Makoto Watanabe's laboratory
Tree Physiological Ecology under Changing Environment
搶嫗擾岺戝妛 擾妛晹 娐嫬帒尮壢妛壢 搉曈惤尋媶幒
搉曈 惤尋媶幒傊傛偆偙偦!
2013擭11寧偵抋惗偟偨尋媶幒偱偡丅 妛惗偲嫵堳偑嫤椡偟崌偭偰尋媶偵庢傝慻傫偱偄傑偡丅 暯擔偼偄偮偱傕尋媶幒傪尒妛偱偒傑偡丅墦椂側偔儁乕僕壓晹偺楢棈愭傑偱偛楢棈偔偩偝偄丅
奺儁乕僕傊偼忋偺儊僯儏乕偐傜偍恑傒壓偝偄丅
Welcome to Watanabe's lab. "Tree Physiological Ecology under Changing Environment". English page is under constraction. Please check my page in ResearchGate
亙偍抦傜偣亜
Journal of Forest Research帍偐傜摿廤崋偑弌傑偟偨両(1/29)
僀僞儕傾崙棫棨堟惗懺宯尋媶強偺惎壛峃桭偝傫偲杒奀摴戝妛偺彫抮愭惗偲巹偑Co-Editor in Chief偲偟偰曇廤偟偨摿廤崋"Physiological Ecology of Woody Species under Changing Environments"偑Journal of Forest Research帍傛傝弌斉偝傟傑偟偨両Preface傕彂偒傑偟偨丅
Watanabe, M., Hoshika, Y. and Koike, T. (2024) Physiological ecology of woody species under changing environments (Preface). Journal of Forest Research, Vol. 29, No. 1, 1-2.
偙偪傜偵Preface偺撪梕傪彂偄偰傒傑偟偨丅
IUFRO Bangkok偵嶲壛偟傑偟偨両(1/22)
2024擭1寧15-19擔偵奐嵜偝傟偨IUFRO Bangkok: Role and Fate of Forest Ecosystems in a Changing World偵D2偺揷拞偔傫偲嶲壛偟偰偒傑偟偨丅媣偟傇傝偺奀奜偱偺崙嵺妛夛嶲壛偱戝偄偵巋寖傪庴偗偰偒傑偟偨両僽儘僌偵傕婰帠傪彂偙偆偲巚偭偰偄傑偡偑丄偪傚偭偲帪婜揑偵朲偟偄偺偱丄傑偨屻傎偳丄丄丄
楥偝傫偺昅摢榑暥偑Journal of Forest Research帍偵庴棟偝傟傑偟偨両(11/14丄1/25捛婰)
尋媶幒OG偺楥塉惏偝傫偺昅摢榑暥偑Journal of Forest Research帍偵庴棟偝傟傑偟偨両
Lyu, Y., Ariura, R., Li, J., Matsumoto, M., Aoki, T., Kinose, Y., Yamaguchi, M., Izuta, T. and Watanabe, M.
Effects of ozone on stomatal ozone uptake in leaves of Fagus crenata seedlings grown under different CO2 concentrations.
Journal of Forest Research, Vol. 29, No. 1, 38-45.
偙偺榑暥偼Watanabe et al. (2022, Environmental pollution), Ariura et al. (2023, Science of the Total Environment), Yamaguchi et al. (2024, Science of the Total Environment乯偲摨偠僽僫偵娭偡傞尋媶偱丄僆僝儞偵傛傞婥岴偺撦壔乮Stomatal sluggishness, 婥岴偑忋庤偔暵偠傟側偔側傞乯偑峏側傞婥岴偐傜偺僆僝儞媧廂傪堷偒婲偙偡偙偲丄偦偟偰僆僝儞偵傛傞婥岴偺撦壔偼 崅擹搙CO2娐嫬偱傕娚榓偝傟側偄乮怉暔偵懳偡傞僆僝儞偺塭嬁偼崅擹搙CO2娐嫬偱娚榓偝傟傞偙偲偑懡偄乯偙偲傪柧傜偐偵偟偨榑暥偱偡丅 幚尡揑尋媶偲岝崌惉-婥岴惂屼偺悢抣儌僨儖傪巊偭偨僔儈儏儗乕僔儑儞傪慻傒崌傢偣偨偲偄偆揰偱尋媶幒偲偟偰傕怴偨側庢傝慻傒偵側傝傑偟偨丅
戝婥娐嫬妛夛擭夛偱尋媶幒偺妛惗4柤偑岥摢敪昞偟傑偟偨両(9/25)
9寧13-15擔偵偮偔偽偺嶻嬈媄弍憤崌尋媶強偱奐嵜偝傟偨戞64夞戝婥娐嫬妛夛偵嶲壛偟偰偒傑偟偨両妛夛偺條巕偼偙偪傜偐傜丅
岝崌惉妛夛偱島墘偟偰偒傑偟偨両(6/4)
擔杮岝崌惉妛夛擭夛偱奐嵜偝傟偨僔儞億僕僂儉乽庽栘偺岝崌惉乿偵偍偄偰乽僆僝儞偵懳偡傞岝崌惉墳摎乿偲偄偆墘戣偱島墘偝偣偰偄偨偩偒傑偟偨丅媣乆偵嬞挘偺僾儗僛儞偱偟偨丅
偦偺棟桼偼偙偪傜偐傜丅
桳塝偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両(5/21)
尋媶幒偺OB乮幮夛恖2擭惗乯偺桳塝椓偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両
Ariura, R., Matsumoto, M., Li, J., Fuse, T., Aoki, T., Zhang, Y., Kinose, Y., Yamaguchi,M., Izuta, T. and Watanabe, M.
Effects of elevated ozone and carbon dioxide on the dynamic photosynthesis of Fagus crenata seedlings under variable light conditions.
Science of the Total Environment.
