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

儊儞僶乕

嫵堳
搉曈 惤 (弝嫵庼)

妛惗乮2024擭搙乯
揷拞 椇巙乮攷巑3擭乯
乽堎側傞悇掕庤朄傪摑崌偟偨怷椦偺僆僝儞媧廂検悇掕儌僨儖偺峔抸(壖)乿

亂尨挊榑暥亃
- Tanaka, R., Kawamata, K., Urashima, M., Matsuda, K., Izuta, T. and Watanabe, M. (2024) Vertical gradient of needle ozone uptake within the canopy of Cryptomeria japonica. Environmental Research, Vol. 258, 119464. https://doi.org/10.1016/j.envres.2024.119464
- Tanaka, R., Chiu, C.W., Gomi, T., Matsuda, K., Izuta, T., Watanabe, M. (2023) Stomatal ozone uptake of a Quercus serrata stand based on sap flow measurements with calibrated thermal dissipation sensors. Science of the Total Environment, Vol, 888, 164005. https://doi.org/10.1016/j.scitotenv.2023.164005
- 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. https://doi.org/10.1016/j.ufug.2023.127967

亂妛夛敪昞亃
- 揷拞椇巙, 塝搰枹桳, 愳枔寶懢, 楅栘 椚, 恵揷弔崄, 徏揷榓廏, 埳摛揷栆, 搉曈 惤 (2024) 僗僊庽姤撪偵偍偗傞恓梩偺僆僝儞媧廂検偺墧捈暘晍傪宍惉偡傞梫場偺夝愅. 戞65夞戝婥娐嫬妛夛擭夛, 2024擭9寧13擔, 宑滀媊弇戝妛擔媑僉儍儞僷僗, 恄撧愳導墶昹巗 (岥摢敪昞)
- 揷拞椇巙, 塝搰枹桳, 愳枔寶懢, 徏揷榓廏, 埳摛揷 栆, 搉曈 惤 (2024) 懡憌僈僗岎姺儌僨儖偵婎偯偔僗僊恓梩偺僆僝儞媧廂検偺庽姤撪墧捈暘晍偺悇掕. 戞135夞擔杮怷椦妛夛戝夛, 2024擭3寧8擔, 搶嫗擾嬈戝妛悽揷扟僉儍儞僷僗, 搶嫗搒悽揷扟嬫 (岥摢敪昞)
- Tanaka, R., Urashima, M., Kawamata, K., Matsuda, K., Izuta, T. and Watanabe, M. (2024) Vertical gradient of leaf ozone uptake within a canopy of Cryptomeria japonica forest. IUFRO Bangkok: Role and Fate of Forest Ecosystems in a Changing World. 15-19 January 2024, Bangkok, Thailand (岥摢敪昞)
- 揷拞椇巙, 塝搰枹桳, 愳枔寶懢, 徏揷榓廏, 埳摛揷 栆, 搉曈 惤 (2023) 僗僊惉栘偺庽姤撪偵偍偗傞梩偺僆僝儞媧廂検偺墧捈暘晍. 戞64夞戝婥娐嫬妛夛擭夛, 2023擭9寧15擔, 嶻嬈媄弍憤崌尋媶強 偮偔偽僙儞僞乕, 堬忛導偮偔偽巗 (岥摢敪昞)
- Tanaka, R., Matsuda, K., Izuta, T. and Watanabe, M. (2023) Estimation of stomatal ozone uptake of Q. serrata and C. japonica forests based on the sap flow measurements. Acid Rain 2020: The Future Environment and Role of Multiple Air Pollutants. 17-21 April 2023, Niigata, Japan (Oral presentation)
- 揷拞椇巙, 徏揷榓廏, 埳摛揷 栆, 搉曈 惤 (2022) 庽塼棳偺寁應偵婎偯偔僐僫儔椦偲僗僊椦偺僆僝儞媧廂検偺悇掕. 戞63夞戝婥娐嫬妛夛擭夛, 2022擭9寧14擔, 戝嶃岞棫戝妛拞昐愩捁僉儍儞僷僗, 戝嶃晎嶄巗 (岥摢敪昞)
- 揷拞椇巙, 埳摛揷 栆, 徏揷榓廏, 搉曈 惤 (2021) 峑惓偝傟偨擬徚嶶朄傪梡偄偨庽塼棳偺寁應偵婎偯偔僐僫儔椦偺僆僝儞媧廂検偺悇掕. 戞62夞戝婥娐嫬妛夛擭夛, 2021擭9寧15擔, 僆儞儔僀儞奐嵜 (岥摢敪昞)
- 揷拞椇巙, 埳摛揷 栆, 徏揷榓廏, 搉曈 惤(2021) 庽塼棳偺寁應偵婎偯偔僐僫儔椦偺堦惉挿婜偵傢偨傞僆僝儞媧廂検偺悇掕. 戞132夞擔杮怷椦妛夛戝夛, 2021擭3寧23擔, 搶嫗擾岺戝妛晎拞僉儍儞僷僗(僆儞儔僀儞), 搶嫗搒晎拞巗 (岥摢敪昞)
- 揷拞椇巙, 埳摛揷 栆, 徏揷榓廏, 搉曈 惤(2020) 擬徚嶶朄傪梡偄偨庽塼棳寁應偵傛傞僐僫儔椦偺僆僝儞媧廂検偺悇掕. 戞61夞戝婥娐嫬妛夛擭夛, 2020擭9寧14擔-10寧4擔, 帍忋奐嵜.

