Curatela

PROGETTO STREAMING - STRategiE di mitigazione e gestione dei rischi AMbientalI: casi di studio Nel territorio reGionale Toscano

Azioni locali di sostenibilità: cinque progetti per il futuro del territorio toscano
  • A cura di:
  • Chiara Bartalucci,
  • Federico Fagioli,
  • Andrea Giachetti,
  • Alberto Niccolai,
  • Leonardo Verdi,

Il progetto STREAMING - STRategiE di mitigazione e gestione dei rischi AMbientalI: casi di studio Nel territorio reGionale Toscano ha ricevuto il finanziamento dalla Regione Toscana nell’ambito del programma POR FSE 2014-2020 fondo sociale europeo. Il progetto ha finanziato cinque assegni di ricerca, per altrettanti casi studio, di durata triennale (dal 2018 al 2021) presso i Dipartimenti DAGRI, DICEA e DIEF dell’Università degli Studi di Firenze. Il presente documento costituisce un manuale di buone pratiche in cui sono raccolti i principali risultati ottenuti dal progetto STREAMING e dove viene evidenziata la sinergia tra questi ultimi e gli obiettivi globali di sviluppo sostenibile (SDGs) della Regione Toscana.

  • Parole chiave:
  • Fertilizers,
  • Microalgae,
  • ULT Freezer,
  • Noise,
  • Multi-risk analysis,
+ Show more

Chiara Bartalucci

University of Florence, Italy

Federico Fagioli

University of Florence, Italy - ORCID: 0000-0002-3283-403X

Andrea Giachetti

University of Florence, Italy - ORCID: 0000-0001-5984-7124

Alberto Niccolai

University of Florence, Andorra - ORCID: 0000-0002-3493-7219

Leonardo Verdi

University of Florence, Italy - ORCID: 0000-0001-7030-0496

Chiara Bartalucci è ricercatrice post-doc all’Università di Firenze ed esperta di acustica e project management. Nel 2018 ha ricevuto il Young Researcher Award dall’EAA e nel 2020 un premio per la migliore tesi di dottorato in acustica dall’AIA. È autrice di più di quaranta articoli.

Federico Fagioli, ingegnere meccanico-energetico, è un ricercatore post-doc all’Università di Firenze specializzato in termodinamica e cicli di conversione dell’energia. Collabora con diverse aziende in progetti strategici di ricerca e sviluppo. È autore di numerosi articoli scientifici.

Andrea Giachetti, ingegnere strutturista, conclude il dottorato internazionale nel 2017. Nello stesso anno riceve un premio internazionale dal CTBUH. Nel 2020 riceve una menzione speciale dall’ANIV in ambito di ingegneria del vento. Attualmente lavora per l’Università degli Studi di Firenze.

Alberto Niccolai ha conseguito il dottorato di ricerca europeo nel 2017 in Scienze Agrarie e Ambientali. È ricercatore post-doc presso il DAGRI dell’Università di Firenze. Si occupa di microalghe per la produzione di nuovi alimenti e bioattivi per l’agroindustria. È coautore di oltre venti articoli.

