文献リスト
日本のイネFACE実験(雫石、および、つくばみらい)およびチャンバ実験の研究成果
原著論文
Yasuhiro Usui, Hidemitsu Sakai, Takeshi Tokida, Hirofumi Nakamura, Hiroshi Nakagawa, Toshihiro Hasegawa.
(2015)
Rice grain yield and quality responses to free-air CO2 enrichment combined with soil and water warming.
Global Change Biology :doi: 10.1111/gcb.13128.
Li T, Hasegawa T, Yin X, Zhu Y, Boote K, Adam M, Bregaglio S, Buis S, Confalonieri R, Fumoto T, Gaydon D, Marcaida M, Nakagawa H, Oriol P,
Ruane AC, Ruget F, Singh B, Singh U, Tang L, Tao F, Wilkens P, Yoshida H, Zhang Z, Bouman B.
(2015)
Uncertainties in predicting rice yield by current crop models under a wide range of climatic conditions.
Global Change Biology 21:1328-1341.
Makowski D, Asseng S, Ewert F, Bassu S, Durand JL, Li T, Martre P, Adam M, Aggarwal PK, Angulo C, Baron C, Basso B, Bertuzzi P, Biernath C,
Boogaard H, Boote KJ, Bouman B, Bregaglio S, Brisson N, Buis S, Cammarano D, Challinor AJ, Confalonieri R, Conijn JG, Corbeels M, Deryng D,
De Sanctis G, Doltra J, Fumoto T, Gaydon D, Gayler S, Goldberg R, Grant RF, Grassini P, Hatfield JL, Hasegawa T, Heng L, Hoek S, Hooker J,
Hunt LA, Ingwersen J, Izaurralde RC, Jongschaap REE, Jones JW, Kemanian RA, Kersebaum KC, Kim SH, Lizaso J, Marcaida Iii M, Müller C, Nakagawa H,
Naresh Kumar S, Nendel C, O’leary GJ, Olesen JE, Oriol P, Osborne TM, Palosuo T, Pravia MV, Priesack E, Ripoche D, Rosenzweig C, Ruane AC, Ruget F,
Sau F, Semenov MA, Shcherbak I, Singh B, Singh U, Soo HK, Steduto P, Stöckle C, Stratonovitch P, Streck T, Supit I, Tang L, Tao F, Teixeira EI,
Thorburn P, Timlin D, Travasso M, Rötter RP, Waha K, Wallach D, White JW, Wilkens P, Williams JR, Wolf J, Yin X, Yoshida H, Zhang Z, Zhu Y.
(2015)
A statistical analysis of three ensembles of crop model responses to temperature and CO2 concentration.
Agricultural and Forest Meteorology 214–215: 483-493.
Gaidi Ren, Chunwu Zhu, M. Saiful Alam, Takeshi Tokida, Hidemitsu Sakai, Hirofumi Nakamura, Yasuhiro Usui, Jianguo Zhu, Toshihiro Hasegawa, Zhongjun Jia.
(2015)
Response of soil, leaf endosphere and phyllosphere bacterial communities to elevated CO2 and soil temperature in a rice paddy.
Plant and Soil 392: 27-44.
Zhang G, Sakai H, Usui Y, Tokida T, Nakamura H, Zhu C, Fukuoka M, Kobayashi K. Hasegawa T.
(2015)
Grain growth of different rice cultivars under elevated CO2 concentrations affects yield and quality.
Field Crops Research 179: 72-80.
Shimono H, Ozaki Y, Jagadish KSV, Sakai H, Usui Y, Hasegawa T, Kumagai E, Nakano H, Yoshinaga S.
(2014)
Planting geometry as a pre-screening technique for identifying CO2 responsive rice genotypes: A case study of panicle number.
Physiologia Plantarum 152: 520-528.
Seishi Ikeda, Takeshi Tokida, Hirofumi Nakamura, Hidemitsu Sakai, Yasuhiro Usui, Takashi Okubo, Kanako Tago, Kentaro Hayashi, Yasuyo Sekiyama,
Hiroshi Ono, Satoru Tomita, Masahito Hayatsu, Toshihiro Hasegawa, and Kiwamu Minamisawa.
(2015)
Characterization of leaf blade- and leaf sheath-associated bacterial communities and assessment of their responses to environmental changes in CO2, temperature, and nitrogen levels under field conditions.
Microbes and Environments 30(1): 51-62. doi:10.1264/jsme2.ME14117.
Open Access
Takashi Okubo, Dongyan Liu, Hirohito Tsurumaru, Seishi Ikeda, Susumu Asakawa, Takeshi Tokida, Kanako Tago, Masahito Hayatsu, Naohiro Aoki, Ken Ishimaru, Kazuhiro Ujiie, Yasuhiro Usui,
Hirofumi Nakamura, Hidemitsu Sakai, Kentaro Hayashi, Toshihiro Hasegawa, and Kiwamu Minamisawa.
