Go to the content. | Move to the navigation | Go to the site search | Go to the menu | Contacts | Accessibility

| Create Account

Pappalardo, Salvatore Eugenio (2017) Agrosystems and Ecosystem Services: an agroenvironmental assessment of vegetated systems for phytoremediation of water from agricultural drainage. [Ph.D. thesis]

Full text disponibile come:

[img]PDF Document (Tesi di dottorato) - Accepted Version
Thesis not accessible until 31 December 2019 for intellectual property related reasons.
Visibile to: nobody

6Mb

Abstract (english)

Relationships between Ecosystem Services and agrosystems are extremely important both to understand the bidirectional flow of services from/to agriculture and to quantify goods and benefits for human societies. Wetland systems nowadays represent an important cornerstone for beneficial Ecosystem Services, especially in intensive agricultural landscapes characterized by shallow water and a dense minor channel network like the territory of the Venice Lagoon drainage system. Wetlands provide a crucial suite of regulating, supporting, provisioning and cultural services to regulate water flows and nutrient cycling, remove and detoxify excess fertilizers and pesticides, sequester carbon, enhance biodiversity and provide cultural benefits to local communities. By three experimental study cases this research present results about the assessment of the water purification service provided by wetlands in mitigating agricultural contamination; moreover, estimation of a provisioning service such as bioenergy derived from wetland vegetation was performed. In the study case “a constructed wetland for water purification services from pesticide in an intensive cropping system” results show that the system can reduce runoff concentration of metolachlor and terbuthylazine by a factor of 45-80 even in extreme flooding conditions. Herbicides retention in the constructed wetland was reversible, and the second and third floods mobilized 14-31% and 3.5-7.0% respectively, of the amount detected in the first flood. In the second experimentation “vegetated ditches as water purification systems to mitigate contamination from pesticides runoff” results show that the ditch can immediately reduce runoff concentration of herbicides by at least 50% even in extreme flooding conditions; as a general rule, a runoff of 1 mm from 5 ha is mitigated by 99% in 100 m of vegetated ditch. In the study case “Assessing phytoremediation performance of an integrated agricultural wetland” results show that median concentrations of total nitrogen were 2.43 ppm at the inlet and 1.79 at the outlet, while after an extreme rainfall event, total nitrogen concentrations were 6.34 ppm at the inlet and 1.29 ppm at the outlet. In general, wetland systems perform a high buffer capacity both for nutrient and herbicides, capable to provide water purification service, protecting downstream surface water. Moreover, this project confirms that the implementation of constructed wetlands and offsite mitigation measures like vegetated ditches in agro-systems can improve the sustainability of agricultural production.

Abstract (italian)

Il rapporto tra servizi ecosistemici e agricoltura è di cruciale importanza, sia per investigare il flusso bidirezionale di servizi che attraversa il sistema agricolo, sia per quantificare i beni e servizi da esso derivati, indispensabili alle società umane. Le zone umide rappresentano oggigiorno un elemento di fondamentale importanza, soprattutto se localizzate in territori agricoli intensivi, come ad esempio il bacino scolante della laguna di Venezia. I sistemi wetland, infatti, sono in grado di erogare importanti servizi ecosistemici: regolazione, supporto, approvvigionamento; esse sono capaci di regolare il flusso di acqua ed il ciclo di nutrienti, mitigare l’eccesso di fertilizzanti e pesticidi, sequestrare carbonio, migliorare la biodiversità. Attraverso tre sperimentazioni a scala campo il presente progetto di ricerca intende valutare il servizio di water purification erogato da zone umide nel mitigare l’inquinamento da drenaggio agricolo; un ultimo caso, invece, vuole stimare il servizio di approvvigionamento legato alla vegetazione presente lungo il reticolo minore, stimandone l’energia potenziale derivata.
Nel primo caso di studio “a constructed wetland for water purification services from pesticide in an intensive cropping system” i risultati mostrano come il sistema possa ridurre la concentrazione di metolacloro e terbutilazina nelle acque di runoff di un fattore 45-80, anche in condizioni di eventi estremi.
Nella seconda sperimentazione “vegetated ditches as water purification systems to mitigate contamination from pesticides runoff” i risultati mostrano come canale vegetato in alveo può ridurre le concentrazioni di runoff contaminato almeno del 50%, anche in condizioni di eventi pluviometrici estremi; in generale, un runoff di 1 mm da 5 ha di bacino agricolo viene mitigato al 99% in 100 metri di canale vegetato in alveo.
Nel terzo caso “assessing phytoremediation performance of an integrated agricultural wetland” i risultati mostrano come le concentrazioni mediane di N totale siano state di 2.43 ppm in entrata e 1.79 all’uscita del sistema, mentre, a seguito di un importante evento di precipitazione, siano passate da 6.34 ppm (inlet) a 1.29 ppm (outlet). In generale, quindi, le zone umide agricole hanno mostrato una grande capacità nel purificare le acque contaminate da drenaggio agricolo, proteggendo le acque superficiali situate a valle. La ricerca, inoltre, conferma che l’implementazione di wetland costruite e dispositivi di mitigazione off-site possono aumentare la sostenibilità della produzione agricola.

