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Items: 1 to 20 of 109

1.

Evidence for divergence of response in Indica, Japonica, and wild rice to high CO2 × temperature interaction.

Wang DR, Bunce JA, Tomecek MB, Gealy D, McClung A, McCouch SR, Ziska LH.

Glob Chang Biol. 2016 Jul;22(7):2620-32. doi: 10.1111/gcb.13279. Epub 2016 Apr 19.

PMID:
26959982
2.

Do the rich always become richer? Characterizing the leaf physiological response of the high-yielding rice cultivar Takanari to free-air CO2 enrichment.

Chen CP, Sakai H, Tokida T, Usui Y, Nakamura H, Hasegawa T.

Plant Cell Physiol. 2014 Feb;55(2):381-91. doi: 10.1093/pcp/pcu009. Epub 2014 Jan 18.

3.

Crop-model assisted phenomics and genome-wide association study for climate adaptation of indica rice. 2. Thermal stress and spikelet sterility.

Dingkuhn M, Pasco R, Pasuquin JM, Damo J, Soulié JC, Raboin LM, Dusserre J, Sow A, Manneh B, Shrestha S, Kretzschmar T.

J Exp Bot. 2017 Jul 10;68(15):4389-4406. doi: 10.1093/jxb/erx250.

PMID:
28922773
4.

Responses of wheat and rice to factorial combinations of ambient and elevated CO2 and temperature in FACE experiments.

Cai C, Yin X, He S, Jiang W, Si C, Struik PC, Luo W, Li G, Xie Y, Xiong Y, Pan G.

Glob Chang Biol. 2016 Feb;22(2):856-74. doi: 10.1111/gcb.13065. Epub 2015 Nov 20.

PMID:
26279285
5.

Long-term elevated air [CO2 ] strengthens photosynthetic functioning and mitigates the impact of supra-optimal temperatures in tropical Coffea arabica and C. canephora species.

Rodrigues WP, Martins MQ, Fortunato AS, Rodrigues AP, Semedo JN, Simões-Costa MC, Pais IP, Leitão AE, Colwell F, Goulao L, Máguas C, Maia R, Partelli FL, Campostrini E, Scotti-Campos P, Ribeiro-Barros AI, Lidon FC, DaMatta FM, Ramalho JC.

Glob Chang Biol. 2016 Jan;22(1):415-31. doi: 10.1111/gcb.13088. Epub 2015 Nov 18.

PMID:
26363182
6.

qEMF3, a novel QTL for the early-morning flowering trait from wild rice, Oryza officinalis, to mitigate heat stress damage at flowering in rice, O. sativa.

Hirabayashi H, Sasaki K, Kambe T, Gannaban RB, Miras MA, Mendioro MS, Simon EV, Lumanglas PD, Fujita D, Takemoto-Kuno Y, Takeuchi Y, Kaji R, Kondo M, Kobayashi N, Ogawa T, Ando I, Jagadish KS, Ishimaru T.

J Exp Bot. 2015 Mar;66(5):1227-36. doi: 10.1093/jxb/eru474. Epub 2014 Dec 22.

7.

An indica rice genotype showed a similar yield enhancement to that of hybrid rice under free air carbon dioxide enrichment.

Zhu C, Xu X, Wang D, Zhu J, Liu G.

Sci Rep. 2015 Jul 31;5:12719. doi: 10.1038/srep12719. Erratum in: Sci Rep. 2015;5:15312.

8.

How do weather extremes affect rice productivity in a changing climate? An answer to episodic lack of sunshine.

Choi WJ, Lee MS, Choi JE, Yoon S, Kim HY.

Glob Chang Biol. 2013 Apr;19(4):1300-10. doi: 10.1111/gcb.12110. Epub 2013 Feb 5.

PMID:
23504904
9.

The impact of elevated CO2 and temperature on grain quality of rice grown under open-air field conditions.

Jing L, Wang J, Shen S, Wang Y, Zhu J, Wang Y, Yang L.

J Sci Food Agric. 2016 Aug;96(11):3658-67. doi: 10.1002/jsfa.7545. Epub 2016 Jan 4.

PMID:
26608560
10.

