Valorisation of rice straw by obtaining active compounds and cellulosic materials for the development of biodegradable food packaging systems

Tesis por compendio[ES] En esta tesis se obtuvieron fracciones celulósicas y extractos activos de paja de arroz mediante diferentes técnicas de extracción y purificación, utilizando agua como disolvente. Estas fracciones se incorporaron en películas de almidón y PLA, y en bicapas de almidón-PLA, para obtener materiales de envasado activos para extender la vida útil de diferentes alimentos. Los extractos obtenidos por combinación de ultrasonidos y calentamiento a reflujo (USHT) y con agua subcrítica (SWE) (a 160 °C (SWE-160) y 180 °C (SWE-180)) presentaron un alto contenido fenólico (37, 51 y 83 mg GAE.g-1 de extracto seco, respectivamente) y actividad antioxidante (6,3, 2,0 y 1,2 mg de extracto seco.mg-1 DPPH, respectivamente). Los extractos SWE fueron activos contra L. innocua y E. coli. Se aislaron fibras de celulosa (FC) del residuo insoluble de las diferentes extracciones. A pesar de las ligeras diferencias en el grado de purificación, los nuevos métodos dieron lugar a FCs con rendimientos más elevados que el método alcalino (35-39 % frente al 29 %), con cristalinidad (60-69 %), comportamiento térmico y relación de aspecto (20-60) similares. Se incorporaron fibras USHT al 1, 3 y 5 % (p/p) en películas termoprocesadas de almidón de maíz, y de almidón de maíz modificado térmicamente. La incorporación al 3 % dio lugar a películas con mejores propiedades funcionales. Los extractos activos (al 4, 6 y 8 % en peso) en la matriz de almidón, con o sin CF (3 %), dieron lugar a películas más extensibles y menos resistentes, con mayor capacidad de barrera al oxígeno. Las bolsas monodosis de aceite de girasol con estas películas activas y reforzadas redujeron eficazmente la oxidación. Las películas activas de PLA termoprocesado, con diferentes proporciones (2, 4 y 6 % p/p) del extracto USHT, presentaron color y propiedades mecánicas ligeramente peores, pero con mayor barrera al oxígeno. La cinética de liberación de los antioxidantes incorporados en simulantes alimentarios de diferente polaridad (A: productos acuosos; y D1: sistemas de aceite en agua), mostró que las películas con un 6% de extracto, tuvieron una capacidad antioxidante similar en simulantes con distinta polaridad. Se obtuvieron bicapas biodegradables laminando PLA, con y sin extracto USHT (6 %), y almidón termoplástico, con o sin FC USHT (3 %). Las bicapas mostraron mejor capacidad de barrera global que las monocapas. Sin embargo, la migración de compuestos entre capas dio lugar a películas menos rígidas y resistentes de lo esperado de la contribución del film de PLA. Las bicapas activas y reforzadas alargaron la vida útil de carne de cerdo refrigerada. Las películas de PLA con un 6 % (p/p) de los diferentes extractos (USHT, SWE-160 y SWE-180) presentaron menor resistencia mecánica y capacidad de barrera al vapor de agua, pero una mayor capacidad de barrera al oxígeno y a la luz UV. Además, estas películas, especialmente con el extracto SWE-180, alargaron la vida útil de la carne de cerdo refrigerada. Las FCs obtenidas con los diferentes métodos de purificación también se utilizaron para producir aerogeles de celulosa. Las diferencias composicionales afectaron a la microestructura de los aerogeles. La capacidad de absorción y de retención de agua de los aerogeles estuvo dentro de los rangos descritos para este tipo de materiales. Por tanto, fue posible obtener fracciones valorizadas de la paja de arroz, extractos activos y fibras celulósicas, útiles en el desarrollo de materiales biodegradables activos a base de almidón y PLA. Son necesarios más estudios para validar la seguridad alimentaria de los materiales, así como para el desarrollo de otras aplicaciones en el campo de la industria alimentaria o farmacéutica.[CA] En aquesta tesi doctoral es van obtenir fraccions cel·lulòsiques i extractes actius de palla d' arròs mitjançant l'aplicació de diferents tècniques d'extracció i purificació, utilitzant aigua com a dissolvent. Aquestes fraccions es van incorporar a pel·lícules de midó i PLA, i bicapes de midó-PLA, per obtenir materials d'envasament actius útils per allargar la vida útil de diferents aliments. Els extractes combinant ultrasons i escalfament a reflux (USHT) i amb aigua subcrítica (SWE) (a 160 °C (SWE-160) i 180 °C (SWE-180)) van mostrar un alt contingut fenòlic (37, 51 i 83 mg GAE.g-1 d'extracte sec, respectivament) i activitat antioxidant (6,3, 2,0 i 1,2 mg d'extracte sec.mg-1 DPPH, respectivament). Els extractes SWE van mostrar activitat antibacteriana contra L. innocua i E. coli. Es van aïllar fibres de cel·lulosa (FC) de les fraccions insolubles de l'extracció. Malgrat les lleugeres diferències en el grau de purificació, els nous mètodes van donar lloc a FCs amb rendiments més elevats que el mètode alcalí (35-39 % enfront del 29 %), amb cristal·linitat (60-69 %), comportament tèrmic i relació d'aspecte (20-60) similars. Es van incorporar fibres USHT a l'1, 3 i 5 % (p/p) en pel·lícules de midó de dacsa, i de midó de dacsa modificat per tractament tèrmic. La incorporació al 3 % va donar lloc a pel·lícules amb les millors propietats funcionals. Els extractes actius (al 4, 6 i 8 % en pes) a la matriu de midó, amb o sense CF (3 %), proporcionaren pel·lícules més extensibles i menys resistents, però amb més capacitat de barrera a l'oxigen. Les bosses monodosi de l'oli de gira-sol amb aquestes pel·lícules actives i reforçades van reduir eficaçment l'oxidació. Les pel·lícules actives de PLA amb diferents proporcions (2, 4 i 6 % p/p) de l'extracte USHT, presentaren color i propietats mecániques lleugerament pitjors, però amb major capacitat de barrera a l'oxigen. La cinètica d'alliberament dels antioxidants incorporats, en simulants alimentaris de diferent polaritat (A: productes aquosos; i D1: sistemes d'oli en aigua), va mostrar que