嶐擭Environmental Pollution帍偵宖嵹偝傟偨Watanabe et al. (2022)偲摨偠僽僫偵娭偡傞尋媶偱丄曄摦岝偵懳偡傞岝崌惉墳摎偵懳偡傞僆僝儞偲崅擹搙CO2偺塭嬁偵娭偡傞榑暥偱偡丅
偙偪傜偵榑暥偺撪梕傪傕偆彮偟彂偒傑偟偨丅
崙嵺嫟挊榑暥偑Urban Forestry & Urban Greening帍偵宖嵹偝傟傑偟偨両(5/10)
僀僞儕傾丄僼儔儞僗丄儖乕儅僯傾丄擔杮偺崙嵺嫟摨尋媶偺惉壥偑Urban Forestry & Urban Greening偵宖嵹偝傟傑偟偨両
Manzini, J., Hoshika, Y., Carrari, E., Sicard, P., Watanabe, M., Tanaka R., Badea, O., Nicese, FP. Ferrini, F. and Paoletti, E. (2023)
FlorTree: a unifying modelling framework for estimating the species-specific pollution removal by individual trees and shrubs. Urban Forestry & Urban Greening, Vol 85, 127967.
愭擔偺ACID RAIN 2020崙嵺夛媍偱偼昅摢挊幰偺Jacopo Manzini偝傫乮僀僞儕傾偺攷巑壽掱偺妛惗乯偑偙偺撪梕偵偮偄偰敪昞偝傟偰偍傝丄 偦傟偵懕偄偰偺榑暥宖嵹偲側傝傑偟偨丅偆偪偺揷拞偔傫傕榑暥偺僨乕僞夝愅偵嶲壛偟偰偄傑偡丅 榑暥偺撪梕偼偙偪傜偐傜丅
揷拞偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両(5/4)
攷巑壽掱2擭惗偺揷拞椇巙偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両
Tanaka, R., Chiu, C.W., Gomi, T., Matsuda, K., Izuta, T. and Watanabe, M. Stomatal ozone uptake of a Quercus serrata stand based on sap flow measurements with calibrated thermal dissipation sensors. Science of the Total Environment.
揷拞偔傫偺弶偺昅摢榑暥偲偄偆偩偗偱側偔丄尋媶幒偲偟偰傕庽塼棳娭楢偺弶偺榑暥偱偡!
偙偪傜傕偛棗偔偩偝偄丅
Acid Rain 2020崙嵺妛夛偵嶲壛偟傑偟偨両(4/23)
4寧17-21擔偵怴妰偱奐嵜偝傟偨ACID RAIN 2020崙嵺夛媍偵嶲壛偟偰偒傑偟偨丅媣偟傇傝偺懳柺奐嵜偱幚傝偺懡偄崙嵺妛夛偱偟偨丅偙偪傜偵徻偟偔彂偒傑偟偨丅
怷椦妛夛(3/27)
崱擭傕怷椦妛夛乮僆儞儔僀儞乯偱巹偲D1偺揷拞偔傫偑岥摢敪昞傪峴偄傑偟偨丅僽儘僌偵傕彂偒傑偟偨丅
懖嬈幃丒廋椆幃(3/24)
崱擭偼2柤偺廋椆惗偲3柤偺懖嬈惗傪憲傝弌偡偙偲偑弌棃傑偟偨丅奆偝傫4寧偐傜傕婃挘偭偰偔偩偝偄丅偙偪傜偵傕偆彮偟彂偒傑偟偨丅
懖榑敪昞夛丒廋榑怰嵏夛(2/15)
2寧7-8擔乮悈乯偵懖榑敪昞夛偑丄2寧14擔乮壩乯偵廋榑怰嵏夛偑偁傝丄尋媶幒偐傜偦傟偧傟3柤偲2柤偺敪昞偑偁傝傑偟偨丅崱擭偺尋媶偼怓乆偲嫽枴怺偄惉壥偑忋偑偭偰偄傞斀柺丄偦傟傪忋庤偔揱偊傞偺偑擄偟偄撪梕偑懡偐偭偨傛偆偵巚偄傑偡丅偦傟偱傕尋媶幒憤弌偱摢傪傂偹傝堦惗寽柦庢傝慻傫偩偍偐偘偱丄慡堳慺惏傜偟偄敪昞偑偱偒傑偟偨丅 偙傟偱懖榑丒廋榑娭楢偺僀儀儞僩偑堦捠傝廔椆偱偡丅奆偝傫偍旀傟偝傑偱偟偨両 徻嵶偼偙偪傜偐傜
3擭惗偑暘懏偟傑偟偨両(11/11)
尋媶幒偵怴偨側儊儞僶乕乮3擭惗3柤乯偑壛傢傝傑偟偨丅怴偨側尋媶偺巒傑傝偱偡丅傑偢偼愭攜偵怓乆偲榖傪暦偒側偑傜尋媶幒偵姷傟丄懖榑偺僥乕儅傪寛傔偰峴偭偰梸偟偄偲巚偄傑偡丅偪傚偭偲婥偑憗偄偱偡偑丄椙偄懖榑傪敪昞偱偒傞傛偆偵巹傕婃挘傝偨偄偲巚偄傑偡丅
戞63夞戝婥娐嫬妛夛擭夛柍帠廔椆(9/16)
戞63夞戝婥娐嫬妛夛擭夛(9/14-16)偑柍帠偵廔椆偟傑偟偨丅尋媶幒偐傜崌寁4審乮14擔偵2審丄16擔偵2審乯偺敪昞偑偁傝傑偟偨丅偍旀傟偝傑偱偟偨丅徻嵶偼偙偪傜偐傜
妛惗偺妛夛徿庴徿両(9/15)
戞63夞戝婥娐嫬妛夛擭夛偵偰丄M2偺嬍抲偝傫偑庒庤桪廏敪昞徿傪庴徿偟傑偟偨両
丂嬍抲旤憦, 揷拞椇巙, 埳摛揷 栆, 搉曈 惤
丂僗僊偺嵶崻偐傜偺扽慺燌弌偲岝崌惉偺婫愡摦懺偺娭學
丂戞63夞戝婥娐嫬妛夛擭夛, 9寧14擔, 戝嶃岞棫戝妛
偙偺敪昞偱斵彈偼丄枅寧峴偭偰偒偨僗僊偺嵶崻偐傜偺桳婡扽慺偺燌弌偲岝崌惉偵傛傞扽慺妉摼検偺娭學乮婫愡摦懺乯傪敪昞偟傑偟偨丅崱夞偺敪昞偵岦偗偰丄斵彈偼憗偄抜奒偐傜敪昞楙廗傪奐巒偟丄偟偭偐傝偲僾儗僛儞僥乕僔儑儞傪嶌傝忋偘偰偒傑偟偨丅堦偮堦偮偺搘椡偑崅偄昡壙偵偮側偑傝丄帺暘偺帠埲忋偵婐偟偔巚偄傑偡!
