悾屗 徆擵 (搶嫗擾岺戝妛柤梍嫵庼)

巇帠拞偺悾屗嫵庼 丂丂2001擭朰擭夛丂丂

尋媶偺僥乕儅丒撪梕

丂娐嫬栤戣傪捛媮偟偰備偗偽丄昁偢恖娫妶摦丄傂偄偰偼丄幮夛偺偁傝曽偺栤戣偵撍偒摉偨傝傑偡丅塱懕揑側幮夛偺峔抸偵岦偗偰娐嫬壢妛偵庢傝慻傓偙偲偼21悽婭偵惗偒傞彅孨偵偲偭偰嵟傕堄媊偁傞慖戰偱偁傞偲巚偄傑偡丅
丂帺慠娐嫬拞偵偼偝傑偞傑側恖岺壔妛暔幙傪暘夝偱偒傞旝惗暔偑懡悢惐懅偟偰偄傑偡丅偵傕偐偐傢傜偢丆娐嫬拞偱偼恖岺壔妛暔幙偼偟偽偟偽挿婜娫偵傢偨偭偰掅擹搙偱巆棷偟傑偡丅偦偺棟桼傪柧傜偐偵偡傞偨傔偵丆暘夝旝惗暔偑帺慠娐嫬拞偵偍偄偰偦偺擻椡傪敪婗偡傞偙偲傪惂尷偟偰偄傞條乆側娐嫬梫場傪夝柧偡傞尋媶傪峴側偭偰偄傑偡丅偝傜偵偙偺尋媶偵傛偭偰摼傜傟偨抦尒傪梡偄偰丆bioremediation乮旝惗暔傪梡偄偨墭愼娐嫬偺忩壔乯偺壜擻惈傪捛媮偟偰偄傑偡丅
丂旝惗暔偼抧媴忋偵愯傔傞惗暔椏偺敿暘傪愯傔偰偍傝丆抧媴忋偺暔幙弞娐偺傎偲傫偳偼旝惗暔偲怉暔偲偺娫偩偗偱惉傝棫偭偰偄傑偡丅搚忞旝惗暔偺戙幱妶惈丒惗妶條幃傗怘暔楢嵔傪捠偟偨暔幙廂巟傪柧傜偐偵偟偰丆惗懺宯偺峔憿偲婡擻傪夝柧偡傞偙偲傪捛媮偟偰偄傑偡丅
丂僼儔僗僐撪偵偍偄偰丆峔惉梫慺偑婛抦偱偁傝丆偐偮挿婜娫埨掕側旝彫惗懺宯乮microcosm乯傪悽奅偱弶傔偰憂弌偟傑偟偨丅偙偺旝彫惗懺宯傪梡偄偰丆帺慠娐嫬拞偵偍偗傞旝惗暔偺戙幱妶惈丒惗巆惈傗怘暔楢嵔傪捠偠偨暔幙廂巟傪柧傜偐偵偟偰丆惗懺宯偺峔憿偲婡擻傪夝柧偡傞偙偲傪捛媮偟偰偄傑偡丅
丂廬棃偺悈忩壔僔僗僥儉偱偼晉塰梴壔偺尨場偱偁傞塰梴墫椶傪廫暘偵彍嫀偡傞偙偲偼偱偒傑偣傫丅懡岴幙僐儞僋儕乕僩偲媧儕儞嵽傪慻傒崌傢偣丆悈拞偺塰梴墫椶傪旝惗暔懱傊偺庢傝崬傒傗扙拏嶌梡側偳偵傛偭偰彍嫀偡傞尋媶傪丆婇嬈偲偺嫟摨偱峴側偭偰偄傑偡丅丂仺徻偟偄愢柧偼偙偪傜

強懏妛夛丒抍懱

俶俹俷朄恖丂桳婡擾嶻暔晛媦丒懲旍壔悇恑嫤夛丂棟帠挿

挊丂彂

  1. 帩懕幮夛傊偺娐嫬榑乮扨挊丆桳斻妕乯2009擭
  2. 娐嫬旝惗暔妛擖栧亅恖娫傪巟偊傞儈僋儘偺惗暔亅乮扨挊丆挬憅彂揦乯2006擭
  3. 帺慠曐岇偺怴偟偄峫偊曽乮嫟挊丄屆崱彂堾乯2006擭
  4. 帩懕壜擻偱朙偐側幮夛傪揥朷偡傞乮扨挊丆廐嶳嵿抍僽僢僋儗僢僩乯2006擭
  5. 怷傪偼偐傞乮嫟挊丄屆崱彂堾乯2003擭
  6. 惗懺妛帠揟乮嫟挊丆嫟棫弌斉乯2003擭
  7. 怷椦偲巹偨偪偺偙傟偐傜−搶傾僕傾偺拞偺擔杮−乮嫟挊丆JUON NETWORK乯2003擭
  8. 娐嫬妛島媊丂娐嫬懳嶔偺岝偲塭乮扨挊丆娾攇彂揦乯2002擭
