SOSTENIBILIDAD 77 BIBLIOGRAFÍA • Amorim, A. B., Thomaz, M. C., Ruiz, U. do S., Martinez, J. F., Pascoal, L. A. F., Daniel, E., Watanabe, P. H., & Rosalen, D. L. (2014). Citrus pulp and enzyme complex for growing and finishing pigs. Revista Brasileira de Saude e Producao Animal. https://doi.org/10.1590/S151999402014000200009 • Beccaccia, A., Ferrer, P., Ibáñez, M. A., Estellés, F., Rodríguez, C., Moset, V., de Blas, C., Calvet, S., & GarcíaRebollar, P. (2015). Relationships among slurry characteristics and gaseous emissions at different types of commercial Spanish pig farms. Spanish Journal of Agricultural Research. https://doi.org/10.5424/ sjar/2015131-6575 • Calsamiglia, S., Ferret, A., & Bach, A. (2016). Tablas FEDNA de valor nutritivo de forrajes y subproductos húmedos. In Fundación Española para el desarrollo de la Nutrición Animal (Vol. 2). http://www.fundacionfedna.org/sites/default/files/TABLAS-WEB-FORRAJESSUBPHUMEDOS.pdf • Cerisuelo, A., Castelló, L., Moset, V., Martínez, M., Hernández, P., Piquer, O., Gómez, E., Gasa, J., & Lainez, M. (2010). The inclusion of ensiled citrus pulp in diets for growing pigs: Effects on voluntary intake, growth performance, gut microbiology and meat quality. Livestock Science, 134(1–3), 180–182. https://doi.org/10.1016/j. livsci.2010.06.135 • De Blas, C., García-Rebollar, P., Gorrachategui, M. y Mateos, G. G. (2019). Tablas FEDNA de composición y valor nutritivo de alimentos para la fabricación de piensos compuestos (4a edición) (FEDNA (ed.); 4a). Fundación Española para el Desarrollo de la Nutrición Animal (FEDNA). • De Blas, J. C., Ferrer, P., Rodríguez, C. A., Cerisuelo, A., García Rebollar, P., Calvet, S., & Farias, C. (2018). Nutritive value of citrus co-products in rabbit feeding. World Rabbit Science. https://doi.org/10.4995/wrs.2018.7699 • Dermeche, S., Nadour, M., Larroche, C., Moulti-Mati, F., & Michaud, P. (2013). Olive mill wastes: Biochemical characterizations and valorization strategies. Process Biochemistry, 48(10), 1532–1552. https://doi.org/10.1016/j. procbio.2013.07.010 • Ferrer, P., García-Rebollar, P., De Blas, C., Calvet, S., Rodríguez, C.A., Piquer, O., Cerisuelo, A. (2019). Nutritional value of dehydrated and sun dried orange pulp in finishing pigs and effects on nitrogen balance and gaseous emissions. Animal Feed Science and Technology. • Ferrer, P., Calvet, S., Garciá-Rebollar, P., De Blas, C., Jiménez-Belenguer, A. I., Hernández, P., Piquer, O., & Cerisuelo, A. (2020). Partially defatted olive cake in finishing pig diets: Implications on performance, faecal microbiota, carcass quality, slurry composition and gas emission. Animal, 14(2), 426–434. https://doi.org/10.1017/ S1751731119002040 • Ferrer, P., Calvet, S., García-Rebollar, P., Jiménez-Belenguer, A. I., Hernández, P., Piquer, O., & Cerisuelo, A. (2022). The impact of replacing barley by dehydrated orange pulp in finishing pig diets on performance, carcass quality, and gaseous emissions from slurry. Animal, 16(11), 100659. https://doi.org/10.1016/j. animal.2022.100659 • Ferrer, P., García-Rebollar, P., Cerisuelo, A., Ibáñez, M. A., Rodríguez, C. A., Calvet, S., & De Blas, C. (2018). Nutritional value of crude and partially defatted olive cake in finishing pigs and effects on nitrogen balance and gaseous emissions. Animal Feed Science and Technology, 236(November 2017), 131–140. https://doi. org/10.1016/j.anifeedsci.2017.12.014 • Joven, M., Pintos, E., Latorre, M. A., Suárez-Belloch, J., Guada, J. A., & Fondevila, M. (2014). Effect of replacing barley by increasing levels of olive cake in the diet of finishing pigs: Growth performances, digestibility, carcass, meat and fat quality. Animal Feed Science and Technology, 197, 185–193. https://doi.org/10.1016/j.anifeedsci.2014.08.007 • MAPA. (2021). El sector de la carne de cerdo en cifras: Principales indicadores económicos, Subdirección General de Producciones Ganaderas y Cinegéticas, Dirección General de Producciones y Mercados Agrarios. Ministerio de Agricultura, Pesca y Alimentación Secretaría. 1–74. • MAPA. (2023). Informe histórico de estimación de precios de piensos en €/t. Dirección General de Producciones y Mercados Agrarios. • Moset, V., Piquer, O., Cervera, C., Fernández, C. J., Hernández, P., & Cerisuelo, A. (2015). Ensiled citrus pulp as a by-product feedstuff for finishing pigs: Nutritional value and effects on intestinal microflora and carcass quality. Spanish Journal of Agricultural Research, 13(3). https://doi.org/10.5424/sjar/2015133-6717 • Mutlu, Ö. Ç., Büchner, D., Theurich, S., & Zeng, T. (2021). Combined use of solar and biomass energy for sustainable and cost-effective low-temperature drying of food processing residues on industrial-scale. Energies, 14(3). https://doi.org/10.3390/en14030561 • Piquer, L. (2022). Determinación de la digestibilidad ileal de la proteína bruta y aminoácidos del bagazo de cerveza en porcino mediante la utilización de cánulas ileales desarrolladas a partir de impresión 3D. XXXVII Curso de Especialización avances en nutrición y alimentación animal. FEDNA, 291. • Piquer, L., Calvet, S., García-Rebollar, P., Cano, C., Belloumi, D., & Cerisuelo, A. (2022). Feeding by-products from the olive cake industry modifies pig slurry characteristics and ammonia emissions. In Book of abstracts of the 73rd Annual Meeting of th European Federation of Animal Sciencia (EAAP) (Vol. 28, p. 532). Wageningen Academic Publishers. https://doi.org/10.3920/97890-8686-937-4 • Piquer, L., Cerisuelo, A., García-Rebollar, P., Cano, C., Belloumi, D., & Calvet, S. (2022). Dietary factors affect the amount of energy loss as methane from slurry in growing pigs. In Local Organising Committee of ISEP 2022 (Ed.), Animal - science proceedings (Vol. 13, Issue 3, p. 385). animal. https://doi.org/10.1016/j.anscip.2022.07.001 • Santos, M., Jiménez, J. J., Bartolomé, B., Gómez-Cordovés, C., & Del Nozal, M. J. (2003). Variability of brewer’s spent grain within a brewery. Food Chemistry, 80(1), 17–21. https://doi.org/10.1016/S0308-8146(02)00229-7 • Steiner, J., Procopio, S., & Becker, T. (2015). Brewer’s spent grain: source of value-added polysaccharides for the food industry in reference to the health claims. European Food Research and Technology, 241(3), 303– 315. https://doi.org/10.1007/s00217-015-2461-7 • Tang, Z., Cenkowski, S., & Izydorczyk, M. (2005). Thinlayer drying of spent grains in superheated steam. Journal of Food Engineering, 67(4), 457–465. https://doi. org/10.1016/J.JFOODENG.2004.04.040
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