(2015)
Elevated atmospheric CO2 levels affect community structure of rice root-associated bacteria.
Frontiers in Microbiology 6: 136. doi:10.3389/fmicb.2015.00136.
Open Access
Takashi Okubo, Takeshi Tokida, Seishi Ikeda, Zhihua Bao, Kanako Tago, Masahito Hayatsu, Hirofumi Nakamura, Hidemitsu Sakai, Yasuhiro
Usui, Kentaro Hayashi, Toshihiro Hasegawa, Kiwamu Minamisawa.
(2014)
Effects of elevated carbon dioxide, elevated temperature, and rice growth stage on the community structure of rice root–associated bacteria.
Microbes and Environments 29(2): 184-190. doi:10.1264/jsme2.ME14011.
Open Access
Usui Y, Sakai H, Tokida T, Nakamura H, Nakagawa H, Hasegawa T.
(2014)
Heat-tolerant rice cultivars retain grain appearance quality under free-air CO2 enrichment.
Rice 7: doi:10.1186/s12284-014-0006-5.
Open Access
Miyazawa S-I, Hayashi K, Nakamura H, Hasegawa T, Miyao M.
(2014)
Elevated CO2 decreases the photorespiratory NH3 production but does not decrease the NH3 compensation point in rice leaves.
Plant and Cell Physiology 55(9):1582-1591, doi:10.1093/pcp/pcu088.
Open Access
Charles P. Chen, Hidemitsu Sakai, Takeshi Tokida, Yasuhiro Usui, Hirofumi Nakamura, Toshihiro Hasegawa.
(2014)
Do the rich always become richer? Characterizing the leaf physiological response of the high-yielding rice cultivar Takanari to free-air CO2 enrichment.
Plant and Cell Physiology 55(2): 381-391, doi:10.1093/pcp/pcu009.
Open Access
Minaco Adachi, Toshihiro Hasegawa, Hiroshi Fukayama, Takeshi Tokida, Hidemitsu Sakai, Toshinori Matsunami, Hirofumi Nakamura, Ryoji Sameshima, Masumi Okada.
(2014)
Soil and water warming accelerates phenology and down-regulation of leaf photosynthesis of the rice plants grown under free-air CO2 enrichment (FACE).
Plant and Cell Physiology 55(2): 370-380, doi:10.1093/pcp/pcu005.
Open Access
Hiroaki Okada, Hidemitsu Sakai, Takeshi Tokida, Yasuhiro Usui, Hirofumi Nakamura, Toshihiro Hasegawa.
(2014)
Elevated temperature has stronger effects on the soil food web of a flooded paddy than does CO2.
Soil Biology and Biochemistry 70: 166-175.
Midori Yano, Sakae Toyoda, Takeshi Tokida, Kentaro Hayashi, Toshihiro Hasegawa, Akiko Makabe, Keisuke Koba, Naohiro Yoshida.
(2014)
Isotopomer analysis of production, consumption and soil-to-atmosphere emission processes of N2O at the beginning of paddy field irrigation.
Soil Biology and Biochemistry 70: 66-78.
Kentaro Hayashi, Takeshi Tokida, Miwa Yashima Matsushima, Keisuke Ono, Hirofumi Nakamura, Toshihiro Hasegawa.
(2014)
Free-air CO2 enrichment (FACE) net nitrogen fixation experiment at a paddy soil surface under submerged conditions.
Nutrient Cycling in Agroecosystems 98: 57-69, doi:10.1007/s10705-013-9595-4.
Fumoto T, Hasegawa T, Cheng W, Hoque MM, Yamakawa Y, Shimono H, Kobayashi K, Okada M, Li C, Yagi K.
(2013)
Application of a process-based biogeochemistry model, DNDC-rice, to a rice field under free-air CO2 enrichment (FACE).
Journal of Agricultural Meteorology 69: 173-190.
Open Access
Zhang G, Sakai H, Tokida T, Usui Y. Zhu C, Nakamura H, Yoshimoto M, Fukuoka M, Kobayashi K, Hasegawa T.
(2013)
The effects of free-air CO2 enrichment (FACE) on carbon and nitrogen accumulation in grains of rice (Oryza sativa L.).
Journal of Experimental Botany 64: 3179-3188.
Open Access
Kentaro Hayashi, Kazuhide Matsuda, Keisuke Ono, Takeshi Tokida, Toshihiro Hasegawa.
(2013)
Amelioration of the reactive nitrogen flux calculation by a day/night separation in weekly mean air concentration measurements.