Leonardo Verdi è assegnista di ricerca al DAGRI dell’Università di Firenze. Ha conseguito il dottorato di ricerca nel 2018 in Scienze agrarie e ambientali. Le sue attività di ricerca sono: studio delle emissioni di gas serra dal sistema suolo-pianta-atmosfera; gestione della fertilizzazione e sostenibilità delle attività agricole.
  1. Abiusi, F., Sampietro, G., Marturano, G., Biondi, N., Rodolfi, L., D'Ottavio, M., Tredici, M. R., 2014. Growth, photosynthetic efficiency, and biochemical composition of Tetraselmis suecica F&M‐M33 grown with LEDs of different colors. Biotechnology and bioengineering 111, 956-964.
  2. AIDTPG, 2015. Linee guida per la gestione dei patrimoni arborei pubblici (nell’ottica del Risk Management). Editoriale Sometti, Mantova.
  3. Alburquerque, J.A., de la Fuente, C., Campoy, M., Carrasco, L., Nájera, I., Baixauli, C., Caravaca, F., Roldán, A., Cegarra, J., Bernal, M.P., (2012). Agricultural use of digestate for horticultural crop production and improvement of soil properties. Eur. J. Agron. 43, 119–128. DOI: 10.1016/j.eja.2012.06.001
  4. Alexander, S. T., 1986. Adaptive Signal Processing, New York: Springer-Verlag.
  5. Ancelin, Philippe, Courbaud, Benoît, Fourcaud, Thierry, 2004. Development of an individual tree-based mechanical model to predict wind damage within forest stands. Forest Ecology and Management 203, 101–121. DOI: 10.1016/j.foreco.2004.07.067
  6. ARPAT. <http://sira.arpat.toscana.it/apex2/f?p=137:3:0>.
  7. Ashrae Refrigeration Handbook - “Chapter 39: Ultralow-Temperature Refrigeration”, 2002.
  8. Baker, C. J., Bell, H., 1992. The aerodynamics of urban trees. Journal of Wind Engineering and Industrial Aerodynamics 44, 2655-2666. DOI: 10.1016/0167-6105(92)90057-H
  9. Bartalucci, Chiara, Borchi, Francesco, Carfagni, Monica, Paolucci, Libero, Analysis and development of an active noise control system for the cancellation of noise produced by the reactors of electric stations, Proceedings of Internoise 2020 Conference, 23-26 August 2020, online.
  10. Batista, A. P., Niccolai, A., Bursic, I., Sousa, I., Raymundo, A., Rodolfi, L., Biondi, N., Tredici, M. R., 2019. Microalgae as functional ingredients in savory food products: application to wheat crackers. Foods 8, 611.
  11. Becker, 2004. Microalgae in human and animal nutrition. In: Richmond A. (ed), Handbook of Microalgal Culture: Biotechnology and Applied Phycology. Blackwell Publishing Ltd., 312-351.
  12. Becker, E. W., 2007. Micro-algae as a source of protein. Biotechnology advances 25, 207-210.
  13. Bellanger, M., 1987. Adaptive Digital Filters and Signal Analysis, New York: Marcel Dekker.
  14. Berland, Adam, Shiflett, Sheri A., Shuster, William D., Garmestani, Ahjond S., Goddard, Haynes C., Herrmann, Dustin L., Hopton, Matthew E., 2017. The role of trees in urban stormwater management. Landscape and Urban Planning 162, 167–177. DOI: 10.1016/j.landurbplan.2017.02.017
  15. Blanken, W., Cuaresma, M., Wijffels, R. H., Janssen, M., 2013. Cultivation of microalgae on artificial light comes at a cost. Algal Research 2, 333-340.
  16. Bleakley S., Hayes M., 2017. Algal Proteins: extraction, application, and challenges concerning production. Foods 6, 33.
  17. Blocken, Bert, Stathopoulos, Ted, van Beeck, Jeroen, 2016. Pedestrian-level wind conditions around buildings: Review of wind-tunnel and CFD techniques and their accuracy for wind comfort assessment. Building Environment 100, 50–81. DOI: 10.1016/j.buildenv.2016.02.004
  18. Burgess, J.C., 1981. Active adaptive sound control in a duct: A computer simulation, J. Acoust. Soc. Amer., vol. 70, pp. 715–726.
  19. Cermak, J. E., Davenport, A. G., Plate, E. J., Viegas, Domingos X., 1993. Wind Climate in Cities, 23-39. Proceedings of the NATO Advanced Study Institute on Wind Climate in Cities Waldbronn, Germany. July 5-16, 1993.
  20. Chini Zittelli, G., Biondi, N., Rodolfi, L., Tredici, M. R., 2013. Photobioreactors for mass production of microalgae. Handbook of Microalgal Culture: Biotechnology and Applied Phycology. Blackwell Publishing Ltd., 225-266.