les pel·lícules amb un 6% d'extracte, tenien una capacitat antioxidant similar en simulants amb diferent polaritat. Es van obtenir bicapes biodegradables laminant PLA, amb i sense extracte USHT (6 %), i midó termoplàstic, amb o sense FC USHT (3 %). Les bicapes van mostrar millor capacitat de barrera global que les monocapes. No obstant això, la migració de compostos entre capes va donar lloc a pel·lícules menys rígides i resistents respecte a l'esperat de la contribució de la pel·lícula de PLA. Les bicapes actives i reforçades van allargar la vida útil de carn de porc refrigerada. Les pel·lícules de PLA amb un 6 % (p/p) dels diferents extractes (USHT, SWE-160 i SWE-180) van presentar menor resistència mecànica i capacitat de barrera al vapor d'aigua, però una major capacitat de barrera a l'oxigen i a la llum UV. A més, aquestes pel·lícules, especialment amb l'extracte SWE-180, van allargar la vida útil de la carn de porc refrigerada. Les FCs obtingudes amb els diferents mètodes de purificació també es van utilitzar per produir aerogels de cel·lulosa. Les diferències composicionals van afectar la microestructura dels aerogels. La capacitat d' absorció i de retenció d'aigua dels aerogels va estar dins dels rangs descrits per a aquest tipus de materials. Per tant, va ser possible obtenir fraccions valoritzades de la palla d' arròs, extractes actius i fibres cel·lulòsiques, útils en el desenvolupament de materials biodegradables actius a base de midó i PLA. Són necessaris més estudis per validar la seguretat alimentària dels materials, així com per al desenvolupament d' altres aplicacions en el camp de la indústria alimentària o farmacèutica.[EN] This Doctoral thesis focused on obtaining cellulosic fractions and bioactive extracts from rice straw (RS) by applying different extraction and purification techniques, using water as a green solvent. These fractions were incorporated into starch and poly (lactic acid) (PLA)-based films, as well as into starch-PLA bilayers, to obtain active packaging materials useful for extending the shelf life of different food matrices. The extracts obtained by applying a combined ultrasound-reflux heating method (USHT) and subcritical water extraction (SWE) (at 160 °C (SWE-160) and 180 °C (SWE-180)) exhibited high phenolic content (37, 51, 83 mg GAE.g-1 dry extract, respectively) and antioxidant activity (6.3, 2.0, and 1.2 mg dry extract.mg-1 DPPH, respectively). The SWE extracts showed antibacterial activity against L. innocua and E. coli. Cellulose fibres (CF) were isolated from the extraction insoluble fractions and compared with those obtained from the traditional alkaline method. Despite slight differences in the degree of purification, the new methods gave rise to CFs with higher yields than the alkaline method (35-39% vs. 29%), with similar crystallinity (60-69%), thermal behaviour, and aspect ratios. USHT fibres were incorporated into corn starch (1, 3, and 5% wt.), and corn starch-modified by heat treatment, obtained by thermoprocessing. The incorporation of CF at 3% gave rise to films with the best functional properties. When active extracts were incorporated at different ratios (4, 6, and 8% wt.) into the starch matrix, with or without CF (3%), the films were more stretchable and less resistant, but with higher oxygen barrier capacity. Likewise, mono-dose bags of these active and reinforced films effectively reduced the oxidation of packed sunflower oil. Active, plasticised PLA films were produced, incorporating USHT extract (2, 4, and 6% wt.) by thermoprocessing, which exhibited colour and slightly worsened tensile behaviour, but with higher oxygen barrier capacity. The release kinetics of the incorporated antioxidant compounds in food simulants of different polarity (A: aqueous products; and D1: oil-in-water systems) showed that films containing 6% of extract delivered similar antioxidant capacity regardless of the food simulant polarity. Biodegradable bilayers were obtained by laminating plasticised PLA, with and without USHT extract (6%), and thermoplastic starch, with or without USHT CFs (3%). The bilayers exhibited improved overall barrier capacity with respect to the monolayers. However, the interlayer compound migration led to less stiff and resistant films with respect to that expected from the PLA film contribution. The active and reinforced bilayers were able to extend the shelf life of the packed pork meat during cold storage. PLA films with 6% wt. of the different extracts (USHT, SWE-160, and SWE-180) were produced, which exhibited lower mechanical resistance and water vapour barrier capacity, but improved oxygen barrier capacity and intense UV light-blocking effect. Furthermore, the active PLA films, especially with SWE-180 extract, extended the shelf life of cold storage pork meat. The CFs obtained with the different purification methods were also used to produce cellulose aerogels. The differences in the chemical composition of the CFs affected the aerogels' microstructure. The water absorption and retention capacity of the aerogels were within the previously reported ranges for this type of material. Thus, it was possible to obtain valorised fractions of rice straw, active extracts and cellulosic fibres, useful in developing active biodegradable materials based on starch and PLA. Further studies are needed to validate the food safety of the materials, as well as for developing other applications in the food or pharmaceutical industry.The authors thank the Agencia Estatal de Investigación (Spain) for the financial support through projects PID2019-105207RB-I00/AEI/10.13039/501100011033 and Generalitat Valenciana [grant number GrisoliaP/2019/115].Vieira De Freitas, PA. (2022). Valorisation of rice straw by obtaining active compounds and cellulosic materials for the development of biodegradable food packaging systems [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/191380Compendi

