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Home All issues Volume 32 (2025) OCL, 32 (2025) 39 References
Issue
OCL
Volume 32, 2025
Technological challenges in oilseed crushing and refining / Défis technologiques de la trituration et du raffinage des oléagineux
Article Number 39
Number of page(s) 12
DOI https://doi.org/10.1051/ocl/2025034
Published online 21 January 2026
  • AFNOR. 2002. NF V03–909. Foodstuffs − Determination of dry matter and of water content by drying to constant weight. Paris, France: Association Française de Normalisation. [Google Scholar]
  • Baldini M, Vannozzi G, Cecconi F, Macchia M, Bonari E, Benvenuti A. 1994. Genetic analysis of hullability in sunflower. Ind Crops Prod 3 (1-2): 29–35. [Google Scholar]
  • Crnobarac J, Balalić I, Marinković B, Jaćimović G, Latković D. 2014. Influence of stand density on yield and quality of NS sunflower confectionary hybrids. Res J Agric Sci 46 (1): 178–183. [Google Scholar]
  • Dauguet S, Labalette F, Fine F, Carré P, Merrien A, Palleau JP. 2016. Genetic impact on protein content and hullability of sunflower seeds, and on the quality of sunflower meal. OCL 23 (2): D205. [Google Scholar]
  • Dedio W. 1993. Regression model relating decortication of oilseed sunflower hybrids with achene characteristics. Can J Plant Sci 73 (3): 825–828. [Google Scholar]
  • Dedio W, Dorrell DG. 1989. Factors affecting the hullability and physical characteristics of sunflower achenes. Can Inst Food Sci Technol J 22 (2): 143–146. [Google Scholar]
  • Denis L, Vear F. 1994. Environmental effects on hullability of sunflower hybrids. Agronomie 14 (9): 589–597. [Google Scholar]
  • Denis L, Vear F. 1996. Variation of hullability and other seed characteristics among sunflower lines and hybrids. Euphytica 87 (3): 177–187. [Google Scholar]
  • Denis L, Dominguez J, Baldini M, Vear F. 1994. Genetical studies of hullability in comparison with other sunflower seed characteristics. Euphytica 79: 29–38. [CrossRef] [Google Scholar]
  • Di Leo MJ, Riccobene IC, Nolasco SM. 2004. Variability in dehulling ability of sunflower hybrids (Helianthus annuus L.) in Argentina. In: Proceedings of the 16th International Sunflower Conference, pp. 591–595. [Google Scholar]
  • Ferjani E, Ledoigt G. 1990. Etude de la globuline des graines de Tournesol (Helianthus annuus L.) accumulation au cours de la maturation et localisation intracellulaire. Biol Plant 32 (6): 429–435. [Google Scholar]
  • Ferjani E, Ledoigt G. 1990. Étude de la globuline des graines de tournesol (Helianthus annuus L.) : accumulation au cours de la maturation et localisation intracellulaire. Biol Plant 32 (6): 429–435. [Google Scholar]
  • Hladni N, Jocić S, Miklič V, Miladinović D, Zorić M. 2016. Interrelationship between 1000 seed weight with other quantitative traits in confectionary sun ower. Ekin J Crop Breed Genet 2 (1): 51–56. [Google Scholar]
  • ISO. 2008. ISO 16634-1:2008. Food products — Determination of the total nitrogen content by combustion according to the Dumas principle and calculation of the crude protein content — Part 1: Oilseeds and animal feeding stuffs. Geneva, Switzerland: International Organization for Standardization. [Google Scholar]
  • Jarecki W. 2022. Effect of varying nitrogen and micronutrient fertilization on yield quantity and quality of sunflower (Helianthus annuus L.) achenes. Agronomy 12 (10): 2352. [Google Scholar]
  • Langhi AM, Patel SR, Narwade AV, Patel RK, Chaudhari KN, Chhatrola H. 2021. Studies on genotype x environment interactions of sunflower hybrids (Helianthus annuus L.). J Oilseeds Res 38 (2): 211–221. [Google Scholar]
  • Lindström LI, Franchini MC, Nolasco SM. 2022. Sunflower fruit hullability and structure as affected by genotype, environment and canopy shading. Ann Appl Biol 180 (3): 338–347. [Google Scholar]
  • Mantese AI, Medan D, Hall AJ. 2006. Achene structure, development and lipid accumulation in sunflower cultivars differing in oil content at maturity. Ann Bot 97 (6): 999–1010. [Google Scholar]
  • Morrison WH, Akin DE, Robertson JA. 1981. Open pollinated and hybrid sunflower seed structures that may affect processing for oil. J Am Oil Chem Soc 58 (11): 969–972. [Google Scholar]
  • Nel AA, Loubser HL, Hammes PS. 2000. The effect of crop water status on the yield, composition and processing quality of sunflower seed. In: Proceedings of the 15th International Sunflower Conference, pp. 133–138. [Google Scholar]
  • Nel A, Loubser H, Hammes P. 2002. Sunflower processing quality: A South African perspective. In: Proceedings of the 2nd International Symposium on Sunflower in Developing Countries, Benoni, South Africa. International Sunflower Association. Available at: https://www.isasunflower.org/fileadmin/documents/Symposia/2nd_Symposium_Sunflower_2002/Nel_Processing_Quality.pdf. [Google Scholar]
  • Posit Software PBC. 2025. RStudio: Integrated development environment for R [Software]. https://posit.co/. [Google Scholar]
  • R Core Team. 2025. R: A language and environment for statistical computing [Software]. R Foundation for Statistical Computing. https://www.R-project.org/. [Google Scholar]
  • Winston PW, Bates DH. 1960. Saturated solutions for the control of humidity in biological research. Ecology 41 (1): 232–237. [Google Scholar]

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