REFERENCES

1. Aydoğan, S., Şahin, M., Göçmen Akçacik, S., Hamzaoğlu, S., Taner, S., 2015. Relationships between Farinograph Parameters and Bread Volume, Physicochemical Traits in Bread Wheat Flours. Bahri Dağdaş Bitkisel Araştırma Dergisi Journal of Bahri Dagdas Crop Research, 3(1): 14-18.
2. Benayad, A., Taghouti, M., Benali, A., Aboussaleh, Y., Benbrahim, N., 2021. Nutritional and technological assessment of durum wheat-faba bean enriched flours, and sensory quality of developed composite bread. Saudi Journal of Biological Sciences, 28: 635-642.
3. Calvo Carrillo, Md.l.C., López Méndez, O.X., Carranco Jáuregui, M.E., Marines, J., 2020. Evaluación fisicoquímica y sensorial de un pantipo baguette utilizando harinas de trigo (Triticum spp) y chícharo (Pisum sativum L.). Biotecnia, 22: 116-124.
4. Cappelli, A., and Cini, E., 2021. Challenges and Opportunities in Wheat Flour, Pasta, Bread, and Bakery Product Production Chains: A Systematic Review of Innovations and Improvement Strategies to Increase Sustainability, Productivity, and Product Quality. Sustainability, 13: 2608, https://doi.org/10.3390/su13052608.
5. Codină, G.G., Mironeasa, S., Bordei, D., Leahu, A., 2010. Mixolab versus Alveograph and Falling Number. Czech Journal of Food Science, 28: 185-192.
6. da Costa Borges, V., Fernandes, S.S., da Rosa Zavareze, E., Haros, C.M., Hernandez, C.P., Dias AR, G., de las Mercedes Salas-Mellado, M., 2021. Production of gluten free bread with flour and chia seeds (Salvia hispânica L). Food Bioscience, 43: 101294.
7. FAO, 2023. https://www.fao.org/faostat/en/#data/QCL/visualize
8. Gerardo-Rodríguez, J.E., Ramírez-Wong, B., Torres-Chávez, P.I., Ledesma-Osuna, A.I., Carvajal-Millán, E., López-Cervantes, J., Silvas-García, M.I., 2021. Effect of part-baking time, freezing rate and storage time on part-baked bread quality. Food Science Technology, 41: 352-359.
9. INSSE, 2024. https://insse.ro/cms/sites/default/files/field/publicatii/revista_romana_statistica_supliment_03_2024.pdf
10. Ittu, G., Săulescu, N.N., Mustăţea, P., Păunescu, G., 2011. Wheat breeding for improved baking quality in Romania. Romanian Agricultural Research, 28: 23-30.
11. Khatkar, B.S., Bell, A.E., Schofield, J.D., 1995. The dynamic rheological properties of glutens and gluten sub-fractions from wheats of good and poor bread making quality. Journal of Cereal Science, 22: 29-44.
12. Kuligowski, M., López Otero, R., Polanowska, K., Montet, D., Jasinska-Kuligowska, I., Nowak, J., 2019. Influence of fermentation by different microflora consortia on pulque and pulque bread properties. Journal of Science and Food Agriculture, 99: 6307-6314.
13. Marinciu, C., and Săulescu, N.N., 2008. Cultivar effects on the relationship between grain protein concentration and yield in winter wheat. Romanian Agricultural Research, 25: 20-27.
14. Marinciu, C.M., Șerban, G., Mandea, V., Galit, I., Ciucǎ, M., Cristina, D., Sǎulescu, N.N., 2025. Direct Multi-trials Estimation of Genetic Progress in Wheat Breeding at NARDI Fundulea, Romania. Romanian Agricultural Research, 42: 165-173, https://doi.org/10.59665/rar4214.
15. Mitura, K., Cacak-Pietrzak, G., Feledyn-Szewczyk, B., Szablewski, T., Studnicki, M., 2023. Yield and Grain Quality of Common Wheat (Triticum aestivum L.) Depending on the Different Farming Systems (Organic vs. Integrated vs. Conventional). Plants, 12: 1022, https://doi.org/10.3390/plants12051022.
16. Mustăţea, P., Săulescu, N.N., Ittu, G., Păunescu, G., Voinea, L., Stere, I., Mîrlogeanu, S., Constantinescu, E., Năstase, D., 2009. Grain yield and yield stability of winter wheat cultivars in contrasting weather conditions. Romanian Agricultural Research, 26: 1-8.
17. Mustăţea, P., Ittu, G., Săulescu, N.N., Păunescu, G., 2013. Grain yield and quality performance of winter wheat cultivars under Romanian conditions. Romanian Agricultural Research, 30: 75-82.
18. Preston, K.R., and Kilborn, R.H., 1984. Dough Rheology on the Farinograph. In: D’Appolonia, B.I., Kunerth, W.E. (eds.), The Farinograph handbook, third edition. AACC, Inc., St. Paul: 38-40.
19. SR 90:2007, p. 5. Pâine și produse proaspete de patiserie. Metode de analiză. Determinarea volumului.
20. SR 90:2007, p. 6. Pâine și produse proaspete de patiserie. Metode de analiză. Determinarea porozității.
21. SR 90:2007, p. 7. Pâine și produse proaspete de patiserie. Metode de analiză. Determinarea elasticității.
22. SR EN ISO 5530-1:2025. Făină de grâu. Caracteristici fizice ale aluaturilor. Partea 1: Determinarea absorbției apei și a proprietăților reologice utilizând un farinograf.
23. SR EN ISO 712:2024. Cereale și produse din cereale. Determinarea umidității Partea 1: Metoda de referință.
24. USDA, 2025. https://www.fas.usda.gov/data/production/commodity/0410000
25. Van Lill, D., Purchase, J.L., Smith, M.F., Agenbag, G.A., De Viliers, O.T., 1995. Multivariate assessment of environmental effects on hard red winter wheat. I. Principle components analysis on yield and bread making characteristics. South African Journal of Plant and Soil, 12: 158-163.
26. Vizitiu, D., and Danciu, I., 2011. Evaluation of farinograph and mixolab for prediction of mixing properties of industrial wheat flour. Acta Universitatis Cibiniensis Series E: Food Technology, XV(2): 31-38.
27. Wang, J., Rosell, C.M., Benedito, B.C., 2002. Effect of the addition of different fibres on wheat dough performance and bread quality. Food Chemistry, 79: 221-226.