-
1مؤتمر
المؤلفون: Lupi, Ana Maria, Caffaro, María Eugenia, Rimski-Korsakov, Helena, Mattos, A., Nuñez, S., Artero, Diego F.
المصدر: XXIX Congreso Argentino de la Ciencia del Suelo Suelos "Huellas del pasado, desafíos del futuro", San Fernando del Valle de Catamarca, Catamarca, 21 al 24 de mayo de 2024. p. 937-942
مصطلحات موضوعية: Producción Forestal, Nutrientes, Salix, Forestry Production, Nutrients, Crop Residues, Residuos de Cosechas, Sauce, Delta del Paraná, Buenos Aires, Zárate
وصف الملف: application/pdf
-
2كتاب
المؤلفون: Nyagumbo, Isaiah, Mupangwa, Walter, Rusinamhodzi, Leonard, Kihara, Job Maguta, Craufurd, Peter Q.
مصطلحات موضوعية: conservation agriculture, sustainable intensification, crop residues, crop yield, intercropping, soil quality, agricultura de conservación, intensificación sostenible, residuos de cosechas
وصف الملف: 74-90; application/pdf
العلاقة: ACIAR Monograph; Nyagumbo, I.; Mupangwa, W.; Rusinamhodzi, L.; Kihara, J.; Craufurd, P. (2021) Conservation agriculture as a determinant of sustainable intensification. In: Wilkus, E. (et al.) Sustainable intensification of maize-legume systems for food security in eastern and southern Africa (SIMLESA): Lessons and way forward. ACIAR Monograph No. 211. p. 74-90. ISBN: 978-1-922345-76-9; https://hdl.handle.net/10568/118133Test; https://www.aciar.gov.au/publication/simlesa_lessons_and_way_forwardTest
-
3دورية أكاديمية
المؤلفون: Katerine Oropesa-Casanova, Gertrudis Pentón-Fernández, Juan Carlos Lezcano-Fleires, Taymer Miranda-Tortoló, Néstor Francisco Núñez-García
المصدر: Pastos y Forrajes, Vol 43, Iss 2, Pp 112-119 (2020)
مصطلحات موضوعية: desarrollo sostenible, excreta, residuos de cosechas, Agriculture (General), S1-972, Animal culture, SF1-1100
وصف الملف: electronic resource
-
4دورية أكاديمية
المؤلفون: Willian Filian Hurtado, Ana Julia Mora Rodríguez, Jorge Pereda Mouso, Lino Curbelo Rodríguez, Redimio M Pedraza Olivera, Roberto Vázquez Montes de Oca
المصدر: Revista de Producción Animal, Vol 32, Iss 1, Pp 1-14 (2020)
مصطلحات موضوعية: ganado bovino, forrajes, fincas, residuos de cosechas, alimentos, Animal culture, SF1-1100
وصف الملف: electronic resource
-
5كتاب
المؤلفون: Mas, María Teresa, Pardo Sanclemente, Gabriel, Pueyo, Jorge, Verdú, Antoni M. C., Cirujeda Ranzenberger, Alicia
مصطلحات موضوعية: Malezas, Residuos de cosechas, Materiales de cubrimiento del suelo
الوقت: Sanidad vegetal
وصف الملف: application/pdf
العلاقة: https://www.mdpi.com/2073-4395/11/2/393Test; Agronomy, vol. 11, num. 2, (2021); http://hdl.handle.net/10532/5250Test
الإتاحة: http://hdl.handle.net/10532/5250Test
-
6كتاب
المؤلفون: Claramunt, Josep, Mas, M. Teresa, Pardo Sanclemente, Gabriel, Cirujeda Ranzenberger, Alicia
مصطلحات موضوعية: Acolchado, Materiales de cubrimiento del suelo, Resistencia mecánica, Residuos de cosechas, Despunte, Malezas
الوقت: Sanidad Vegetal
وصف الملف: application/pdf
العلاقة: Biosystems Engineering, vol. 191, pp. 35-47, (2020); http://hdl.handle.net/10532/4946Test
الإتاحة: http://hdl.handle.net/10532/4946Test
-
7دورية أكاديمية
المؤلفون: Jaramillo Zapata, Leyla Yamile, Vásquez Rendón, Mauricio, Upegui Sosa, Sergio Augusto, Posada Correa, Juan Carlos, Romero Sáez, Manuel
مصطلحات موضوعية: Plyethylene, Residuos de cosechas, Crop residues, Waste valorization, Valorización de residuos, Eco-composite, Eco-compuesto, Natural fibers, Value–added products, Fibras naturales, Productos de valor agregado, Coffee husk, Cáscara de café, Polietileno
وصف الملف: 14 páginas; application/pdf