幨恀側偳偼偙偪傜偐傜丅 戝妛偺HP傗 妛壢偺SNS(Instagram丄Facebook)偱傕徯夘偝傟偰偄傑偡丅
島墘亊俀傪峴偄傑偟偨両(6/9)
4寧22擔偲6寧3擔偵丄偦傟偧傟戝婥娐嫬妛夛怉暔暘壢夛庡嵜偺島墘夛乽SDGs偲怉暔乿偲戝婥娐嫬妛夛娭搶巟晹偺島墘夛亂壏抔壔懳嶔乽僇乕儃儞僯儏乕僩儔儖乿偵偍偗傞壏幒岠壥僈僗偺媧廂尮亃偑峴傢傟丄島墘傪峴偄傑偟偨丅
島墘偺條巕偼偙偪傜傪偳偆偧丅
怷椦妛夛偱岥摢敪昞偟傑偟偨両(3/29)
3寧27-29擔偵戞133夞擔杮怷椦妛夛戝夛偑奐嵜偝傟丄尋媶幒偐傜2審偺岥摢敪昞乮巹偲M2偺揷拞偔傫乯傪峴偄傑偟偨丅
偙偪傜傕偳偆偧丅
尨挊榑暥偑庴棟偝傟傑偟偨!(3/28)
Environmental Pollution偵搳峞偟偰偄偨尨挊榑暥偑庴棟偝傟傑偟偨両
Watanabe, M., Li, J., Matsumoto, M., Aoki, T., Ariura, R., Fuse, T., Zhang Y., Kinose, Y., Yamaguchi, M., Izuta, T. Growth and photosynthetic responses to ozone of Siebold乫s beech seedlings grown under elevated CO2 and soil nitrogen supply Environmental Pollution
埳摛揷愭惗偑戙昞偺壢尋旓僾儘僕僃僋僩偺尋媶惉壥偱丄僽僫昪偺惉挿偍傛傃岝崌惉偵懳偡傞僆僝儞偺塭嬁偑崅擹搙CO2傗搚忞偺拏慺棙梡惈偺堘偄偵傛偭偰偳偺傛偆偵曄壔偡傞偺偐偵偮偄偰曬崘偟偰偄傑偡丅懡偔偺妛惗偝傫偑婃挘偭偨戝婯柾側幚尡揑尋媶偩偭偨偺偱丄偙偺暘栰偵偍偗傞挊柤側妛弍帍偵傕僗儉乕僘偵宖嵹偝偣傞偙偲偑偱偒傑偟偨丅
偙偪傜傕偳偆偧丅
廋榑怰嵏夛偑峴傢傟傑偟偨両(2/16)
2寧15擔偵暔幙弞娐娐嫬壢妛僾儘僌儔儉偺廋榑怰嵏夛偑峴傢傟丄尋媶幒偐傜係柤偺廋榑敪昞偑偁傝傑偟偨丅偙偪傜偼僆儞儔僀儞奐嵜偲側傝傑偟偨偑丄挌擩側敪昞偱幙栤傕戲嶳捀偔偙偲偑偱偒傑偟偨丅廋巑壽掱偺2擭娫偑偡傋偰僐儘僫壭偲偄偆擄偟偄忬嫷偱偺廋榑尋媶偱偟偨偑丄偦傟傪姶偠偝偣側偄慺惏傜偟偄敪昞偱偟偨両
偙偪傜傕偳偆偧丅
懖榑敪昞夛偑峴傢傟傑偟偨両(2/9)
2寧8-9擔偵娐嫬帒尮壢妛壢偺懖榑敪昞夛偑峴傢傟丄尋媶幒偐傜俁柤偺懖榑敪昞偑偁傝傑偟偨丅俁柤偲傕廫暘偵椡傪弌偟愗傟偨椙偄敪昞偩偭偨偲巚偄傑偡両偍旀傟條偱偟偨両
偙偪傜傕偳偆偧丅
3擭惗偑暘懏偟傑偟偨両(11/22)
尋媶幒偵怴偨側儊儞僶乕乮3擭惗3柤乯偑壛傢傝傑偟偨丅尋媶幒偵擖偭偨偽偐傝偺3擭惗偵偲偭偰偼怓乆偲晄埨側偙偲傕偁傞偐偲巚偄傑偡偑丄側偵傛傝傕尋媶傪妝偟傫偱傕傜偄偨偄偲巚偄傑偡両
戝婥娐嫬妛夛偱妛惗俁柤偑岥摢敪昞偟傑偟偨両(9/17)
戞62夞戝婥娐嫬妛夛擭夛偱尋媶幒偺妛惗俁柤偑岥摢敪昞偟傑偟偨丅崱夞偼僆儞儔僀儞奐嵜偲偄偆帠偱丄尋媶幒偐傜偺嶲壛偱偟偨丅埳摛揷愭惗偺尋媶幒偐傜傕俀柤嶲壛偱丄敪昞慜偼奆偐側傝嬞挘偟偰偄傑偟偨偑丄幙媈墳摎傕娷傔偰偐側傝忋庤偔敪昞偱偒偰偄偨偲巚偄傑偡丅 崱夞偺傛偆側Zoom僂僃價僫乕偵傛傞敪昞偱偼帇挳幰偺婄偑尒偊偢丄堦恖僷僜僐儞偵岦偐偭偰榖偟偐偗傞偲偄偆丄撈摿偺嬞挘姶偑偁傝傑偡丅偱偡偑丄傗偼傝懳柺偱偺敪昞偼懡偔偺僾儘偺壢妛幰偺帇慄傪姶偠側偑傜偺敪昞偱丄嬞挘姶偼傛傝崅偔丄摼傜傟傞傕偺傕戝偒側傕偺偑偁傞偲巚偄傑偡丅僆儞儔僀儞奐嵜偼傗傓傪摼側偄偲偼偄偊丄棃擭偙偦偼懳柺偱嶲壛偟偰傕傜偄偨偄偲巚偄傑偡丅 偙偪傜偵傕彂偒傑偟偨丅
妛惗偺昅摢榑暥偑Scientific Reports偵庴棟偝傟傑偟偨両(7/2)
3寧偵廋巑壽掱傪廋椆偟偨妛惗偺昅摢榑暥偑崙嵺妛弍帍Scientific Reports偵庴棟偝傟傑偟偨丅栘搊傝榑暥戞堦崋偱偡乮偙偺儁乕僕偺忋晹偺嵍幨恀偑幚嵺偺挷嵏偺條巕乯丅
Norisada, M., Izuta, T. and Watanabe, M. (2021) Distributions of photosynthetic traits, shoot growth, and anti-herbivory defence within a canopy of Quercus serrata in different soil nutrient conditions. Scientific Reports 11:14485.
