娰嶳僗僥乕僔儑儞乮愮梩導丄No.3乯SERVICE&PRODUCTS
奣梫
娰嶳僗僥乕僔儑儞偼丄搶嫗榩偺擖岥偱愮梩導偺撿抂晅嬤偵偁傞廎嶈偵傎偳嬤偔丄撿朳憤偵懡偄娾徥懷偲榩撪偺嵒昹抧嬫偑暲楍偡傞帺慠娐嫬偱偁傝丄奜梞惈丄撪榩惈偺偳偪傜偺惗暔孮傕桳偟丄奺庬偺椪奅幚廗偵嵟揔側僗僥乕僔儑儞偱偡丅
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傑偨壂崌偱偼僟僀價儞僌僗億僢僩偑懡悢偁傝丄挷嵏尋媶傪栚揑偲偟偰慏敃偐傜偺僟僀價儞僌偵傛傞挷嵏尋媶傕壜擻偱丄僒儞僑徥偺杒尷晅嬤偲偄偆帠傕偁傝尋媶妶摦偑惙傫偱偡丅
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強嵼抧丒儅僢僾
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乮僶僗掆偼僗僥乕僔儑儞偺擖傝岥偺慜偱偡乯
岎捠 僶僗帪崗昞乮JR僶僗娭搶乯
朳憤側偺偼側崋乮搶嫗乣娰嶳墂乯亙奜晹儕儞僋亜
巗撪僶僗乮娰嶳墂乣惣嶁揷乯
抧恾
嫵怑堳
娰嶳僗僥乕僔儑儞乮搶嫗奀梞戝妛丒妛怑寭擟乯
庡丂丂丂擟丂丂丂徏杮丂桳婰梇
暃丂庡丂擟丂丂丂怷揷丂揘楴
暃丂庡丂擟丂丂丂墫弌 戝曘
媄 弍 怑 堳丂丂丂惔悈 彲懢
巤愝丒愝旛奣梫
巤愝丒愝旛
憤晘抧柺愊丂21,646 m2寶暔乮揝嬝僐儞僋儕乕僩乯
幚尡尋媶搹
嶰奒寶 1,262 m2乮尋媶幒丗7丄幚尡幒丗2丄恾彂幒丄昗杮幒丄惛枾婡夿曐娗幒丄埫幒丄嫵堳幒丄帠柋幒丄夛媍幒丄摉捈幒丄偦偺懠乯
帞堢搹
暯壆403 m2乮娗棟幒丄弨旛幒丄悈憛幒丄帞椏攟梴幒丄婡婍幒懠乯
戞2帞堢搹
暯壆238 m2
9崋僥儞僩搹
暯壆180 m2乮70僩儞戝宆墌宍悈憛丂捈宎6.5 m亊悈怺2.2 m丂2婎乯
10崋僥儞僩搹
暯壆105 m2乮38僩儞戝宆墌宍悈憛丂捈宎7 m亊悈怺2 m乯
11崋僥儞僩搹
暯壆120 m2乮70僩儞戝宆墌宍悈憛丂捈宎7 m亊悈怺1 m乯
儃僀儔乕幒
暯壆24 m2乮壏奀悈嶌惢憰抲乯
廻攽巤愝
嶰奒寶1,112 m2乮嫵堳梡榓幒丗3丄僎僗僩儖乕儉丗1丄妛惗廻攽幒丗13丄媥梴幒丗1丄戝彫怘摪丄戝彫梺幒丄偦偺懠乯
崅壦奀悈挋悈憛
420僩儞丄廳椡幃鄅夁憰抲
偦偺懠
宖慏巤愝丄奀悈捑嵒憛丄崅埑僐儞僾儗僢僒乕幒丄幵屔丄怑堳廻幧摍
慏敃
僒僕僢僞VIFRP嫏慏宆丂10 m挿丄80攏椡慏撪奜婡丄掕堳14柤
僒僕僢僞VII
FRP榓慏丂5.4 m挿丄25攏椡慏奜婡丆掕堳6柤
悈摴丒岝擬
媼悈
幚尡尋媶搹偺奺幚尡幒偍傛傃尋媶幒偺堦晹偵鄅夁奀悈丒扺悈丄帞堢幚尡搹偲幚尡抮偵尨奀悈丒鄅夁奀悈丒扺悈傪嫙媼
揹椡
幚尡尋媶搹丒帞堢幚尡搹奺幒偵100V扨憡俁慄幃丄堦晹偵200V嶰憡
旛昳丒婡婍椶
幚尡悈憛
FRP僷儞儔僀僩悈憛乮1僩儞梡丗16丄0.5僩儞梡丗5丄30儕僢僩儖梡丗50乯丄戝宆墌宍悈憛乮10僩儞梡丗4乯奀悈偐偗棳偟幃彫宆奀梞惗暔幚尡悈憛憰抲
婡婍椶
惗暔尠旝嬀乮尋媶幰梡丗3丄妛惗幚廗梡丗40乯丄幚懱尠旝嬀丗40丄尠旝嬀嶣塭憰抲丄枩擻搳塭婡丄僋儕乕儞儀儞僠丄慻怐愗曅嶌惢憰抲堦幃丄堚揱巕憹暆憰抲丄揹婥塲摦憰抲堦幃丄墦怱暘棧婡丄僨傿乕僾僼儕乕僓乕丄掕壏姡憞婡丄崅埑忲婥柵嬠婡丄弮悈惢憿憰抲丄捈帵忋嶮揤攭丄僒乕儈僗僞壏搙寁丄僒儕僲儊乕僞乕丄僾儔儞僋僩儞僱僢僩丄嵦揇婡丄愽悈婍乮SCUBA僞儞僋30杮乯
嫵堢尋媶妶摦
乽尒傞丄怗傟傞丄帋傒傞乿偲偄偆尰抧嫵堢傪峴偆妛晹妛惗懳徾偺幚廗偼丄悈嶻妛傪妛傇幰偺弌敪揰偱偁傞丅椪奀幚廗丄嫏嬈幚廗丄悈嶻怉暔妛丄悈嶻摦暔妛丄憯椶憹怋妛丄愽悈幚廗丄惗暔帒尮妛丄憹怋惗懺妛側偳偺丄杮妛偺僇儕僉儏儔儉偵婎偄偨慡妛揑側奺庬幚廗偑擭娫傪捠偠偰峴傢傟傞丅奺幚廗帪偵偼嫵堳2乣10柤丄妛惗40乣120柤偑廻攽偡傞丅棙梡幰悢傕懡偔擭娫4,000柤傪挻偊偰偄傞丅偙傟傪扴偆幚廗応偺栶妱傕崅偔昡壙偝傟偰偄傞丅
傑偨丄尋媶栚揑偱嫵堳丄攷巑丒廋巑丒懖榑偺奺壽掱偺妛惗丄尋媶惗丄棷妛惗側偳偑擭娫傪捠偟偰棙梡偟丄偦偺悢傕懡偄擭偱偼3,000柤傪挻偊傞丅杮僗僥乕僔儑儞偼惗暔偺憹怋丄惗妶巎丄娐嫬偵娭偡傞尋媶偑庡偱偁偭偨偑丄彨棃嫑椶偺惗棟丄僶僀僆僥僋僲儘僕乕丒堢庬摍偺尋媶暘栰偵偍偄偰傕戝曄廳梫側栶妱傪壥偨偡偙偲偵側傞偱偁傠偆丅
巤愝廃曈埬撪
杮僗僥乕僔儑儞偼朳憤敿搰撿惣抂嬤偔偵埵抲偟丄搶嫗榩岥丒娰嶳榩偵杒柺偟丄懳娸偵偼嶰塝敿搰傪朷傓丅増娸偼崟挭偺塭嬁偑嫮偔丄悈壏偼搤婜偱傕12亷埲忋丄壞婜偵偼25乣27亷埵偱偁傞丅婥岓傕壏抔偱偁傞偑丄搤婜偵偼梞忋偐傜杒惣晽偑捈愙摉偨傞偨傔丄嫮晽偲攇楺偺塭嬁傪庴偗堈偄丅
