丂抧媴忋偺惗暔検偺戝晹暘偼丆旝惗暔偲怉暔偐傜峔惉偝傟偰偄傑偡丏偟偨偑偭偰丆惗暔傪捠偠偨抧媴忋偺暔幙弞娐偺戝晹暘偼丆旝惗暔偲怉暔偲偺娫偱峴側傢傟偰偄傞偙偲偵側傝傑偡丏摦暔偺懚嵼偼昁偢偟傕昁梫偱偼偁傝傑偣傫丏旝惗暔傗怉暔偺惗暔検偐傜偡傟偽丆傎傫偺偮偗偨偟掱搙偺検偟偐側偄摦暔偺丆偝傜偵偦偺偮偗偨偟掱搙偺僸僩偑丆偦偺嫄戝側宱嵪妶摦偵傛偭偰暔幙弞娐傪偐偔棎丒幷抐偟丆帺恎偺惗懚偺婋婡偵偮側偑傞娐嫬偺埆壔傪傕偨傜偟偰偄傑偡丏旝惗暔偼娐嫬拞偱塧傪怘傋丆憹怋偟丆戙幱暔傪揻偒弌偟丆忋埵偺塰梴抜奒偵曔怘偝傟傑偡丏偙偺旝惗暔偺怘暔楢嵔傪捠偠偰扽慺傗拏慺側偳偺惗尦慺偑惗暔寳傪弞娐偟丆僸僩偺惗懚偲幮夛偺帩懕惈傪傕偨傜偟偰偄傑偡丏娐嫬偵偍偗傞旝惗暔偺惗偒條傪柧傜偐偵偡傞偙偲傪捠偠偰惗懺宯偺峔憿偲婡擻傪夝柧偟丆恖偲幮夛偑帩懕偱偒傞傛偆側丆崌棟揑側惗懺宯娗棟偺偁傝曽傪捛媮偡傞偺偑巹偺尋媶偺栚揑偱偡丏尰嵼偼丆埲壓偺撪梕偵庢傝慻傫偱偄傑偡丏

• 恖岺壔妛暔幙偺旝惗暔暘夝偵媦傏偡娐嫬梫場偺夝柧

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傞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丏傑偨丆幚尡幒撪偺弮悎攟梴偱偼暘夝擻傪敪婗偡傞暘夝嬠傪丆悈傗搚忞側偳偺娐嫬帋椏偵愙庬偟偰傕丆婜懸捠傝偺偼偨傜偒傪偟側偐偭偨傝丆惗巆偟側偐偭偨傝偡傞偙偲偑偟偽偟偽偍偙傝傑偡丏偙傟傜偺偙偲偼丆暘夝旝惗暔偑帺慠娐嫬偵偍偄偰偦偺擻椡傪敪婗偡傞偙偲傗惉挿丒惗巆偡傞偙偲傪惂尷偟偰偄傞偝傑偞傑側娐嫬梫場乮恖岺壔妛暔幙擹搙丆壏搙丆pH丆岝丆撆惈暔幙丆堈暘夝惈桳婡暔丆曔怘幰側偳乯偑懚嵼偡傞偙偲傪堄枴偟傑偡丏偦傟傜傪夝柧偡傞偙偲傪栚揑偲偟偰偄傑偡丏

• 宱嵪揑側悈忩壔

丂娵抮偱峴偭偰偄傞悈忩壔偱偡丏搒巗岞墍偺抮偺悈傪丆庤娫丒傂傑丒偍嬥傪偐偗偢偵拏慺丒儕儞傪彍嫀偟丆怉暔僾儔儞僋僩儞偺憹怋傪梷惂偟偰悈傪惔悷乮摟帇搙50 cm 埲忋乯偵曐偮偺偑栚揑偱偡丏悈拞偺拏慺偼扙拏偱彍嫀偝傟偰偄傑偡偑丆扙拏懍搙偺婫愡曄壔傪扙拏偑偍偙偭偰偄傞応強乮忩壔憛丆掙揇側偳乯偛偲偵挷傋偰丆拏慺偺彍嫀偵偳偙偑堦斣峷專偟偰偄傞偐昡壙偟偨偄偲峫偊偰偄傑偡丏