Atmospheric Environment 79: 462-471.
Shimono H, Nakamura H, Hasegawa T, Okada M.
(2013)
Lower responsiveness of canopy evapotranspiration rate than of leaf stomatal conductance to open-air CO2 elevation in rice.
Global Change Biology, 19(8): 2444-2453.
Zhu C, Cheng W, Sakai H, Oikawa S, Laza RC, Usui Y, Hasegawa T. (2013)
Effects of elevated [CO2] on stem and root lodging among rice cultivars
Chinese Science Bulletin 58(15): 1787-1794.
Open Access
Hasegawa T, Sakai H, Tokida T, Nakamura H, Zhu C, Usui Y, Yoshimoto M, Fukuoka M,
Wakatsuki H, Katayanagi N, Matsunami T, Kaneta Y, Sato T, Takakai F, Sameshima R,
Okada M, Mae T, Makino A.
(2013)
Rice cultivar responses to elevated CO2 at two free-air CO2 enrichment (FACE) sites in Japan.
Functional Plant Biology 40: 148-159.
Open Access
Tokida T, Cheng W, Adachi M, Matsunami T, Nakamura H, Okada M, Hasegawa T.
(2013)
The contribution of entrapped gas bubbles to the soil methane pool and their role
in methane emission from rice paddy soil in free-air [CO2] enrichment
and soil warming experiments.
Plant and Soil 364(1-2): 131-143, doi: 10.1007/s11104-012-1356-7.
Zhu C, Ziska LH, Sakai H, Zhu J, Hasegawa T.
(2013)
Vulnerability of lodging risk to elevated CO2 and increased soil
temperature differs between rice cultivars.
European Journal of Agronomy 46: 20-24.
Liu GC, Tokida T, Matsunami T, Nakamura H, Okada M, Sameshima R, Hasegawa T, Sugiyama S.
(2012)
Microbial community composition controls the effects of climate change
on methane emission from rice paddies.
Environmental Microbiology Reports 4(6): 648-654, doi: 10.1111/j.1758-2229.2012.00391.x.
Nakamura H, Tokida T, Yoshimoto M, Sakai H, Fukuoka M, Hasegawa T.
(2012)
Performance of the enlarged rice-FACE system using pure-CO2
installed in Tsukuba, Japan.
Journal of Agricultural Meteorology 68(1): 15-23.
Open Access
林健太郎, 常田岳志, 小野圭介, 長谷川利拡, 松田和秀, 樋口慶郎.
(2012)
関東地方の単作水田におけるオゾンモニタリング:硝酸ガス捕集影響の除外によるパッシブサンプラー法の改良の試み.
大気環境学会誌 47(2): 87-95.
Open Access
Fukayama H, Sugino M, Fukuda T, Masumoto C, Taniguchi Y, Okada M,
Sameshima R, Hatanaka T, Misoo S, Hasegawa T, Miyao M. (2011)
Gene expression profiling of rice grown in free air CO2 enrichment (FACE) and elevated soil temperature.
Field Crops Research 121: 195-199.
Hayashi K, Tokida T, Hasegawa T. (2011)
Potential ammonia emission from flag leaves of paddy rice (Oryza sativa L. cv. Koshihikari).
Agriculture Ecosystems & Environment 144: 117-123.
Inubushi K, Cheng W, Mizuno T, Lou Y, Hasegawa T, Sakai H, Kobayashi K.
(2011)
Microbial biomass carbon and methane oxidation influenced by rice cultivars and elevated CO2 in a Japanese paddy soil.
European Journal of Soil Science 62: 69-73.
Tokida T, Adachi M, Cheng W, Nakajima Y, Fumoto T, Matsushima M, Nakamura H,
Okada M, Sameshima R, Hasegawa T. (2011)
Methane and soil CO2 production from current-season photosynthates in a rice
paddy exposed to elevated CO2 concentration and soil temperature.
Global Change Biology 17: 3327-3337.
Cheng
W, Sakai H, Matsushima M, Yagi K, Hasegawa T. (2010)
Response
of the floating aquatic fern Azolla filiculoides to elevated CO2,
temperature, and phosphorus levels.
Hydrobiologia 656:5-14.
Cheng
W, Sakai H, Nishimura S, Yagi K, Hasegawa T. (2010)
The lowland
paddy weed Monochoria vaginalis emits N2O but not
CH4.
Agriculture Ecosystems & Environment 137:
219-221.
Cheng
W, Sakai H, Yagi K, Hasegawa T. (2010)
Combined effects of
elevated [CO2] and high night temperature on carbon assimilation,
nitrogen absorption, and the allocations of C and N by rice (Oryza sativa L.).