榑暥偺撪梕偵偮偄偰偼偙偪傜偵婰嵹偟傑偟偨丅
(7/16捛婰丗榑暥偑宖嵹偵側傝傑偟偨丅榑暥傊偺儕儞僋)
憤愢偑宖嵹偝傟傑偟偨両(6/9)
偡偙偟慜偵側傝傑偡偑丄壓婰偺憤愢榑暥偑宖嵹偝傟傑偟偨丅
Feng, F., Agathokleous, E., Yue, X., Oksanen, E., Paoletti, E., Sase, H., Gandin, A., Koike, T., Calatayud, V., Yuan, X., Liu, X., De Marco, A., Jolivet, Y., Kontunen-Soppela, S., Hoshika, Y., Saji, H., Li, P., Li, Z., Watanabe, M., Kobayashi, K. (2021) Emerging challenges of ozone impacts on asian plants: actions are needed to protect ecosystem health. Ecosystem Health and Sustainability, Vol. 7, No. 1, 1911602. DOI: 10.1080/20964129.2021.1911602
偙傟偼2015擭偵巒傑偭偨Asian Air Pollution Workshop偺嶲壛儊儞僶乕偱幏昅偟偨憤愢偱丄 傾僕傾偵偍偄偰怺崗壔偟偰偄傞僆僝儞墭愼偺怉暔塭嬁偺栤戣偵偮偄偰丄 嬤擭偺尋媶偺恑捇偺徯夘偲塭嬁娚榓偵偐偗偰偺曽嶔傪傑偲傔偨傕偺偱偡丅傾僕傾偵偍偗傞尋媶幰僱僢僩儚乕僋偺宍惉傪栚揑偲偟偰巒傑偭偨偙偺儚乕僋僔儑僢僾偺憂弌偵実傢偭偨幰偲偟偰丄傾僕傾偺傒側傜偢儓乕儘僢僷偺尋媶幰偵嶲壛偟偰傕傜偄憤愢榑暥傪敪昞偱偒偨偺偼丄偲偰傕堄媊偑偁傞偙偲偩偲巚偄傑偡丅
2柤偺儊儞僶乕偑幮夛偵弌偰偄偒傑偟偨(3/25)
3/25偼懖嬈丒廋椆幃偱偟偨丅尋媶幒偐傜偼3柤偺懖榑惗偲1柤偺廋榑惗偑丄偦傟偧傟懖嬈丒廋椆偟傑偟偨丅 懖榑惗偺1柤偲廋椆惗1柤偼4寧偐傜幮夛偵弌傑偡(懖榑惗2柤偼恑妛)丅尋媶幒偱妛傫偩偙偲朰傟偢偵幮夛恖偲偟偰婃挘偭偰梸偟偄偲巚偄傑偡丅
懖榑敪昞夛丒廋榑怰嵏夛偑峴傢傟傑偟偨(2/16)
2寧9擔丄10擔偵懖榑敪昞夛丄2寧15擔偵廋榑怰嵏夛偑峴傢傟傑偟偨丅巹偺尋媶幒偐傜偼3柤偺懖榑敪昞偲1柤偺廋榑敪昞偑偁傝傑偟偨偑丄奆偟偭偐傝偲偟偨敪昞偑偱偒偨偲巚偄傑偡丅 偍旀傟偝傑偱偟偨両懖榑偺婰嵹偼偙偪傜偐傜丄廋榑偺婰嵹偼偙偪傜偐傜
乽栘杮怉暔偺惗棟惗懺乿姧峴偺偍抦傜偣(11/18)
乽栘杮怉暔偺惗棟惗懺乮彫抮岶椙丄杒旜岝弐丄巗塰抭柧丄搉曈惤 曇乯乿偑弌斉偝傟傑偟偨両 庽栘偺惗棟惗懺偵娭傢傞暆峀偄暘栰偺尋媶幰偵幏昅偟偰捀偄偰偍傝丄庽栘偺尋媶傪偟偰偄傞妛惗偺奆偝傫偵偼丄惀旕丄撉傫偱傕傜偄偨偄杮偱偡丅 傑偨丄昞巻偺僨僓僀儞偺慖掕偵偁偨傝尋媶幒偺妛惗偝傫偵傕嫤椡偟偰傕傜偄傑偟偨丅 杮偺徯夘傗栚師偼偙偪傜偐傜偛棗偔偩偝偄丅
仸夁嫀偺忣曬偼僽儘僌傪偛嶲徠偔偩偝偄丅
傾僋僙僗丒楢棈愭
仹183-8509 搶嫗搒晎拞巗岾挰3-5-8
搶嫗擾岺戝妛 擾妛晹乮晎拞僉儍儞僷僗乯5崋娰306崋幒
Tel & Fax: 042-367-5820
E-mail: nab0602-at-cc.wxanhx.com (-at-傪@偵曄偊偰偔偩偝偄)
丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂丂儊儞僶乕愱梡儁乕僕
Welcome to Watanabe's lab. "Tree Physiological Ecology under Changing Environment". English page is under constraction. Please check my page in ResearchGate
亙偍抦傜偣亜
Journal of Forest Research帍偐傜摿廤崋偑弌傑偟偨両(1/29)