  9. 偙傟偱傢偐傞惗偛傒懲旍壔俻仌俙丂抦偭偰偍偒偨偄俉俉偺棟榑偲幚慔乮嫟挊丆崌摨弌斉乯2002擭
  10. 怴丒娐嫬壢妛傊偺斷乮嫟挊丆桳斻妕乯2001擭
  11. 怷椦棫抧挷嵏朄乮嫟挊丆攷桭幮乯1999擭
  12. 暥壢宯偺偨傔偺娐嫬榑丒擖栧乮嫟挊丆桳斻妕乯1998擭
  13. 僟僀僆僉僔儞偼側偔偣傞(嫟挊丆崌摨弌斉乯1998擭
  14. 娐嫬偺壔妛乮嫟挊丆擔怴弌斉乯1996擭
  15. 惗懺宯丂恖娫懚嵼傪巟偊傞惗暔僔僗僥儉乮扨挊丆桳斻妕乯1992擭
  16. 抧媴娐嫬偲帺慠曐岇乮嫟挊丆攟晽娰乯1991擭
  17. 傛偔傢偐傞悈栤戣堦栤堦摎乮嫟挊丆崌摨弌斉乯1991擭
  18. 娐嫬怉暔妛乮嫟挊丆挬憅彂揦乯1978擭

榑丂暥

  1. 嶰杧弮丒悾屗徆擵丒懡梾旜岝摽丏2009丏億乕儔僗僐儞僋儕乕僩僽儘僢僋傪梡偄偨抧壓悈拞偐傜偺拏慺彍嫀朄丆恖娫偲娐嫬35丗54-59丏
  2. Tarao, M., N. Takeda, and M. Seto. 2008. Respiration and carbon balance of the bacterium Pseudomonas sp., a protozoan Tetrahymena thermophila, and a fungus Trichoderma viride in a food chain system with glass beads. Microbes Environ. 23:244-247. (doi:10.1264/jsme2.23.244)
  3. 徏栰寬擇丒懡梾旜岝摽丒悾屗徆擵. 2008. 僈儔僗價乕僘傪梡偄偨攟梴宯偵偍偗傞嵶嬠Pseudomonas sp. strain DP-4偺扙拏偵媦傏偡尨惗摦暔Tetrahymenta thermophila傑偨偼巺忬嬠Trichoderma viride偺塭嬁丆擔杮搚忞旍椏妛嶨帍79丗69-75.
  4. 憡巕怢擵丒拞惣寬丒悾屗徆擵丏2007丏億乕儔僗僐儞僋儕乕僩僽儘僢僋偲媧儕儞嵽偵傛傞忩壔偑抮偺扙拏偵偍傛傏偡塭嬁丆梡悈偲攑悈49丗671-679丏
  5. 懡梾旜岝摽丒抮撪枮惌丒悾屗徆擵丏2006丏懲旍楢梡搚忞偲壔妛旍椏楢梡搚忞偵偍偗傞2,4,5-trichlorophenol乮TCP乯偺旝惗暔暘夝丆TCP暘夝旝惗暔偺枾搙丆偍傛傃搚忞梟塼偺梟懚桳婡懺扽慺検丆恖娫偲娐嫬32丗141-144.
  6. 憡巕怢擵丒悾屗徆擵丏2006丏億乕儔僗僐儞僋儕乕僩僽儘僢僋偲媧儕儞嵽傪搳擖偟偨悈憛偺摟帇搙偵媦傏偡嫑椶偺塭嬁丆擔杮悈張棟惗暔妛夛帍42丗1-8.