Agricultural and Forest Meteorology 150: 1174-1181.
Shimono
H, Okada M, Inoue M, Nakamura H, Kobayashi K, Hasegawa T. (2010)
Diurnal and seasonal variations in stomatal conductance of rice at elevated
atmospheric CO2 under fully open-air conditions.
Plant, Cell & Environment 33: 322-331.
Shimono
H, Suzuki K, Aoki K, Hasegawa T, Okada M. (2010)
Effect of
panicle removal on photosynthetic acclimation under elevated CO2
in rice.
Photosynthetica 48: 530-536.
Tokida T, Fumoto T, Cheng W, Matsunami T, Adachi M,
Katayanagi N, Matsushima M, Okawara Y, Nakamura H, Okada M,
Sameshima R, Hasegawa T. (2010)
Effects of free-air CO2
enrichment (FACE) and soil warming on CH4 emission from a
rice paddy field: Impact assessment and stoichiometric evaluation.
Biogeosciences 7: 2639-2653.
Open Access
Cheng
W, Sakai H, Yagi K, Hasegawa T. (2009)
Interactions of elevated
CO2 and night temperature on rice growth and yield.
Agricultural and Forest Meteorology 149: 51-58.
Fukayama H, Fukuda T, Masumoto C, Taniguchi Y, Sakai H, Cheng W, Hasegawa T, Miyao M.
(2009)
Rice plant response to long term CO2 enrichment: Gene expression profiling.
Plant Science 177: 203-210
Shimono H, Okada M, Yamakawa Y, Nakamura H, Kobayashi K, Hasegawa T. (2009)
Genotypic variation in rice yield enhancement by elevated CO2 relates
to growth before heading, and not to maturity group.
Journal of Experimental Botany
60: 523-532.
Open Access
Cheng W, Inubushi K, Hoque MM, Sasaki H, Kobayashi K,
Yagi K, Okada M, Hasegawa T. (2008)
Effect of Elevated [CO2]
on Soil Bubble and CH4 Emission from a Rice Paddy: A Test by 13C Pulse-Labeling under Free-Air CO2 Enrichment.
Geomicrobiology Journal 25: 396-403.
Cheng W, Sakai H, Hartley A, Yagi K, Hasegawa T. (2008)
Increased night temperature reduces the stimulatory effect of elevated carbon
dioxide concentration on methane emission from rice paddy soil.
Global Change Biology 14: 644-656.
Fumoto T, Kobayashi K, Li C, Yagi K, Hasegawa T. (2008)
Revising a process-based biogeochemistry model (DNDC) to simulate methane emission from rice paddy fields under various residue management and fertilizer
regimes.
Global Change Biology 14: 382-402.
Lou Y, Inubushi K, Mizuno T, Hasegawa T, Lin Y, Sakai H, Cheng W, Kobayashi
K. (2008)
CH4 emission with differences in atmospheric CO2 enrichment and rice cultivars in a Japanese paddy soil.
Global Change Biology 14: 2678-2687.
Shimono H, Okada M, Yamakawa Y, Nakamura H, Kobayashi K, Hasegawa T. (2008)
Rice yield enhancement by elevated CO2 is reduced in cool weather.
Global Change Biology 14: 276-284.
Bowatte S, Asakawa S, Okada M, Kobayashi K, Kimura M. (2007)
Effect of elevated atmospheric CO2 concentration on ammonia oxidizing
bacteria communities inhabiting in rice roots.
Soil Science and Plant Nutrition 53: 32-39.
Open Access
Sasaki
H, Hara T, Ito S, Uehara N, Kim H-Y,
Lieffering M, Okada M, Kobayashi K. (2007)
Effect of free-air
CO2 enrichment on the storage of carbohydrate fixed at different
stages in rice (Oryza sativa L.).
Field Crops Research 100: 24-31.
Shimono H, Okada M, Yamakawa Y, Nakamura H, Kobayashi K, Hasegawa T. (2007)
Lodging in rice can be alleviated by atmospheric CO2
enrichment.
Agriculture Ecosystems & Environment 118:
223-230.
Borjigidai
A, Hikosaka K, Hirose T, Hasegawa T, Okada M, Kobayashi K. (2006)
Seasonal Changes in Temperature Dependence of Photosynthetic Rate in
Rice Under a Free-air CO2 Enrichment.
Annals of Botany
97: 549-557.
Open Access
Cheng
W, Yagi K, Sakai H, Kobayashi K. (2006)
Effects of elevated
CO2 concentrations on CH4 and N2O emission from
rice soil: an experiment in controlled-environment chambers environment
Chambers.
Biogeochemistry 77: 351-373.