  21. Chiriacò M. V., Grossi G., Castaldi S., Valentini R., (2017). The contribution to climate change of the organic versus conventional wheat farming: A case study on the carbon footprint of wholemeal bread production in Italy. Journal of Cleaner Production 153: 309-319 . DOI: 10.1016/j.jclepro.2017.03.111
  22. Clarkson, P. M., 1993. Optimal and Adaptive Signal Processing, Boca Raton, FL: CRC Press, 1993.
  23. Commissione Europea, (2020). Comunicazione della Commissione al Parlamento Europeao, al Consiglio, al Comitato Economico e Sociale Europeo e al Comitato delle Regioni. Una strategia “Dal produttore al consumatore” per un sistema alimentare equo, sano e rispettoso dell’ambiente. COM (2020) 381.
  24. Cowan, C. F. N., Grant, P. M., 1985 Adaptive Filters, Englewood Cliffs, NJ: Prentice-Hall.
  25. DOE, 2013. Solid-State Lighting Research and Development. Multi-Year Program Plan. Office of Energy Efficiency & Renewable Energy, United States Department of Energy.
  26. Dotzek, N., P. Groenemeijer, B. Feuerstein, and A. M. Holzer, 2009a: Overview of ESSL’s severe convective storms research using the European Severe Weather Database ESWD. Atmos. Res., 93, 575−586. DOI: 10.1016/j.ufug.2020.126941
  27. Du, K., Zhang, S., Xu, W., Niu, X., 2009. “A study on the cycle characteristics of an auto-cascade refrigeration system” - Experimental Thermal and Fluid Science 33, 240–245.
  28. Earthrise® Nutritional, 2019. Benefits of Linablue®. <https://www.earthrise.com/benefits-of-linablue>.
  29. EC, 2012. The Multifunctionality of Green Infrastructure. Science for Environmental Policy. DG Environment News Alert Service. In-depth Reports. 37 <https://ec.europa.eu/environment/nature/ecosystems/docs/Green_Infrastructure.pdf>. DOI: 10.1016/j.ufug.2020.126639
  30. Ellison, M. J., 2005. Quantified tree risk assessment used in the management of amenity trees. Journal of Arboriculture 31, 57–65. DOI: 10.2134/jeq2015.11.0567
  31. Eriksson, L. J., 1990. Computer-aided silencing—An emerging technology, Sound Vib., vol. 24, pp. 42–45.
  32. EU, 2006. European Commission. Regulation (EC) N1924/2006 of the European Parliament and of the Council of 20 December 2006 on nutritions and health claims made on foods. O. J. Eur. Union 2007, 12, 3–18.
  33. European Environment Agency, Environmental noise in Europe, 2020. DOI: 10.2800/686249.
  34. Fabbri, C., Labartino, N., Manfredi, S., Piccinini, S., 2013. Biogas, il settore è strutturato e continua a crescere. Inf. Agrar. 11, 11–18.
  35. FAO, 2016. Guidelines on urban and peri-urban forestry, by F. Salbitano, S. Borelli, M. Conigliaro and Y. Chen. FAO Forestry Paper 178, 170. Rome, Food and Agriculture Organization of the United Nations.
  36. Forbes-Laird, J., 2006. THREATS: Tree hazard rating, evaluation and treatment system. A method for identifying, recording & managing hazards from trees. Dendron House, 74 Barford Road, Blunham, Bedford.
  37. Fradinho, P., Niccolai, A., Soares, R., Rodolfi, L., Biondi, N., Tredici, M. R., Sousa, I., Raymundo, A., 2020. Effect of Arthrospira platensis (spirulina) incorporation on the rheological and bioactive properties of gluten-free fresh pasta. Algal Research, 45, 101743.
  38. Fraga, H., Malheiro, A. C., Moutinho‐Pereira, J., Santos, J. A., 2012. An overview of climate change impacts on European viticulture. Food and Energy Security 1, 94-110.
  39. Frioni, T., Sabbatini, P., Tombesi, S., Norrie, J., Poni, S., Gatti, M., Palliotti, A., 2018. Effects of a biostimulant derived from the brown seaweed Ascophyllum nodosum on ripening dynamics and fruit quality of grapevines. Scientia Horticulturae 232, 97-106.
  40. Fuller, C. R., Elliot, S. J., Nelson, P. A., 1996. Active Control of Vibration. San Diego, CA: Academic.
  41. García, J. L., de Vicente, M., Galán, B., 2017. Microalgae, old sustainable food and fashion nutraceuticals. Microbial biotechnology 10, 1017-1024.
  42. Gardiner, B. A., Peltola, H. M., Kellomäki, S., 2000. Comparison of two models for predicting the critical wind speeds required to damage coniferous trees. Ecological Modelling 129, 1–23. DOI: 10.1016/S0304-3800(00)00220-9