  7. 怽梡揘丒懡梾旜岝摽丒悾屗徆擵丏2005丏棨悈偵偍偗傞Pseudomonas aeruginosa偺惗巆惈傪惂尷偟偰偄傞柍婡墫椶傪専摙偡傞偨傔偺崌惉柍婡攟抧偺桳岠惈丆恖娫偲娐嫬31丗40-48.
  8. 憡巕怢擵丒悾屗徆擵丏2004丏億乕儔僗僐儞僋儕乕僩僽儘僢僋偲媧儕儞嵽傪娷傓抮偺悈幙偲儕儞丒拏慺廂巟丏塉悈帒尮壔僔僗僥儉妛夛帍9丗51-55丏
  9. 悾屗徆愰丒悾屗徆擵丏2004丏億乕儔僗僐儞僋儕乕僩偲媧儕儞嵽偵傛傞墭悈偺嶰師張棟朄偺採埬丏恖娫偲娐嫬30丗2-8丏
  10. 懡梾旜岝摽丒徏栰寬擇丒悾屗徆擵丏2003丏僈儔僗價乕僘僇儔儉偵偍偗傞搚忞旝惗暔孮廤偺僶僀僆儅僗偍傛傃拏慺丒扽慺廂巟偵偍傛傏偡pH偺塭嬁丏恖娫偲娐嫬丏29丗117-121丏
  11. 憡巕怢擵丒娾杮抦棦丒悾屗徆擵丏2003丏億乕儔僗僐儞僋儕乕僩僽儘僢僋偲媧儕儞嵽偑掙揇傪娷傓悈憛偺悈幙偵媦傏偡塭嬁丏恖娫偲娐嫬丏29丗107-116丏
  12. Tarao, M., Y. Yamashita, A. Sato, and M. Seto. 2002. Effects of protozoa and glass beads on bacterial biomass and metabolism in a food chain system of glucose-Pseudomonas sp. strain DP-4-Tetrahymena thermophila. Microb. Environ. 17:128-133.
  13. 怽梡揘丒懡梾旜岝摽丒悾屗徆擵丏2002丏Pseudomonas sp. strain DP-4偵傛傞2,4-dichlorophenol偲2,4,5-trichlorophenol偺暘夝偵偍傛傏偡壜帇岝偺慾奞揑側塭嬁丏恖娫偲娐嫬丏28丗2-9丏
  14. 憡巕怢擵丒悾屗徆擵丏2001丏偛偔掅昿搙偺儊儞僥僫儞僗偱丆挿婜娫偵傢偨偭偰崅偄摟帇搙傪堐帩偡傞偙偲偑壜擻側抮悈忩壔朄丏懡帺慠尋媶丏75丗3-6
  15. 業嶈晀岾丒嵅摗婸丒悾屗徆擵丏2001丏怷椦偲擾峩抧偺搚忞偵偍偗傞旝惗暔僶僀僆儅僗偲抍棻峔憿偵晽姡丒幖弫偑偍傛傏偡塭嬁丏恖娫偲娐嫬丏27丗106-114丏
  16. 戝懞宐丒悾屗徆擵丏2001丏抮悈偺摟帇搙偲僋儘儘僼傿儖倎擹搙偍傛傃慡儕儞丒慡拏慺擹搙偺娭學丏恖娫偲娐嫬丏27丗64-69丏
  17. 悾屗徆擵丏2001丏娐嫬偺攋夡偲昻晉偺嵎偺奼戝丏擔杮偺壢妛幰丏36丗245-249丏
  18. 徏塱弫丒懡梾旜岝摽丒悾屗徆擵丏2001丏弮悎攟梴丒崿崌攟梴偵偍偗傞Pseudomonas懏嵶嬠DP-4姅偵傛傞掅擹搙丒崅擹搙2,4-dichlorophenol乮DCP乯偺暘夝屻偵傒傜傟傞DCP偺巆棷丏擔杮旝惗暔惗懺妛夛帍丏16丗40-47丏
  19. 徏塱弫丒悾屗徆擵丏2001丏旝彫惗懺宯偵偍偗傞2,4-dichlorophenol乮DCP乯偺暘夝偍傛傃旝惗暔偺枾搙偵偍傛傏偡DCP擹搙偺塭嬁丏恖娫偲娐嫬丏27丗7-10丏
  20. 嵅摗婸丒業嶈晀岾丒悾屗徆擵丏2000丏怷椦偲擾峩抧搚忞偵偍偗傞旝惗暔僶僀僆儅僗扽慺偵偍傛傏偡搚忞偺奾漚丆壏搙偍傛傃娷悈斾偺塭嬁丏擔杮旝惗暔惗懺妛夛帍丏15丗23-30丏
  21. 嵅摗婸丒悾屗徆擵丏2000丏搚抧棙梡偍傛傃搚忞娗棟偺堎側傞壩嶳奃搚忞偵偍偗傞巺忬嬠偲嵶嬠偺僶僀僆儅僗丏搚偲旝惗暔丏54丗23-30丏
