An in situ approach to characterizing photosynthetic gas exchange of rice panicle

[1]  J. Araus,et al.  New avenues for increasing yield and stability in C3 cereals: exploring ear photosynthesis. , 2020, Current opinion in plant biology.

[2]  T. Lawson,et al.  Photosynthesis in non‐foliar tissues: implications for yield , 2019, The Plant journal : for cell and molecular biology.

[3]  Yang Liu,et al.  Favorable Alleles of GRAIN-FILLING RATE1 Increase the Grain-Filling Rate and Yield of Rice1[OPEN] , 2019, Plant Physiology.

[4]  Xinguang Zhu,et al.  Dissection of mechanisms for high yield in two elite rice cultivars , 2019, Field Crops Research.

[5]  Diarmuid S. Ó’Maoiléidigh,et al.  Photosynthetic activity of reproductive organs. , 2019, Journal of experimental botany.

[6]  Xinguang Zhu,et al.  A three-dimensional canopy photosynthesis model in rice with a complete description of the canopy architecture, leaf physiology, and mechanical properties , 2019, Journal of experimental botany.

[7]  Yunxiu Zhang,et al.  Photosynthetic characteristics of non-foliar organs in main C3 cereals. , 2018, Physiologia plantarum.

[8]  Longping Yuan,et al.  Progress in super-hybrid rice breeding , 2017 .

[9]  Zhimin Wang,et al.  Contribution of ear photosynthesis to grain yield under rainfed and irrigation conditions for winter wheat cultivars released in the past 30 years in North China Plain , 2016 .

[10]  J. Araus,et al.  Photosynthetic contribution of the ear to grain filling in wheat: a comparison of different methodologies for evaluation , 2016, Journal of experimental botany.

[11]  Xinguang Zhu,et al.  Photosynthetic and agronomic traits of an elite hybrid rice Y-Liang-You 900 with a record-high yield , 2016 .

[12]  Hao Zhang,et al.  Expression of proteins in superior and inferior spikelets of rice during grain filling under different irrigation regimes , 2016, Proteomics.

[13]  T. Liang,et al.  Response of wheat ear photosynthesis and photosynthate carbon distribution to water deficit , 2015, Photosynthetica.

[14]  F. Cheung Yield: The search for the rice of the future , 2014, Nature.

[15]  J. Guiamet,et al.  The contribution of the awns of bread wheat (Triticum aestivum L.) to grain filling: Responses to water deficit and the effects of awns on ear temperature and hydraulic conductance , 2014 .

[16]  H. Mi,et al.  An active supercomplex of NADPH dehydrogenase mediated cyclic electron flow around Photosystem I from the panicle chloroplast of Oryza sativa. , 2014, Acta biochimica et biophysica Sinica.

[17]  Q. Xue,et al.  Effect of Source-Sink Manipulation on Photosynthetic Characteristics of Flag Leaf and the Remobilization of Dry Mass and Nitrogen in Vegetative Organs of Wheat , 2014 .

[18]  J. Araus,et al.  Relative contribution of shoot and ear photosynthesis to grain filling in wheat under good agronomical conditions assessed by differential organ δ13C , 2014, Journal of experimental botany.

[19]  Li Wang,et al.  LSCHL4 from Japonica Cultivar, Which Is Allelic to NAL1, Increases Yield of Indica Super Rice 93-11 , 2014, Molecular plant.

[20]  D. Fujita,et al.  NAL1 allele from a rice landrace greatly increases yield in modern indica cultivars , 2013, Proceedings of the National Academy of Sciences.

[21]  P. Sands,et al.  Whole-plant versus leaf-level regulation of photosynthetic responses after partial defoliation in Eucalyptus globulus saplings , 2013, Journal of experimental botany.

[22]  J. Guiamet,et al.  The contribution of ear photosynthesis to grain filling in bread wheat (Triticum aestivum L.) , 2010 .

[23]  C. Jenner,et al.  Manipulation of xylem transport affects Zn and Mn transport into developing wheat grains of cultured ears , 2008 .

[24]  J. Araus,et al.  The Photosynthetic Role of Ears in C3 Cereals: Metabolism, Water Use Efficiency and Contribution to Grain Yield , 2007 .

[25]  Wenfu Chen,et al.  Design principles and parameters of rice ideal panicle type , 2005 .

[26]  Sh. Sh. Chanishvili,et al.  Defoliation, Photosynthetic Rates, and Assimilate Transport in Grapevine Plants , 2005, Russian Journal of Plant Physiology.

[27]  J. Araus,et al.  Ear of durum wheat under water stress: water relations and photosynthetic metabolism , 2005, Planta.

[28]  Joost T. van Dongen,et al.  Phloem Import and Storage Metabolism Are Highly Coordinated by the Low Oxygen Concentrations within Developing Wheat Seeds1 , 2004, Plant Physiology.