  43. Giachetti, A., Ferrini, F., Bartoli, G., 2021, A risk-analysis procedure for urban trees subjected to wind- and rainstorm, Urban Forestry and Urban Greening 58 (2021) 126941. DOI: 10.1016/j.ufug.2020.126941
  44. Gianesini, J., 2010. Illuminazione privata: analisi di componenti di impianti per illuminotecnica. Tesi di Laurea in Ingegneria Elettronica.
  45. Gill, S. E., Handley, J. F., Ennos, A. R., Pauleit, S., 2007. Adapting cities for climate change: The role of the green infrastructure. Built Environment 33, 115–133. DOI: 10.2148/benv.33.1.115
  46. Gong, M.Q., Luo, E.C., Liang, J.T., Zhou, Y., Wu, J.F. “Thermodynamic Analysis of a Mixed-Refrigerant Auto-Cascade J-T Cryocooler with Distributed Heat Loads” - Cryocoolers 11, edited by R.G. Ross, Jr.
  47. Goodwin, G. C., Sin, K. S., 1984. Adaptive Filtering Prediction and Control, Englewood Cliffs, NJ: Prentice-Hall.
  48. Hansen, C. H., Snyder, S. D., 1997. Active Control of Noise and Vibration, London, U.K.: E&FN Spon.
  49. Haykin, S., 1991. Adaptive Filter Theory, 2nd ed. Englewood Cliffs, NJ: Prentice-Hall.
  50. Honig, M.L., Messerschmitt, D. G., 1986. Adaptive Filters: Structures, Algorithms, and Applications, Boston, MA: Kluwer.
  51. Hossain, M. A., Bhattacharjee, S., Armin, S. M., Qian, P., Xin, W., Li, H. Y., Burritt, D. J., Fujita M., Tran, L. S. P., 2015. Hydrogen peroxide priming modulates abiotic oxidative stress tolerance: insights from ROS detoxification and scavenging. Frontiers in plant science 6, 420.
  52. <https://www.refworld.org/docid/57b6e3e44.html>.
  53. Hu, Q., 2019. Current status, emerging technologies, and future perspectives of the world microalgal industry. 6th EABA and EC Contractors' Conference and the 13rd International Algae Congress. Paris, France, 03-05 Dec 2019, 139.
  54. Hugh, N., Mathison, M., Bowman A., 2013. “Modeling and Testing of an R-23/R-134a Mixed Refrigerant System for Low Temperature Refrigeration” – Proceedings of the 2013 ASHRAE Annual Conference.
  55. International Standard IEC 60335-2-89:2019.
  56. Kajikawa, Y., Gan, W.-S., Kuo, S. M., 2012. Recent advances on active noise control: open issues and innovative applications, APSIPA Transactions on Signal and Information Processing, vol. 1, p. e3.
  57. Kerry, F. G., 2007. “Industrial Gas Handbook - Gas Separation and Purification” - CRC Press, Taylor and Francis Group.
  58. Kido, K., 1975. Reduction of noise by use of additional sound sources, in Proc. Inter-noise, 647–650.
  59. Kim, Y., Rahardjo, H., Tsen-Tieng, D. L., 2020. Stability analysis of laterally loaded trees based on tree-root-soil interaction. Urban Forestry and Urban Greening 49, 126639. DOI: 10.1016/j.ufug.2020.126639
  60. Kuo, S. M., Chen, C., 1990. Implementation of adaptive filters with the TMS320C25 or the TMS320C30, in Digital Signal Processing Applications with the TMS320 Family, vol. 3, P. Papamichalis, Ed. Englewood Cliffs, NJ: Prentice-Hall, ch. 7, pp. 191–271.
  61. Kuo, S. M., Morgan, D. R., 1996. Active Noise Control Systems—Algorithms and DSP Implementations, New York: Wiley.
  62. Kuo, S. M., Morgan, D. R., 1999. Active noise control: a tutorial review, Proc. of IEEE, vol.87, no.6, pp.943-973, June 1999.
  63. Legambiente, 2020. Rapporto 2020 “il clima è già cambiato”, <https://www.legambiente.it/wp-content/uploads/2020/11/Rapporto-cittaclima-2020.pdf>.
  64. Li, Y., Yang, H., Cao, F. M., 2009. Effect of ultraviolet irradiation on photostability of C-phycocyanin in a silica matrix. Research on Chemical Intermediates, 35, 607-613.
  65. Livesley, S. J., McPherson, G. M., Calfapietra, C., 2016. The urban forest and ecosystem services: Impacts on urban water, heat, and pollution cycles at the tree, street, and city scale. Journal of Environmental Quality 45, 119–124. DOI: 10.2134/jeq2015.11.0567
  66. Lonsdale, D., 2000. Hazards from trees. A general guide. Practice guide, ed. Forestry Commission, Edinburgh, United Kingdom.
  67. Lovisolo, C., Lavoie-Lamoureux, A., Tramontini, S., Ferrandino, A., 2016. Grapevine adaptations to water stress: new perspectives about soil/plant interactions. Theoretical and Experimental Plant Physiology 28, 53-66.