Kobayashi
T, Ishiguro K, Nakajima T, Kim H, Okada M, Kobayashi K. (2006)
Effects of elevated atmospheric CO2 concentration on the
infection of rice blast and sheath blight.
Phytopathology 96: 425-431.
Open Access
Lou
Y, Mizuno T, Kobayashi K, Okada M, Hasegawa T,
Hoque MM, Inubushi K. (2006)
CH4 production potential
in a paddy soil exposed to atmospheric CO2 enrichment.
Soil Science and Plant Nutrition 52: 769-773.
Open Access
Sakai H,
Hasegawa T, Kobayashi K. (2006)
Enhancement of rice canopy
carbon gain by elevated CO2 is sensitive to growth stage
and leaf nitrogen concentration.
New Phytologist 170: 321-332.
Open Access
Bannayan
M, Kobayashi K, Kim H-Y, Lieffering M, Okada M, Miura S. (2005)
Modeling the interactive effects of atmospheric CO2 and N
on rice growth and yield.
Field Crops Research 93: 237-251.
Cheng
W, Yagi K, Sakai H, Xu H, Kobayashi K. (2005)
Changes in concentrations
and d13C values of dissolved CH4, CO2, and water-soluble
organic carbon in rice paddies under ambient and elevated concentrations
of atmospheric CO2.
Organic Geochemistry 36:
813-823.
Cheng
W, Yagi K, Xu H, Sakai H, Kobayashi K. (2005)
Influence of
elevated concentrations of atmospheric CO2 on CH4
and CO2 entrapped in rice-paddy soil.
Chemical Geology
218: 15-24.
Hashimoto-Yasuda
T, Ikenaga M, Asakawa S, Kim H-Y, Okada M, Kobayashi K, Kimura M. (2005)
Effect of Free-Air CO2 Enrichment (FACE) on Methanogenic Archaeal
Communities Inhabiting Rice Roots in a Japanese Rice Field. Soil
Science and Plant Nutrition 51: 91-100.
Open Access
Ikawa
H, Oue H, Yoshimoto M, Kobayashi K, Okada M. (2005)
Effects
of FACE on rice leaf photosynthesis and transpiration in a paddy field.
-Changes of parameters in Farquhar and Ball-Berry models under elevated
CO2.
Journal of Agricultural Meteorology 60:
593-596.
Oue
H, Yoshimoto M, Kobayashi K. (2005)
Effects of free-air CO2
enrichment on leaf and panicle temperatures of rice at heading and flowering
stage.
Phyton 45: 117-124.
Sasaki H, Aoki N, Sakai H, Hara T, Uehara N, Ishimaru K,
Kobayashi K. (2005)
Effect of CO2 Enrichment on the Translocation and
Partitioning of Carbon at the Early Grain-filling Stage in Rice
(Oryza sativa L.).
Plant Production Science 8:8-15.
Open Access
Sasaki H, Hara T, Ito S, Miura S, Hoque MM, Lieffering M, Kim
H-Y, Okada M, Kobayashi K. (2005)
Seasonal changes in canopy photosynthesis and respiration, and
partitioning of photosynthate, in rice (Oryza sativa L.)
grown under Free-Air CO2 Enrichment.
Plant & Cell Physiology 46: 1704-1712.
Open Access
Morita S, Sakaigaichi T, Abe J, Kobayashi K, Okada M, Shimono H,
Yamakawa Y, Kim HY, Hasegawa T. (2005)
Structure and function of rice root system under FACE condition.
Journal of Agricultural Meteorology 60: 961-964.
Terao
T, Miura S, Yanagihara T, Hirose T, Nagata K,
Tabuchi H, Kim H-Y, Lieffering M, Okada M, Kobayashi K. (2005)
Influence of free-air CO2 enrichment (FACE) on the eating
quality of rice.
Journal of the Science of Food and Agriculture
85: 1861-1868.
Yamazaki
M, Okada M, Kobayashi K, Kimura M. (2005)
Effect of Free-Air
CO2 Enrichment (FACE) on the Community Structure of Aquatic
Organisms in Floodwater of a Japanese Paddy Field during the Flooding
Period of Rice Cultivation.
Soil Science and Plant Nutrition
51: 271-279.
Open Access
Yoshimoto M,
Oue H, Kobayashi K. (2005)
Energy balance and water use efficiency
of rice canopies under free-air CO2 enrichment.
Agricultural
and Forest Meteorology 133: 226-246.
Yoshimoto
M, Oue H, Takahashi N, Kobayashi K. (2005)
The effects of
FACE (Free-Air CO2 Enrichment) on temperatures and transpiration
of rice panicles at flowering stage.
Journal of Agricultural Meteorology
60: 597-600.