僀僞儕傾崙棫棨堟惗懺宯尋媶強偺惎壛峃桭偝傫偲杒奀摴戝妛偺彫抮愭惗偲巹偑Co-Editor in Chief偲偟偰曇廤偟偨摿廤崋"Physiological Ecology of Woody Species under Changing Environments"偑Journal of Forest Research帍傛傝弌斉偝傟傑偟偨両Preface傕彂偒傑偟偨丅
Watanabe, M., Hoshika, Y. and Koike, T. (2024) Physiological ecology of woody species under changing environments (Preface). Journal of Forest Research, Vol. 29, No. 1, 1-2.
偙偪傜偵Preface偺撪梕傪彂偄偰傒傑偟偨丅
IUFRO Bangkok偵嶲壛偟傑偟偨両(1/22)
2024擭1寧15-19擔偵奐嵜偝傟偨IUFRO Bangkok: Role and Fate of Forest Ecosystems in a Changing World偵D2偺揷拞偔傫偲嶲壛偟偰偒傑偟偨丅媣偟傇傝偺奀奜偱偺崙嵺妛夛嶲壛偱戝偄偵巋寖傪庴偗偰偒傑偟偨両僽儘僌偵傕婰帠傪彂偙偆偲巚偭偰偄傑偡偑丄偪傚偭偲帪婜揑偵朲偟偄偺偱丄傑偨屻傎偳丄丄丄
楥偝傫偺昅摢榑暥偑Journal of Forest Research帍偵庴棟偝傟傑偟偨両(11/14丄1/25捛婰)
尋媶幒OG偺楥塉惏偝傫偺昅摢榑暥偑Journal of Forest Research帍偵庴棟偝傟傑偟偨両
Lyu, Y., Ariura, R., Li, J., Matsumoto, M., Aoki, T., Kinose, Y., Yamaguchi, M., Izuta, T. and Watanabe, M.
Effects of ozone on stomatal ozone uptake in leaves of Fagus crenata seedlings grown under different CO2 concentrations.
Journal of Forest Research, Vol. 29, No. 1, 38-45.
偙偺榑暥偼Watanabe et al. (2022, Environmental pollution), Ariura et al. (2023, Science of the Total Environment), Yamaguchi et al. (2024, Science of the Total Environment乯偲摨偠僽僫偵娭偡傞尋媶偱丄僆僝儞偵傛傞婥岴偺撦壔乮Stomatal sluggishness, 婥岴偑忋庤偔暵偠傟側偔側傞乯偑峏側傞婥岴偐傜偺僆僝儞媧廂傪堷偒婲偙偡偙偲丄偦偟偰僆僝儞偵傛傞婥岴偺撦壔偼 崅擹搙CO2娐嫬偱傕娚榓偝傟側偄乮怉暔偵懳偡傞僆僝儞偺塭嬁偼崅擹搙CO2娐嫬偱娚榓偝傟傞偙偲偑懡偄乯偙偲傪柧傜偐偵偟偨榑暥偱偡丅 幚尡揑尋媶偲岝崌惉-婥岴惂屼偺悢抣儌僨儖傪巊偭偨僔儈儏儗乕僔儑儞傪慻傒崌傢偣偨偲偄偆揰偱尋媶幒偲偟偰傕怴偨側庢傝慻傒偵側傝傑偟偨丅
戝婥娐嫬妛夛擭夛偱尋媶幒偺妛惗4柤偑岥摢敪昞偟傑偟偨両(9/25)
9寧13-15擔偵偮偔偽偺嶻嬈媄弍憤崌尋媶強偱奐嵜偝傟偨戞64夞戝婥娐嫬妛夛偵嶲壛偟偰偒傑偟偨両妛夛偺條巕偼偙偪傜偐傜丅
岝崌惉妛夛偱島墘偟偰偒傑偟偨両(6/4)
擔杮岝崌惉妛夛擭夛偱奐嵜偝傟偨僔儞億僕僂儉乽庽栘偺岝崌惉乿偵偍偄偰乽僆僝儞偵懳偡傞岝崌惉墳摎乿偲偄偆墘戣偱島墘偝偣偰偄偨偩偒傑偟偨丅媣乆偵嬞挘偺僾儗僛儞偱偟偨丅
偦偺棟桼偼偙偪傜偐傜丅
桳塝偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両(5/21)
尋媶幒偺OB乮幮夛恖2擭惗乯偺桳塝椓偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両
Ariura, R., Matsumoto, M., Li, J., Fuse, T., Aoki, T., Zhang, Y., Kinose, Y., Yamaguchi,M., Izuta, T. and Watanabe, M.