• 扙拏嵶嬠偺暘棧偲扙拏擻偺摿惈

丂扙拏嵶嬠偺尋媶偱揱摑揑偵巊傢傟偰偄傞攟抧偼丆桳婡暔擹搙偑悢 g L^-1 偱偁偭偨傝丆徤巁懺拏慺擹搙偑 5 mM 偱偁偭偨傝偲丆挊偟偔崅擹搙偱偡丏偟偐偟丆帺慠娐嫬偱偼桳婡暔偼偣偄偤偄 10 mg L^-1丆徤巁懺拏慺傕 0.5 mM 偲掅擹搙偱偡丏偙傟偵懳偟偰丆揱摑揑側攟抧傪巊偭偰偼攟梴偱偒側偐偭偨傝丆扙拏妶惈傪敪婗偟側偄扙拏嵶嬠偑偄傞偩傠偆偲梊憐偟偰丆傛傝掅擹搙偺攟抧傪巊偭偰扙拏嵶嬠傪曔傑偊傞偙偲傪帋傒傑偟偨丏偦偺寢壥丆掅擹搙偺攟抧偱扙拏妶惈傪帵偡嵶嬠傪偄偔偮偐暘棧偡傞偙偲偵惉岟偟傑偟偨丏偦傟傜扙拏嵶嬠偺惈幙傪挷傋傞偙偲丆幚嵺偵娐嫬拞偱扙拏偵娭梌偟偰偄傞偺偐柧傜偐偵偡傞偙偲丆偝傜偵懡偔偺扙拏嵶嬠傪曔傑偊傞偙偲偵庢傝慻傒偨偄偲峫偊偰偄傑偡丏

• 拏慺彍嫀偲 N₂O 惗嶻傪椉棫偝偣傞悈張棟朄偺奐敪

丂攑悈拞偐傜拏慺傪彍嫀偡傞偙偲偼丆晉塰梴壔傪杊巭偡傞偆偊偱寚偐偣傑偣傫丏拏慺彍嫀偺庤朄偲偟偰扙拏偑梡偄傜傟偰偄傑偡s丏偟偐偟丆扙拏偺拞娫懱偱偁傞垷巁壔拏慺乮N₂O乯偺敪惗傪梷偊傞偙偲偑壽戣偱偡丏N₂O 偼 CO₂ 偺 400 攞傕偺壏幒岠壥傪桳偡傞偐傜偱偡丏偄偭傐偆偱嬤擭丆N₂O 傪敪揹偺嵽椏偲偟偰巊偆媄弍偑奐敪偝傟傑偟偨丏側傜偽丆攑悈張棟偺扙拏夁掱偵偍偄偰 N₂O 傪偁偊偰戝検偵敪惗偝偣丆偐偮偦傟傪敪揹偵巊偊偽堦愇擇捁偱偼側偄偐丏偦偺傛偆偵峫偊偰丆扙拏偱 N₂O 傪戝検偵敪惗偝偣傞媄弍偺奐敪偵庢傝慻傫偱偄傑偡丏

• 嵶嬠偺戙幱妶惈偵媦傏偡曔怘幰丒嫞崌嵶嬠偺塭嬁

丂曔怘幰乮尨惗摦暔乯偑偄傞偲嵶嬠偺戙幱偑懀恑偝傟偨傝丆嫞崌嵶嬠偑偄傞偲戙幱偑梷惂偝傟偨傝偡傞偙偲偑偁傝傑偡丏偦傟傜偑丆旝惗暔偺怘暔楢嵔傪捠偠偨暔幙弞娐偵媦傏偡塭嬁傪柧傜偐偵偟偨偄偲峫偊偰偄傑偡丏

• 旝惗暔怘暔楢嵔傪捠偠偨惗暔擹弅

丂惗暔擹弅偺尋媶偼惗怘楢嵔傪捠偠偨擹弅偵拲栚偟偨椺偽偐傝偱丆晠怘楢嵔乮旝惗暔偺怘暔楢嵔乯傪捠偠偨曬崘椺偼傎偲傫偳偁傝傑偣傫丏僶僀僆儅僗偱偼摦暔傛傝傕旝惗暔偺傎偆偑埑搢揑偵懡偔丆夞揮懍搙乮僶僀僆儅僗偺擖傟懼傢傝懍搙乯傕旝惗暔偺傎偆偑摦暔傛傝傕崅偄偺偱丆旝惗暔偺怘暔楢嵔傪捠偠偨墭愼暔幙偺惗暔擹弅偑偁傞偐傕偟傟側偄偲峫偊偰偄傑偡丏偙偺壖愢傪徹柧偡傞偨傔偺尋媶傪峴偭偰偄傑偡丅

• 僶僀僆扽傪梡偄偨掅娐嫬晧壸宆擾嬈媄弍偺奐敪

丂傕傒妅傗儎僔妅偐傜偮偔傜傟偨扽傪擾抧偵巤梡偡傞偲丆搚忞偑夵椙偝傟嶌暔偺廂検偑忋偑偭偨傝丆壏幒岠壥僈僗偺曻弌検偑尭偭偨傝偡傞側偳偺岠壥偑抦傜傟偰偄傑偡丏儀僩僫儉偺儊僐儞丒僨儖僞抧堟偱僶僀僆扽傪梡偄偨掅娐嫬晧壸宆擾嬈偑峔抸偱偒側偄偐丆尰抧偺戝妛偲悢擭娫丆嫟摨尋媶傪偟傑偡丏僶僀僆扽偑岠壥傪傕偨傜偡儊僇僯僘儉傪丆旝惗暔偺帇揰偐傜夝偒柧偐偟偰偄偒偨偄偲峫偊偰偄傑偡丏