  68. Lu, Y., Xu, J., 2015. Phytohormones in microalgae: a new opportunity for microalgal biotechnology? Trends Plant Sci 20, 273-282.
  69. Lueg, P., 1936. Process of silencing sound oscillations, U.S. Patent 2 043 416, June 9, 1936.
  70. Martelli, G., Folli, C., Visai, L., Daglia, M., Ferrari, D., 2014. Thermal stability improvement of blue colorant C-Phycocyanin from Spirulina platensis for food industry applications. Process Biochemistry 49, 154-159.
  71. Mbow, C., C. Rosenzweig, L.G. Barioni, T.G. Benton, M. Herrero, M. Krishnapillai, E. Liwenga, P. Pradhan, M.G. Rivera-Ferre, T. Sapkota, F.N. Tubiello, Y. Xu, 2019: Food Security. In: Climate Change and Land: an IPCC special report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrial ecosystems [P.R. Shukla, J. Skea, E. Calvo Buendia, V. Masson-Delmotte, H.-O. Pörtner, D.C. Roberts, P. Zhai, R. Slade, S. Connors, R. van Diemen, M. Ferrat, E. Haughey, S. Luz, S. Neogi, M. Pathak, J. Petzold, J. Portugal Pereira, P. Vyas, E. Huntley, K. Kissick, M. Belkacemi, J. Malley, (eds.)]. In press.
  72. Ministero della Salute, 2013. Ridurre la mortalità infantile per il raggiungimento dell’Obiettivo di Sviluppo del Millennio n. 4*. Dipartimento della Sanità Pubblica e dell’Innovazione. Direzione Generale dei Rapporti Europei e Internazionali, Ufficio III – ex DG RUERI.
  73. Mishra, S. K., Shrivastav, A., Mishra, S., 2008. Effect of preservatives for food grade C-PC from Spirulina platensis. Process Biochemistry 43, 339-345.
  74. Mosedale, J. R., Abernethy, K. E., Smart, R. E., Wilson, R. J., Maclean, I. M., 2016. Climate change impacts and adaptive strategies: lessons from the grapevine. Global change biology 22, 3814-3828.
  75. Nelson, P.A., Elliot, S. J., 1992. Active Control of Sound, SanDiego, CA: Academic.
  76. Niccolai, A., Bažec, K., Rodolfi, L., Biondi, N., Zlatić, E., Jamnik, P., Tredici, M. R., 2020. Lactic acid fermentation of Arthrospira platensis (spirulina) in a vegetal soybean drink for developing new functional lactose-free beverages. Frontiers in Microbiology, 11.
  77. Niccolai, A., Venturi, M., Galli, V., Pini, N., Rodolfi, L., Biondi, N., D'Ottavio, M., Batista, A. P., Raymundo, A., Granchi, L., Tredici, M. R., 2019a. Development of new microalgae-based sourdough “crostini”: Functional effects of Arthrospira platensis (spirulina) addition. Scientific reports 9, 1-12.
  78. Niccolai, A., Venturi, M., Galli, V., Pini, N., Rodolfi, L., Biondi, N., Granchi, L., Tredici, M. R., 2021. Vegetable oils protect phycocyanin from thermal degradation during cooking of spirulina-based “crostini”. LWT 138, 110776.
  79. Niccolai, A., Zittelli, G. C., Rodolfi, L., Biondi, N., Tredici, M. R., 2019b. Microalgae of interest as food source: Biochemical composition and digestibility. Algal Research 42, 101617.
  80. Parađiković, N., Teklić, T., Zeljković, S., Lisjak, M., Špoljarević, M., 2019. Biostimulants research in some horticultural plant species—A review. Food and Energy Security 8, e00162.
  81. Petersen, S. B., Jonson, V., Fojan, P., Wimmer, R., Pedersen, S., 2004. Sorbitol prevents the self-aggregation of unfolded lysozyme leading to an up to 13 C stabilisation of the folded form. Journal of biotechnology 114, 269-278.
  82. Pokorny, Jill D., 2003. Urban tree risk management: a community guide to program design and implementation, USDA Forest Service, Northeastern Area St, Paul, MN.
  83. Prabakaran, G., Sampathkumar, P., Kavisri, M., Moovendhan, M., 2020. Extraction and characterization of phycocyanin from Spirulina platensis and evaluation of its anticancer, antidiabetic and antiinflammatory effect. International journal of biological macromolecules 153, 256-263.
  84. Protocollo di Kyoto della convenzione quadro delle nazioni unite sui cambiamenti climatici 1997.
  85. Protocollo di Montreal sulle sostanze che impoveriscono lo strato d'ozono 1987 - 0.814.021 RU 1989 477; FF 1988 II 830.
  86. Regolamento UE 517/2014 F-gas.
  87. Ross, C. F., 1981. A demonstration of active control of broadband sound, J. Sound Vib., vol. 74, no. 3, pp. 411–417.