Effects of elevated ozone and carbon dioxide on the dynamic photosynthesis of Fagus crenata seedlings under variable light conditions.
Science of the Total Environment.
嶐擭Environmental Pollution帍偵宖嵹偝傟偨Watanabe et al. (2022)偲摨偠僽僫偵娭偡傞尋媶偱丄曄摦岝偵懳偡傞岝崌惉墳摎偵懳偡傞僆僝儞偲崅擹搙CO2偺塭嬁偵娭偡傞榑暥偱偡丅
偙偪傜偵榑暥偺撪梕傪傕偆彮偟彂偒傑偟偨丅
崙嵺嫟挊榑暥偑Urban Forestry & Urban Greening帍偵宖嵹偝傟傑偟偨両(5/10)
僀僞儕傾丄僼儔儞僗丄儖乕儅僯傾丄擔杮偺崙嵺嫟摨尋媶偺惉壥偑Urban Forestry & Urban Greening偵宖嵹偝傟傑偟偨両
Manzini, J., Hoshika, Y., Carrari, E., Sicard, P., Watanabe, M., Tanaka R., Badea, O., Nicese, FP. Ferrini, F. and Paoletti, E. (2023)
FlorTree: a unifying modelling framework for estimating the species-specific pollution removal by individual trees and shrubs. Urban Forestry & Urban Greening, Vol 85, 127967.
愭擔偺ACID RAIN 2020崙嵺夛媍偱偼昅摢挊幰偺Jacopo Manzini偝傫乮僀僞儕傾偺攷巑壽掱偺妛惗乯偑偙偺撪梕偵偮偄偰敪昞偝傟偰偍傝丄 偦傟偵懕偄偰偺榑暥宖嵹偲側傝傑偟偨丅偆偪偺揷拞偔傫傕榑暥偺僨乕僞夝愅偵嶲壛偟偰偄傑偡丅 榑暥偺撪梕偼偙偪傜偐傜丅
揷拞偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両(5/4)
攷巑壽掱2擭惗偺揷拞椇巙偔傫偺昅摢榑暥偑Science of the Total Environment帍偵庴棟偝傟傑偟偨両
Tanaka, R., Chiu, C.W., Gomi, T., Matsuda, K., Izuta, T. and Watanabe, M. Stomatal ozone uptake of a Quercus serrata stand based on sap flow measurements with calibrated thermal dissipation sensors. Science of the Total Environment.
揷拞偔傫偺弶偺昅摢榑暥偲偄偆偩偗偱側偔丄尋媶幒偲偟偰傕庽塼棳娭楢偺弶偺榑暥偱偡!
偙偪傜傕偛棗偔偩偝偄丅
Acid Rain 2020崙嵺妛夛偵嶲壛偟傑偟偨両(4/23)
4寧17-21擔偵怴妰偱奐嵜偝傟偨ACID RAIN 2020崙嵺夛媍偵嶲壛偟偰偒傑偟偨丅媣偟傇傝偺懳柺奐嵜偱幚傝偺懡偄崙嵺妛夛偱偟偨丅偙偪傜偵徻偟偔彂偒傑偟偨丅
怷椦妛夛(3/27)
崱擭傕怷椦妛夛乮僆儞儔僀儞乯偱巹偲D1偺揷拞偔傫偑岥摢敪昞傪峴偄傑偟偨丅僽儘僌偵傕彂偒傑偟偨丅
懖嬈幃丒廋椆幃(3/24)
崱擭偼2柤偺廋椆惗偲3柤偺懖嬈惗傪憲傝弌偡偙偲偑弌棃傑偟偨丅奆偝傫4寧偐傜傕婃挘偭偰偔偩偝偄丅偙偪傜偵傕偆彮偟彂偒傑偟偨丅
懖榑敪昞夛丒廋榑怰嵏夛(2/15)
2寧7-8擔乮悈乯偵懖榑敪昞夛偑丄2寧14擔乮壩乯偵廋榑怰嵏夛偑偁傝丄尋媶幒偐傜偦傟偧傟3柤偲2柤偺敪昞偑偁傝傑偟偨丅崱擭偺尋媶偼怓乆偲嫽枴怺偄惉壥偑忋偑偭偰偄傞斀柺丄偦傟傪忋庤偔揱偊傞偺偑擄偟偄撪梕偑懡偐偭偨傛偆偵巚偄傑偡丅偦傟偱傕尋媶幒憤弌偱摢傪傂偹傝堦惗寽柦庢傝慻傫偩偍偐偘偱丄慡堳慺惏傜偟偄敪昞偑偱偒傑偟偨丅 偙傟偱懖榑丒廋榑娭楢偺僀儀儞僩偑堦捠傝廔椆偱偡丅奆偝傫偍旀傟偝傑偱偟偨両 徻嵶偼偙偪傜偐傜
3擭惗偑暘懏偟傑偟偨両(11/11)
尋媶幒偵怴偨側儊儞僶乕乮3擭惗3柤乯偑壛傢傝傑偟偨丅怴偨側尋媶偺巒傑傝偱偡丅傑偢偼愭攜偵怓乆偲榖傪暦偒側偑傜尋媶幒偵姷傟丄懖榑偺僥乕儅傪寛傔偰峴偭偰梸偟偄偲巚偄傑偡丅偪傚偭偲婥偑憗偄偱偡偑丄椙偄懖榑傪敪昞偱偒傞傛偆偵巹傕婃挘傝偨偄偲巚偄傑偡丅
戞63夞戝婥娐嫬妛夛擭夛柍帠廔椆(9/16)
戞63夞戝婥娐嫬妛夛擭夛(9/14-16)偑柍帠偵廔椆偟傑偟偨丅尋媶幒偐傜崌寁4審乮14擔偵2審丄16擔偵2審乯偺敪昞偑偁傝傑偟偨丅偍旀傟偝傑偱偟偨丅徻嵶偼偙偪傜偐傜
妛惗偺妛夛徿庴徿両(9/15)
戞63夞戝婥娐嫬妛夛擭夛偵偰丄M2偺嬍抲偝傫偑庒庤桪廏敪昞徿傪庴徿偟傑偟偨両
丂嬍抲旤憦, 揷拞椇巙, 埳摛揷 栆, 搉曈 惤
丂僗僊偺嵶崻偐傜偺扽慺燌弌偲岝崌惉偺婫愡摦懺偺娭學
丂戞63夞戝婥娐嫬妛夛擭夛, 9寧14擔, 戝嶃岞棫戝妛
偙偺敪昞偱斵彈偼丄枅寧峴偭偰偒偨僗僊偺嵶崻偐傜偺桳婡扽慺偺燌弌偲岝崌惉偵傛傞扽慺妉摼検偺娭學乮婫愡摦懺乯傪敪昞偟傑偟偨丅崱夞偺敪昞偵岦偗偰丄斵彈偼憗偄抜奒偐傜敪昞楙廗傪奐巒偟丄偟偭偐傝偲僾儗僛儞僥乕僔儑儞傪嶌傝忋偘偰偒傑偟偨丅堦偮堦偮偺搘椡偑崅偄昡壙偵偮側偑傝丄帺暘偺帠埲忋偵婐偟偔巚偄傑偡!