奀娸峔憿偼丄搶懁偺娰嶳榩偼嵒昹堟偱偁傞偑丄惣懁偵備偔偵廬偄娾徥偑弌尰偟丄惣抂偺廎嶈偐傜敿搰愭抂傪夞偭偨惣愳柤丒埳摛偵偐偗偰娾徥偑楢側傞丅抧愭奀娸偼娾徥懷偲嵒釯懷偑岎屳偵楢側傝丄娾徥懷偼斾妑揑墦愺偱嫍娸200m埵偐傜壂偼嵒釯掙偵曄壔偡傞丅挭娫懷偵偼懡條側惗暔孮廤偑傒傜傟丄娾徥偵屌拝偡傞擇枃奓椶丄僸僓儔僈僀丄僇僒僈僀丄僼僕僣儃椶偍傛傃奀憯椶側偳偺懷忬暘晍偑娤嶡偝傟傞丅愺奀堟偱偼傾儚價丄僩僐僽僔丄僒僓僄丄傾僆儕僀僇丄儅僟僐丄僀僙僄價摍廳梫堥崻帒尮偵晉傓偲嫟偵丄儂儞僟儚儔椶丄僸僕僉丄儚僇儊丄傾儔儊丄僴僶僲儕丄僥儞僌僒丄僩僒僇僲儕摍桳梡奀憯椶傕朙晉偱偁傞丅
偦偺懠揤慠娾徥傗恖岺嫏徥偵鍠廤偡傞掙惗摦暔丒増娸惈嫑椶傕撿曽宯偺庬椶偐傜撪榩惈偺庬椶傕崿偞傝丄懡條惈偵晉傫偱偄傞丅偝傜偵壂偺娾徥偍傛傃嵒釯掙偵偼僂儈僩僒僇丄僂儈僄儔丄儎僊椶丄僀僜僊儞僠儍僋椶丄僀僔僒儞僑椶摍偺巋朎怉暔傪懡嶻偟丄摿偵憿徥惈偺僀僔僒儞僑椶偼娰嶳榩偐傜嶁揷増娸偵偐偗偰23庬椶偺惗懅偑妋擣偝傟丄娰嶳榩偼杒尷偺僒儞僑惗懅抧偲偟偰拲栚偝傟偨丅
乮暯惉5乣6擭偵偐偗偰丄峏偵杒偵埵抲偡傞嫎撿挰壂偵偍偄偰徥傪宍惉偡傞傎偳偺僀僔僒儞僑椶偺僐儘僯乕偑敪尒偝傟丄傑偨暘晍偺杒尷偑揾傝偐偊傜傟偰偄傞乯
嬈愌曬崘
仧棙梡幰悢
棙梡幰悢偼1擔1恖偁偨傝偺乽墑傋恖悢乿偱寁嶼偟偰偄傑偡丅亙娰嶳僗僥乕僔儑儞乮嶁揷乯亜
仭椷榓2擭搙
憤棙梡幰悢丒丒丒丒5597恖
偆偪妛撪棙梡幰丒丒5571恖
偆偪妛奜棙梡幰丒丒26恖
偆偪奜崙恖棙梡幰丒2恖
仭椷榓尦擭搙
憤棙梡幰悢丒丒丒丒10117恖
偆偪妛撪棙梡幰丒丒8731恖
偆偪妛奜棙梡幰丒丒1836恖
偆偪奜崙恖棙梡幰丒179恖
亙娰嶳榩撪巟強亜
仭椷榓2擭搙
憤棙梡幰悢丒丒丒丒31恖
偆偪妛撪棙梡幰丒丒31恖
偆偪妛奜棙梡幰丒丒0恖丂丂仈僐儘僫塓偵傛傝堦帪揑偵妛奜巊梡嬛巭偲側偭偨偨傔
偆偪奜崙恖棙梡幰丒0恖
仭椷榓尦擭搙
憤棙梡幰悢丒丒丒丒1543恖
偆偪妛撪棙梡幰丒丒1449恖
偆偪妛奜棙梡幰丒丒94恖
偆偪奜崙恖棙梡幰丒179恖
仧庼嬈偱偺棙妶梡摍
椷榓尦擭丄椷榓2擭偺幚愌傪婰嵹偟傑偡丅仠妛撪
奀梞惗暔妛幚廗
墳梡憯椶妛幚廗
椪奀惗暔妛幚廗
廤抍惗暔妛幚廗
奀梞帒尮僄僱儖僊乕幚廗 I
嫏嬈壢妛幚廗
OQEANOUS 僒儅乕僗僋乕儖
惌嶔暥壔妛壢僼儗僢僔儏儅儞僙儈僫乕
惗暔帒尮妛壢僼儗僢僔儏儅儞僙儈僫乕
摦暔惗懺妛幚廗
仠妛奜
恄揷奜岅戝妛椪奀幚廗
搶嫗妛寍戝妛椪奀幚廗 I
悈嶻柍愐捙摦暔尋媶強娤嶡夛
娰嶳巗棫惣枽彫妛峑椪奀幚廗
惉棫妛墍拞妛峑椪奀幚廗
恄撧愳導棫婓朷儢媢崅峑椪奀幚廗
惎炇崙嵺崅摍妛峑椪奀幚廗
埨揷妛墍拞妛峑椪奀幚廗
搶嫗妛寍戝妛椪奀幚廗 II
惎炇崙嵺崅摍妛峑椪奀幚廗
敀攡抁婜戝妛椪奀幚廗
仠幮夛峷專
娰嶳巗棫惣枽彫妛峑偺惗搆偵妛廗巜摫乮僗僲乕働儕儞僌丆尋媶巜摫乯
恄撧愳導棫婓朷偑媢崅峑椪奀幚廗乮SSH 帠嬈乯
惣枽嫏嫤偺梫惪偱傾儚價丆僒僓僄傪曻棳
仧娰嶳僗僥乕僔儑儞傪棙梡偟偨尋媶
捈嬤2擭娫暘偺僙儞僞乕傪棙妶梡偟偨嬈愌偵偮偄偰婰嵹偟傑偡丅傛傝埲慜偺嬈愌傪抦傝偨偄応崌偼僙儞僞乕挿偵偛憡択偔偩偝偄丅仧妛弍榑暥乮捈嬤2擭娫暘乯
捈嬤2儠擭娫偱丄11恖偺妛撪妛怑幰偵傛傝丄40曇偺榑暥偵杮僙儞僞乕偺嬈愌偑棙妶梡偝傟偰偄傑偡丅
仠媑嶈屽楴
1乯Yoshizaki G, Yazawa R. (2019) Application of surrogate broodstock technology inaquaculture. Fisheries Science 85: 429-437
2乯Yazawa R, Takeuchi Y, Machida Y, Amezawa K, Kabeya N, Tani R, Kawamura W,Yoshizaki G. (2019) Production of triploid eastern little tuna, Euthynnus affinis(Cantor, 1849). Aquaculture 50: 1422-1430
3乯塉郪 岶懢楴, 栴郪 椙曘, 抾撪 桾, 媑嶈 屽楴. 慹惛惢惗怋惈巋寖儂儖儌儞曻弌儂儖儌儞傾僫儘僌傪梡偄偨宱岥搳梌偵傛傞僑儅僒僶 Scomber australasicus 偍傛傃僗儅 Euthynnus affinis 偺嶻棏桿敪. 擔杮悈嶻妛夛帍 85, 379 (2019).
