References
- Buszard, D.J.I. (1986). The effect of management system on winter survival and yield of raspberries in Quebec. Acta Horticulturae, 183, 175–181.
- Clark, R.J. (1984). Biennial cropping, an alternative production system for red raspberries (Rubus idaeus L.). Scientia Horticulturae, 24, 315–321.
- Cormack, M.R., & Waister, P.D. (1989). Biennial cropping of six red-raspberry cultivars in Scotland. Crop Research (Horticultural Research), 29, 95–105.
- Engard, C.J. (1939). Translocation of carbohydrates in the Cuthbert raspberry. Botanical Gazette, 100, 439–464.
- Haslestad, J., & Sønsteby, A. (2017). Stabil bringebærproduksjon med avling annet hvert år [Stable raspberry production with biennial cropping]. Norsk Frukt og Bær, 20, 28–29. (In Norwegian).
- Heide, O.M., & Sønsteby, A. (2011). Physiology of flowering and dormancy regulation in annual- and biennial-fruiting red raspberry. The Journal of Horticultural Science and Biotechnology, 86, 433–442.
- Hudson, J.P. (1959). Effects of environment on Rubus idaeus L. I. Morphology and development of the raspberry plant. The Journal of Horticultural Science, 34, 163–169.
- Keep, E. (1988). Primocane (autumn)-fruiting raspberries: A review with particular reference to progress in breeding. The Journal of Horticultural Science, 63, 1–18.
- Nes, A., Hageberg, B., Haslestad, J., & Hagelund, R. (2008). Influence of cane density and height on productivity and performance of red raspberry (Rubus idaeus L.) cultivar ‘Glen Ample’. Acta Horticulturae, 777, 231–235.
- Oliveira, P.B., Oliveira, C.M., & Monteiro, A.A. (2004). Pruning date and cane density affect primocane development and yield of red raspberry ‘Autumn Bliss’. HortScience, 39, 520–524.
- Oliveira, P.M., Silva, M.J., Ferreira, R.B., Oliveira, C.M., & Monteiro, A.A. (2007). Dry matter partitioning, carbohydrate competition, protein reserves, and fruiting in ‘Autumn Bliss’ red raspberry vary in response to pruning date and cane density. HortScience, 42, 77–82.
- Øydvin, J. (1986). The Gjerde method for training raspberries. Effects of increasing cane number and height. Acta Horticulturae, 183, 173–174.
- Remberg, S.F., Sønsteby, A., Aaby, K., & Heide, O.M. (2010). Influence of postflowering temperature on fruit size and chemical composition of Glen Ample raspberries (Rubus idaeus L.). Journal of Agricultural and Food Chemistry, 58, 9120–9126.
- Smith, H. (1982). Light quality, photo-perception and plant strategy. Annual Review of Plant Physiology, 33, 481–518.
- Sønsteby, A., Stavang, J.A., & Heide, O.M. (2013). Production of high-yielding raspberry long canes: The way to 3 kg fruit per cane. The Journal of Horticultural Science and Biotechnology, 88, 591–599.
- Waister, P.D., Cormack, M.R., & Sheets, W.A. (1977). Competition between fruiting and vegetative phases in red raspberry. The Journal of Horticultural Science, 52, 75–85.
- Whitney, G.G. (1982). The productivity and carbohydrate economy of a developing stand of Rubus idaeus. Canadian Journal of Botany, 60, 2697–2703.
- Wright, C.J., & Waister, P.D. (1982a). Within plant competition in the red raspberry. I. Primocane growth. The Journal of Horticultural Science, 57, 437–442.
- Wright, C.J., & Waister, P.D. (1982b). Within plant competition in the red raspberry. II. Fruiting cane growth. The Journal of Horticultural Science, 57, 443–448.