吉本真由美,
Luo W, Zhu J, 小林和彦. (2004)
中国の水田 FACE (Free-Air CO2 Enrichment) に
おける微気象・エネルギー収支観測研究.
生物と気象 4: 11-16.
Anten
N, Hirose T, Onoda Y, Kinugasa T, Kim H, Okada M, Kobayashi K. (2004)
Elevated CO2 and nitrogen availability have interactive effects on canopy carbon gain in rice.
New Phytologist 161: 459-471.
Open Access
Kurata
K, Seyama K, Nakamura H, Okada M, Kobayashi K. (2004)
An idea
of concentration gradient FACE (free-air CO2 enrichment)
and a preliminary experiment of its control using a neural network.
Environmental Control in Biology 42: 295-303.
Open Access
Li Z,
Yagi K. (2004)
Rice root-derived carbon input and its effect
on decomposition of old soil carbon pool under elevated CO2.
Soil Biology & Biochemistry 36: 1967-1973.
Li Z,
Yagi K, Sakai H, Kobayashi K. (2004)
Influence of elevated
CO2 and nitrogen nutrition on rice plant growth, soil microbial
biomass, dissolved organic carbon and dissolved CH4.
Plant and Soil 258: 81-90.
Lieffering
M, Kim H-Y, Kobayashi K, Okada M. (2004)
The impact of elevated
CO2 on the elemental concentrations of field-grown rice grains.
Field Crops Research 88: 279-286.
Yamakawa
Y, Saigusa M, Okada M, Kobayashi K. (2004)
Nutrient uptake
by rice and soil solution composition under atmospheric CO2
enrichment.
Plant and Soil 259: 367-372.
Aoki
N, Ono K, Sasaki H, Seneweera SP, Sakai H, Kobayashi K,
Ishimaru K. (2003)
Effects of elevated CO2 concentration
on photosynthetic carbon metabolism in flag-leaf blades of rice before
and after heading.
Plant Production Science 6: 52-58.
Open Access
Inubushi
K, Cheng W, Aonuma S, Hoque MM, Kobayashi K, Miura S, Kim HY, Okada
M. (2003)
Effects of free-air CO2 enrichment (FACE)
on CH4 emission from a rice paddy field.
Global Change Biology
9: 1458-1464.
Kim
H-Y, Lieffering M, Kobayashi K, Okada M, Mitchell MW,
Gumpertz M. (2003)
Effects of free-air CO2 enrichment
and nitrogen supply on the yield of temperate paddy rice crops.
Field Crops Research 83: 261-270.
Kim
H-Y, Lieffering M, Kobayashi K, Okada M, Miura S. (2003)
Seasonal
changes in the effects of elevated CO2 on rice at three levels
of nitrogen supply: a free air CO2 enrichment (FACE) experiment.
Global Change Biology 9: 826-837.
Hoque
MM, Inubushi K, Miura S, Kobayashi K, Kim H-Y, Okada M,
Yabashi S. (2002)
Nitrogen dynamics in paddy field as influenced
by free-air CO2 enrichment (FACE) at three levels of nitrogen
fertilization.
Nutrient Cycling in Agroecosystems 63: 301-308.
Hoque
MM, Inubushi K, Yabashi S. (2002)
Nitrogen dynamics in paddy
field under free-air CO2 enrichment (FACE) examined by the
15N tracer technique.
Technical Bulletin of Faculty of Horticulture
Chiba University 56: 65-75.
Kimball
B, Kobayashi K, Bindi M. (2002)
Responses of agricultural
crops to free-air CO2 enrichment.
Advances in Agronomy
77: 293-368.
Ohtsuka
T, Kibe T, Mariko S, Kobayashi K, Adachi T, Koizumi M. (2002)
Effect of free-air CO2 enrichment (FACE) on structure of
weed communities in a rice paddy field.
Vegetation Science
19: 25-31.
Seneweera
SP, Conroy JP, Ishimaru K, Ghannoum O, Okada M,
Lieffering M, Kim HY, Kobayashi K. (2002)
Changes in source-sink
relations during development influence photosynthetic acclimation of
rice to Free Air CO2 Enrichment (FACE).
Functional Plant Biology 29: 945-953.
小林和彦. (2001)
FACE(開放系大気CO2増加)実験.
日本作物学会紀事 70: 1-16.
Cheng
W, Inubushi K, Yagi K, Sakai H, Kobayashi K. (2001)
Effects
of elevated carbon dioxide concentration on biological nitrogen fixation,
nitrogen mineralization and carbon decomposition in submerged rice soil.
Biology and Fertility of Soils 34: 7-13.
Hoque
MM, Inubushi K, Miura S, Kobayashi K, Kim H-Y, Okada M,
Yabashi S. (2001)
Biological dinitrogen fixation and soil
microbial biomass carbon as influenced by free-air carbon dioxide enrichment
(FACE) at three levels of nitrogen fertilization in a paddy field.