4乯Kensuke Ichida, Wataru Kawamura, Misako Miwa, Yoshiko Iwasaki, Tsubasa Kubokawa, Makoto Hayashi, Ryosuke Yazawa, Goro Yoshizaki (2019) Specificvisualization of live type A spermatogonia of Pacific bluefin tuna using fluorescentdye-conjugated antibodies. Biology of Reproduction 100, 1637-1647.
5乯Ryosuke Yazawa, Tsubasa Kubokawa, Kensuke Ichida, Wataru Kawamura, Reoto Tani,Shigeharu Kamio, Tetsuro Morita, Goro Yoshizaki. Establishment of a tracing technique for transplanted bluefin tuna germ cells in recipient乫s gonads using monoclonal antibodies specifically recognizing bluefin tuna spermatogenic cells. Fisheries Science 87, 105-112 (2020).
6乯Yoshiyuki Matsushita, Kaho Miyoshi, Naoki Kabeya, Shuwa Sanada, Ryosuke Yazawa, Yutaka Haga, Shuichi Satoh, Yoji Yamamoto, Carlos Augusto Strussmann, JohnAdam Luckenbach & Goro Yoshizaki. Flatfishes colonised freshwater environments by acquisition of various DHA biosynthetic pathways. Communications Biology 3, 516 (2020).
7乯Wataru Kawamura, Reoto Tani, Hana Yahagi, Shigeharu Kamio, Tetsuro Morita, Yutaka, Takeuchi, Ryosuke Yazawa, Goro Yoshizaki. Suitability of Hybrid Mackerel (Scomber Australasicus 亊 S. Japonicus) With Germ Cell-Less Sterile Gonads as a Recipient for Transplantation of Bluefin Tuna Germ Cells. General and Comparative Endocrinology 295, 113525 (2020).
8乯Wataru Kawamura, Ryosuke Yazawa, Reoto Tani, Yutaka Takeuchi, Tetsuro Morita, Hiroyuki Yoshikawa, Goro Yoshizaki. Development of a simple method for sperm cryopreservation of Scombridae fishes in outdoor environments. Aquaculture Research 51, 3376-3383 (2020).
9乯塉郪 岶懢楴, 旜嶈 梇堦, 栴郪 椙曘, 抾撪 桾, 晽摗 峴婭, 媑嶈 屽楴. 惗怋態巋寖儂儖儌儞曻弌儂儖儌儞傾僫儘僌乮GnRHa乯偺宱岥搳梌偵傛傞僑儅僒僶偺弶婜棏宍惉懀恑媄弍偺奐敪. 擔杮悈嶻妛夛帍 86, 83-90 (2020).
仠栴郪椙曘
1乯Yoshizaki G, Yazawa R. (2019) Application of surrogate broodstock technology in aquaculture. Fisheries Science 85: 429-437
2乯Yazawa R, Takeuchi Y, Machida Y, Amezawa K, Kabeya N, Tani R, Kawamura W,Yoshizaki G. (2019) Production of triploid eastern little tuna, Euthynnus affinis (Cantor,1849). Aquaculture 50: 1422-1430
3乯Hashimoto K, Osaki S, Kawamura W, Yazawa R. (2019) Meat quality of frozen hybrid mackerel (Scomber australasicus x Scomber japonicus) Fisheries Science 85: 877-882
4乯Ichida K, Kawamura W, Miwa M, Iwasaki Y, Kubokawa T, Hayashi M, Yazawa R, Yoshizaki G. (2019) Specific visualization of live type A spermatogonia of Pacific bluefin tuna using fluorescent dye-conjugated antibodies. Biology of Reproduction 100: 1637-1647
5乯Xu D, Yoshino T, Konishi J, Yoshikawa H, Ino Y, Yazawa R, Maria Dos S, Lacerda SN, de Franca LR, Takeuchi Y. (2019) Germ cell-less hybrid fish: ideal recipient for spermatogonial transplantation for the rapid production of donor-derived sperm. Biology of Reproduction 101: 492-500
6乯Amezawa K, Ozaki Y, Yazawa R, Takeuchi Y, Kazeto Y, Yoshizaki G. (2020) Oral administration of gonadotropin-releasing hormone analogue enhances previtellogenic oocyte growth of blue mackerel Scomber australasicus. Nippon Suisan Gakkaishi 86: 83-90 Kawamura, W, Yazawa R, Tani R, Takeuchi Y, Morita T, Yoshikawa H, Yoshizaki G. (2020)
7乯Development of a simple method for sperm cryopreservation of Scombridae fishes in outdoor environments. Aquaculture Research 51: 3376-3383
8乯Kawamura W, Tani R, Yahagi H, Kamio S, Morita T, Takeuchi Y, Yazawa R, Yoshizaki G. (2020) Suitability of hybrid mackerel (Scomber australasicus 亊 S. japonicus) with germ cell-less sterile gonads as a recipient for transplantation of bluefin tuna germ cells. General and Comparative Endocrinology 295: 113525
9乯Matsushita Y, Miyoshi K, Kabeya N, Sanada S, Yazawa R, Haga Y, Satoh S, Yamamoto Y, Strussmann CA, Luckenbach JA, Yoshizaki G. (2020) Flatfishes colonised freshwater environments by acquisition of various DHA biosynthetic pathways. Communications Biology 3: 516
10乯Xu D, Yoshino T, de Bello Cioffi M, Yoshikawa H, Ino Y, Yazawa R, Dos Santos Nassif Lacerda SM, Takeuchi Y. (2020) Production of donor-derived eggs after ovarian germ-cell transplantation into the gonads of adult, germ cell-less, triploid hybrid fish. Biology of Reproduction 103: 1289-1299
仠摗揷戝夘
1乯Chen, B., S. Akita, A. Uehara and D. Fujita乮2019乯Is the red alga Meristotheca papulosa annual? -Monitoring of tagged thalli at Banda, Tateyama, Central Pacific coast of Japan- Aquacult.ure Science 67丆49亅56.