愇奯 戱枻乮廋巑2擭乯
乽働儎僉偺梩偺怘奞偲旐怘杊塹偵懳偡傞搚忞傊偺拏慺晧壸偲悈僗僩儗僗偺塭嬁(壖)乿
塝搰 枹桳乮廋巑2擭乯
乽僗僊偲僸僲僉偺恓梩偵偍偗傞拏慺暘攝偺夝柧偍傛傃恓梩撪拏慺偺庽姤撪暘晍(壖)乿

亂妛夛敪昞亃
- 塝搰枹桳, 揷拞椇巙, 嬍抲旤憦, 愳枔 寶懢, 埳摛揷 栆, 搉曈 惤 (2023) 僗僊惉栘偺恓梩偵偍偄偰岝崌惉偵棙梡偝傟傞拏慺偺庽姤撪暘晍. 戞64夞戝婥娐嫬妛夛擭夛, 2023擭9寧15擔, 嶻嬈媄弍憤崌尋媶強 偮偔偽僙儞僞乕, 堬忛導偮偔偽巗 (岥摢敪昞)

愳枔 寶懢乮廋巑2擭乯
乽僒儞僼儗僢僋偵傛傞岝崌惉桿摫斀墳傪峫椂偟偨僗僊椦偺扽慺屌掕検偺悇掕(壖)乿
媣愼 寢塇乮廋巑1擭乯
乽働儎僉偺僆僝儞媧廂摿惈(壖)乿
楅栘 嵷揈乮廋巑1擭乯
乽僗僊椦偺崻寳偵偍偗傞扽慺弞娐(壖)乿
楅栘 椚乮廋巑1擭乯
乽懡憌僈僗岎姺儌僨儖偵傛傞僗僊偍傛傃僸僲僉惉栘偺僆僝儞媧廂懍搙偺悇掕(壖)乿
恵揷 弔崄乮廋巑1擭乯
乽僗僊偲僸僲僉偵偍偗傞椦姤岝崌惉擻椡偺斾妑(壖)乿

亂妛夛敪昞亃
- 恵揷弔崄, 楅栘 椚, 揷拞椇巙, 塝搰枹桳, 愳枔寬懢, 徏揷榓廏, 埳摛揷 栆, 搉曈 惤 (2024) 僗僊偲僸僲僉偺椦姤岝崌惉摿惈偺嵎堎. 戞65夞戝婥娐嫬妛夛擭夛, 2024擭9寧13擔, 宑滀媊弇戝妛擔媑僉儍儞僷僗, 恄撧愳導墶昹巗 (岥摢敪昞)

娵嶳 桪庽乮廋巑1擭乯
乽庽塼棳懍應掕偲懡憌僈僗岎姺儌僨儖偵傛傞働儎僉惉栘偺僆僝儞媧廂懍搙偺悇掕(壖)乿

亂妛夛敪昞亃
- 娵嶳桪庽, 敧栘揷 嵤擳, 埳摛揷 栆, 搉曈 惤 (2024) 庽塼棳懍應掕偲懡憌僈僗岎姺儌僨儖偵傛傞働儎僉惉栘偺僆僝儞媧廂懍搙偺悇掕. 戞65夞戝婥娐嫬妛夛擭夛, 2024擭9寧13擔, 宑滀媊弇戝妛擔媑僉儍儞僷僗, 恄撧愳導墶昹巗 (岥摢敪昞)