  22. 嵅摗婸丒悾屗徆擵丏2000丏壩嶳奃搚忞偵偍偗傞旝惗暔偺扨埵僶僀僆儅僗摉偨傝偺屇媧懍搙偲扽慺廂巟−嶰庬偺搚抧棙梡娫偺斾妑−丏搚偲旝惗暔丏54丗13-21丏
  23. 拞愳抭奊丒峟怣婸椞嬣丒悾屗徆擵丏2000丏媧儕儞嵽偲億乕儔僗僐儞僋儕乕僩僽儘僢僋傪慻傒崌傢偣偨抮悈忩壔朄傪梡偄偨悈憛偵偍偗傞揧壛偟偨儕儞偲拏慺偺暘晍丏恖娫偲娐嫬丏26丗110-117丏
  24. Tarao, M., and M. Seto. 2000. Estimation of the yield coefficient of Pseudomonas sp. strain DP-4 with a low substrate (2,4-dichlorophenol[DCP]) concentration in a mineral medium from which uncharacterized organic compounds were eliminated by a non-DCP-degrading organism. Appl. Environ. Microbiol. 66:566-570.
  25. 懡梾旜岝摽丒埳摗徆巎丒悾屗徆擵丏1999丏偄偔偮偐偺娐嫬梫場偑2,4-dichlorophenol-Pseudomonas sp. strain DP-4偺弮悎攟梴宯偵偍偗傞擇師懍搙掕悢偵偍傛傏偡塭嬁丏恖娫偲娐嫬丏25丗2-7丏
  26. Sato, A., and M. Seto. 1999. Relationship between rate of carbon dioxide evolution, microbial biomass carbon, and amount of dissolved organic carbon as affected by temperature and water content of a forest and an arable soil. Commun. Soil Sci. Plant Anal. 30:2593-2605.
  27. 栘懞埢丒悾屗徆擵丏1998丏搒巗偺恖岺抮偵偍偗傞儕儞丆拏慺偺暘晍偲摟帇搙偲偺娭學丏塉悈媄弍帒椏丏30丗69-74丏
  28. 峟怣婸椞嬣丒枛師峃棽丒栘懞埢丒悾屗徆擵丏1998丏億乕儔僗僐儞僋儕乕僩偲媧儕儞嵻傪梡偄偨抮悈忩壔朄偵偍偗傞忩壔儊僇僯僘儉偺堦峫嶡丏恖娫偲娐嫬丏24丗86-92丏
  29. 栘懞埢丒悾屗徆擵丏1998丏億乕儔僗僐儞僋儕乕僩偲媧儕儞嵻傪慻傒崌傢偣偨抮悈忩壔朄偺採埬丏恖娫偲娐嫬丏24丗22-27丏
  30. 枛師峃棽丒悾屗徆擵丏1998丏億乕儔僗僐儞僋儕乕僩僽儘僢僋偲媧儕儞嵻傪梡偄偨恊悈抮偯偔傝丏懡帺慠尋媶丏30丗3-10丏
  31. 曐嶁桭姲丒埳摗徆巎丒懡梾旜岝摽丒悾屗徆擵丏1998丏嬌尷娐嫬忦審壓偵偍偗傞Pseudomonas懏偺嵶嬠 DP-4 偺惗懚偲2,4-dichlorophenol偺惗暘夝丏恖娫偲娐嫬丏24丗2-9丏
  32. 懡梾旜岝摽丒嶳嶈彶巕丒悾屗徆擵丏1997丏偄偔偮偐偺娐嫬帋悈偵偍偗傞崅擹搙偍傛傃掅擹搙偺2,4-dichlorophenol偺暘夝偲暘夝嬠枾搙偺曄壔偵娭偡傞斾妑尋媶丏恖娫偲娐嫬丏23丗146-155丏
