, 1992 ). Seasonal source–sink relationships between vegetative and reproductive growth also influence leaf N status; for example, developing fruits during the summer act as an N sink ( Fletcher et al., 2009 ). While it is known that increasing N supply
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Russell Galanti, Alyssa Cho, Amjad Ahmad, and Javier Mollinedo
Jiaming Yu, Timothy K. Broschat, William G. Latham, and Monica L. Elliott
Phytophthora ( Guest and Grant, 1991 ). Phosphite movement tends to be regulated by source–sink relationships ( Guest and Grant, 1991 ). In this case, the source is leaflet tissue of existing leaves and the sink is the newly emerging spear leaf. It is not
Kaori Itagaki, Toshio Shibuya, Motoaki Tojo, Ryosuke Endo, and Yoshiaki Kitaya
, M.C. Spencer-Phillips, P.T. 1996 Effects of pathogens and parasitic plants on source-sink relationships, p. 479–499. In: E. Zamski and A.A. Schaffer (eds.). Photoassimilate distribution in plants and crops. Marcel Dekker, New York, NY Bazzaz, F
Aude Tixier, Adele Amico Roxas, Jessie Godfrey, Sebastian Saa, Dani Lightle, Pauline Maillard, Bruce Lampinen, and Maciej A. Zwieniecki
, functional–structural plant models have been developed to study plant reproductive and vegetative growth from the perspectives of carbohydrate partitioning and source–sink relationships ( Allen et al., 2005 ; Da Silva et al., 2014 ; DeJong et al., 2011
Emily K. Dixon, Bernadine C. Strik, and David R. Bryla
relationships in ‘Titan’ red raspberry Acta Hort. 352 151 157 Fernandez, G.C. Pritts, M.P. 1994 Growth, carbon acquisition, and source-sink relationships in ‘Titan’ red raspberry J. Amer. Soc. Hort. Sci. 119 1163 1168 Fernandez, G.E. Pritts, M.P. 1996 Carbon
Yue Wen, Shu-chai Su, Ting-ting Jia, and Xiang-nan Wang
photosynthesis rate ( Proietti et al., 2000 ) and chlorophyll fluorescence parameters ( Wen et al., 2018a ). Furthermore, various leaves have different source–sink relationships, resulting in differences in assimilate partitioning and carbon contributions to
Ben-Hong Wu, Ning Niu, Ji-Hu Li, and Shao-Hua Li
Source-sink relationships (mainly leaves vs. reproductive organs) play an important role in fruit growth and quality with respect to fruit size, color, and chemical composition. Grape is a species well suited for exploring the mechanisms that govern
ZhaoSen Xie, Charles F. Forney, WenPing Xu, and ShiPing Wang
organization based on source-sink relationship: New findings on developmental, biochemical and molecular responses to environment 263 280 Roubelakis-Angelakis K.A. Molecular biology & biotechnology of grapevine Kluwer Academic Publishers
C. Yang, D.Y. Jiao, Z.Q. Cai, H.D. Gong, and G.Y. Li
( Fig. 6 ), contrasting with our previous results of P. volubilis plants in response to light intensity, water, fertilization, and planting density ( Cai, 2011 ; Jiao et al., 2012 ; Yang et al., 2014 ). PGRs are known to enhance the source–sink
Sydney Lykins, Katlynn Scammon, Brian T. Lawrence, and Juan Carlos Melgar
351 Evans, J.R. Santiago, L.S. 2014 PrometheusWiki gold leaf protocol: Gas exchange using LI-COR 6400 Funct. Plant Biol. 41 223 226 doi: 10.1071/FP10900 10.1071/FP10900 Fernandez, G. Pritts, M. 1994 Growth, carbon acquisition, and source–sink