Spatial correlation between dengue and sanitation in the Recife

The Dengue is an urban and tropical arbovirose transmitted by a domestic, anthropophilic and diurnal hematophageal activity mosquito, the Aedes aegypti, which uses water as a medium for reproduction. The objective of this study was to evaluate the correlation between the density of Dengue cases occurring in the Recife city between January 2013 and December 2016 and the following social and environmental variables: coverage indices of water supply and sewage networks, monthly percentage of water supply service operation days, weekly frequency of municipal solid waste collection, demographic density, monthly nominal household income and literacy rate of the 10 years and over population. The methodology used was based on collection, treatment and processing of data through inferential statistics and geoprocessing techniques. At the end of this study, it was concluded that the density of Dengue cases increases with the increase in demographic density, with a decrease in the nominal monthly household income and with a decrease in the quality of sanitary sewage and garbage collection services. Also was observed that the most affected neighborhoods were formed largely by settlements of low socioeconomic status.A Dengue é uma arbovirose urbana e tropical transmitida por um mosquito doméstico, antropofílico e com atividade hematofágica diurna, o Aedes aegypti, que utiliza a água como meio para sua reprodução. O objetivo deste trabalho foi avaliar a correlação existente entre a densidade de casos Dengue ocorridos na cidade do Recife entre janeiro de 2013 e dezembro de 2016 e as seguintes variáveis de caráter socioambiental: índices de cobertura das redes de abastecimento de água e de esgotamento sanitário, percentual mensal de dias de funcionamento do serviço de abastecimento de água, frequência semanal da coleta de resíduos sólidos urbanos, densidade demográfica, renda média domiciliar nominal mensal e taxa de alfabetização da população de 10 anos ou mais. A metodologia empregada baseouse na coleta, no tratamento e no processamento de dados, por intermédio de estatística inferencial e técnicas de geoprocessamento. Concluiu-se que a densidade de casos de Dengue cresce com o aumento da densidade demográfica, com a diminuição da renda média domiciliar nominal mensal e com a diminuição da qualidade dos serviços de esgotamento sanitário e de coleta de lixo. Observou-se que os bairros mais afetados eram formados em grande parte por assentamentos de baixo padrão socioeconômico