  33. 懡梾旜岝摽丒彫栰捤榓擵丒悾屗徆擵丏1997丏掅擹搙偺2,4-dichlorophenol偵墭愼偝傟偨墱懡杸屛偺帋悈偵偍偗傞僶僀僆儗儊僨傿僄乕僔儑儞偺堦偮偺帋傒丏恖娫偲娐嫬丏23丗74-81丏
  34. 栰懞幚丒嵅摗峕棙巕丒悾屗徆擵丏旝彫惗懺宯偵偍偗傞Pseudomonas sp. strain DP-4偺僒償傽僀償傽儖偲掅擹搙2,4-dichlorophenol偺惗暘夝丏恖娫偲娐嫬丏23丗10-15丏
  35. 懡梾旜岝摽丒拞郪抭摽丒悾屗徆擵丏1996丏塼懱攟抧偲桳婡暔娷検偺堎側傞偄偔偮偐偺搚忞偵偍偗傞Pseudomonas懏偺嵶嬠 DP-4 偵傛傞2,4,5-trichlorophenol偺暘夝偺斾妑尋媶丏恖娫偲娐嫬丏22丗152-160丏
  36. 栰懞幚丒撓暷抧岶晇丒悾屗徆擵丏1996丏Pseudomonas sp. strain DP-4偵傛傞2,4-dichlorophenol偺惗暘夝偺弮悎攟梴偲旝彫惗懺宯偵偍偗傞斾妑尋媶丏恖娫偲娐嫬丏22丗99-106丏
  37. 懡梾旜岝摽丒悾屗徆擵丏1996丏掅擹搙偺墫慺壔僼僃僲乕儖偺旝惗暔暘夝偲暘夝旝惗暔偺惉挿丏恖娫偲娐嫬丏22丗23-37丏
  38. 悾屗徆擵丏1996丏惗懺宯−娐嫬娗棟偺偨傔偺婎杮扨埵−丏奀梞偲惗暔丏18丗2-6丏
  39. 抾栰懽揟丒懡梾旜岝摽丒悾屗徆擵丏1995丏塼懱攟抧偲桳婡暔娷検偺堎側傞偄偔偮偐偺搚忞偵偍偗傞Pseudomonas懏偺嵶嬠乮DP-4乯偵傛傞2,4-dichlorophenol偺暘夝偺斾妑尋媶丏恖娫偲娐嫬丏21丗126-133丏
  40. 懡梾旜岝摽丒崟敤庨柧丒悾屗徆擵丏1995丏Pseudomonas懏偺嵶嬠乮DP-4乯偵傛傞2,4-dichlorophenol乮DCP乯暘夝偵偍傛傏偡DCP偲曗彆婎幙偺塭嬁丏恖娫偲娐嫬丏21丗61-67丏
  41. 嵅摗婸丒悾屗徆擵丏1995丏擾峩抧偍傛傃怷椦搚忞偵偍偗傞旝惗暔僶僀僆儅僗扽慺偲柍婡僀僆儞検偲偺娭學丏搚偲旝惗暔丏46丗51-59丏
  42. 悾屗徆擵丒撓暷抧岶晇丒栰懞幚丏1995丏旝彫惗懺宯偺嶌惢丆偍傛傃丆偙傟偵摫擖偟偨Pseudomonas sp.乮DP-4乯偺僒償傽僀償傽儖偲2,4-dichlorophenol偺惗暘夝丏21丗2-8丏
  43. 徏杮峗堦丒斞揷椇堦丒懡梾旜岝摽丒悾屗徆擵丏1994丏嵶嬠偺堦庬Pseudomonas sp.乮DP-4乯偵傛傞2,4-dichlorophenol偲2,4,5-trichlorophenol偺暘夝偵娭偡傞斾妑尋媶丏恖娫偲娐嫬丏20丗96-103丏
  44. 懡梾旜岝摽丒杮娫柋丒悾屗徆擵丏1994丏嵶嬠偺堦庬Pseudomonas sp.乮DP-4乯偵傛傞2,4,5-trichlorophenol偺嫟栶戙幱丏恖娫偲娐嫬丏20丗2-7丏
  45. 懡梾旜岝摽丒悾屗徆擵丏搚忞偲塼懱攟抧偵偍偗傞2,4-dichlorophenol偺旝惗暔暘夝偺斾妑尋媶丏搚偲旝惗暔丏43丗9-16丏
  46. Tarao, M., K. Tsunozaki, and M. Seto. 1993. Biodegradation of 2,4-dichlorophenol at low concentration and specific growth rate of Pseudomonas sp. strain DP-4. Bull. Jpn. Soc. Microb. Ecol. 8:169-174.