幨恀側偳偼偙偪傜偐傜丅 戝妛偺HP傗 妛壢偺SNS(Instagram丄Facebook)偱傕徯夘偝傟偰偄傑偡丅
島墘亊俀傪峴偄傑偟偨両(6/9)
4寧22擔偲6寧3擔偵丄偦傟偧傟戝婥娐嫬妛夛怉暔暘壢夛庡嵜偺島墘夛乽SDGs偲怉暔乿偲戝婥娐嫬妛夛娭搶巟晹偺島墘夛亂壏抔壔懳嶔乽僇乕儃儞僯儏乕僩儔儖乿偵偍偗傞壏幒岠壥僈僗偺媧廂尮亃偑峴傢傟丄島墘傪峴偄傑偟偨丅
島墘偺條巕偼偙偪傜傪偳偆偧丅
怷椦妛夛偱岥摢敪昞偟傑偟偨両(3/29)
3寧27-29擔偵戞133夞擔杮怷椦妛夛戝夛偑奐嵜偝傟丄尋媶幒偐傜2審偺岥摢敪昞乮巹偲M2偺揷拞偔傫乯傪峴偄傑偟偨丅
偙偪傜傕偳偆偧丅
尨挊榑暥偑庴棟偝傟傑偟偨!(3/28)
Environmental Pollution偵搳峞偟偰偄偨尨挊榑暥偑庴棟偝傟傑偟偨両
Watanabe, M., Li, J., Matsumoto, M., Aoki, T., Ariura, R., Fuse, T., Zhang Y., Kinose, Y., Yamaguchi, M., Izuta, T. Growth and photosynthetic responses to ozone of Siebold乫s beech seedlings grown under elevated CO2 and soil nitrogen supply Environmental Pollution
埳摛揷愭惗偑戙昞偺壢尋旓僾儘僕僃僋僩偺尋媶惉壥偱丄僽僫昪偺惉挿偍傛傃岝崌惉偵懳偡傞僆僝儞偺塭嬁偑崅擹搙CO2傗搚忞偺拏慺棙梡惈偺堘偄偵傛偭偰偳偺傛偆偵曄壔偡傞偺偐偵偮偄偰曬崘偟偰偄傑偡丅懡偔偺妛惗偝傫偑婃挘偭偨戝婯柾側幚尡揑尋媶偩偭偨偺偱丄偙偺暘栰偵偍偗傞挊柤側妛弍帍偵傕僗儉乕僘偵宖嵹偝偣傞偙偲偑偱偒傑偟偨丅
偙偪傜傕偳偆偧丅
廋榑怰嵏夛偑峴傢傟傑偟偨両(2/16)
2寧15擔偵暔幙弞娐娐嫬壢妛僾儘僌儔儉偺廋榑怰嵏夛偑峴傢傟丄尋媶幒偐傜係柤偺廋榑敪昞偑偁傝傑偟偨丅偙偪傜偼僆儞儔僀儞奐嵜偲側傝傑偟偨偑丄挌擩側敪昞偱幙栤傕戲嶳捀偔偙偲偑偱偒傑偟偨丅廋巑壽掱偺2擭娫偑偡傋偰僐儘僫壭偲偄偆擄偟偄忬嫷偱偺廋榑尋媶偱偟偨偑丄偦傟傪姶偠偝偣側偄慺惏傜偟偄敪昞偱偟偨両
偙偪傜傕偳偆偧丅
懖榑敪昞夛偑峴傢傟傑偟偨両(2/9)
2寧8-9擔偵娐嫬帒尮壢妛壢偺懖榑敪昞夛偑峴傢傟丄尋媶幒偐傜俁柤偺懖榑敪昞偑偁傝傑偟偨丅俁柤偲傕廫暘偵椡傪弌偟愗傟偨椙偄敪昞偩偭偨偲巚偄傑偡両偍旀傟條偱偟偨両
偙偪傜傕偳偆偧丅
3擭惗偑暘懏偟傑偟偨両(11/22)
尋媶幒偵怴偨側儊儞僶乕乮3擭惗3柤乯偑壛傢傝傑偟偨丅尋媶幒偵擖偭偨偽偐傝偺3擭惗偵偲偭偰偼怓乆偲晄埨側偙偲傕偁傞偐偲巚偄傑偡偑丄側偵傛傝傕尋媶傪妝偟傫偱傕傜偄偨偄偲巚偄傑偡両
戝婥娐嫬妛夛偱妛惗俁柤偑岥摢敪昞偟傑偟偨両(9/17)
戞62夞戝婥娐嫬妛夛擭夛偱尋媶幒偺妛惗俁柤偑岥摢敪昞偟傑偟偨丅崱夞偼僆儞儔僀儞奐嵜偲偄偆帠偱丄尋媶幒偐傜偺嶲壛偱偟偨丅埳摛揷愭惗偺尋媶幒偐傜傕俀柤嶲壛偱丄敪昞慜偼奆偐側傝嬞挘偟偰偄傑偟偨偑丄幙媈墳摎傕娷傔偰偐側傝忋庤偔敪昞偱偒偰偄偨偲巚偄傑偡丅 崱夞偺傛偆側Zoom僂僃價僫乕偵傛傞敪昞偱偼帇挳幰偺婄偑尒偊偢丄堦恖僷僜僐儞偵岦偐偭偰榖偟偐偗傞偲偄偆丄撈摿偺嬞挘姶偑偁傝傑偡丅偱偡偑丄傗偼傝懳柺偱偺敪昞偼懡偔偺僾儘偺壢妛幰偺帇慄傪姶偠側偑傜偺敪昞偱丄嬞挘姶偼傛傝崅偔丄摼傜傟傞傕偺傕戝偒側傕偺偑偁傞偲巚偄傑偡丅僆儞儔僀儞奐嵜偼傗傓傪摼側偄偲偼偄偊丄棃擭偙偦偼懳柺偱嶲壛偟偰傕傜偄偨偄偲巚偄傑偡丅 偙偪傜偵傕彂偒傑偟偨丅
妛惗偺昅摢榑暥偑Scientific Reports偵庴棟偝傟傑偟偨両(7/2)