2乯Yamano S., S. Akita , Y. Hayakawa and D. Fujita乮2020乯Finding of regeneration in a large number of wounded receptacles in Sargassum ringgoldianum (Phaeophyceae, Fucales) , Phycological Research丆183-186.
3乯揷拞攷擵丒摗揷戝夘 (2020) 嫏峘乮摿偵幬楬乯偺憯応偲偦偺棙梡偵娭偡傞儈僯儗價儏乕 Algal Resources 13丗47-53.
仠昹嶈妶岾丒抍廳庽
1乯昹嶈妶岾丆將捤憂巙丆殻 廳庽丆杒揷廋堦乮2019乯嶰塝敿搰偲朳憤敿搰偵偍偗傞儉儔僒僉僆僇儎僪僇儕偺墇搤偲書棏丏擔杮惗暔抧棟妛夛曬 74丆8-12丏
2乯Sanda T, Hamasaki K, Dan S, Kitada S (2019) Expansion of the northern geographical distribution of land hermit crab populations: Colonization and overwintering success of Coenobita purpureus on the coast of Boso Peninsula, Japan. Zoological Studies 58, 25. doi:10.6620/ZS.2019.58-25
3乯Inutsuka S, Hamasaki K, Dan S, Kitada S (2020) Occurrence and distribution of early juvenile and hermit crabs at a small beach on the Boso Peninsula, Japan. Nauplius 28, e2020002. 11 doi:10.1590/2358-2936e2020002
4乯Hamasaki K, Ishii M, Dan S (2020) Reproductive traits and population structure of the porcellanid crab Petrolisthes japonicus (Decapoda: Anomura: Porcellanidae). Crustacean Research 49, 121-132. doi:10.18353/crustacea.49.0_121
5乯Hamasaki K, Nishimoto S, Okada M, Kimura A, Otsubo K, Dan S (2020) Dietary effects of phytoplankton and zooplankton on larval survival, duration and growth of four Caridina species (Decapoda: Caridea: Atyidae) under laboratory conditions. Crustacean Research 49, 225-236.
6乯Hamasaki K,Okada M, Nishimoto S, Dan S (2020) Larval performance of amphidromous and landlocked Atyid shrimp species in the genus Paratya under different feeding conditions. Zoological Studies 59, 70. doi:10.6620/ZS.2020.59-70
仠僇儖儘僗 僗僩儖僗儅儞丒墶揷尗巎丒嶳杮梞巏乮廤抍惗暔妛尋媶幒乯
1乯Yamamoto Y, Hattori RS, Patino R, Strussmann CA (2019) Environmental regulation of sex determination in fishes: Insights from Atheriniformes. In B. Capel (ed).
2乯Current Topics in Developmental Biology, Volume 134: Sex Determination in Vertebrates, Chapter 2, pp.49-69.
3乯K. Miyoshi, R.S. Hattori, C.A. Strussmann, M. Yokota and Y. Yamamoto (2020) Phenotypic/genotypic sex mismatches and temperature-dependent sex determination in a wild population of an Old World atherinid, the cobaltcap silverside Hypoatherina tsurugae. Molecular Ecology, 29:2349-2358.
4乯嶳杮梞巏丆嶰岲壴曕丆暈晹僸僇儖僪廋暯丆僗僩儖僗儅儞 僇儖儘僗 (2021) 僩僂僑儘僂僀儚僔栚嫑椶偺惈寛掕婡峔. e 悈嶻妛僔儕乕僘戞 2 姫乽嫑椶偺惈寛掕丒惈暘壔丒惈揮姺乿戞係復, pp.75-97. 峆惎幮岤惗妕
5乯C.A. Strussmann, K. Miyoshi, and S. Mitsui (2020) A novel, efficient method for otolith specimen preparation using UV-cured resins. North American Journal of Fisheries Management, 40:1187-1194.
6乯Y. Matsushita, K. Miyoshi, N. Kabeya, S. Sanada, R. Yazawa, Y. Haga, S. Satoh, Y.Yamamoto, C.A. Strussmann, J.A. Luckenbach, and G. Yoshizaki 乮2020乯 Flatfishes colonised freshwater environments by acquisition of various DHA biosynthetic pathways. Communications Biology 3:516.
仠峳愳媣岾
1乯Akira Matsumoto, Minami Sato, Hisayuki Arakawa (2020) Impacts of sub-micrometer sediment particles on early-stage growth and survival of the kelp Ecklonia bicyclis, Scientific reports. 2020: 10:20689, https://doi.org/10.1038/s41598-020-75796-x
仠楅栘廏榓
1乯Li, Y., Suzuki, H., Nagumo, T., Tanaka, J., Sun, Z. & Xu, K. (2019) Three new species of Fallacia from intertidal sediments in Japan. Diatom Research 34: 75-83.
2乯媨撪杻桼旤丒楅栘廏榓丒撿塤 曐丒揷拞師榊 (2019) 奀嶻掙惗宂憯偺宍懺偲暘椶(9)丆僋僟僘儈働僀僜僂懏(僸儊僋僟僘儈働僀僜僂壢丆僼僫僈僞働僀僜僂栚)(戞 3 晹). 怉暔尋媶嶨帍 94: 354-361.
3乯楅栘廏榓丒昳桭鉟丒挿揷宧屲 (2020) 奀嶻晅拝宂憯 Climaconeis riddleae A.K.S. Prasad 偺宍懺. 擔杮帟壢戝妛婭梫丒堦斒嫵堢宯 49: 13-16.
4乯悰尨堦婸丒楅栘廏榓丒恄扟廩怢丒挿揷宧屲 (2021) 愮梩導彫柀嶻峠憯儅僊儗僜僝偵拝惗偡傞宂憯椶.擔杮帟壢戝妛婭梫丒堦斒嫵堢宯 50: 15-26.