  47. 懡梾旜岝摽丒揷拞椢丒悾屗徆擵丏1993丏抧壓帋悈偵愙庬偟偨Pseudomonas sp.乮DP-4乯偵傛傞2,4-dichlorophenol偺暘夝偺嵞尰惈丏恖娫偲娐嫬丏19丗125-131丏
  48. 徏杮峗堦丒懡梾旜岝摽丒悾屗徆擵丏1993丏偄偔偮偐偺搚忞偵偍偗傞2,4-dichlorophenol偺旝惗暔暘夝丏恖娫偲娐嫬丏19丗68-74丏
  49. 楅栘孾夘丒悾屗徆擵丏1993丏尨惗摦暔偺愛怘偵傛傞嵶嬠枾搙偺尭彮偵娭偡傞惗懺妛揑尋媶丏恖娫偲娐嫬丏19丗23-29丏
  50. 悾屗徆擵丒揷拞桾堦丒杮娫柋丒嶳嶈彶巕丏1992丏旝惗暔偵傛傞掅擹搙偺2,4-dichlorophenol偺暘夝偲嬠懱惗嶻丏恖娫偲娐嫬丏18丗15-20丏
  51. 悾屗徆擵丒壨抂棙巕丏1992丏偄偔偮偐偺娐嫬帋悈偵偍偗傞2,4-dichlorophenol偺暘夝嬠枾搙偺専摙丏恖娫偲娐嫬丏17丗126-132丏
  52. 杮娫柋丒悾屗徆擵丏1991丏嵶嬠偵傛傞2,4-僕僋儘儘僼僃僲乕儖偺惗暔擹弅丏恖娫偲娐嫬丏17丗2-9丏
  53. 悾屗徆擵丒僄儖僯丂儅儖僞僯丏1991丏抧壓帋悈偵偍偗傞2,4-僕僋儘儘僼僃僲乕儖乮DCP乯偺暘夝偲帋悈偐傜扨棧偝傟偨DCP暘夝嬠偺惗懺妛揑惈幙丏恖娫偲娐嫬丏16丗129-135丏
  54. Martani, E., and M. Seto. 1991. Degradation of 2,4-dichlorophenol in the microbial community of groundwater sample by bacterial isolate E-6. J. Pesticide Sci. 16:429-434.
  55. Martani, E., and M. Seto. 1991. Effects of mineral nutrients on the degradation of 2,4-dichloropheonol at low concentrations by microbial community and bacterial isolates. J. Pesticide Sci. 16:1-7.
  56. Martani, E., and M. Seto. 1990. Possible reasons for the failure of natural microbial community to degrade low concentration of 2,4-dichlorophenol. Bull. Jpn. Soc. Microbiol. Ecol. 5:37-44.
  57. 悾屗徆擵丒拞栰怢堦丒杚栰弮堦丏1990丏懡杸愳偵偍偗傞墫慺壔僼僃僲乕儖偺暘夝嬠枾搙偺暘晍偲婫愡曄壔丆偍傛傃丆揧壛偟偨墫慺壔僼僃僲乕儖偺暘夝條幃偺峫嶡丏恖娫偲娐嫬丏15丗16-22丏
  58. 悾屗徆擵丏1990丏庬屄懱孮偺怘暔楢嵔宯偵偍偗傞惗懺妛丏擔杮偺壢妛幰丏25丗154-158丏
  59. 揂嫗孧丆曅嶳梩巕丆憡揷摽擇楴丆悾屗徆擵丆憅愇煡 丏1990丏僠僆僔傾儞暘夝嬠偺屌掕壔價乕僘拞偱偺憹怋偲價乕僘昞柺偵偍偗傞儅僢僩忬嬠憌偺宍惉丏悈幙墭戺尋媶丏13丗586-591丏
  60. Cheong, K., Y. Katayama, M. Seto, and H. Kuraishi. 1990. Estimation of cellular protein for monitoring the cell growth of bacteria in a photo-crosslinked polymer resin. J. Ferment. Bioeng. 70:136-138.