• 孯妛嫟摨栤戣乮懖榑丒廋榑偺壽戣偵偼偱偒傑偣傫乯

丂擔杮偱偼戞俀師悽奅戝愴偱攕愴埲崀丆戝妛偱偼孯帠尋媶傪傗傜側偄丆偲偄偆尨懃偑偁傝傑偟偨丏偦傟偑嵟嬤丆曵傟偮偮偁傝傑偡丏戝妛偲杊塹徣丒帺塹戉丒奜崙孯偲偺嫟摨尋媶乮孯妛嫟摨乯偑恑傫偱偄傑偡丏戝妛偱偺孯帠尋媶偼椣棟揑偵栤戣偱偁傞偩偗偱側偔丆妛栤偺帺桼偺怤奞偵偮側偑傞嫲傟偑偁傞丆擔杮偺宱嵪丒幮夛偺孯帠壔偵庤傪戄偡偙偲偵側傞偲偄偆棟桼偱斀懳偟偰偄傑偡丏嶨帍偵婑峞偟偨傝丆杮傪彂偄偨傝丆島墘傪偟偨傝偟偰丆悽榑偺姭婲偵搘傔偰偄傑偡丏

丂偙傟傜埲奜偵傕丆妛惗彅孨偵偼娐嫬栤戣偺尨場偱偁傞恖娫幮夛偺峔憿偲婡擻偵傕娭怱傪帩偪丆忢偵乽栤偆乿偙偲偺戝愗偝傪揱偊偰偄傞偮傕傝偱偡丏

強懏妛夛

• 擔杮旝惗暔惗懺妛夛
• 擔杮娐嫬妛夛
• 擔杮搚忞旍椏妛夛
• 桞暔榑尋媶嫤夛
• 擔杮壢妛幰夛媍
• American Society for Microbiology