仠恵擵晹桭婎
1乯墦摗廃懢丒屗徏幯戙丒恵擵晹桭婎(2019)愮梩導娰嶳榩偵偍偗傞儀儔壢儂儞僜儊儚働儀儔偺僌儖乕僾峔惉偲峴摦寳.嫑椶妛嶨帍 66: 261-267
仧妛夛敪昞乮捈嬤2擭娫暘乯
捈嬤2儠擭娫偱丄11恖偺妛撪妛怑幰偵傛傝丄91夞偺妛夛敪昞偱杮僙儞僞乕偺嬈愌偑棙妶梡偝傟偰偄傑偡丅
仠 媑嶈屽楴
1乯愳懞 榡, 恄旜 栁帯, 栴郪 椙曘, 媑嶈 屽楴. 戙棟恊嫑媄朄偵傛傞婡擻揑側僋儘儅僌儘惛巕偺惗嶻. 椷榓 2 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜(2020.3.27).
2乯徏壓 朏擵, 愳懞 榡, 暻扟 彯庽, 栴郪 椙曘, 媑嶈 屽楴. 奀嶻擏怘惈夞梀嫑偱偁傞僒儞儅偼姰慡側 DHA 崌惉宱楬傪傕偮. 椷榓 2 擭搙擔杮悈嶻妛夛弔婫戝夛.僆儞儔僀儞奐嵜 (2020.3.29).
3乯挿扟愳 擇屓, 愳懞 榡, 栴郪 椙曘, 媑嶈 屽楴. 僺儞僗億僢僩徠幩偵傛傝傾儖價僲儅僒僶偺儚儉僔愛塧偼夵慞偝傟傞. 椷榓 2 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2020.3.27).
4乯挿扟愳 擇屓, 愳懞 榡, 嶳撪 復峅, 栴郪 椙曘, 媑嶈 屽楴. slc45a2 堚揱巕僲僢僋傾僂僩偵傛傞傾儖價僲儅僒僶偺嶌弌. 椷榓 2 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2020.3.27).
5乯扟 楀墰恖, 栴郪 椙曘, 媑嶈 屽楴, Yann Guiguen. 儅僒僶偍傛傃僑儅僒僶偺惈敾暿曽朄偺奐敪. 椷榓 2 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜(2020.3.27).
6乯媑嶈 屽楴. 奀偺岾傪媄弍偱憹傗偡. 亀俵倎俷俬僼僅乕儔儉亁愝抲婰擮僙儈僫乕戞 2 夞僙儈僫乕. 惷壀導徖捗巗 (2019.12.10).
7乯媑嶈 屽楴. 悈嶻嬈偵偍偗傞嵟怴媄弍摦岦丗嫑椶偺惗怋嵶朎憖嶌偲偦偺墳梡. 敪峺偲戙幱尋媶夛 2019 擭搙 戞 2 夞曌嫮夛. 搶嫗搒拞墰嬫 (2019.12.10).
8乯恄旜 栁帯, 愳懞 榡, 栴郪 椙曘, 媑嶈 屽楴. 僋儘儅僌儘惗怋嵶朎摿堎峈懱傪梡偄偨僒僶廻庡惛塼拞偺僋儘儅僌儘惛巕専弌朄偺奐敪. 擔杮悈嶻憹怋妛夛戞 18夞戝夛. 撧椙導撧椙巗(2019.11.23).
9乯媑嶈 屽楴. Germ cell manipulation in fish: Can mackerel produce bluefin tuna offspring? 2019 擭搙 戞 11 夞嵼擔壢嫤愖攷僙儈僫乕乬惗暔婡擻偺壢妛偲墳梡乭. 搶嫗搒愮戙揷嬫 (2019.10.5).
10乯媑嶈 屽楴. 惗柦壢妛偺愭抂媄弍偵傛傞庬昪嫙媼乮婓彮側僒僇僫傪憹傗偡丄椙偄僒僇僫傪憂傝弌偡乯. 僀僲儀僼傿僢僔儏. 搶嫗搒愮戙揷嬫 (2019.8.26).
11乯GoroYoshizaki. Germ Cell Transplantation in Fish: Current Status and Future Prospects. Germinal Stem Cell BiologyGordon Research Conference. Hong Kong, China (2019.5.23). GoroYoshizaki. Surrogate broodstock technology for fish culture advancement.XIII Scientific Meeting of the Fisheries Institute. Sao Paulo, Brazil (2019.4.24).
12乯巗揷 寬夘, 扟 楀墰恖, Araya Jangprai, Ponsawang Kaosad, 栴郪 椙曘, 怷揷 揘榊, 媑嶈 屽楴, Surintorn Boonanuntanasarn. 傾僕傾僗僘僉堚揱巕帒尮偺挿婜曐懚傪栚巜偟偨惗怋嵶朎堏怉忦審偺嵟揔壔. 椷榓 3 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2021.3.27).
13乯挿扟愳 擇屓, 愳懞 榡, 嶳撪 復峅, 栴郪 椙曘, 怷揷 揘楴, 媑嶈 屽楴. 僺儞僗億僢僩帞堢朄傪梡偄偨 slc45a2 堚揱巕僲僢僋傾僂僩儅僒僶偺嶌弌. 椷榓 3 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2021.3.27).
14乯扟 楀墰恖, 栴郪 椙曘, 媑嶈 屽楴, Yann Guiguen. 儅僒僶偍傛傃僑儅僒僶偺 PCR 朄偵傛傞惈敾暿. 椷榓 3 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2021.3.28).
15乯愳懞 榡, 恄旜 栁帯, 栴攱 偼側, 扟 楀墰恖, 栴郪 椙曘, 怷揷 揘榊, 媑嶈 屽楴. 戙棟恊嫑媄朄偵傛傞僗儅嶨庬廻庡偐傜偺婡擻揑側僋儘儅僌儘惛巕偺惗嶻. 椷榓 3 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2021.3.27).
16乯恄旜 栁帯, 愳懞 榡, 栴郪 椙曘, 巗揷 寬夘, 怷揷 揘楴, 媑嶈 屽楴. 惗偒偨僋儘儅僌儘惛巕傪摿堎揑偵擣幆偡傞儌僲僋儘乕僫儖峈懱偺嶌惢. 椷榓 3 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2021.3.27).
17乯徏壓 朏擵, 愳懞 榡, 暻扟 彯庽, 栴郪 椙曘, 媑嶈 屽楴. 奀嶻夞梀嫑僒儞儅偵偍偗傞 DHA崌惉峺慺偺婡擻夝愅丗僒儞儅偼 DHA 傪帺傜崌惉偱偒傞. 椷榓 3 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2021.3.27).
18乯廐掚 梲夘, 徏壓 朏擵, 榚 寬懢榊, 暻扟 彯庽, 朏夑 忰, 嵅摗 廏堦, 媑嶈 屽楴. 帀朾巁晄朞榓壔峺慺堚揱巕僲僢僋傾僂僩僛僽儔僼傿僢僔儏偺昞尰宆夝愅. 椷榓 3 擭搙擔杮悈嶻妛夛弔婫戝夛. 僆儞儔僀儞奐嵜 (2021.3.27).
