behavior among genus Anguilla. Journal of the Fisheries Society of Taiwan 45(4):1-8. (104AS-11.3.4-FA-F1, 105AS-11.3.4-FA-F1, 106AS-11.3.4-FA-F1, MOST 106-2313-B-002-036-MY3, MOST 108-2313-B-002-071)) (國內優良期刊)

 

31. 周爰瑱、韓玉山、黃瀛生 (2019). 鰻魚標識放流歷史及方法. In 鰻魚資源與放流之

                  研究. 水產試驗所特刊第27號 (楊順德主編), pp. 85-94.

 

32. 韓玉山 (2019). 日本鰻增殖放流之效益評估. In 鰻魚資源與放流之研究. 水產試

                  驗所特刊第27號 (楊順德主編), pp. 95-110.

 

33. 韓玉山 (2019). 國際鰻魚資源現況. In 鰻魚資源與放流之研究. 水產試驗所特刊第

                  27號 (楊順德主編), pp. 111-121.

 

34. 韓玉山、楊智超 (2019). 以衛星遙測技術評估台灣主要河川日本鰻棲地品質現況.

                         台大漁推 30: 1-6.

 

35. Hsu HY, Lin YT, Huang YC*, Han YS* (2020). Skin coloration and habitat preference of the freshwater Anguilla eels. International Journal of Aquaculture and Fishery Sciences   6(3): 096-101. DOI: https://dx.doi.org/10.17352/2455-8400.000063 (MOST 106-2313-B-002 -036 -MY3, 106AS-11.3.4-FA-F1)

 

 

36. Hung WC, Yang JC, Hsu HY, Huang YC, Lin YT, Han YS* (2020). Growth potential of Anguilla marmorata glass eels in different seasons in eastern Taiwan. Journal of the Fisheries Society of Taiwan 47(4): 1-7. (MOST 109-2313-B-002 -001 -MY2) (國內優良期刊)

 

37. 韓玉山 (2020). 鰻魚的神祕生活史. 幼獅少年 8月號 526:12-15.

 

38. 韓玉山、黃大恆、陳立涵、黃怡誠 (2020). 鱸鰻營養與保健功效分析. 台大漁推

                                         31: 1-14.

 

39. 韓玉山、吳鎧任 (2020). 台灣河川的生態管理現況與展望. 台大漁推 31: 15-19.

 

                

40. 張芳齊、韓玉山 (2021). 台灣文蛤池受外來種黑貽貝Mytella strigata入侵之首次報

導. 台大漁推 33: 1-5.

 

41. Hou EJ, Huang CS, Lee YC, Han YS*, Chu HT* (2022). A method for the process of collagen modified polyester from fish scales waste. MethodsX 9: 101636. doi:10.1016/j.mex.2022.101636

 

42. 劉茂生、韓玉山 (2022). 水產養殖與人工配合飼料的產業發展-鰻魚篇. 台大漁推 34: 1-19.

 

43. 劉茂生、韓玉山 (2023). 草蝦養殖與人工配合飼料. 台大漁推35: 1-17.

 

44. 劉茂生、韓玉山 (2024). 草蝦養殖與人工配合飼料. 水產種苗 309: 1-12.

 

45. 林晏廷、韓玉山 (2024). 鰻苗養殖及人工膏狀飼料. 台大漁推36: 1-18.

 

46. 韓玉山 (2025). 日本鰻鰻苗在臺灣周邊海域的洄游模式. 漁業推廣 462: 32-35.

 

47. 韓玉山、張芳齊 (2025). 臺灣鰻魚養殖產業風險分析. 農業保險半年刊 8: 26-35.

 

48. 韓玉山 (2025). 日本鰻鰻苗洄游到臺灣周邊海域的模式與資源管理探討. 台灣水產

第753號雙月刊 20(3): 54-61.