愳忋 惏崄乮妛晹4擭乯
乽働儎僉惉栘偲昪栘偺梩偺岝崌惉偵偍偗傞岝慾奞姶庴惈偺堘偄偲偦偺梫場(壖)乿
愳岥 梇懢楴乮妛晹4擭乯
乽僐僫儔懏4庬偺旐怘杊塹擻椡偺斾妑(壖)乿
尨揷 埄巕乮妛晹4擭乯
乽働儎僉昪栘偵偍偗傞梩偺婥岴傪夘偟偨僆僝儞媧廂検偵懳偡傞悈僗僩儗僗偲搚忞傊偺巤旍偺暋崌塭嬁(壖)乿
戝応 彔恖乮妛晹3擭乯
僥乕儅専摙拞
怺悾 桼擳乮妛晹3擭乯
僥乕儅専摙拞
嶳杮 浠嬭乮妛晹3擭乯
僥乕儅専摙拞


懖嬈惗
亙2023擭搙懖嬈亜
搶奀 憂懢乮廋巑乯
乽栘晹偺捠悈峔憿偑堎側傞3庽庬偵偍偗傞庽塼棳懍偺應掕崅搙偵傛傞堘偄偲偦傟偑僆僝儞媧廂検偺悇掕偵梌偊傞塭嬁乿

亂妛夛敪昞亃
- 搶奀憂懢, 揷拞椇巙, 徏揷榓廏, 埳摛揷 栆, 搉曈 惤 (2023) 庽塼棳偺應掕崅搙偺堘偄偑僗僊惉栘偺僆僝儞媧廂検偺悇掕偵梌偊傞塭嬁. 戞64夞戝婥娐嫬妛夛擭夛, 2023擭9寧15擔, 嶻嬈媄弍憤崌尋媶強 偮偔偽僙儞僞乕, 堬忛導偮偔偽巗 (岥摢敪昞)
- 搶奀憂懢, 揷拞椇巙, 徏揷榓廏, 埳摛揷 栆, 搉曈 惤 (2022) 庽塼棳偺應掕崅搙偺堘偄偑僗僊惉栘偺僆僝儞媧廂検偺悇掕偵梌偊傞塭嬁. 戞63夞戝婥娐嫬妛夛擭夛, 2022擭9寧16擔, 戝嶃岞棫戝妛拞昐愩捁僉儍儞僷僗, 戝嶃晎嶄巗 (岥摢敪昞)

拞帥 旤寧乮廋巑乯
乽惉栘偲昪栘偺梩偵偍偗傞僆僝儞媧廂懍搙偺堘偄偵娭偡傞尋媶乿

亂尨挊榑暥亃
- Nakadera, M., Endo, W., Oi, N., Yagita, A., Tanaka, R., Izuta, T. and Watanabe, M. (accepted) Differences of stomatal ozone uptake in leaves of mature trees and seedlings of Zelkova serrata. Environmental Research

亂妛夛敪昞亃
- 拞帥旤寧, 墦摗徛, 戝堜嵷僲崄, 敧栘揷嵤擳, 埳摛揷栆, 搉曈 惤 (2023) 働儎僉偺惉栘偲昪栘偺屄梩偵偍偗傞僆僝儞媧廂懍搙偺堘偄偲偦偺梫場偺夝愅. 戞64夞戝婥娐嫬妛夛擭夛, 2023擭9寧15擔, 嶻嬈媄弍憤崌尋媶強 偮偔偽僙儞僞乕, 堬忛導偮偔偽巗 (岥摢敪昞)
- 拞帥旤寧, 墦摗 徛, 戝堜嵷僲崄, 敧栘揷嵤擳, 埳摛揷 栆, 搉曈 惤 (2022) 働儎僉偺昪栘偲惉栘偺屄梩偵偍偗傞僆僝儞媧廂懍搙偲偦偺儌僨儖夝愅. 戞63夞戝婥娐嫬妛夛擭夛, 2022擭9寧16擔, 戝嶃岞棫戝妛拞昐愩捁僉儍儞僷僗, 戝嶃晎嶄巗 (岥摢敪昞)