  61. 悾屗徆擵丒掃堜暥梩丒杚栰弮堦丏1990丏DCP(2,4-dichlorophenol)傪揧壛偟偨桸悈偲壨愳悈偵偍偗傞DCP暘夝嬠偺僒償傽僀償傽儖偲DCP暘夝偵偍傛傏偡挿婜娫攟梴偺塭嬁丏恖娫偲娐嫬,丏16丗11-17丏
  62. Nakano, S., and M. Seto. 1990. Some ecological factars on the degradation of 2,4-dichlorophenol in waters from aquatic environments. Jpn. J. Limnol. 51:155-161.
  63. 悾屗徆擵丏1989丏庬乆偺棨悈偺栰奜偵偍偗傞巁慺徚旓懍搙傪悈壏偲梟懚桳婡扽慺擹搙偱梊應偡傞丏恖娫偲娐嫬丏15丗19-27丏
  64. 悾屗徆擵丒掃堜暥梩丏1989丏桸悈偲壨愳偺帋悈偵偍偗傞2,4-僕僋儘儘僼僃僲乕儖(DCP)暘夝嬠偺僒償傽僀償傽儖偲DCP偺暘夝擻偺敪尰丏恖娫偲娐嫬丏15丗18-24丏
  65. 悾屗徆擵丒拞栰怢堦丒僄儖僯丒儅儖僞僯丒杚栰弮堦丏1989丏偄偔偮偐偺娐嫬帋悈偵偍偗傞掅擹搙偺2,4-dichlorophenol偺暘夝嬠枾搙偲偦偺暘夝偺旝惗暔妛揑峫嶡丏惗懺壔妛丏9丗8-15丏
  66. 悾屗徆擵丒抮搰峩丒拞栰怢堦丏1989丏懡杸愳偺帋悈偵偍偗傞墫慺壔僼僃僲乕儖偺暘夝嬠枾搙偲墫慺壔僼僃僲乕儖偺暘夝偵娭偡傞擇丄嶰偺峫嶡丏恖娫偲娐嫬丏14丗12-19丏
  67. 悾屗徆擵丒娾尦恀巎丏1988丏嵶嬠(Pseudomonas aeruginosa)偺婹夓忦審偵偍偗傞屇媧懍搙偲僒償傽僀償傽儖丏恖娫偲娐嫬丏14丗11-19丏
  68. 悾屗徆擵丒掃堜暥梩丒媨揷抦岾丏1988丏慇栄拵偵傛傞嵶嬠偺彍嫀丗Pseudomonas sp.-Tetrahymena thermophila偺擇幰攟梴偵媦傏偡桳婡暔揧壛偺塭嬁丏恖娫偲娐嫬丏14丗23-30丏
  69. 悾屗徆擵丒扥壓孧丏1988丏懡杸愳棳堟偺悢庬偺搚忞偺栰奜偵偍偗傞擇巁壔扽慺偺曻弌懍搙偲搚忞梟塼拞偺梟懚桳婡扽慺検偺應掕丏攇媦抧尋媶丏6丗304-312丏
  70. Seto, M., M. Yamamoto, S. Nishida, and I. Tange. 1988. Heterotrophic utilization of dissolved organic carbon and its implication in the oxygen consumption of various limnetic waters. Rolling Land Research. 6:294-303.
  71. Seto, M. 1986. The effect of density and starvation of a bacterial population on the rate constant of second-order kinetics. Ecol. Res. 1:323-327.
  72. Seto, M., and M. Alexander. 1985. Effect of bacterial density and substrate concentration on yield coefficients. Appl. Environ. Microbiol. 50:1132-1136.
  73. Seto, M., and S. Yui. 1983. The amount of dissolved organic carbon in the soil solutions of a forest and a farm soil in situ. Jpn. J. Ecol. 33:305-312.
  74. Seto, M., and K. Yanagiya. 1983. Rate of CO2 evolution from soil in relation to temperature and amount of dissolved organic carbon. Jpn. J. Ecol. 33:199-205.
  75. Seto, M., and M. Noda. 1982. Growth rate, biomass production and carbon balance of Pseudomonas aeruginosa at pH extremes in a carbon-limited medium. Jpn. J. Limnol. 43:263-271.