19乯Goro Yoshizaki. Development of germ cell manipulation technology in fish乗Can small surrogates produce bluefin tuna gametes? Germ Cell Meeting. 僆儞儔僀儞奐嵜(2020.9.30).
仠栴郪椙曘
1乯恄旜栁帯丒孍愳偮偽偝丒愳懞 榡丒巗揷寬夘丒栴郪椙曘丒媑嶈屽楴. 僋儘儅僌儘戙棟恊嫑媄朄傊偺棙梡傪栚巜偟偨僗儅廻庡惛塼偐傜偺惓妋偐偮崅姶搙側僋儘儅僌儘惛巕専 弌朄偺奐敪. 椷榓尦擭搙擔杮悈嶻妛夛弔婫戝夛 搶嫗搒峘嬫.2019/3/27
2乯愳懞 榡丒栴郪椙曘丒Ricardo S. Hattor丒 Tulio T. Yoshinaga丒扟 楀墰恖丒媑嶈屽楴. 僗儅亊僞僀僙僀儓僂儎僀僩嶨庬偼崅惗巆丒崅惉挿傪帵偡. 椷榓尦擭搙擔杮悈嶻妛夛弔婫戝夛 搶嫗搒峘嬫. 2019/3/27
3乯扟 楀墰恖丒愳懞 榡丒栴郪椙曘丒媑嶈屽楴. 僑儅僒僶亰亊儅僒僶亯嶨庬廻庡偵傛傞僪僫乕桼棃儅僒僶偺惗嶻. 椷榓尦擭搙擔杮悈嶻妛夛弔婫戝夛 搶嫗搒峘嬫.2019/3/27
4乯扟 楀墰恖丒栴郪 椙曘丒媑嶈 屽楴丒Yann Guiguen. 儅僒僶偍傛傃僑儅僒僶偺惈敾暿朄偺奐敪. 椷榓尦擭搙擔杮悈嶻妛夛弔婫戝夛乮傒側偟奐嵜乯
5乯徏壓 朏擵丒愳懞 榡丒暻扟 彯庽丒栴郪 椙曘丒媑嶈 屽楴. 奀嶻擏怘惈夞梀嫑偱偁傞僒儞儅偼姰慡側 DHA 崌惉宱楬傪傕偮. 椷榓尦擭搙擔杮悈嶻妛夛弔婫戝夛乮傒側偟奐嵜乯
6乯挿扟愳 擇屓丒愳懞 榡丒嶳撪 復峅丒栴郪 椙曘丒媑嶈 屽楴 slc45a2 堚揱巕僲僢僋傾僂僩偵傛傞傾儖價僲儅僒僶偺嶌弌. 椷榓尦擭搙擔杮悈嶻妛夛弔婫戝夛乮傒側偟奐嵜乯
7乯挿扟愳擇屓丒愳懞榡丒栴郪椙曘丒媑嶈屽楴. "僺儞僗億僢僩徠幩偵傛傝傾儖價僲儅僒僶偺儚儉僔愛塧偼夵慞偝傟傞". 椷榓尦擭搙擔杮悈嶻妛夛弔婫戝夛乮傒側偟奐嵜乯
仠摗揷戝夘
1乯嫶杮桭柧丒摗揷戝夘 愮梩導娰嶳嶻傾儊僼儔僔椶偵傛傞奀憯愛塧検 擔杮憯椶妛夛戞 44夞幁帣搰戝夛丆2020 擭 3 寧
2乯嫶杮桭柧丒摗揷戝夘 愮梩導娰嶳嶻傾儊僼儔僔椶偵傛傞奀憯愛塧検 擔杮憯椶妛夛戞 44夞幁帣搰戝夛丆2020 擭 3 寧
仠昹嶈妶岾丒殻廳庽
1乯嬤摗旳帄丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僰儅僄價壢梒惗偺惗巆偲敪堢偵媦傏偡悈壏偲墫暘偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧19 擔,搶嫗奀梞戝妛丆搶嫗丏
2乯杮懡 憦丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僸儊僰儅僄價梒惗偺惗巆偲敪堢偵媦傏偡悈壏偲墫暘偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19擔丆搶嫗奀梞戝妛丆搶嫗丏
3乯惣杮憇懣丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僰儅僄價壢梒惗帞堢偵偍偗傞揔惓側塧椏宯楍丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
4乯愳忋梲暯丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僰儅僄價壢梒惗偺婹夓懴惈偵媦傏偡悈壏偲墫暘偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
5乯拞杮媊戝丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯儎儅僩僰儅僄價偺嶻棏偲傆壔偵媦傏偡悈壏偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
6乯廆宍宐懣丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯愮梩導嶁揷愳偵偍偗傞椉懁夞梀惈僰儅僄價椶偺屄懱孮摦懺丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧19 擔丆搶嫗奀梞戝妛丆搶嫗丏
7乯朳 塸搶丒昹嶈妶岾丒殻 廳庽乮2019乯僀僜僇僯僟儅僔偺旐怘夞旔偵偍偗傞珲媟偺婡擻昡壙丗僀儚僈僯傪曔怘幰偲偟偨帠椺丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓
8乯尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏栘壓戱奀丒昹嶈妶岾丒殻 廳庽乮2019乯愮梩導娰嶳巗嶁揷奀娸偵偍偗傞僸儔僀僜僈僯偺懱怓曄堎丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
9乯嬤摗旳帄丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僰儅僄價壢梒惗偺惗巆偲敪堢偵媦傏偡悈壏偲墫暘偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔,搶嫗奀梞戝妛,搶嫗丏杮懡 憦丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僸儊僰儅僄價梒惗偺惗巆偲敪堢偵媦傏偡悈
10乯壏偲墫暘偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛,椷榓尦擭 10 寧 19 擔,搶嫗奀梞戝妛丆搶嫗丏惣杮憇懣丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僰儅僄價壢梒惗帞堢偵偍偗傞揔惓側塧椏宯楍丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
11乯愳忋梲暯丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯僰儅僄價壢梒惗偺婹夓懴惈偵媦傏偡悈壏偲墫暘偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
12乯拞杮媊戝丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯儎儅僩僰儅僄價偺嶻棏偲傆壔偵媦傏偡悈壏偺塭嬁丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
13乯廆宍宐懣丒昹嶈妶岾丒殻 廳庽丒杒揷廋堦乮2019乯愮梩導嶁揷愳偵偍偗傞椉懁夞梀惈僰儅僄價椶偺屄懱孮摦懺.擔杮峛妅椶妛夛戞 57 夞戝夛,椷榓尦擭 10 寧 19 擔,搶嫗奀梞戝妛,搶嫗丏
14乯朳 塸搶丒昹嶈妶岾丒殻 廳庽乮2019乯僀僜僇僯僟儅僔偺旐怘夞旔偵偍偗傞珲媟偺婡擻昡壙丗僀儚僈僯傪曔怘幰偲偟偨帠椺丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
15乯栘壓戱奀丒昹嶈妶岾丒殻 廳庽乮2019乯愮梩導娰嶳巗嶁揷奀娸偵偍偗傞僸儔僀僜僈僯偺懱怓曄堎丏擔杮峛妅椶妛夛戞 57 夞戝夛丆椷榓尦擭 10 寧 19 擔丆搶嫗奀梞戝妛丆搶嫗丏
仠僇儖儘僗 僗僩儖僗儅儞丒墶揷尗巎丒嶳杮梞巏乮廤抍惗暔妛尋媶幒乯
1乯K. Miyoshi, R.S. Hattori, C.A. Strussmann and Y. Yamamoto: Development of an early-warning species for the effects of climate change on fish reproduction. Korean Federation of Fisheries Science and Technology Societies International Conference, Busan, korea. 2019 擭 11 寧.