Aggiungi a RefWorks
EPrint type:Ph.D. thesis
Tutor:Borin, Maurizio
Ph.D. course:Ciclo 29 > Corsi 29 > SCIENZE DELLE PRODUZIONI VEGETALI
Data di deposito della tesi:28 January 2017
Anno di Pubblicazione:28 January 2017
Key Words:servizi ecosistemici, agrosistemi, fitodepurazione, zone umide, canali vegetati / ecosystem services, agrosystems, fitoremediation, fitodepuration, wetland, vegetated ditches, pesticides, nutrients
Settori scientifico-disciplinari MIUR:Area 07 - Scienze agrarie e veterinarie > AGR/02 Agronomia e coltivazioni erbacee
Area 07 - Scienze agrarie e veterinarie > AGR/08 Idraulica agraria e sistemazioni idraulico-forestali
Struttura di riferimento:Dipartimenti > Dipartimento di Agronomia Animali Alimenti Risorse Naturali e Ambiente
Codice ID:10027
Depositato il:16 Nov 2017 11:06
Simple Metadata
Full Metadata
EndNote Format

Bibliografia

I riferimenti della bibliografia possono essere cercati con Cerca la citazione di AIRE, copiando il titolo dell'articolo (o del libro) e la rivista (se presente) nei campi appositi di "Cerca la Citazione di AIRE".
Le url contenute in alcuni riferimenti sono raggiungibili cliccando sul link alla fine della citazione (Vai!) e tramite Google (Ricerca con Google). Il risultato dipende dalla formattazione della citazione.

Amon, T., Amon, B., Kryvoruchko, V., Machmuller, A., Hopfner-Sixt, K., Bodiroza, V., Hrbek, R., Friedel, J., Potsch, E., Wagentristl, H., Schreiner, M., Zollisch, W. (2007b). Methane production through anaerobic digestion of various energy crops grown in sustainable crop rotation. Bioresource Technology 98, 3204–3212. Cerca con Google

Amon, T., Bodiroza, V., Kryvoruchko, V., Machmüller, A., Bauer, A. (2007a). Energetische Nutzung von Schilfgras von extensiven Naturschutzflächen des Nationalparks Neusiedler See und Makrophyten des Neusiedler Sees (Energy use of common reed from extensive conservation grassland in the Neusiedler See National Park and of macrophytes in the Neusiedler See lake). Research Report, Vienna. Cerca con Google

Amon, T., Kryvoruchko, V., Amon, B., Bodiroza, V., Zollitsch, W., Boxberger, J., Potsch, E. (2005). Biogas production from grassland biomass in the alpine region. Agric. Eng. (Landtechnik) 60, 336–337. Cerca con Google

Anderson, B.S., Phillips, B.M., Hunt, J.W., Largay, B., Shihadeh, R., Tjeerdema, R.S. (2011). Pesticide and toxicity reduction using an integrated vegetated treatment system. Environmental Toxicology and Chemistry 30, 1036–1043. Cerca con Google

AOAC International (2000). Official methods of Analysis of AOAC International, 17th ED. http://www.eoma.aoac.org/. Vai! Cerca con Google

Arduino, E., and Barberis, E. (2000). In: Violante, P. (Ed.), Metodi di Analisi Chimica del Suolo. Ministero delle Politiche Agricole e Forestali, Osservatorio Nazionale Pedologico e per la Qualità del Suolo. Franco Angeli, Milano (sec. XV), Italia. Cerca con Google

Aslam, S., Garnier, P., Rumpel, C., Parent, SE., Benoit, P. (2013). Adsorption and desorption behavior of selected pesticides as influenced by decomposition of maize mulch. Chemosphere 91, 1447–1455. DOI: 10.1016/j.chemosphere.2012.12.005. Cerca con Google

Bachand, P.A.M., and Horne, A.J. (2000). Denitrification in constructed free-water surfacewetland: II. Effects of vegetation and temperature. Ecological Engineering 14, 17–32. Cerca con Google

Balvanera, P., Daily, G.C., Ehrlich, P.R., Ricketts, T.H., Bailey, S., Kark, S., Kremen, C., Pereira, H. (2001). Conserving biodiversity and ecosystem services. Science 291, 2047. Cerca con Google