1. Tran, S.N., V.T. Huynh, H.C. Nguyen, V.C. Cong and M. Tarao (2022) Rice husk and melaleuca biochar additions reduce soil CH₄ and N₂O emissions and increase soil physicochemical properties. F1000Research, 10:1128. (doi:10.12688/f1000research.74041.2)
2. Hareyama, Y., M. Tarao, K. Toyota, T. Furukawa, Y. Fujii and Masayo Kushiro (2022) Effects of four isothiocyanates in dissolved and gaseous states on the growth and aflatoxin production of Aspergillus flavus in vitro. Toxins, 14(11):756. (doi:10.3390/toxins14110756)
3. Nguyen, T.K.P., Chau, M.K, K. Ritz, Nguyen, V.S, M. Tarao and K. Toyota. (2020) Potential use of rice husk biochar and compost to improve P availability and reduce GHG emissions in acid sulfate soil. Agronomy, 10:685. (doi:10.3390/agronomy10050685)
4. Nguyen, V.C.乮懠9恖丆10斣栚乯乮2019乯Acute toxicity and effects of Marshal 200SC on cholinesterase activity and growth performances of tilapia (Oreochoromis niloticus). Can Tho University Journal of Science, 11:135-141. (doi:10.22144/ctu.jsi.2019.121) (in Vietnamese with English summary)
5. Oikawa, Y.,乮懠8恖丆8斣栚乯(2018) Charcoal application farming with livestock for small scale farmers in central Viet Nam. Agroecology for Food Security and Nutrition, Proceedings of the International Symposium on Agroecology in China, 197-210.
6. Ozaki, H., Co, T.K., Le, A.K.,乮懠11恖丆5斣栚乯(2014) Human factors and tidal influences on water quality of an urban river in Can Tho, a major city of the Mekong Delta, Vietnam. Environ. Monit. Assess., 189:845-858. (doi:10.1007/s10661-013-3421-y)
7. 栘屗暥崄丒懡梾旜岝摽 (2013) 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悈忩壔傪峴偭偰偄傞幚尡抮偺僋儘儘僼傿儖a擹搙偵媦傏偡悈壏丆儕儞偍傛傃拏慺擹搙偺塭嬁, 恖娫偲娐嫬丆39: 2-10.
8. Hahn, M.W., E. Lang, M. Tarao and U. Brandt. (2011) Polynucleobacter rarus sp. nov., a free-living planktonic bacterium isolated from an acidic lake. Int. J. Syst. Evol. Microbiol. 61: 781-787. (doi:10.1099/ijs.0.017350-0)
9. Tarao, M., J. Jezbera and M.W. Hahn. (2009) Involvement of cell surface structures in size-independent grazing resistance of freshwater Actinobacteria. Appl. Environ. Microbiol. 75: 4720-4726. (doi:10.1128/AEM.00251-09)
10. 嶰杧弮丒懡梾旜岝摽丒悾屗徆擵乮2009乯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丆35丗54-59.
11. 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)
12. 徏栰寬擇丒懡梾旜岝摽丒悾屗徆擵乮2008乯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丆79丗69-75丏
13. 懡梾旜岝摽丒抮撪枮惌丒悾屗徆擵乮2006乯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扽慺検丆恖娫偲娐嫬丆32丗141-144.
14. 怽梡揘丒懡梾旜岝摽丒悾屗徆擵乮2005乯棨悈偵偍偗傞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丆31丗40-48.
15. Isobe, K.O., M. Tarao, M.P. Zakaria, H.C. Nguyen, Y.M. Le and H. Takada (2004) Effect of environmental factors on the relationship between concentrations of coprostanol and fecal indicator bacteria in tropical(Mekong Delta) and temperate(Tokyo) freshwaters. Appl. Environ. Microbiol. 70:814-821. (doi:10.1128/AEM.70.2.814-821.2004)
16. 懡梾旜岝摽丒徏栰寬擇丒悾屗徆擵乮2003乯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偺塭嬁丆恖娫偲娐嫬丆29丗117-121丏
17. 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. Microbes Environ., 17:128-133.
18. Isobe, K.O., M. Tarao, M.P. Zakaria, N.H. Chiem, L.Y. Minh and H. Takada (2002) Quantitative application of fecal sterols using gas chromatography-mass spectrometry to investigate fecal pollution in tropical waters: western Malaysia and Mekong Delta, Vietnam. Environ. Sci. Technol. 36:4497-4507. (doi:10.1021/es020556h)
19. 怽梡揘丒懡梾旜岝摽丒悾屗徆擵乮2002乯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丆恖娫偲娐嫬丆28丗2-9丏
20. 徏塱弫丒懡梾旜岝摽丒悾屗徆擵乮2001乯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偺巆棷丆擔杮旝惗暔惗懺妛夛帍丆16丗40-47丏
21. 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.
22. 懡懡梾旜岝摽丒埳摗徆巎丒悾屗徆擵乮1999乯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丆恖娫偲娐嫬丆25丗2-7丏
23. 曐嶁桭姲丒埳摗徆巎丒懡梾旜岝摽丒悾屗徆擵乮1998乯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偺惗暘夝丆恖娫偲娐嫬丆24丗2-9丏
24. 懡梾旜岝摽丒嶳嶈彶巕丒悾屗徆擵乮1997乯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丆恖娫偲娐嫬丆23丗146-155丏
25. 懡梾旜岝摽丒彫栰捤榓擵丒悾屗徆擵乮1997乯掅擹搙偺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丆恖娫偲娐嫬丆23丗74-81丏
26. 懡梾旜岝摽丒拞郪抭摽丒悾屗徆擵乮1996乯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偺暘夝偺斾妑尋媶丆恖娫偲娐嫬丆22丗152-160丏
27. 抾栰懽揟丒懡梾旜岝摽丒悾屗徆擵乮1995乯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偺暘夝偺斾妑尋媶丆恖娫偲娐嫬丆21丗126-133丏
28. 懡梾旜岝摽丒崟敤庨柧丒悾屗徆擵乮1995乯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偲曗彆婎幙偺塭嬁丆恖娫偲娐嫬丆21丗61-67丏
29. 徏杮峗堦丒斞揷椇堦丒懡梾旜岝摽丒悾屗徆擵乮1994乯嵶嬠偺堦庬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丆恖娫偲娐嫬丆20丗96-103丏
30. 懡梾旜岝摽丒杮娫柋丒悾屗徆擵乮1994乯嵶嬠偺堦庬Pseudomonas sp.乮DP-4乯偵傛傞2,4,5-trichlorophenol偺嫟栶戙幱丆恖娫偲娐嫬丆20丗2-7丏
31. 懡梾旜岝摽丒悾屗徆擵乮1994乯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丆搚偲旝惗暔丆43丗9-16丏
    
32. 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.(Nihon Biseibutsu Seitai Gakkai Shi) 8:169-174.
33. 懡梾旜岝摽丒揷拞椢丒悾屗徆擵乮1993乯抧壓帋悈偵愙庬偟偨Pseudomonas sp.乮DP-4乯偵傛傞2,4-dichlorophenol偺暘夝偺嵞尰惈丆恖娫偲娐嫬丆19丗125-131丏
34. 徏杮峗堦丒懡梾旜岝摽丒悾屗徆擵乮1993乯偄偔偮偐偺搚忞偵偍偗傞2,4-dichlorophenol偺旝惗暔暘夝丆恖娫偲娐嫬丆19丗68-74丏
    

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