[29]  Q. Lu,et al.  Photosynthetic pigment composition and photosystem II photochemistry of wheat ears. , 2004, Plant physiology and biochemistry : PPB.

[30]  Shaobing Peng,et al.  Are there associations between grain-filling rate and photosynthesis in the flag leaves of field-grown rice? , 2002, Journal of experimental botany.

[31]  L. Noodén,et al.  Correlative controls of senescence and plant death in Arabidopsis thaliana (Brassicaceae). , 2001, Journal of experimental botany.

[32]  T. Gebbing,et al.  Pre-Anthesis Reserve Utilization for Protein and Carbohydrate Synthesis in Grains of Wheat. , 1999, Plant physiology.

[33]  H. Berge,et al.  Yield formation in rice in response to drainage and nitrogen application , 1997 .

[34]  J. Araus,et al.  Ear photosynthesis, carbon isotope discrimination and the contribution of respiratory CO2 to differences in grain mass in durum wheat , 1993 .

[35]  K. Ishihara,et al.  Transpiration and Photosynthesis Characteristics of the Panicle in Comparison with the Flag Leaf in the Rice Plant , 1990 .

[36]  H. Selinger,et al.  Differences between the flag leaf and the ear of a spring wheat cultivar (Triticum aestivum cv. Arkas) with respect to the CO2 response of assimilation, respiration and stomatal conductance , 1986 .

[37]  A. Blum,et al.  Photosynthesis and Transpiration in Leaves and Ears of Wheat and Barley Varieties , 1985 .

[38]  R. Simpson,et al.  Nitrogen redistribution during grain growth in wheat (Triticum aestivum L.) , 1980, Planta.

[39]  Y. Tsuno,et al.  Studies on CO2 Uptake and CO2 Evolution in Each Part of Crop Plants : II. Photosynthetic activity in the leaf sheath and ear of rice plant , 1975 .

[40]  S. Yoshida Physiological Aspects of Grain Yield , 1972 .

[41]  P. Kriedemann The Photosynthetic Activity of the Wheat Ear , 1966 .

[42]  F. J. Grundbacher The physiological function of the cereal awn , 1963, The Botanical Review.

[43]  M. Buttrose,et al.  Photosynthesis in the Ear of Barley , 1959, Nature.

[44]  T. Takeda,et al.  Studies on CO2 Exchange in Crop Plants : IV. Roles played by the various parts of the photosynthetic organd of rice plant in producing grains during the ripening period. , 1956 .

[45]  Xinyou Yin,et al.  Can exploiting natural genetic variation in leaf photosynthesis contribute to increasing rice productivity? A simulation analysis. , 2014, Plant, cell & environment.

[46]  P. J. Andralojc,et al.  Raising yield potential of wheat. II. Increasing photosynthetic capacity and efficiency. , 2011, Journal of experimental botany.

[47]  E. A. ConoconoA,et al.  Possibility of Increasing Yield Potential of Rice by Reducing Panicle Height in the Canopy . I . Effects of Panicles on Light Interception and Canopy Photosynthesis , 2008 .

[48]  Jianhua Zhang,et al.  Grain filling of cereals under soil drying. , 2006, The New phytologist.

[49]  Hilde van der Togt,et al.  Publisher's Note , 2003, J. Netw. Comput. Appl..

[50]  M. Kropff,et al.  Possibility of Increasing Yield Potential of Rice by Reducing Panicle Height in the Canopy. I. Effects of Panicles on Light Interception and Canopy Photosynthesis. , 1995 .

[51]  Hitoshi Nakamoto,et al.  Changes in the Rate of Photosynthesis during Grain Filling and the Enzymatic Activities Associated with the Photosynthetic Carbon Metabolism in Rice Panicles , 1990 .

[52]  M. Duwayri Effect of flag leaf and awn removal on grain yield and yield components of wheat grown under dryland conditions , 1984 .

[53]  S. Yoshida Fundamentals of rice crop science , 1981 .

[54]  津野 幸人,et al.  Studies on CO 2 Uptake and CO 2 Evolution in Each Part of Crop Plants : II. Photosynthetic activity in the leaf sheath and ear of rice plant , 1975 .

[55]  H. Rawson,et al.  Fixation of 14Co2 by Flowering and Non-Flowering Glumes of the Wheat Ear, and the Pattern of Transport of Label to Individual Grains , 1972 .

[56]  L. Evans,et al.  PHOTOSYNTHESIS AND RESPIRATION BY THE FLAG LEAF AND COMPONENTS OF THE EAR DURING GRAIN DEVELOPMENT IN WHEAT , 1970 .

[57]  武田 友四郎,et al.  Studies on CO 2 Exchange in Crop Plants : IV. Roles played by the various parts of the photosynthetic organd of rice plant in producing grains during the ripening period. , 1956 .