Using rice straw fractions to develop reinforced, active PLA-starch bilayers for meat preservation

[EN] Bilayers from thermoplastic corn starch (TPS) and PLA were obtained, incorporating or not rice straw (RS) valorised fractions: active extract (es) into PLA and cellulose fibres (cf) into TPS films. The films were obtained by thermoprocessing while the bilayers were obtained by thermocompression of the different monolayers (TPS-PLA, TPScf-PLA, TPS-PLAes and TPScf-PLAes). TPS conferred oxygen barrier capacity to the laminates, which was improved by the cf incorporation. The extract slightly reduced the PLA resistance but improved their oxygen barrier capacity. The tensile and barrier properties of the bilayers revealed changes in the performance of each layer associated with the interlayer compound migration. The TPScf-PLAes bags exhibited noticeable antioxidant capacity when used in meat packaging and reduced microbial counts throughout cold storage. Therefore, these bilayers have considerable potential to extend the shelf-life of meat samples, preserving their quality and safety for longer, while using RS fractions permits its valorisation.Funding This work was supported by Generalitat Valenciana [grant number GrisoliaP/2019/115] and project PID2019-105207RB-I00/AEI/10.13039/501100011033. Funding for open access charge: CRUE-Universitat Politècnica de València.Vieira-De Freitas, PA.; González Martínez, MC.; Chiralt, A. (2023). Using rice straw fractions to develop reinforced, active PLA-starch bilayers for meat preservation. Food Chemistry. 405. https://doi.org/10.1016/j.foodchem.2022.13499040

Antioxidant starch composite films containing rice straw extract and cellulose fibres

[EN] Antioxidant aqueous rice straw (RS) extract was obtained by a combined ultrasound-reflux heating process and cellulose fibres (CF) were purified by bleaching the extraction residue. Both fractions were incorporated into corn starch to obtain films by melt blending and compression moulding. CF (at 3 % wt.) greatly increased the elastic modulus (by 200 %) and tensile strength at break (by 100 %) while reducing film stretchability. Films with CF exhibited the greatest barrier capacity to water vapour and oxygen. The incorporation of RS extract (at 4, 6 and 8 % wt.) plasticised the film¿s amorphous phase, but also reinforced the matrix to a certain extent. The active films showed a high degree of UV absorption and DPPH radical scavenging capacity. Mono-dose sunflower oil bags were obtained with films with CF and RS extracts that, to a great extent, prevent oil oxidation in an accelerated oxidative test under UV radiation throughout 50 days.This work is supported by Generalitat Valenciana [grant number GrisoliaP/2019/115] and project PID2019-105207RB-I00/AEI/10.13039/501100011033.Vieira-De Freitas, PA.; González Martínez, MC.; Chiralt, A. (2022). Antioxidant starch composite films containing rice straw extract and cellulose fibres. Food Chemistry. 400. https://doi.org/10.1016/j.foodchem.2022.13407340

Applying ultrasound-assisted processing to obtain cellulose fibres from rice straw to be used as reinforcing agents