 

49. Lin YT, Dai YF, Yang HY, Lin YH, Hsu YT, Lin YI, Hsu HY*, Han YS* (2025). Freshwater fish community monitoring in a subtropical reservoir: Contrasting eDNA metabarcoding and traditional methods in biodiversity resolution, invasive species detection, and environmental correlates. Environmental and Sustainability Indicators 27: 100831. https://doi.org/10.1016/j.indic.2025.100831 (MOST 111-2313-B-002-016-MY3, NSTC 114-2313-B-002 -048 -MY3)

 

專書:

1. 韓玉山 (2008-2020). 水生生物學技術實驗手冊. 編著 (第一版至第八版)

 

2. 曾萬年、韓玉山、塚本勝巳、黑木真理 (2012). 鰻魚傳奇. 宜蘭縣蘭陽博物館叢書.

 

3. 韓玉山、黃怡誠 (2021). 水產概論 (一版). 台大出版中心出版 (2021年9月)

 

4. 韓玉山 (2021). 鰻魚特刊. 台大漁推32: 1-41.

 

5. 韓玉山、陳立涵 (2022). 水生生物學實驗. 台大出版中心出版 (2022年6月)

 

6. 韓玉山 (2025). 水產概論 (增訂版). 台大出版中心出版 (2025年6月)

 

專利&技轉

1. 2020年，「億光電子工業股份有限公司」合作之建教案「促進鰻苗成長與增強免疫力之最適LED波長光照」，先期技轉金新臺幣105,000元

 

2. 2022年，「過濾裝置」。中華民國新型專利 (證書號M623408、2022/02/11-2031/11/03)

 

3. 2022年，「利生種苗生物科技股份有限公司」合作之建教案「日本鰻柳葉鰻苗人工繁殖之飼料配方研究及開發」，先期技轉金新臺幣40,000元

 

4. 2023年，「利生種苗生物科技股份有限公司」合作之建教案「日本鰻柳葉鰻苗人工繁殖之飼料配方研究及開發」，先期技轉金新臺幣40,000元

 

5. 2023年，「具浮性之水產養殖用的飼料結構」。中華民國新型專利 (證書號M641214、2023/05/21-2032/10/30)

 

6. 2025年，「利生種苗生物科技股份有限公司」合作之建教案「日本鰻鰻苗人工繁殖之飼料配方研究及開發」，先期技轉金新臺幣32,700元

 

獲獎與優良事蹟

1. 2006年，新竹縣立新豐國民中學95年度 傑出校友獎

 

2. 2008年，中華民國農學團體97年度 優良農業基層人員

 

3. 2012年，國立臺灣大學100學年度生命科學院教學優良教師

 

4. 2015年，國立臺灣大學103學年度生命科學院教學優良教師

 

5. 2016年，國立臺灣大學104學年度十年資深優良教師

 

6. 2019年，輔導漁科所畢業生巫宗樺，參加科技部「創新創業激勵計畫」FITI (From IP

            To IPO) 選拔，獲選進入18強，獲得創業基金10萬元

 

7. 2020年，輔導漁科所畢業生巫宗樺，參加教育部「U-start創新創業計畫」，通過第一

            階段&第二階段績優團隊選拔，獲得創業基金50+35萬元

 

8. 2022年，輔導漁科所博士生高偉傑，輔導溪南休閒農業區，榮獲農委會2021年休閒

           農業區評鑑「卓越休閒獎」

 

9. 2022年，輔導漁科所博士生何勝惟，榮獲111年度嘉義縣新創基地與輔導計畫「創新創意競賽」第一名，獲得創業基金20萬元

 

10. 2023年，帶領團隊榮獲臺灣大學與東元科技文教基金會合辦之「2023淨零排放科技國際競賽」第五名 (東友科技獎)，獲得獎金5萬元

 

11. 2025年，帶領團隊，參與雲林縣政府「酸菜廢棄物打造農漁共生循環經濟」，榮獲「天下雜誌」天下城市治理卓越獎，經濟成長組優選

 

12. 2025年，帶領團隊，參與雲林縣政府「從酸菜廢棄物到農漁循環經濟，營造永續環境」，榮獲「今周刊」永續城市創新獎，環境力首獎

 

13. 2025年，輔導漁科所博士生 林晏廷，獲第一屆台積電生物多樣性獎學金菁英獎