楅栘 椚乮妛晹乯
乽懡憌僈僗岎姺儌僨儖偵傛傞僗僊偍傛傃僸僲僉惉栘偺僆僝儞媧廂懍搙偺悇掕乿
恵揷 弔崄乮妛晹乯
乽僗僊偲僸僲僉偺椦姤岝崌惉摿惈偺嵎堎乿
娵嶳 桪庽乮妛晹乯
乽庽塼棳懍應掕偲懡憌僈僗岎姺儌僨儖偵傛傞働儎僉惉栘偺僆僝儞媧廂懍搙偺悇掕乿
亙2022擭搙懖嬈亜
彫栰 桭曘乮廋巑乯
乽僐僫儔懏偺棊梩庽偲忢椢庽偺岝崌惉偵娭傢傞梩偺宍幙偺庽姤撪墧捈暘晍偲偦偺婫愡曄壔乿
嬍抲 旤憦乮廋巑乯
乽僗僊嵶崻偐傜偺桳婡扽慺燌弌懍搙偺婫愡摦懺偲偦偺寛掕梫場乿

亂妛夛敪昞亃
- 嬍抲旤憦, 揷拞椇巙, 埳摛揷 栆, 搉曈 惤 (2022) 僗僊偺嵶崻偐傜偺扽慺燌弌偲岝崌惉偺婫愡摦懺偺娭學. 戞63夞戝婥娐嫬妛夛擭夛, 2022擭9寧14擔, 戝嶃岞棫戝妛拞昐愩捁僉儍儞僷僗, 戝嶃晎嶄巗. (岥摢敪昞) 庒庤桪廏敪昞徿庴徿!!
- 嬍抲旤憦, 埳摛揷 栆, 搉曈 惤 (2021) 僐僫儔偺嵶崻偐傜燌弌偡傞桳婡扽慺偑搚忞拏慺偺柍婡壔偵梌偊傞塭嬁. 戞62夞戝婥娐嫬妛夛擭夛, 2021擭9寧15擔, 僆儞儔僀儞奐嵜. (岥摢敪昞)

愇奯 戱枻乮妛晹乯
乽働儎僉昪偺梩偵偍偗傞怘奞偲旐怘杊塹偵懳偡傞搚忞傊偺拏慺偍傛傃僇儕僂儉揧壛偺塭嬁乿
塝搰 枹桳乮妛晹乯
乽僗僊惉栘偺恓梩偵偍偄偰岝崌惉偵棙梡偝傟傞拏慺偺庽姤撪暘晍乿
愳枔 寶懢乮妛晹乯
乽僗僊庽姤撪偺堎側傞岝娐嫬偵偍偗傞恓梩偺岝崌惉桿摫斀墳偺堘偄乿
亙2021擭搙懖嬈亜
峳愳 捈婸乮廋巑乯
乽堎側傞岝娐嫬偵惗堢偡傞僔儏儘偺梩偵偍偗傞岝慾奞偲岝崌惉摿惈 乿
桳塝 椓乮廋巑乯
乽僽僫昪偺梩偺岝崌惉桿摫斀墳偵梌偊傞僆僝儞偲崅擹搙CO2偺扨撈偍傛傃暋崌塭嬁乿

亂尨挊榑暥亃
- Ariura, R., Matsumoto, M., Li, J., Fuse, T., Aoki, T., Zhang, Y., Kinose, Y., Yamaguchi, M., Izuta, T. and Watanabe, M. (2023) Effects of elevated ozone and carbon dioxide on the dynamic photosynthesis of Fagus crenata seedlings under variable light conditions. Science of the Total Environment, Vol, 891, 164398. https://doi.org/10.1016/j.scitotenv.2023.164398

亂妛夛敪昞亃
桳塝 椓, 徏杮旤嵅巕, 阾 ?, 晍巤 崉, 惵栘戱楴, 挘 夒戩, 墿悾壚擵, 嶳岥恀峅, 埳摛揷 栆, 搉曈 惤 (2020) 僽僫昪偺岝崌惉偺曄摦岝偵懳偡傞墳摎惈偵梌偊傞崅擹搙CO2偲僆僝儞偺扨撈偍傛傃暋崌塭嬁. 戞61夞戝婥娐嫬妛夛擭夛, 2020擭9寧14擔-10寧4擔, 帍忋奐嵜.

