Tello, J. & Forneck, A. A double-sigmoid model for grapevine bunch compactness development. Oeno One 52, 307–316 (2018).
Vail, M. E. & Marois, J. J. Grape cluster architecture and the susceptibility of berries to Botrytis cinerea. Phytopathology 81, 188–191 (1991).
Vartholomaiou, A. N., Navrozldis, E. I., Payne, C. C. & Salpiggidis, G. A. Agronomic techniques to control Lobesia botrana. Phytoparasitica 36, 264–271 (2008).
Molitor, D., Behr, M., Fischer, S., Hoffmann, L. & Evers, D. Timing of cluster-zone leaf removal and its impact on canopy morphology, cluster structure and bunch rot susceptibility of grapes. Journal International Des Sciences De La Vigne Et Du Vin 45, 149–159 (2011).
Brink, J. C., Holz, G. & Fourie, P. H. Effect of fungicide spray cover on botrytis cinerea infection in grape bunches. S. Afr. J. Enol. Vitic. 27, 51–56 (2017).
Marois, J. J., Nelson, J. K., Morrison, J. C., Lile, L. S. & Bledsoe, A. M. The influence of berry contact within grape clusters on the development of Botrytis cinerea and epicuticular wax. Am. J. Enol. Vitic. 37, 293–296 (1986).
Gabler, F. M., Smilanick, J. L., Mansour, M., Ramming, D. W. & Mackey, B. E. Correlations of morphological, anatomical, and chemical features of grape berries with resistance to Botrytis cinerea. Phytopathology 93, 1263–1273 (2003).
Molitor, D. et al. Crop cultural and chemical methods to control grey mould on grapes. Vitis 50, 81–87 (2011).
Tello, J. & Ibanez, J. Evaluation of indexes for the quantitative and objective estimation of grapevine bunch compactness. Vitis 53, 9–16 (2014).
Tello, J. et al. Multicultivar and multivariate study of the natural variation for grapevine bunch compactness. Aust. J. Grape Wine Res. 21, 277–289 (2015).
Organisation Internationale de la Vigne et du Vin. OIV descriptor list for grape varieties and Vitis species (Organisation Internationale de la Vigne et du Vin: Paris, France, 2007).
Shavrukov, Y. N., Dry, I. B. & Thomas, M. R. Inflorescence and bunch architecture development in Vitis vinifera L. Aust. J. Grape Wine Res. 10, 116–124 (2004).
Tello, J., Torres-Perez, R., Grimplet, J. & Ibanez, J. Association analysis of grapevine bunch traits using a comprehensive approach. Theor. Appl. Genet. 129, 227–242 (2016).
Sternad Lemut, M., Sivilotti, P., Butinar, L., Laganis, J. & Vrhovsek, U. Pre-flowering leaf removal alters grape microbial population and offers good potential for a more sustainable and cost-effective management of a Pinot Noir vineyard. Aust. J. Grape Wine Res. 21, 439–450 (2015).
Acimovic, D., Tozzini, L., Green, A., Sivilotti, P. & Sabbatini, P. Identification of a defoliation severity threshold for changing fruitset, bunch morphology and fruit composition in Pinot Noir. Aust. J. Grape Wine Res. 22, 399–408 (2016).
Bondada, B. et al. Postveraison shoot trimming reduces cluster compactness without compromising fruit quality attributes in organically grown Sangiovese grapevines Am. J. Enol. Vitic. 67(206), 211 (2016).
Molitor, D. et al. Postponing first shoot topping reduces grape cluster compactness and delays bunch rot epidemic. Am. J. Enol. Vitic. 66, 164–176 (2015).
Grimplet, J., Ibanez, S., Baroja, D., Tollo, J. & Ibanez, J. Phenotypic, hormonal, and genomic variation among Vitis vinifera clones with different cluster compactness and reproductive performance. Front. Plant Sci. 9, 1917 (2019).
France, J. A. Palissage: An Alternative to Mechanical Hedging in Vitis Vinifera Vineyards. Cornell University (2017).
Logan, A. K., France, J. A., Meyers, J. M. & Heuvel, J. E. V. Modifying shoot tip management to reduce cluster compactness and lateral emergence in ‘Cabernet franc’ grapevines. HortScience Horts 56, 634–641 (2021).
Chou, M.-Y. & Heuvel, J. E. V. Palissage reduces cluster zone lateral shoots compared to hedging. Catal. Discov. Pract. 2, 50–58 (2018).
Vasconcelos, M. C. C. Compensation and stress recovering related to leaf removal in vitis vinifera. Swiss Federal Institute of Technology Zurich (1990).
Vasconcelos, M. C. & Castagnoli, S. Leaf canopy structure and vine performance. Am. J. Enol. Vitic. 51, 390 (2000).
Lampir, L. & Zaloudek, J. Influence of summer management practices and date of harvesting on organic acids concentration and sugar concentration in grapes of Vitis vinifera L., cv. Riesling. Hortic. Sci. 45, 211–218 (2018).
Smart, R. & Robinson, M. Sunlight into Wine: A Handbook for Winegrape Canopy Management (Winetitles, 1991).
Howell, G. S. Sustainable grape productivity and the growth-yield relationship: A review. Am. J. Enol. Vitic. 52, 165–174 (2001).
Komm, B. L. & Moyer, M. M. Effect of early fruit-zone leaf removal on canopy development and fruit quality in Riesling and Sauvignon blanc. Am. J. Enol. Vitic. 66, 424–434 (2015).
Hellman, E. Grapevine Structure and Function (Oregon State University Press, 2003).
Kaya, Ö. Bud death and its relationship with lateral shoot, water content and soluble carbohydrates in four grapevine cultivars following winter cold. Erwerbs Obstbau 62, 43–50 (2020).
Tello, J. & Ibanez, J. What do we know about grapevine bunch compactness? A state-of-the-art review. Aust. J. Grape Wine Res. 24, 6–23 (2018).
Tello, J., Torres-Pérez, R., Flutre, T., Grimplet, J. & Ibáñez, J. VviUCC1 nucleotide diversity, linkage disequilibrium and association with rachis architecture traits in grapevine. Genes 11, 598 (2020).
Guilpart, N., Metay, A. & Gary, C. Grapevine bud fertility and number of berries per bunch are determined by water and nitrogen stress around flowering in the previous year. Eur. J. Agron. 54, 9–20 (2014).
Li-Mallet, A., Rabot, A. & Geny, L. Factors controlling inflorescence primordia formation of grapevine: Their role in latent bud fruitfulness? A review. Botany 94, 147–163 (2016).
English, J., Kaps, M., Moore, J., Hill, J. & Nakova, M. Leaf removal for control of botrytis bunch rot of wine grapes in the midwestern United-states. Plant Dis. 77, 1224–1227 (1993).
Coombe, B. G. The effect of removing leaves, flowers and shoot tips on fruit-set in Vitis vinifera L.. J. Hortic. Sci. 37, 1–15 (1962).
Frioni, T. et al. Leaf removal and cluster thinning efficiencies are highly modulated by environmental conditions in cool climate viticulture. Am. J. Enol. Vitic. 68, 325–335 (2017).
United States Department of Agriculture. Soil Survey Staff.
Wolf, T. K. Wine Grape Production Guide for Eastern North America (Natural Resource, Agriculture, and Engineering Service, 2008).
Coombe, B. G. Growth stages of the grapevine: Adoption of a system for identifying grapevine growth stages. Aust. J. Grape Wine Res. 1, 104–110 (1995).