Biology and Fertility of Soils 34: 453-459.
Inubushi
K, Hoque MM, Miura S, Kobayashi K, Kim HY, Okada M,
Yabashi S. (2001)
Effect of free-air CO2 enrichment
(FACE) on microbial biomass in paddy field soil.
Soil Science and Plant Nutrition 47: 737-745.
Open Access
Kim
HY, Lieffering M, Miura S, Kobayashi K, Okada M. (2001)
Growth
and nitrogen uptake of CO2-enriched rice under field conditions.
New Phytologist 150: 223-229.
Open Access
Koizumi H,
Kibe T, Mariko S, Ohtsuka T, Nakadai T, Mo W, Toda H, Seiichi N,
Kobayashi K. (2001)
Effect of Free-Air CO2 Enrichment
(FACE) on CO2 Exchange at the Flood-Water Surface in a Rice
Paddy Field.
New Phytologist 150: 231-239.
Open Access
Norby
RJ, Kobayashi K, Kimball BA. (2001)
Rising CO2-
future ecosystems.
New Phytologist 150: 215-221.
Open Access
Okada
M, Lieffering M, Nakamura H, Yoshimoto M, Kim HY, Kobayashi K. (2001)
Free-air CO2 enrichment (FACE) using pure CO2
injection: system description.
New Phytologist 150: 251-260.
Open Access
Sakai
H, Yagi K, Kobayashi K, Kawashima S. (2001)
Rice carbon balance
under elevated CO2.
New Phytologist 150: 241-249.
Open Access
Salam
MU, Jones JW, Kobayashi K. (2001)
Predicting nursery growth
and transplanting shock in rice.
Experimental Agriculture
37: 65-81.
Ziska
LH, Ghannoum O, Baker JT, Conroy J,
Bunce JA, Kobayashi K, Okada M. (2001)
A global perspective
of ground level, "Ambient" carbon dioxide for assessing the
response of plants to atmospheric CO2.
Global Change Biology
7: 789-796.
Gregory
PJ, Ingram JSI, Kobayashi K. (2000)
Rice production and global
change.
Global Environmental Research 3: 71-77.
Kobayashi
K, Salam MU. (2000)
Comparing Simulated and Measured Values
Using Mean Squared Deviation and its Components.
Agronomy Journal
92: 345.
Okada
M, Hamasaki T, Sameshima R. (2000)
Pre-air-conditioned temperature
gradient chambers for reserch on temperature stress in plants.
Biotronics
29: 43-55.
Toda
H, Tanaka S, Koizumi H, Kobayashi K, Okada M, Kim HY, Kawashima H. (2000)
Effects of CO2 enrichment on the nitrogen utilization
by rice under field conditions: a result from Free-Air CO2
Enrichment with rice.
Systems Agronomy 16: 74-78.
書籍 および 総説・解説
Toshihiro Hasegawa, Hidemitsu Sakai, Takeshi Tokida, Yasuhiro Usui, Mayumi Yoshimoto,
Minehiko Fukuoka, Hirofumi Nakamura, Hiroyuki Shimono, and Masumi Okada.
(2015).
Rice free-air carbon dioxide enrichment studies to improve assessment of climate change effects on rice agriculture.
In: Jerry L. Hatfield and David Fleisher, eds.
Improving modeling tools to assess climate change effects on crop response.
xxx. doi:10.2134/advagricsystmodel7.2014.0015, ASA, CSSA, SSSA, Madison, WI, USA
長谷川利拡
(2014)
温暖化影響のいま : 生態系と農林水産業へのインパクト(第7回)気候変化に対する水稲の応答と適応の方向..
遺伝:生物の科学
68:76-81.
臼井靖浩、常田岳志、酒井英光、林健太郎、長谷川利拡
(2013)
植物の高CO2応答 4. FACE実験による水田生態系の気候変動応答研究..
化学と生物
51(9): 628-633.
Open Access(PDF)
長谷川利拡,酒井英光,常田岳志,中村浩史,臼井靖浩,林健太郎
(2013)
つくばみらいFACE実験によるイネの高CO2応答の検証.
光合成研究
23(1): 18-23.
Open Access(PDF)
長谷川利拡
(2012)
50年後の水稲生産を予測する~温暖化・CO2濃度上昇が水稲生産に及ぼす影響を実際の水田で調べる.
化学と生物
50(4): 298-301.
酒井英光, 長谷川利拡
(2012)
開放系大気CO2増加(FACE)実験による作物の高CO2応答の解明.
植物の生長調節
47(1): 10-16.