揷拞 椇巙乮廋巑乯
乽庽塼棳偺寁應偵婎偯偔僐僫儔椦偲僗僊椦偺僆僝儞媧廂検偺悇掕偍傛傃偦偺惛搙偺昡壙乿

楥 塉惏乮廋巑乯
乽Effects of atmospheric and soil factors on ozone uptake traits in leaves of Fagus crenata seedlings乿

亂尨挊榑暥亃
- Lyu, Y., Ariura, R., Li, J., Matsumoto, M., Aoki, T., Kinose, Y., Yamaguchi, M., Izuta, T. and Watanabe, M. (2024) 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. https://doi.org/10.1080/13416979.2023.2283981

亂妛夛敪昞亃
- Lyu, Y., Ariura, R., Li, J., Matsumoto, M., Aoki, T., Kinose, Y., Yamaguchi, M., Izuta, T. and Watanabe, M. (2021) Effects of high ozone and CO2 concentrations on the relationship between stomatal conductance and net photosynthetic rate in leaves of Fagus crenata seedlings. 戞62夞戝婥娐嫬妛夛擭夛, 2021擭9寧16擔, 僆儞儔僀儞奐嵜. (岥摢敪昞)

墦摗 徛乮妛晹乯
乽働儎僉偺昪栘偲惉栘偺屄梩偵偍偗傞僆僝儞媧廂懍搙偲偦偺儌僨儖夝愅乿
搶奀 憂懢乮妛晹乯
乽庽塼棳偺應掕崅搙偺堘偄偑僗僊椦偺僆僝儞媧廂検偺悇掕偵梌偊傞塭嬁乿
拞帥 旤寧乮妛晹乯
乽搒巗椢抧偵偍偗傞戝婥僆僝儞擹搙偺掅尭偲偦偺梫場偵娭偡傞尋媶乿

亙2020擭搙懖嬈亜
懃掕 桪惉乮廋巑乯
乽搚忞娐嫬偺堎側傞僐僫儔惉栘偺庽姤撪偵偍偗傞梩偺摿惈偲拵奞偺墧捈暘晍乿

亂尨挊榑暥亃
- 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, Vol. 11, 14485. https://doi.org/10.1038/s41598-021-93910-5
亂妛夛敪昞亃
- 懃掕桪惉, 埳摛揷 栆, 搉曈 惤 (2020) 惗堢娐嫬偺堎側傞僐僫儔惉栘偺庽姤撪偵偍偗傞梩偺摿惈偲拵奞偺娭學. 戞61夞戝婥娐嫬妛夛擭夛, 2020擭9寧14擔-10寧4擔, 帍忋奐嵜.
- 懃掕桪惉, 埳摛揷 栆, 搉曈 惤 (2020) 惗堢娐嫬偺堎側傞僐僫儔惉栘偺梩偺摿惈偲拵奞偺庽姤撪偵偍偗傞墧捈暘晍. 戞131夞擔杮怷椦妛夛戝夛, 2020擭3寧27擔, 柤屆壆戝妛搶嶳僉儍儞僷僗, 垽抦導柤屆壆巗.乮億僗僞乕敪昞乯
- 懃掕桪惉, 埳摛揷 栆, 搉曈 惤 (2019) 搚忞娐嫬偺堎側傞僐僫儔惉栘偺庽姤撪偵偍偗傞岝崌惉擻椡丄惉挿偍傛傃旐怘杊塹擻椡偺墧捈暘晍. 戞60夞戝婥娐嫬妛夛擭夛, 2019擭9寧18擔, 搶嫗擾岺戝妛, 搶嫗搒晎拞巗. (岥摢敪昞)

彫栰 桭曘乮妛晹乯
乽僐僫儔懏偺棊梩庽偲忢椢庽偺岝崌惉偵娭傢傞梩偺宍幙偺庽姤撪墧捈暘晍乿
嬍抲 旤憦乮妛晹乯
乽僐僫儔偺嵶崻偐傜燌弌偡傞桳婡扽慺偑搚忞拏慺偺柍婡壔偵梌偊傞塭嬁乿
搶 惌怢乮妛晹乯
乽堎側傞帪婜偺擔幩検偺憹壛偑僔儏儘偺岝崌惉偵偍偗傞岝慾奞偵梌偊傞塭嬁乿