2乯徏杮峗搈丆嶰岲壴曕丆墶揷尗巎丆Carlos Augusto Strussmann丆嶳杮梞巏丗 栰惗娐嫬壓偵偍偗傞僊儞僀僜僀儚僔巈抰嫑偺惉挿偲惈暘壔.椷榓俁擭搙擔杮悈嶻妛夛弔婫戝夛.搶嫗搒峘嬫乮2021.3.27乯
仠楅栘廏榓
1乯柎揷恄搶梲撧丒楅栘廏榓丒恄扟廩怢丒挿揷宧屲 (2019) 恄撧愳導栰搰岞墍偺娗惐宂憯憡偲偦偺孮廤峔憿. 擔杮宂憯妛夛戞 39 夞尋媶廤夛乮搶嫗搒彫嬥堜巗乯, Nov. 30.
2乯嶚栰 撯丒楅栘廏榓丒恄扟廩怢丒挿揷宧屲 (2019) 擔杮嶻僋僠價儖儅僈僀働僀僜僂懏 Seminavis 偺宍懺偲暘椶. 擔杮宂憯妛夛戞 39 夞尋媶廤夛乮搶嫗搒彫嬥堜巗乯, Nov. 30.
3乯悰尨堦婸丒楅栘廏榓丒恄扟廩怢丒挿揷宧屲 (2019) 愮梩導彫柀嶻峠憯儅僊儗僜僝忋偺晅拝宂憯憡. 擔杮宂憯妛夛戞 39 夞尋媶廤夛乮搶嫗搒彫嬥堜巗乯, Nov.30.
4乯媑壀柌惗丒楅栘廏榓丒恄扟廩怢丒柸娧 朙 (2019) 宂憯偑奀捁傪夘偟偰塣偽傟傞壜擻惈. 擔杮宂憯妛夛戞 39 夞尋媶廤夛乮搶嫗搒彫嬥堜巗乯, Nov. 30.
5乯堜忋崄楅丒楅栘廏榓丒嵅摗撝巕 (2019) 僒僓僄偺抰奓偼宂憯傪怘傋偰偄傞偺偐丠 擔杮奓椶妛夛 2019 擭搙戝夛(搶嫗搒愮戙揷嬫), May. 18.
6乯堜忋崄楅丒楅栘廏榓丒嵅摗撝巕 (2019) 僒僓僄偺抰奓偼宂憯傪怘傋偰偄傞偺偐丠 擔杮宂憯妛夛戞 40 夞戝夛(崅抦導崅抦巗), May. 11.
7乯Sugawara, K., Suzuki, H., Kamiya, M. and Osada, K. (2021) Epiphytic diatoms on the red alga Laurecia saitoi from Kominato, Chiba Prefecture, Japan. The 12th International PhycologicalCongress (Online, Chile乯, Mar. 22-26.
8乯暉壀彨擵丒楅栘廏榓丒恄扟廩怢丒揷拞師榊 (2021) 擔杮嶻奀憯晅拝棔憯僀儚僸僎僲僐僽 Placoma adriaticum 偺暘椶妛揑嵞専摙. 擔杮憯椶妛夛戞 45 夞戝夛乮僆儞儔僀儞搶嫗丒2021乯, Mar. 17.
9乯柎揷恄搶梲撧丒楅栘廏榓丒恄扟廩怢丒挿揷宧屲 (2020) 扺悈嶻娗惐宂憯 Nitzschia sp.偺宍懺偲暘椶妛揑専摙. 擔杮宂憯妛夛戞 40 夞尋媶廤夛乮僆儞儔僀儞奐嵜乯, Dec. 6.
10乯悰尨堦婸丒懢揷棞幯巕丒楅栘廏榓丒恄扟廩怢丒挿揷宧屲 (2020) 峠憯僜僝椶偺憯懱忋偐傜尒弌偝傟偨奀嶻柍廲峚宂憯 Falcula sp.偺宍懺偲暘椶妛揑専摙. 擔杮宂憯妛夛戞 40 夞尋媶廤夛乮僆儞儔僀儞奐嵜乯, Dec. 6.
11乯嶚栰 撯丒楅栘廏榓丒恄扟廩怢丒挿揷宧屲 (2020) 旐妅宍懺偐傜傒偨僋僠價儖儅僈僀働僀僜僂懏 Seminavis 偲僼僫僈僞働僀僜僂懏 Navicula 偺椶墢娭學. 擔杮宂憯妛夛戞 40 夞尋媶廤夛乮僆儞儔僀儞奐嵜乯, Dec. 6.
12乯媑壀柌惗丒楅栘廏榓丒恄扟廩怢丒柸娧 朙 (2020) 宂憯偑奀捁偺塇偵晅拝偡傞夁掱偺嵞尰幚尡. 擔杮宂憯妛夛戞 40 夞尋媶廤夛乮僆儞儔僀儞奐嵜乯, Dec. 5.
仠恄扟廩怢
1乯怴堜悡攷丒楅栘廏榓丒恄扟廩怢丗妼憯傾儈僕僌僒偺惗妶娐偵偍偗傞妀憡曄壔偺専徹.擔杮憯椶妛夛戞 44 夞戝夛. 2019 擭 3 寧 27 擔. 乮幁帣搰巗乯
2乯怴堜悡攷丒楅栘廏榓丒恄扟廩怢丗妼憯傾儈僕僌僒偺悽戙斾挷嵏偲攟梴偵傛傞惗妶娐偺嵞専徹.
3乯擔杮怉暔妛夛戞 84 夞戝夛. 2020擭9寧19-21 擔. 僆儞儔僀儞.
4乯怴堜悡攷丒楅栘廏榓丒恄扟廩怢丗妼憯傾儈僕僌僒偺栰奜挷嵏偲惉弉桿摫偵傛傞悽戙斾偺専徹.
