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The Influence of Nitrogen on the Elevated CO2 Response in Field-Grown Rice
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WEERAKOON WMW,
COSTA WAJM de, ABEYSIRIWARDENA DS de Z.
Journal of Agricultural Meteorology. 2005 60(5). p.601
Interactive effects of elevated CO2 and O3 on rice and flacca tomato
Olszyk D
Agriculture, Ecosystems & Environment. 1997 66(1). p.1
Response of Growth and Yield of Rice (Oryza sativa) to Elevated Atmospheric Carbon Dioxide in the Subhumid Zone of Sri Lanka
De Costa W. A. J. M.,
Weerakoon W. M. W.,
Herath H. M. L. K., Abeywardena R. M. I.
Journal of Agronomy and Crop Science. 2003 189(2). p.83
Crop Adaptation to Climate Change (2011)
Effects of elevated CO2 and nitrogen on wheat growth and photosynthesis
Pal M.,
Rao L. S.,
Jain V.,
Srivastava A. C.,
Pandey R.,
Raj A., Singh K. P.
Biologia plantarum. 2005 49(3). p.467
Response of Photosynthesis and Water Relations of Rice (Oryza sativa) to Elevated Atmospheric Carbon Dioxide in the Subhumid Zone of Sri Lanka
De Costa W. A. J. M.,
Weerakoon W. M. W.,
Abeywardena R. M. I., Herath H. M. L. K.
Journal of Agronomy and Crop Science. 2003 189(2). p.71
Biomass production and nutritional levels of berseem (Trifolium alexandrium) grown under elevated CO2
Pal Madan,
Karthikeyapandian V.,
Jain Vanita,
Srivastava A.C.,
Raj Anupam, Sengupta U.K.
Agriculture, Ecosystems & Environment. 2004 101(1). p.31
Atmospheric CO2 concentration effects on N partitioning and fertilizer N recovery in field grown rice (Oryza sativa L.)
Weerakoon W.M.W.,
Ingram K.T., Moss D.N.
Agriculture, Ecosystems & Environment. 2005 108(4). p.342
Effects of Elevated Atmospheric CO2 Concentration on the Infection of Rice Blast and Sheath Blight
Kobayashi T.,
Ishiguro K.,
Nakajima T.,
Kim H. Y.,
Okada M., Kobayashi K.
Phytopathology®. 2006 96(4). p.425
Rice Blast: A Disease with Implications for Global Food Security
Asibi Aziiba Emmanuel,
Chai Qiang, Coulter Jeffrey A.
Agronomy. 2019 9(8). p.451
Root Morphological Traits and Spatial Distribution under Different Nitrogen Treatments and Their Relationship with Grain Yield in Super Hybrid Rice
Liu Ke,
He Aibin,
Ye Chang,
Liu Shaowen,
Lu Jian,
Gao Mengtao,
Fan Youzhong,
Lu Bilin,
Tian Xiaohai, Zhang Yunbo
Scientific Reports. 2018 8(1).
CO2 enrichment increased leaf initiation and photosynthesis in Doritaenopsis Queen Beer ‘Mantefon’ orchids
Yun Do Lee,
Kim Hyun Jin, Kim Yoon Jin
Horticulture, Environment, and Biotechnology. 2018 59(2). p.159
Growth, Yield and Grain Mineral Nutrient Responses of Rice to Elevated Atmospheric CO2 Concentration and Nitrogen Fertilization
IMAI Katsu, TAKEI-SAKUMA Mayumi
Environment Control in Biology. 2009 47(4). p.179
Advantages linked to root development enhance rice biomass accumulation under elevated carbon dioxide conditions
He Jiang,
Zhang Weiyang,
Zhu Kuanyu,
Wang Zhiqin,
Wang Weilu, Yang Jianchang
Agronomy Journal. 2020 112(5). p.4007
Water use dynamics of dryland wheat grown under elevated CO2 with supplemental nitrogen
Uddin Shihab,
Parvin Shahnaj,
Armstrong Roger,
Fitzgerald Glenn J.,
Löw Markus,
Houshmandfar Alireza,
Tavakkoli Ehsan,
Tausz-Posch Sabine,
O’Leary Garry J.,
Tausz Michael, Fukai Shu
Crop & Pasture Science. 2023 75(1).