亙2019擭搙懖嬈亜
庨 杮婗乮廋巑乯
乽Nitrogen use efficiency of Quercus serrata seedlings under different soil nitrogen and phosphorus supplies
乿

亂尨挊榑暥亃
- Zhu, B., Izuta, T. and Watanabe, M. (2020) Nitrogen use efficiency of Quercus serrata seedlings under different soil nitrogen and phosphorus supplies. Journal of Agricultural Meteorology, Vol. 76, No. 1, 11-19. https://doi.org/10.2480/agrmet.D-19-00032
亂妛夛敪昞亃
- 庨 杮婗, 埳摛揷 栆, 搉曈 惤 (2019) 堎側傞搚忞拏慺偍傛傃儕儞娐嫬偱堢惉偟偨僐僫儔昪偺梴暘棙梡岠棪. 戞60夞戝婥娐嫬妛夛擭夛, 2019擭9寧18擔, 搶嫗擾岺戝妛, 搶嫗搒晎拞巗. (岥摢敪昞)
- Zhu, B., Izuta, T. and Watanabe, M. (2019) Nitrogen use efficiency of Quercus serrata seedlings under different soil nitrogen and phosphorus supplies. International Symposium on Agricultural Meteorology (ISAM2019). 28 March 2019, Shizuoka, Japan. (億僗僞乕敪昞)

峳愳 捈婸乮妛晹乯
乽堎側傞岝娐嫬偵惗堢偡傞僔儏儘偺岝弴壔偺婫愡曄壔乿
桳塝 椓乮妛晹乯
乽曄摦岝偵懳偡傞僽僫昪偺岝崌惉偺墳摎偵梌偊傞崅擹搙CO2偲僆僝儞偺扨撈偍傛傃暋崌塭嬁乿
愇堜 堦婓乮妛晹乯
乽抧棟忣曬僔僗僥儉傪梡偄偨搶嫗偺庽栘偵傛傞僆僝儞媧廂検偺悇掕乿
揷拞 椇巙乮妛晹乯
乽庽塼棳寁應偵傛傞僐僫儔椦偍傛傃僗僊椦偺僆僝儞媧廂検偺悇掕乿

亙2018擭搙懖嬈亜
懃掕 桪惉乮妛晹乯
乽堎側傞搚忞娐嫬偱惗堢偟偨僐僫儔惉栘偺庽姤撪偵偍偗傞岝崌惉擻椡丄僔儏乕僩惉挿偍傛傃旐怘杊塹擻椡偺墧捈暘晍乿

亙2017擭搙懖嬈亜
壀晹 惉峎乮廋巑乯
乽摨壔敔朄偵傛傞庽栘偺僆僝儞姶庴惈昡壙庤朄偺専摙乿
忋杚 桟乮妛晹乯
乽僽僫昪偺岝崌惉偵偍偗傞CO2奼嶶夁掱偵懳偡傞僆僝儞偺塭嬁乿
怷 杻棟擳 乮妛晹乯
乽僽僫壢庽栘4庬偺岝崌惉偵偍偗傞僆僝儞姶庴惈偲梩偺夝朥妛揑摿挜偺娭學乿

亙2015擭搙懖嬈亜
壀晹 惉峎乮妛晹乯
乽堎側傞搚忞梴暘忦審壓偱堢惉偟偨僽僫昪偺怉嵧搚忞偵偍偗傞屇媧懍搙偵懳偡傞僆僝儞偺塭嬁乿

亂妛夛敪昞亃
壀晹惉峎, 墿悾壚擵, 淎搰傂傠偐, 埳摛揷 栆, 搉曈 惤 (2016) 僽僫昪偺崻偺惉挿偍傛傃怉嵧搚忞偺屇媧懍搙偵懳偡傞僆僝儞偲搚忞梴暘偺扨撈媦傃暋崌塭嬁. 戞127夞擔杮怷椦妛夛戝夛, 2016擭3寧28擔, 恄撧愳導摗戲巗. (億僗僞乕敪昞) 棫抧晹栧妛惗億僗僞乕徿庴徿両

淎搰 傂傠偐乮妛晹乯
乽堎側傞搚忞梴暘忦審壓偱堢惉偟偨僽僫昪偺惉挿偵偍偗傞拏慺棙梡岠棪偵懳偡傞僆僝儞偺塭嬁乿