Lafarge T, Peng S, Hasegawa T, Quick PW, Jagadish SVK, Wassmann R.
(2011)
Genetic adjustment to changing climates:Rice.
In: Yadav SS, Redden RJ, Hatfield JL, eds. Crop Adaptation to Climate Change.
JOHN WILEY & SONS LTD, 298-313.
Hasegawa T, Wang YL, Zhu JG, Kobayashi K, Okada M,
Shimono S, Yang LX, Kim HY, Kobayashi T, Sakai H, Yoshimoto M, Lieffering M, Ishiguro K. (2007)
Response of rice to increasing
CO2 and temperature: Recent findings from large-scale free-air
CO2 enrichment (FACE) experiments.
In: Aggawal PK, Ladha JK, Singh RK, Devakumar C, Hardy B eds. Science, Technology, and Trade for Peace and Prosperity.
Macmillan, India, 439-447. 2007.
Yoshimoto M.
(2007)
Free-Air CO2 Enrichment (FACE) Experiment for
Carbon and Energy Flux Studies under Future Ecosystems.
AsiaFlux Newsletter 22: 4-11.
Kobayashi
K, Okada M, Kim HY, Liffering M, Miura S, Hasegawa T. (2006)
Paddy Rice Responses to Free-Air [CO2] Enrichment.
In: Nosberger J, Long SP, Norby RJ, Stitt M, Hendrey GR, Blum H, eds. Managed ecosystems
and CO2: case studies, processes, and perspectives.,
87-104.
Cheng
W, Yagi K, Inubushi K, Kobayashi K, Sakai H, Kim HY, Okada M. (2005)
Impact of rising atmospheric CO2 on CH4
emission from rice paddy.
In: Toriyama K, Heong KL, Hardy B, eds.
Rice is life: scientific perspectives for the 21st century., 555-557.
Hasagawa
T, Kobayashi K, Lieffering M, Kim HY, Sakai H,
Shimono H, Yamakawa Y, Yoshimoto M, Okada M. (2005)
Impact
of increased source capacity on rice yield: Case study with CO2
enrichment.
In: Toriyama K, Heong KL, Hardy B, eds. Rice is life:
scientific perspectives for the 21st century., 124-127.
程為国 (2008)
大気中の二酸化炭素の濃度上昇はどのように水田からのメタン放出に影響するか.
化学と生物 46: 539-543.
小林和彦, 八木一行, 程為国, 犬伏和之. (2004)
土壌生態系の進化と微生物-8、土壌生態圏の未来:
化学と生物 42: 530-536.
小林和彦,
モインウスサラム. (1998)
増えゆく大気CO2とアジアのコメ.
農業および園芸 73: 15-21.
吉本真由美, 小林和彦. (2004)
開放系高CO2(FACE)実験による水田生態系の熱・
海洋, 号外
38: 121-126.
FACE実験と関連した温暖化研究
イネの高温障害、ヒートストレス
Ma. Rebecca C. Laza, Hidemitsu Sakai, Weiguo Cheng, Takeshi Tokida, Shaobing Peng, Toshihiro Hasegawa
(2015)
Differential response of rice plants to high night temperatures imposed at varying developmental phases.
Agricultural and Forest Meteorology 209: 69-77.
Fukuoka M, Yoshimoto M, Hasegawa T.
(2012)
Varietal range in transpiration conductance of flowering rice panicle and its
impact on panicle temperature.
Plant Production Science 15(4): 258-264.
Open Access
Fukuoka M, Yoshimoto M, Hasegawa T.
(2012)
MINCER: A novel instrument for monitoring the micrometeorology of rice canopies.
Journal of Agricultural Meteorology 68(2): 135-147.
Open Access
Yoshimoto M, Fukuoka M, Hasegawa T, Matsui T, Tian X, Vijayalakshmi C,
Singh MP, Myint TT, Weerakoon WMW, Lafarge T, Lur HS, Tarpley L.
(2012)
MINCERnet: A global research alliance to support the fight against heat stress in rice.
Journal of Agricultural Meteorology 68(2): 149-157.
Open Access
Hasegawa T, Ishimaru T, Kondo M, Kuwagata T, Yoshimoto M, Fukuoka M.
(2011)
Spikelet sterility of rice observed in the record hot summer of 2007 and
the factors associated with its variation.
Journal of Agricultural Meteorology 67(4): 225-232.
Open Access
Yoshimoto M, Fukuoka M, Hasegawa T, Utsumi M, Ishigooka Y, Kuwagata T.
(2011)
Integrated micrometeorology model for panicle and canopy temperature (IM2PACT)
for rice heat stress studies under climate change..
Journal of Agricultural Meteorology 67(4): 233-247.
Open Access