Redesigning Rice Photosynthesis to Increase Yield, Proceedings of the Workshop on the Quest to Reduce Hunger: Redesigning Rice Photosynthesis (2000)
Growth and development of cotton (Gossypium hirsutum L.) in response to CO2 enrichment under two different temperature regimes
Yoon S.T.,
Hoogenboom Gerrit,
Flitcroft Ian, Bannayan Mohammad
Environmental and Experimental Botany. 2009 67(1). p.178
Interactions between increasing CO2 concentration and temperature on plant growth
MORISON J. I. L., LAWLOR D. W.
Plant, Cell & Environment. 1999 22(6). p.659
Effects of nitrogen nutrition on responses of rice seedlings to carbon dioxide
Weerakoon Weerakoon M,
Olszyk David M, Moss Dale N
Agriculture, Ecosystems & Environment. 1999 72(1). p.1
Plant Growth and Climate Change (2006)
Food security and climate change: on the potential to adapt global crop production by active selection to rising atmospheric carbon dioxide
Ziska Lewis H.,
Bunce James A.,
Shimono Hiroyuki,
Gealy David R.,
Baker Jeffrey T.,
Newton Paul C. D.,
Reynolds Matthew P.,
Jagadish Krishna S. V.,
Zhu Chunwu,
Howden Mark, Wilson Lloyd T.
Proceedings of the Royal Society B: Biological Sciences. 2012 279(1745). p.4097
The impact of nitrogen supply on the potential response of a noxious, invasive weed, Canada thistle (Cirsium arvense) to recent increases in atmospheric carbon dioxide
Ziska Lewis H.
Physiologia Plantarum. 2003 119(1). p.105
Growth and nitrogen uptake of CO2‐enriched rice under field conditions
Kim H. Y.,
Lieffering M.,
Miura S.,
Kobayashi K., Okada M.
New Phytologist. 2001 150(2). p.223
Crop Adaptation: Weedy and Crop Wild Relatives as an Untapped Resource to Utilize Recent Increases in Atmospheric CO2
Ziska Lewis H.
Plants. 2021 10(1). p.88
Photosynthetic Capacity and Productivity of CO2-Enriched Rice (Oryza sativaL.) Under Field Conditions
Harmens Harry,
Marriott David J., Ashenden Trevor W.
Journal of Crop Improvement. 2005 13(1-2). p.55
Structure and Function in Agroecosystem Design and Management (2001)
(2009)
Impact of field-scale nighttime air temperatures during kernel development on rice milling quality
Ambardekar Amogh A.,
Siebenmorgen Terry J.,
Counce Paul A.,
Lanning Sarah B., Mauromoustakos Andronikos
Field Crops Research. 2011 122(3). p.179
Climate Change and Crops (2009)
Flooding constraints on tree (Taxodium distichum) and herb growth responses to elevated CO2
Megonigal J. Patrick,
Vann Cheryl D., Wolf Amelia A.
Wetlands. 2005 25(2). p.430
Seasonal changes in the effects of free-air CO2 enrichment (FACE) on nitrogen (N) uptake and utilization of rice at three levels of N fertilization
Yang Lianxin,
Huang Jianye,
Yang Hongjie,
Dong Guichun,
Liu Hongjiang,
Liu Gang,
Zhu Jianguo, Wang Yulong
Field Crops Research. 2007 100(2-3). p.189
Seasonal Changes in Temperature Dependence of Photosynthetic Rate in Rice Under a Free-air CO2 Enrichment
BORJIGIDAI ALMAZ,
HIKOSAKA KOUKI,
HIROSE TADAKI,
HASEGAWA TOSHIHIRO,
OKADA MASUMI, KOBAYASHI KAZUHIKO
Annals of Botany. 2006 97(4). p.549
The impact of free-air CO2 enrichment (FACE) and nitrogen supply on grain quality of rice
Yang Lianxin,
Wang Yulong,
Dong Guichun,
Gu Hui,
Huang Jianye,
Zhu Jianguo,
Yang Hongjian,
Liu Gang, Han Yong
Field Crops Research. 2007 102(2). p.128
CO2ELEVATION, CANOPY PHOTOSYNTHESIS, ANDOPTIMAL LEAF AREA INDEX
Hirose T.,
Ackerly D. D.,
Traw M. B.,
Ramseier D., Bazzaz F. A.