  88. Rui, S., Zhang, H., Zhang, B., Wen, D., 2016. “Experimental investigation of the performance of a single-stage auto-cascade refrigerator” - Heat and Mass Transfer, 52 (1). Pp. 11-20. ISSN 0947-7411.
  89. Sabzalian, M. R., Heydarizadeh, P., Zahedi, M., Boroomand, A., Agharokh, M., Sahba, M. R., Schoefs, B., 2014. High performance of vegetables, flowers, and medicinal plants in a red-blue LED incubator for indoor plant production. Agronomy for sustainable development 34, 879-886.
  90. Salvi, L., Brunetti, C., Cataldo, E., Niccolai, A., Centritto, M., Ferrini, F., Mattii, G. B., 2019. Effects of Ascophyllum nodosum extract on Vitis vinifera: Consequences on plant physiology, grape quality and secondary metabolism. Plant Physiology and Biochemistry 139, 21-32.
  91. Salvi, L., Niccolai, A., Cataldo, E., Sbraci, S., Paoli, F., Storchi, P., Rodolfi, L., Tredici, M., Mattii, G. B., 2020. Effects of Arthrospira platensis Extract on Physiology and Berry Traits in Vitis vinifera. Plants, 9(12), 1805.
  92. Schmatz, D. A., da Silveira Mastrantonio, D. J., Costa, J. A. V., de Morais, M. G., 2020. Encapsulation of phycocyanin by electrospraying: A promising approach for the protection of sensitive compounds. Food and Bioproducts Processing 119, 206-215.
  93. Tilman, D., Balzer, C., Hill, J., Befort, B. L., 2011. Global food demand and the sustainable intensification of agriculture. Proceedings of the National Academy of Science of the United States of America 108:50, 20260-20264.
  94. Tredici, M. R., 2004. Mass production of microalgae: photobioreactors. Handbook of microalgal culture: Biotechnology and applied phycology 1, 178-214.
  95. Tredici, M. R., 2018. Food from microalgae: Challenges and Opportunities - IBIC 2018, Venice (Italy).
  96. Tredici, M. R., Rodolfi, L., Biondi, N., Bassi, N., Sampietro, G., 2016. Techno-economic analysis of microalgal biomass production in a 1-ha Green Wall Panel (GWP®) plant. Algal Research 19, 253-263.
  97. Treichler, J. R., Johnson, C. R., Larimore, M. G., 1987. Theory and Design of Adaptive Filters, New York: Wiley
  98. Tuomisto H.L., Hodge I.D., Riordan P., Macdonald D.W., (2012). Does organic farming reduce environmental impacts? A meta-analysis of European research. J. Environ. Manag. 112: 309-320. DOI: 10.1016/j.jenvman.2012.08.018
  99. UNDDR, 2015. Sendai Framework for Disaster Risk Reduction 2015-2030.
  100. UNISDR, 2009. UNISDR Terminology on Disaster Risk Reduction.
  101. United Nations General Assembly, Transforming our world: the 2030 Agenda for Sustainable Development, 21 October 2015, A/RES/70/1.
  102. United Nations, D.E.S.A., Division, Pop, 2017. World Population Prospects: the 2017 Revision, Key Findings and Advance Tables. ESA/P/WP/248.
  103. Venkatarathnam, G., 2008.“Cryogenic Mixed Refrigerant Processes” - The International Cryogenics Monograph Series, Springer.
  104. Verdi L., Kuikman P.J., Orlandini S., Mancini M., Napoli M., Dalla Marta A., (2019a). Does the use of digestate to replace mineral fertilizers have less emissions of N2O and NH3? Agric. For. Meteorol., 269: 112-118. DOI: 10.1016/j.agrformet.2019.02.004
  105. Warnake, G. E., Tichy, J., Poole, L. A., 1981. Improvements in adaptive active attenuators, in Proc. Inter-noise, pp. 307–310.
  106. Widrow, B., Stearns, S. D., 1985. Adaptive Signal Processing, Englewood Cliffs, NJ: Prentice-Hall.
  107. Willer H., Schlatter B., Trávníček J., Kemper L., Lernoud J., (2020). The World of Organic Agriculture. Statistics and Emerging Trends 2020. Research Institute of Organic Agriculture (FiBL), Frick, and IFOAM – Organics International, Bonn.
  108. World Health Organization, Environmental Noise Guidelines for the European Region, 2018.
  109. Wu, Q., Liu, L., Miron, A., Klímová, B., Wan, D., Kuča, K., 2016. The antioxidant, immunomodulatory, and anti-inflammatory activities of Spirulina: an overview. Archives of toxicology 90, 1817-1840.
PDF
  • Anno di pubblicazione: 2022
  • Pagine: 80
  • eISBN: 978-88-5518-541-7
  • Licenza d'uso: CC BY 4.0
  • © 2022 Author(s)
Download PDF
XML
  • Anno di pubblicazione: 2022
  • eISBN: 978-88-5518-543-1
  • Licenza d'uso: CC BY 4.0
  • © 2022 Author(s)
Download XML
Informazioni bibliografiche

