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Night Temperature and Source-sink Effects on Growth, Leaf Carbon Exchange Rate, and Carbohydrate Accumulation in Bell Pepper Ovaries

Rebecca L. Darnell, Nicacio Cruz-Huerta, and Jeffrey G. Williamson

source-sink relationships in Capsicum annuum L. 3. Effects of fruit excision on photosynthesis and leaf and stem carbohydrates Austral. J. Plant Physiol. 5 1 13 Hendrickson, L. Ball, M.C. Wood, J.T. Chow, W.S. Furbank, R.T. 2004a Low temperature effects

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In Journal of the American Society for Horticultural Science Volume 138 (2013): Issue 5 (Sep 2013)

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Photosynthetic Light Response of Floricane Leaves of Erect Blackberry Cultivars from Fruit Development into the Postharvest Period

Sydney Lykins, Katlynn Scammon, Brian T. Lawrence, and Juan Carlos Melgar

, L.S. 2014 PrometheusWiki gold leaf protocol: Gas exchange using LI-COR 6400 Funct. Plant Biol. 41 223 226 doi: 10.1071/FP10900 Fernandez, G. Pritts, M. 1994 Growth, carbon acquisition, and source–sink relationships in ‘Titan’ red raspberry

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In HortScience Volume 56 (2021): Issue 3 (Mar 2021)

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Prediction of Fruit Free Amino Acids by Foliar Nutrient Diagnosis in Longan (Dimocarpus longan Lour.)

Han Xu, Cuihua Bai, Wei Wang, Changmin Zhou, Luwei Zhu, and Lixian Yao

pathways Nature 517 7534 1515 1521 Engels, C. Kirkby, E. White, P. 2012 Mineral nutrition, yield and source-sink relationships, p. 85–133. In: P. Marschner (ed.). Marschner’s mineral nutrition of higher plants. 3rd ed. Elsevier Academic Press, San Diego, CA

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In HortScience Volume 55 (2020): Issue 9 (Sep 2020)

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The Role of Soluble Sugars in Vase Solutions during the Vase Life of Eustoma grandiflorum

Ya-Ching Chuang and Yao-Chien Alex Chang

). Total carbohydrates in the rose ( Rosa hybrids L.) corolla decrease with time, but not as much as in the leaves; and the decrease in the corolla is more pronounced when leaves on cut flowers were removed, suggesting a source-sink relationship from

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In HortScience Volume 48 (2013): Issue 2 (Feb 2013)

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L-PEACH: A Computer-based Model to Understand How Peach Trees Grow

Gerardo Lopez, Romeo R. Favreau, Colin Smith, and Theodore M. DeJong

( Costes et al., 2008 ). But L-PEACH is the first model to simulate growth and carbon source–sink relationships within the architectural framework of a peach tree over multiple years. Moreover, L-systems allow multiple interactions with the model

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In HortTechnology Volume 20 (2010): Issue 6 (Dec 2010)

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The Hyperbolic and Linear Phases of the Sucrose Accumulation Curve in Turnip Storage Cells Denote Carrier-mediated and Fluid Phase Endocytic Transport, Respectively

Diego Pozueta-Romero, Pedro Gonzalez, Ed Etxeberria, and Javier Pozueta-Romero

310 Zamski E. Schaffer A.A. Photoassimilate distribution in plants and crops. Source-sink relationships Marcel Dekker New York

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In Journal of the American Society for Horticultural Science Volume 133 (2008): Issue 4 (Jul 2008)

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Effects of Root Restriction on Ultrastructure of Phloem Tissues in Grape Berry

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

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In HortScience Volume 44 (2009): Issue 5 (Aug 2009)

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Trunk Renewal Methods for Recovery of ‘Cabernet franc’ Grapevines after Winter Injury in Ohio

Thomas M. Todaro and Imed E. Dami

information, most training systems were within the ideal range except in F/VSP-4T4CS and VSP-4T4CS, which trended toward over-cropping. Furthermore, because cropload is an indicator of the source-sink relationship between the vegetative and reproductive growth

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In HortTechnology Volume 28 (2018): Issue 3 (Jun 2018)

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Carbon Dioxide Enrichment May Increase Yield of Field-grown Red Raspberry under High Tunnels

Maren J. Mochizuki, Oleg Daugovish, Miguel H. Ahumada, Shawn Ashkan, and Carol J. Lovatt

greenhouses Acta Hort. 626 219 223 Daugovish, O. Larson, K.D. 2009 Strawberry production with protected culture in southern California ISHS Acta Hort. 842 163 166 Fernandez, G.E. Pritts, M.P. 1994 Growth, carbon acquisition, and source-sink relationships in

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In HortTechnology Volume 20 (2010): Issue 1 (Feb 2010)

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Vegetative and Reproductive Growth and Yield of Plukenetia volubilis Plants in Responses to Foliar Application of Plant Growth Regulators

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

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In HortScience Volume 51 (2016): Issue 8 (Aug 2016)