[EN] Rice straw (RS) is one of the most globally abundant agro-industrial residues. For its valorisation, a green combined ultrasound-reflux heating method was applied to obtain cellulose fibres (CF) from RS. The new method produced CF with a higher yield (37%) than the alkaline process (29%), more hydrophilic, and with a lower tendency to aggregate. Despite the slightly different degree of purification detected by the chemical and FTIR analysis, both fibres exhibited similar crystallinity, thermal behaviour, morphogeometric characteristics, and aspect ratio distributions (20¿60). Both CF showed similar reinforcing capabilities in methylcellulose/gum Arabic films, enhancing the film stretchability and resistance to break by about 33% and 20%. Non-noticeable changes in water vapour permeability and the light internal transmission were observed, indicating good compatibility CF-polymer matrix. Therefore, using the ultrasound-heating method to obtain CF is an eco-friendlier process than the alkaline treatment, supplying suitable fibres as industrial reinforcing agents.This work was supported by Generalitat Valenciana for the GrisoliaP/2019/115 Grant.Vieira-De Freitas, PA.; González Martínez, MC.; Chiralt, A. (2022). Applying ultrasound-assisted processing to obtain cellulose fibres from rice straw to be used as reinforcing agents. Innovative Food Science & Emerging Technologies. 76:1-14. https://doi.org/10.1016/j.ifset.2022.1029321147

Application of Ultrasound Pre-Treatment for Enhancing Extraction of Bioactive Compounds from Rice Straw

[EN] The extraction of water-soluble bioactive compounds using different green methods is an eco-friendly alternative for valorizing agricultural wastes such as rice straw (RS). In this study, aqueous extracts of RS (particles < 500 mu m) were obtained using ultrasound (US), reflux heating (HT), stirring (ST) and a combination of US and ST (USST) or HT (USHT). The extraction kinetics was well fitted to a pseudo-second order model. As regards phenolic compound yield, the US method (342 mg gallic acid (GAE). 100 g(-1) RS) was more effective than the ST treatment (256 mg GAE center dot 100 g(-1) RS), reaching an asymptotic value after 30 min of process. When combined with HT (USHT), the US pre-treatment led to the highest extraction of phenolic compounds from RS (486 mg GAE center dot 100 g(-1) RS) while the extract exhibited the greatest antioxidant activity. Furthermore, the USHT extract reduced the initial counts of Listeria innocua by 1.7 logarithmic cycles. Therefore, the thermal aqueous extraction of RS applying the 30 min US pre-treatment, represents a green and efficient approach to obtain bioactive extracts for food applications.Author P.A.V.F. is grateful to Generalitat Valenciana for the GrisoliaP/2019/115 grant.Vieira-De Freitas, PA.; González Martínez, MC.; Chiralt Boix, MA. (2020). Application of Ultrasound Pre-Treatment for Enhancing Extraction of Bioactive Compounds from Rice Straw. Foods. 9(11):1-15. https://doi.org/10.3390/foods9111657S115911Sharma, B., Vaish, B., Monika, Singh, U. K., Singh, P., & Singh, R. P. (2019). Recycling of Organic Wastes in Agriculture: An Environmental Perspective. International Journal of Environmental Research, 13(2), 409-429. doi:10.1007/s41742-019-00175-yNg, H.-M., Sin, L. T., Tee, T.-T., Bee, S.-T., Hui, D., Low, C.-Y., & Rahmat, A. R. (2015). Extraction of cellulose nanocrystals from plant sources for application as reinforcing agent in polymers. 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Antioxidant poly (lactic acid) films with rice straw extract for food packaging applications

[EN] Antioxidant PLA films incorporating 2%, 4% and 6% of phenol-rich extract from rice straw (RS) were obtained by melt blending and compression-moulding. Aqueous RS extract was obtained by a combined ultrasound-reflux heating method and characterised as to its total phenolic content (TPC) and antioxidant capacity. The effect of the extract ratio on the functional properties of the films was analysed, as well as the release kinetics of antioxidants in food simulants (ethanol 10% and 50%). Extract incorporation slightly reduced the strength of the polymer matrix, stretchability, resistance to break, barrier capacity and thermostability, while films became brownish and gained antioxidant capacity. Phenolic compounds from the extract were effectively released into food simulants, depending on the extract concentration, the food simulant and contact time. The radical scav-enging capacity of the films reached asymptotic values from about 150 h contact time, and films with 6% of the extract exhibited similar values for both simulants. So, PLA films with approximately 6% of extract could be used as biodegradable active packaging material with antioxidant capacity in both aqueous foods (simulant A) and more fatty products (simulant D1). Further studies are required to verify the antioxidant efficiency of the films in real foods.This work was supported by the Agencia Estatal de Investi gacion through project PID2019-105207RB-I00/AEI/10.13039/501100011033 and by Generalitat Valenciana [grant number GrisoliaP/2019/115] . Funding for open access charge: CRUE-Universitat Polite`cnica de Vale`ncia.Vieira-De Freitas, PA.; Bas Gil, NJ.; González Martínez, MC.; Chiralt, A. (2022). Antioxidant poly (lactic acid) films with rice straw extract for food packaging applications. Food Packaging and Shelf Life. 34:1-12. https://doi.org/10.1016/j.fpsl.2022.1010031123