Titolo del libro

PROGETTO STREAMING - STRategiE di mitigazione e gestione dei rischi AMbientalI: casi di studio Nel territorio reGionale Toscano

Sottotitolo del libro

Azioni locali di sostenibilità: cinque progetti per il futuro del territorio toscano

Curatori

Chiara Bartalucci, Federico Fagioli, Andrea Giachetti, Alberto Niccolai, Leonardo Verdi

Opera sottoposta a peer review

Anno di pubblicazione

2022

Copyright

© 2022 Author(s)

Licenza d'uso

CC BY 4.0

Licenza dei metadati

CC0 1.0

Editore

Firenze University Press

DOI

10.36253/978-88-5518-541-7

eISBN (pdf)

978-88-5518-541-7

eISBN (xml)

978-88-5518-543-1

Collana

Proceedings e report

ISSN della collana

2704-601X

e-ISSN della collana

2704-5846

442

Download dei libri

729

Visualizzazioni

Cerca in questo libro
Salva la citazione
Libri consigliati

1.663

Volumi pubblicati

1.361

Libri in accesso aperto

in catalogo

2.368

Capitoli di Libri

3.870.371

Download dei libri

4.536

Autori

da 943 Istituzioni e centri di ricerca

di 66 Nazioni

67

scientific boards

da 357 Istituzioni e centri di ricerca

di 43 Nazioni

1.249

I referee

da 381 Istituzioni e centri di ricerca

di 38 Nazioni