  76. Seto, M. 1982. A preliminary observation on CO2 evolution in situ measured by an air current method -An example in rainfall and plowing sequences-. Jpn. J. Ecol. 32:535-538.
  77. Seto,M., and K. Misawa. 1982. Growth rate, biomass production and carbon balance of Pseudomonas aeruginosa in a glucose- limited medium at temperature and osmotic pressure extremes. Jpn. J. Ecol. 32:365-371.
  78. Seto,M., S. Nishida, and M. Yamamoto. 1982. Dissolved organic carbon as a controlling factor in oxygen consumption in natural and man-made waters. Jpn. J. Limnol. 43:96-101.
  79. 悾屗徆擵丏1981丏懡杸愳棳堟偺悢庬偺搚忞偵偍偗傞擇巁壔扽慺偺曻弌懍搙偲搚忞梟塼拞偺梟懚桳婡扽慺検偲偺娭學丏擔惗懺夛帍丏31丗99-105丏
  80. 悾屗徆擵丒扥壓孧丏1980丏搚忞偺擇巁壔扽慺偺曻弌懍搙偲搚忞梟塼拞偺梟懚桳婡扽慺検偲偺娭學−偲偔偵搚忞傪晽姡幖弫張棟偟偨応崌−丏搚旍帍丏51丗392-398丏
  81. 悾屗徆擵丒媿搰拤峀丒恄嶳宐嶰丏1980丏搚忞偺擇巁壔扽慺偺敪惗懍搙偲搚忞梟塼拞偺梟懚桳婡扽慺検偲偺娭學−怷椦偺晽姡搚忞傪幖弫張棟偟偨応崌−丏惗暔娐嫬挷愡丏18丗49-56丏
  82. 悾屗徆擵丏1980丏搚忞偺擇巁壔扽慺偺曻弌懍搙偲搚忞偺娷悈棪偍傛傃搚忞梟塼拞偺梟懚桳婡扽慺検偲偺娭學丏擔惗懺夛帍丏30丗385-391丏
  83. 悾屗徆擵丒扥壓孧丏1980丏夁棸巁僇儕僂儉−愒奜慄僈僗暘愅寁偵傛傞搚忞偺慡扽慺偺恦懍崅姶搙掕検朄丏搚旍帍丏51丗27-30丏
  84. 悾屗徆擵丒崅嫶媊柧丒媿搰拤峀丒揷嶈拤椙丏1979丏僇僪儈僂儉偵傛傞Lemna gibba偺墿壔屚巰偲塰梴墫椶偺擹搙偲偺娭學丏棨悈帍丏40丗61-65丏
  85. Seto,M., S.Yazawa, and T.Tazaki. 1979. Efficiency of biomass production and nitrogen balance of Escherichia coli in nitrogen-limited medium. Jpn. J. Ecol. 29:11-16.
  86. 悾屗徆擵丒媨戲晲廳丒揷嶈拤椙丏1978丏偄偔偮偐偺搚忞偵偍偗傞擇巁壔扽慺偺敪惗懍搙偲搚忞偺壏搙偍傛傃悈梟惈桳婡暔検偲偺娭學丆惗暔娐嫬挷愡丏16丗109-112丏
  87. 悾屗徆擵丒徏慜嫳巕丒揷嶈拤椙丏1978丏椦彴偵偍偗傞擇巁壔扽慺偺敪惗懍搙偺婫愡曄壔偲搚忞偺惗暔偍傛傃娐嫬忦審偵娭偡傞偄偔偮偐偺峫嶡丏惗暔娐嫬挷愡丏16丗103-108丏
  88. 悾屗徆擵丏1978丏幖幃巁壔−愒奜慄僈僗暘愅寁偵傛傞慡桳婡扽慺偺崅姶搙恦懍掕検朄丏暘愅壔妛丏27丗660-663丏
  89. Seto,M., and T.Tazaki. 1975. Growth and respiratory activity of mold fungus (Trichoderma lignorum). Bot. Mag. Tokyo. 88:255-266.
  90. Seto,M., and T.Tazaki. 1971. Carbon dynamics in the food chain system of glucose-Escherichia coli-Tetrahymena vorax. Jpn. J. Ecol. 21:179-188.
  91. Seto,M., and T.Tazaki. 1970. Ecological studies on microbial growth-Balance of carbon and efficiency of yield in aerobic culture of Escherichia coli. Jpn. J. Ecol. 20:95-101.


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