Ecology. 1997 78(8). p.2339
Plant responses to elevated CO2 concentration at different scales: leaf, whole plant, canopy, and population
Hikosaka Kouki,
Onoda Yusuke,
Kinugasa Toshihiko,
Nagashima Hisae,
Anten Niels PR, Hirose Tadaki
Ecological Research. 2005 20(3). p.243
Elevated CO2 and nitrogen availability have interactive effects on canopy carbon gain in rice
Anten N. P. R.,
Hirose T.,
Onoda Y.,
Kinugasa T.,
Kim H. Y.,
Okada M., Kobayashi K.
New Phytologist. 2004 161(2). p.459
Modeling the interactive effects of atmospheric CO2 and N on rice growth and yield
Bannayan Mohammad,
Kobayashi Kazuhiko,
Kim Han-Yong,
Lieffering Mark,
Okada Masumi, Miura Shu
Field Crops Research. 2005 93(2-3). p.237
Additional N supply improves grain yield in Triticale (× Triticosecale sp.) better than wheat (Triticum aestivum. L) under elevated CO2 environment
Gadpayle Kritika Adesh,
Bhattacharyya Ranjan,
Pal Madan, Fulekar M. H.
Indian Journal of Plant Physiology. 2018 23(3). p.521
Ozone and density affect the response of biomass and seed yield to elevated CO2 in rice
REID CHANTAL D., FISCUS EDWIN L.
Global Change Biology. 2008 14(1). p.60
Effect of Nitrogen Supply on Carbon Dioxide–Induced Changes in Competition between Rice and Barnyardgrass (Echinochloa crus-galli)
Zhu Chunwu,
Zeng Qing,
Ziska Lewis H.,
Zhu Jianguo,
Xie Zubing, Liu Gang
Weed Science. 2008 56(1). p.66
Handbook of Plant and Crop Physiology (2001)
A meta-analysis of crop response patterns to nitrogen limitation for improved model representation
Seufert Verena,
Granath Gustaf,
Müller Christoph, Hui Dafeng
PLOS ONE. 2019 14(10). p.e0223508
Legacy effect of elevated CO2 and N fertilization on mineralization and retention of rice (Oryza sativa L.) rhizodeposit-C in paddy soil aggregates
Li Yuhong,
Yuan Hongzhao,
Chen Anlei,
Xiao Mouliang,
Deng Yangwu,
Ye Rongzhong,
Zhu Zhenke,
Inubushi Kazuyuki,
Wu Jinshui, Ge Tida
Soil Ecology Letters. 2022 4(1). p.78
Plant Biology and Biotechnology (2015)
Elevated growth CO2 delays drought stress and accelerates recovery of rice leaf photosynthesis
Widodo W.,
Vu Joseph C.V.,
Boote Kenneth J.,
Baker Jeffrey T., Allen Leon H.
Environmental and Experimental Botany. 2003 49(3). p.259
Modelling climate change impacts on maize yields under low nitrogen input conditions in sub‐Saharan Africa
Falconnier Gatien N.,
Corbeels Marc,
Boote Kenneth J.,
Affholder François,
Adam Myriam,
MacCarthy Dilys S.,
Ruane Alex C.,
Nendel Claas,
Whitbread Anthony M.,
Justes Éric,
Ahuja Lajpat R.,
Akinseye Folorunso M.,
Alou Isaac N.,
Amouzou Kokou A.,
Anapalli Saseendran S.,
Baron Christian,
Basso Bruno,
Baudron Frédéric,
Bertuzzi Patrick,
Challinor Andrew J.,
Chen Yi,
Deryng Delphine,
Elsayed Maha L.,
Faye Babacar,
Gaiser Thomas,
Galdos Marcelo,
Gayler Sebastian,
Gerardeaux Edward,
Giner Michel,
Grant Brian,
Hoogenboom Gerrit,
Ibrahim Esther S.,
Kamali Bahareh,
Kersebaum Kurt Christian,
Kim Soo‐Hyung,
van der Laan Michael,
Leroux Louise,
Lizaso Jon I.,
Maestrini Bernardo,
Meier Elizabeth A.,
Mequanint Fasil,
Ndoli Alain,
Porter Cheryl H.,
Priesack Eckart,
Ripoche Dominique,
Sida Tesfaye S.,
Singh Upendra,
Smith Ward N.,
Srivastava Amit,
Sinha Sumit,
Tao Fulu,
Thorburn Peter J.,
Timlin Dennis,
Traore Bouba,
Twine Tracy, Webber Heidi
Global Change Biology. 2020 26(10). p.5942
Genotypic Variation in the Response of Rice (Oryza sativa L.) to Increased Atmospheric Carbon Dioxide and its Physiological Basis
De Costa W. A. J. M.,
Weerakoon W. M. W.,
Chinthaka K. G. R.,
Herath H. M. L. K., Abeywardena R. M. I.