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Norisada, M., Izuta, T. and Watanabe, M. (2021) Distributions of photosynthetic traits, shoot growth, and anti-herbivory defence within a canopy of Quercus serrata in different soil nutrient conditions. Scientific Reports 11:14485.
榑暥偺撪梕偵偮偄偰偼偙偪傜偵婰嵹偟傑偟偨丅
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偡偙偟慜偵側傝傑偡偑丄壓婰偺憤愢榑暥偑宖嵹偝傟傑偟偨丅
Feng, F., Agathokleous, E., Yue, X., Oksanen, E., Paoletti, E., Sase, H., Gandin, A., Koike, T., Calatayud, V., Yuan, X., Liu, X., De Marco, A., Jolivet, Y., Kontunen-Soppela, S., Hoshika, Y., Saji, H., Li, P., Li, Z., Watanabe, M., Kobayashi, K. (2021) Emerging challenges of ozone impacts on asian plants: actions are needed to protect ecosystem health. Ecosystem Health and Sustainability, Vol. 7, No. 1, 1911602. DOI: 10.1080/20964129.2021.1911602
偙傟偼2015擭偵巒傑偭偨Asian Air Pollution Workshop偺嶲壛儊儞僶乕偱幏昅偟偨憤愢偱丄 傾僕傾偵偍偄偰怺崗壔偟偰偄傞僆僝儞墭愼偺怉暔塭嬁偺栤戣偵偮偄偰丄 嬤擭偺尋媶偺恑捇偺徯夘偲塭嬁娚榓偵偐偗偰偺曽嶔傪傑偲傔偨傕偺偱偡丅傾僕傾偵偍偗傞尋媶幰僱僢僩儚乕僋偺宍惉傪栚揑偲偟偰巒傑偭偨偙偺儚乕僋僔儑僢僾偺憂弌偵実傢偭偨幰偲偟偰丄傾僕傾偺傒側傜偢儓乕儘僢僷偺尋媶幰偵嶲壛偟偰傕傜偄憤愢榑暥傪敪昞偱偒偨偺偼丄偲偰傕堄媊偑偁傞偙偲偩偲巚偄傑偡丅
2柤偺儊儞僶乕偑幮夛偵弌偰偄偒傑偟偨(3/25)
3/25偼懖嬈丒廋椆幃偱偟偨丅尋媶幒偐傜偼3柤偺懖榑惗偲1柤偺廋榑惗偑丄偦傟偧傟懖嬈丒廋椆偟傑偟偨丅 懖榑惗偺1柤偲廋椆惗1柤偼4寧偐傜幮夛偵弌傑偡(懖榑惗2柤偼恑妛)丅尋媶幒偱妛傫偩偙偲朰傟偢偵幮夛恖偲偟偰婃挘偭偰梸偟偄偲巚偄傑偡丅
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乽栘杮怉暔偺惗棟惗懺乿姧峴偺偍抦傜偣(11/18)
乽栘杮怉暔偺惗棟惗懺乮彫抮岶椙丄杒旜岝弐丄巗塰抭柧丄搉曈惤 曇乯乿偑弌斉偝傟傑偟偨両 庽栘偺惗棟惗懺偵娭傢傞暆峀偄暘栰偺尋媶幰偵幏昅偟偰捀偄偰偍傝丄庽栘偺尋媶傪偟偰偄傞妛惗偺奆偝傫偵偼丄惀旕丄撉傫偱傕傜偄偨偄杮偱偡丅 傑偨丄昞巻偺僨僓僀儞偺慖掕偵偁偨傝尋媶幒偺妛惗偝傫偵傕嫤椡偟偰傕傜偄傑偟偨丅 杮偺徯夘傗栚師偼偙偪傜偐傜偛棗偔偩偝偄丅
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