Atomization of Microfibrillated Cellulose and Its Incorporation into Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) by Reactive Extrusion

[EN] The present study focuses on the preparation and characterization of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) films that were reinforced with cellulose microstructures to obtain new green composite materials for sustainable food packaging applications. The atomization of suspensions of microfibrillated cellulose (MFC) successfully allowed the formation of ultrathin cellulose structures of nearly 3 µm that were, thereafter, melt-mixed at 2.5, 5, and 10 wt % with PHBV and subsequently processed into films by thermo-compression. The most optimal results were attained for the intermediate MFC content of 5 wt %, however, the cellulose microstructures showed a low interfacial adhesion with the biopolyester matrix. Thus, two reactive compatibilizers were explored in order to improve the properties of the green composites, namely the multi-functional epoxy-based styrene-acrylic oligomer (ESAO) and the combination of triglycidyl isocyanurate (TGIC) with dicumyl peroxide (DCP). The chemical, optical, morphological, thermal, mechanical, and barrier properties against water and aroma vapors and oxygen were analyzed in order to determine the potential application of these green composite films in food packaging. The results showed that the incorporation of MFC yielded contact transparent films, whereas the reactive extrusion with TGIC and DCP led to green composites with enhanced thermal stability, mechanical strength and ductility, and barrier performance to aroma vapor and oxygen. In particular, this compatibilized green composite film was thermally stable up to ~280 °C, whereas it showed an elastic modulus (E) of above 3 GPa and a deformation at break (¿b) of 1.4%. Moreover, compared with neat PHBV, its barrier performance to limonene vapor and oxygen was nearly improved by nine and two times, respectively.This research was funded by Spanish Ministry of Science and Innovation (MICI), grant numbers PID2019-105207RB-I00 and RTC2019-007268-2.Vieira-De Freitas, PA.; Barrasa, H.; Vargas, F.; Rivera, D.; Vargas, M.; Torres-Giner, S. (2022). Atomization of Microfibrillated Cellulose and Its Incorporation into Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) by Reactive Extrusion. Applied Sciences. 12(4):1-27. https://doi.org/10.3390/app1204211112712

Valorization of Rice Straw into Cellulose Microfibers for the Reinforcement of Thermoplastic Corn Starch Films

[EN] In the present study, agro-food waste derived rice straw (RS) was valorized into cellulose microfi-bers (CMFs) using a green process of combined ultrasound and heating treatments and were, thereafter, used to improve the physical properties of thermoplastic starch films (TPS). Mechanical defibrillation of the fibers gave rise to CMFs with cumulative frequencies of length and diameters below 200 and 5¿15 µm, respectively. The resultant CMFs were successfully incorporated by melt mixing into TPS and also starch subjected to dry heating (DH) modification to yield TPS modified by dry heating (TPSDH) by thermo-compression and characterized. It was observed that both DH modification and fiber incorporation at 3 and 5 wt% loadings interfered with the starch gelatini-zation, leading to non-gelatinized starch granules in the biopolymer matrix. Thermo-compressed films prepared with both types of starches that wereand reinforced with 3 wt% CMF were more rigid (percentages increases of ~215% for TPS and ~207% for the TPSDH), more resistant to break (~100% for TPS and ~60% for TPSDH), but also less extensible (~53% for TPS and ~78% for TPSDH). The incorporation of CMFs into the TPS matrix at both contents also promoted a de-crease in water vapor (~15%) and oxygen permeabilities (~30%). Finally, the TPS composite films showed low changes in terms of optical properties and equilibrium moisture, being less soluble in water than the TPSDH films.This research was funded by Spanish Ministry of Science and Innovation (MICI), grant number PID2019-105207RB-I00.Vieira-De Freitas, PA.; La Fuente Arias, CI.; Torres-Giner, S.; González Martínez, MC.; Chiralt Boix, MA. (2021). Valorization of Rice Straw into Cellulose Microfibers for the Reinforcement of Thermoplastic Corn Starch Films. Applied Sciences. 11(18):1-20. https://doi.org/10.3390/app11188433S120111