5乯擔杮憯椶妛夛戞 45 夞戝夛. 2021擭3寧16 擔. 僆儞儔僀儞.
仠恵擵晹桭婎
1乯媑尨傕傕擳丒郪堜墄榊丒恵擵晹桭婎 儅儞儃僂偍傛傃儎儕儅儞儃僂偺惗怋態峔憿丏2019擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
2乯孠懞揘惗丒恵擵晹桭婎丒嶁堜梲堦丒栧揷棫丒郪揷峢懢 帗梇摨懱嫑庬僨乕僞儀乕僗偺岞奐偲懱挿桳棙惈偺専徹丏2019 擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
3乯嶁堜梱丒戝怷彯栫丒恵擵晹桭婎 娰嶳榩偵偍偗傞僂僣儃 Gymnothorax kidako偺峴摦斖埻偲儁傾宍惉丏2019 擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
4乯壓岝棙柧丒恵擵晹桭婎 僸儊僐僟僀偲儂僔僸儊僐僟僀偺惈揮姺偵偮偄偰丏2019擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
5乯屆愳梞擵夘丒恵擵晹桭婎 愮梩導娰嶳榩偵偍偗傞僇儈僫儕儀儔 TP 梇偺斏怋愴弍偺揮姺丏2019 擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
6乯旜嶳彔丒恵擵晹桭婎 僆儓僊儀僯僴僛偺攝嬼僔僗僥儉偲憃曽岦惈揮姺丏2019 擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
7乯恵崌埢巕丒恵擵晹桭婎 娰嶳榩偵偍偗傞僀僜僊儞億壢僫儀僇偺斏怋惗懺丏2019擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
8乯嵅摗梲丒恵擵晹桭婎 僋僣儚僴僛 Istigobius campbelli 偺斏怋愴弍偵偐偐傞birthdate effect 偺専摙丏2019 擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
9乯怷媢憦丒恵擵晹桭婎 愮梩導娰嶳榩偵偍偗傞僂僶僂僆壢儂僜僂僶僂僆丆僂僶僂僆偺惗妶巎丏2019 擭搙擔杮嫑椶妛夛擭夛乮崅抦戝妛乯2019.9.20-23
10乯恵擵晹桭婎丒旜嶳彔 僆儓僊儀僯僴僛偼側偤堦晇堦嵢側偺偐丠擔杮摦暔峴摦妛夛戞 38 夞戝夛乮戝嶃巗棫戝妛乯2019.11.22-24
11乯屆愳梞擵夘丒嵅摗梲丒旜嶳彔丒嶁堜梱丒恵崌埢巕丒恵擵晹桭婎 愮梩導娰嶳榩偵偍偗傞僇儈僫儕儀儔 TP 梇偺斏怋惗懺丏擔杮摦暔峴摦妛夛戞 38 夞戝夛乮戝嶃巗棫戝妛乯2019.11.22-24
12乯旜嶳彔丒墍嶳婱擵丒妢堜枹棃丒恵擵晹桭婎 儈僕儞儀僯僴僛偺?怋峴摦偲惈揮姺丏擔杮摦暔峴摦妛夛戞 38 夞戝夛乮戝嶃巗棫戝妛乯2019.11.22-24
13乯嵅摗梲丒恵擵晹桭婎 僋僣儚僴僛 Istigobius campbelli 偺斏怋愴弍偼抋惗擔偺塭嬁傪庴偗傞偐丠擔杮摦暔峴摦妛夛戞 38 夞戝夛乮戝嶃巗棫戝妛乯2019.11.22-24
14乯恵崌埢巕丒恵擵晹桭婎 僀僜僊儞億壢僫儀僇偺抰嫑揻偒峴摦丏擔杮摦暔峴摦妛夛戞 38 夞戝夛乮戝嶃巗棫戝妛乯2019.11.22-24
15乯嶁堜梱丒戝怷彯栫丒恵擵晹桭婎 娰嶳榩偵偍偗傞僂僣儃 Gymnothorax kidako偺斏怋惗懺丏擔杮摦暔峴摦妛夛戞 38 夞戝夛乮戝嶃巗棫戝妛乯2019.11.22-24
16乯墦摗廃懢丒屗徏幯戙丒恵擵晹桭婎(2020) 娰嶳榩嶁揷偵偍偗傞儀儔壢僆僴僌儘儀儔偺嶻棏婜偲 旕嶻棏婜偵偍偗傞惗懅応強丏搶嫗奀梞戝妛尋媶曬崘 16丗1-3
17乯Fukuda K, Sunobe T (2020) Group structure and putative mating system of three hermaphrodite gobiid fish, Priolepis akihitoi, Trimma emeryi, and Trimma hayashii (Actinopterygii: Gobiiformes). Ichthyological Research 67: 552-558
18乯Kuwamura T, Sunobe T, Sakai Y, Kadota T, Sawada K (2020) Hermaphroditism in fishes: an annotated list of species, phylogeny, and mating system. Ichthyological Research 67:341-360
19乯Oyama T, Komeno S, Yuta A, Tamayama W, Sano H, Nakano M, Nakachi S, Sunobe T, Akagawa I (2020) Seasonal courtship role change and reproductive behavior of the combtooth blenny Meiacanthus kamoharai. Ichthyological Research 67:416-421
20乯Oyama T, Nakano M, Nakachi S, Sunobe T, Akagawa I (2020) The relationship between nest aggregation and reproductive behavior in the blenniid fish Meiacanthus kamoharai. Kuroshio Biosphere 17: 45-54
21乯Shitamitsu T, Sunobe T (2020) Record of a mature female Ophichthus zophistius (Anguilliformes: Ophichthidae) from the northwestern Pacific. Ichthyological Research 67: 221-223
22)屆愳梞擵夘丒恵擵晹桭婎 愮梩導娰嶳榩偵偍偗傞僇儈僫儕儀儔 TP 梇偺斏怋愴弍: 孮傟嶻棏偐儁傾嶻棏偐丠2020 擭搙擔杮嫑椶妛夛擭夛乮僂僃僽戝夛乯2020.10.31-11.1
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幨恀
僶僫乕僗儁乕僗
搶嫗奀梞戝妛
悈寳壢妛僼傿乕儖僪
嫵堢尋媶僙儞僞乕
乮棯徧丗僼傿乕儖僪僙儞僞乕乯
杮晹丗搶嫗奀梞戝妛
丂丂丂昳愳僉儍儞僷僗撪
1:媑揷僗僥乕僔儑儞[惷壀導]
2:戝愹僗僥乕僔儑儞[嶳棞導]
3:娰嶳僗僥乕僔儑儞[愮梩導]
4:娰嶳榩撪巟強丂丂[愮梩導]
5:晊塝僗僥乕僔儑儞[愮梩導]
6:惔悈僗僥乕僔儑儞[惷壀導]