Photosynthetic enhancement by elevated CO₂ depends on seasonal temperatures for warmed and non-warmed Eucalyptus globulus trees.

Quentin AG, Crous KY, Barton CV, Ellsworth DS.

Tree Physiol. 2015 Nov;35(11):1249-63. doi: 10.1093/treephys/tpv110. Epub 2015 Oct 23.

PMID:
26496960
11.

High temperature effects on Pi54 conferred resistance to Magnaporthe oryzae in two genetic backgrounds of Oryza sativa.

Onaga G, Wydra K, Koopmann B, Chebotarov D, Séré Y, Von Tiedemann A.

J Plant Physiol. 2017 May;212:80-93. doi: 10.1016/j.jplph.2017.02.004. Epub 2017 Feb 21.

PMID:
28282527
12.

Genome-wide association mapping for phenotypic plasticity in rice.

Kikuchi S, Bheemanahalli R, Jagadish KSV, Kumagai E, Masuya Y, Kuroda E, Raghavan C, Dingkuhn M, Abe A, Shimono H.

Plant Cell Environ. 2017 Aug;40(8):1565-1575. doi: 10.1111/pce.12955. Epub 2017 Jun 2.

PMID:
28370170
13.

[Effects of exogenous silicon on the pollination and fertility characteristics of hybrid rice under heat stress during anthesis].

Wu CY, Chen D, Luo HW, Yao YM, Wang ZW, Tsutomu M, Tian XH.

Ying Yong Sheng Tai Xue Bao. 2013 Nov;24(11):3113-22. Chinese.

PMID:
24564139
14.

Carbon fluxes acclimate more strongly to elevated growth temperatures than to elevated CO2 concentrations in a northern conifer.

Kroner Y, Way DA.

Glob Chang Biol. 2016 Aug;22(8):2913-28. doi: 10.1111/gcb.13215. Epub 2016 Mar 8.

PMID:
26728638
15.

A genetic resource for early-morning flowering trait of wild rice Oryza officinalis to mitigate high temperature-induced spikelet sterility at anthesis.

Ishimaru T, Hirabayashi H, Ida M, Takai T, San-Oh YA, Yoshinaga S, Ando I, Ogawa T, Kondo M.

Ann Bot. 2010 Sep;106(3):515-20. doi: 10.1093/aob/mcq124. Epub 2010 Jun 21.

16.

Response of wheat restricted-tillering and vigorous growth traits to variables of climate change.

Dias de Oliveira EA, Siddique KH, Bramley H, Stefanova K, Palta JA.

Glob Chang Biol. 2015 Feb;21(2):857-73. doi: 10.1111/gcb.12769. Epub 2014 Dec 12.

PMID:
25330325
17.

Soil and water warming accelerates phenology and down-regulation of leaf photosynthesis of rice plants grown under free-air CO2 enrichment (FACE).

Adachi M, Hasegawa T, Fukayama H, Tokida T, Sakai H, Matsunami T, Nakamura H, Sameshima R, Okada M.

Plant Cell Physiol. 2014 Feb;55(2):370-80. doi: 10.1093/pcp/pcu005. Epub 2014 Jan 8.

18.

Effect of elevated CO2 on chlorpyriphos degradation and soil microbial activities in tropical rice soil.

Adak T, Munda S, Kumar U, Berliner J, Pokhare SS, Jambhulkar NN, Jena M.

Environ Monit Assess. 2016 Feb;188(2):105. doi: 10.1007/s10661-016-5119-4. Epub 2016 Jan 20.

PMID:
26790432
19.

Application of crop gas exchange and transpiration data obtained with CEEF to global change problem.

Tako Y, Arai R, Otsubo K, Nitta K.

Adv Space Res. 2001;27(9):1541-5.

PMID:
11695434
20.

Effect of elevated CO2 and high temperature on seed-set and grain quality of rice.

Madan P, Jagadish SV, Craufurd PQ, Fitzgerald M, Lafarge T, Wheeler TR.

J Exp Bot. 2012 Jun;63(10):3843-52. doi: 10.1093/jxb/ers077. Epub 2012 Mar 20.

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