Journal of Agronomy and Crop Science. 2007 193(2). p.117
Interaction of Carbon Dioxide Enrichment and Soil Moisture on Photosynthesis, Transpiration, and Water Use Efficiency of Soybean
Madhu Madegowda, Hatfield Jerry L.
Agricultural Sciences. 2014 05(05). p.410
Global climate change, rice productivity and methane emissions: comparison of simulated and experimental results
Olszyk D.M,
Centeno H.G.S,
Ziska L.H,
Kern J.S, Matthews R.B
Agricultural and Forest Meteorology. 1999 97(2). p.87
Seasonal changes in the effects of elevated CO2 on rice at three levels of nitrogen supply: a free air CO2 enrichment (FACE) experiment
KIM HAN‐YONG,
LIEFFERING MARK,
KOBAYASHI KAZUHIKO,
OKADA MASUMI, MIURA SHU
Global Change Biology. 2003 9(6). p.826
Impact of elevated CO2 concentration on inter-subspecific hybrid rice cultivar Liangyoupeijiu under fully open-air field conditions
Yang Lianxin,
Liu Hongjiang,
Wang Yunxia,
Zhu Jianguo,
Huang Jianye,
Liu Gang,
Dong Guichun, Wang Yulong
Field Crops Research. 2009 112(1). p.7
Corn Growth Response to Elevated CO<sub>2</sub> Varies with the Amount of Nitrogen Applied
Bunce James A.
American Journal of Plant Sciences. 2014 05(03). p.306
Structure and Function of Rice Root System under FACE Condition
MORITA Shigenori,
SAKAIGAICHI Takeo,
ABE Jun,
KOBAYASHI Kazuhiko,
OKADA Masumi,
SHIMONO Hiroyuki,
YAMAKAWA Yasuhiro,
KIM Han-Yong, HASEGAWA Toshihiro
Journal of Agricultural Meteorology. 2005 60(5). p.961
The interaction between elevated carbon dioxide and nitrogen nutrition: the physiological and molecular background
STITT M., KRAPP A.
Plant, Cell & Environment. 1999 22(6). p.583
Yield formation of CO2-enriched hybrid rice cultivar Shanyou 63 under fully open-air field conditions
Liu Hongjiang,
Yang Lianxin,
Wang Yulong,
Huang Jianye,
Zhu Jianguo,
Yunxia Wang,
Dong Guichun, Liu Gang
Field Crops Research. 2008 108(1). p.93
Elevated CO2 affects plant responses to variation in boron availability
Mishra Sasmita,
Heckathorn Scott A., Frantz Jonathan M.
Plant and Soil. 2012 350(1-2). p.117
Interactive Effects of Carbon Dioxide and Nitrogen Nutrition on Cotton Growth, Development, Yield, and Fiber Quality
Reddy K. Raja,
Koti Sailaja,
Davidonis Gayle H., Reddy Vangimalla Ramakrishna
Agronomy Journal. 2004 96(4). p.1148
Canopy development of a model herbaceous community exposed to elevated atmospheric CO2 and soil nutrients
Hartz‐Rubin Jennifer S., DeLucia Evan H.
Physiologia Plantarum. 2001 113(2). p.258