العلاقة: 14; 34; 31; Sustainable Environment Research; ICO. Total Coffee Production of Exporting Countries. London: International Coffee Organization; 2020. www.ico.org/historical/1990%20onwards/PDF/1atotal- production.pdf.; DaMatta FM, Rahn E, Laderach P, Ghini R, Ramalho JC. Why could the coffee crop endure climate change and global warming to a greater extent than previously estimated? Clim Chang 2019;152:167–78.; DANE. National Agricultural Survey. Bogota: National Administrative Department of Statistics; 2020 [in Spanish]. https://www.dane.gov.co/filesTest/ investigaciones/agropecuario/enda/ena/2019/boletin_ena_2019.pdf.; Murthy PS, Naidu MM. Sustainable management of coffee industry byproducts and value addition – a review. Resour Conserv Recycl 2012;66:45– 58.; Martinez CLM, Saari J, Melo Y, Cardoso M, de Almeida GM, Vakkilainen E. Evaluation of thermochemical routes for the valorization of solid coffee residues to produce biofuels: a Brazilian case. Renew Sust Energ Rev 2021; 137:110585.; Scatolino MV, Costa AD, Guimaraes JB, Protasio TD, Mendes RF, Mendes LM. Eucalyptus wood and coffee parchment for particleboard production: physical and mechanical properties. Cienc Agrotec 2017;41:139–46.; PE. Plastics – the Facts 2019. Brussels: PlasticsEurope; 2019.; Stoica M, Antohi VM, Zlati ML, Stoica D. The financial impact of replacing plastic packaging by biodegradable biopolymers - a smart solution for the food industry. J Clean Prod 2020;277:124013.; Vigneshwaran S, Sundarakannan R, John KM, Johnson RDJ, Prasath KA, Ajith S, et al. Recent advancement in the natural fiber polymer composites: a comprehensive review. J Clean Prod 2020;277:124109.; Veloso MCRD, Scatolino MV, Goncalves MMBP, Valle MLA, Protasio TD, Mendes LM, et al. Sustainable valorization of recycled low-density polyethylene and cocoa biomass for composite production. Environ Sci Pollut R 2021;28:32810–22.; Lule ZC, Kim J. Properties of economical and eco-friendly polybutylene adipate terephthalate composites loaded with surface treated coffee husk. Compos Part A-Appl S 2021;140:106154.; Huang L, Mu BS, Yi X, Li SJ, Wang QW. Sustainable use of coffee husks for reinforcing polyethylene composites. J Polym Environ 2018;26:48–58.; Gheith MH, Aziz MA, Ghori W, Saba N, Asim M, Jawaid M, et al. Flexural, thermal and dynamic mechanical properties of date palm fibres reinforced epoxy composites. J Mater Res Technol. 2019;8:853–60.; Balla VK, Kate KH, Satyavolu J, Singh P, Tadimeti JGD. Additive manufacturing of natural fiber reinforced polymer composites: processing and prospects. Compos Part B-Eng. 2019;174:106956.; Dorigato A, Pegoretti A. Fracture behaviour of linear low density polyethylene - fumed silica nanocomposites. Eng Fract Mech 2012;79:213– 24.; EPA. Landfill gas emissions model (LandGEM) version 3.02 user’s guide. Washington, DC: Environmental Protection Agency; 2005.; Petinakis E, Yu L, Simon GP, Dai XJ, Chen Z, Dean K. Interfacial adhesion in natural fiber-reinforced polymer composites. In: Thakur VK, editor. Lignocellulosic polymer composites: processing, characterization, and properties. Beverly: Scrivener Publishing; 2014. p. 17–39.; Poley LH, Siqueira APL, da Silva MG, Vargas H, Sanchez R. Photothermal characterization of low density polyethylene food packages. Polimeros. 2004;14:8–12.; Costa UO, Nascimento LFC, Garcia JM, Monteiro SN, da Luz FS, Pinheiro WA, et al. Effect of graphene oxide coating on natural fiber composite for multilayered ballistic armor. Polymers-Basel. 2019;11:1356.; Bahra MS, Gupta VK, Aggarwal L. Effect of fibre content on mechanical properties and water absorption behaviour of pineapple/HDPE composite. Mater Today-Proc 2017;4:3207–14.; Yang HS, Wolcott MP, Kim HS, Kim S, Kim HJ. Effect of different compatibilizing agents on the mechanical properties of lignocellulosic material filled polyethylene bio-composites. Compos Struct 2007;79:369– 75.; Zhang QF, Li YK, Cai HZ, Lin XN, Yi WM, Zhang JB. Properties comparison of high density polyethylene composites filled with three kinds of shell fibers. Results Phys 2019;12:1542–6.; Jaafar J, Siregar JP, Salleh SM, Hamdan MHM, Cionita T, Rihayat T. Important considerations in manufacturing of natural fiber composites: a review. Int J Pr Eng Man-GT 2019;6:647–64.; Yam RCM, Mak DMT. A cleaner production of rice husk-blended polypropylene eco-composite by gas-assisted injection moulding. J Clean Prod 2014;67:277–84.; Saraiva AB, Pacheco EBAV, Gomes GM, Visconte LLY, Bernardo CA, Simoes CL, et al. Comparative lifecycle assessment of mango packaging made from a polyethylene/natural fiber-composite and from cardboard material. J Clean Prod 2016;139:1168–80.; Vidal R, Martinez P, Garrain D. Life cycle assessment of composite materials made of recycled thermoplastics combined with rice husks and cotton linters. Int J Life Cycle Ass 2009;14:73–82.; Luz SM, Caldeira-Pires A, Ferrao PMC. Environmental benefits of substituting talc by sugarcane bagasse fibers as reinforcement in polypropylene composites: ecodesign and LCA as strategy for automotive components. Resour Conserv Recycl 2010;54:1135–44.; Corbiere-Nicollier T, Gfeller-Laban B, Lundquist L, Leterrier Y, Manson JAE, Jolliet O. Life cycle assessment of biofibres replacing glass fibres as reinforcement in plastics. Resour Conserv Recy 2001;33:267–87.; Sommerhuber PF, Wenker JL, Ruter S, Krause A. Life cycle assessment of wood-plastic composites: analysing alternative materials and identifying an environmental sound end-of-life option. Resour Conserv Recycl 2017;117: 235–48.; Rodriguez LJ, Fabbri S, Orrego CE, Owsianiak M. Comparative life cycle assessment of coffee jar lids made from biocomposites containing poly (lactic acid) and banana fiber. J Environ Manag 2020;266:1104993.; Duflou JR, Deng YL, Van Acker K, Dewulf W. Comparative impact assessment for flax fibre versus conventional glass fibre reinforced composites: Are bio-based reinforcement materials the way to go? Cirp Ann-Manuf Techn 2014;63:45–8.; Joshi SV, Drzal LT, Mohanty AK, Arora S. Are natural fiber composites environmentally superior to glass fiber reinforced composites? Compos Part A-Appl S. 2004;35:371–6.; Sanyang ML, Sapuan SM, Jawaid M, Ishak MR, Sahari J. Recent developments in sugar palm (Arenga pinnata) based biocomposites and their potential industrial applications: a review. Renew Sust Energ Rev 2016; 54:533–49; Li M, Pu YQ, Thomas VM, Yoo CG, Ozcan S, Deng YL, et al. Recent advancements of plant-based natural fiber-reinforced composites and their applications. Compos Part B-Eng 2020;200:108254.; Mohanty AK, Vivekanandhan S, Pin JM, Misra M. Composites from renewable and sustainable resources: challenges and innovations. Science. 2018;362:536–42.; Acoplásticos. Plastics in Colombia 2019-2020. Bogota: Acoplásticos; 2020 [in Spanish]. https://www.acoplasticos.org/index.php/mnu-nos/mnu-pyr/mnupyrTest- pi/308.; FNC. Coffee Export Statistics. Bogota: National Federation of Coffee Growers of Colombia; 2020 [in Spanish]. https://federaciondecafeteros.org/wp/estaTest disticas-cafeteras/.; Zhang CL, Xu T, Feng HL, Chen SH. Greenhouse gas emissions from landfills: a review and bibliometric analysis. Sustainability-Basel. 2019;11:2282.; Friedrich D. Welfare effects from eco-labeled crude oil preserving woodpolymer composites: a comprehensive literature review and case study. J Clean Prod 2018;188:625–37.; https://dspace.tdea.edu.co/handle/tdea/2673Test
-
8مؤتمر
المؤلفون: Paroldi, H.E., Medina, E.M., Rodriguez, L.A., Monetta, Pablo Miguel
المصدر: II Simposio de Residuos Agropecuarios y Agroindustriales del NOA y Cuyo: trabajos completos y comunicaciones
مصطلحات موضوعية: Compost, Olea europaea, Residuos de Cosechas, Microorganismos, Composts, Crop Residues, Microorganisms, Olivo, Alperujo
وصف الملف: application/pdf
العلاقة: https://inta.gob.ar/sites/default/files/inta-libro_de_trabajos_del_ii_sraya_noa_y_cuyo_-san_juan_2018.pdfTest; http://hdl.handle.net/20.500.12123/7858Test
-
9مؤتمر
المؤلفون: Vitale Guardia, Pablo Ariel, Fracchia, S., Rothen, C.
المصدر: II Simposio de Residuos Agropecuarios y Agroindustriales del NOA y Cuyo: trabajos completos y comunicaciones
مصطلحات موضوعية: Setas Comestibles, Pleurotus, Residuos de Cosechas, Desechos de la Madera, Crop Residues, Edible Fungi, Wood Residues, Girgola
وصف الملف: application/pdf
العلاقة: https://inta.gob.ar/sites/default/files/inta-libro_de_trabajos_del_ii_sraya_noa_y_cuyo_-san_juan_2018.pdfTest; http://hdl.handle.net/20.500.12123/7888Test
-
10مؤتمر
المصدر: II Simposio de Residuos Agropecuarios y Agroindustriales del NOA y Cuyo: trabajos completos y comunicaciones
مصطلحات موضوعية: Olea europaea, Residuos de Cosechas, Innovación, Crop Residues, Innovation, Alperujo, Olivo, Cadena de Valor
وصف الملف: application/pdf