Barchanska, H., Rusek, M., Szatkowska, A. (2012). New procedures for simultaneous determination of mesotrione and atrazine in water and soil. Comparison of the degradation processes of mesotrione and atrazine. Environ. Monit. Assess. 184, 321–334. DOI: 10.1007/s10661-011-1970-5. Cerca con Google

Barra Caracciolo, A., Giuliano, G., Grenni, P., Guzzella, L., Pozzoni, F., Bottoni, P., Fava, L., Crobe, A., Orrù, M., Funari, E. (2005). Degradation and leaching of the herbicides metolachlor and diuron: a case study in an area of Northern Italy. Environ. Poll. 134, 525–534. DOI: 10.1016/j.envpol.2004.08.014. Cerca con Google

Bauer, A., Leonhartsberger, C., Bosch, P., Amon, B., Friedl, A., Amon, T. (2009). Analysis of methane yields from energy crops and agricultural by-products and estimation of energy potential from sustainable crop rotation systems in EU-27. Clean Techn Environ Policy 12, 153–161. DOI: 10.1007/s10098-009-0236-1. Cerca con Google

Beitz, W., Kuttner, KH. (1987). Dubbel pocket-book for engineering. (Dubbel Taschenbuch fur den Maschinenbau). Springer, Berlin. Cerca con Google

Bennett, ER., Moore, MT., Cooper, CM., Smith, S., Shields, FD., Drouillard, KG., Schulz, R. (2005). Vegetated agricultural drainage ditches for the mitigation of pyrethroid-associated runoff. Environ. Toxicol. Chem. 24, 2121–2127. DOI: 10.1897/04.357R.1. Cerca con Google

Bentsen, NS., Felby, C. (2012). Biomass for energy in the European Union - a review of bioenergy resource assessments. Biotechnology for Biofuels. 5, 25. DOI: 10.1186/1754-6834-5-25. Cerca con Google

Bereswill, R., Burkhard, G., Streloke, M., Schulz, R. (2012). Entry and toxicity of organic pesticides and copper in vineyard streams: Erosion rills jeopardise the efficiency of riparian buffer strips. Agr. Ecosyst. Environ. 146, 81–92. DOI: 10.1016/j.agee.2011.10.010. Cerca con Google

Berghahn, R., Mohr, S., Hübner, V., Schmiediche, R., Schmiedling, I., Svetich-Will, E. & Schmidt, R. (2012). Effects of repeated insecticide pulses on macroinvertebrate drift in indoor stream mesocosms. Aquatic Toxicology 122–123, 56–66. Cerca con Google

Bjergager, M.-B.A, Hanson, M.L., Lissemore, L., Henriquez, N., Solomon, K.R., Cedergreen, N. (2011). Synergy in microcosms with environmentally realistic concentrations of prochloraz and esfenvalerate. Aquatic Toxicology 101, 412–422. Cerca con Google

Boithias, L., Sauvage, S., Merlin, G., Jean, S., Probst, J-L., Sánchez Pérez, JM. (2014). New insight into pesticide partition coefficient Kd for modelling pesticide fluvial transport: Application to an agricultural catchment in south-western France. Chemosphere 99, 134–142. DOI: 10.1016/j.chemosphere.2013.10.050. Cerca con Google

Bonaiti, G., and Borin, M. (2000). Agronomic observations of Phragmites australis (Cav.) Trin. and Typha latifolia L.: biomass and nitrogen seasonal dynamics. IWA Specialist Group on The Use of Macrophytes in Water Pollution Control Newsletter 22, 20–4. Cerca con Google

Borin, M., and Malagoli, M. (2015). Ecology, functioning and management of wetland systems. Environmental Science and Pollution Research 22, 2357–2359. Cerca con Google

Borin, M., and Tocchetto, D. (2007). Five year water and nitrogen balance for a constructed surface flow wetland treating agricultural drainage waters. Science of the Total Environment 380, 38–47. Cerca con Google

Borin, M., Bonaiti, G. (1997). Versatilità dei sistemi wetland per la fitodepurazione delle acque inquinate. Alcuni esempi applicativi in Texas. Inquinamento 10, 56–59. Cerca con Google

Borin, M., Bonaiti, G., Santamaria, G., and Giardini, L. (2001). A constructed surface flow wetland for treating agricultural waste waters. Water Science Technology 44, 523–530. Cerca con Google

Borin, M., Tocchetto, D. (2007). Five year water and nitrogen balance for a constructed surface flow wetland treating agricultural waters. Science of the Total Environment 380, 38–47. Cerca con Google

Bouldin, JL., Farris, JL., Moore, MT., Cooper, C.M. (2004). Vegetative and structural characteristics of agricultural drainages in the Mississippi Delta landscapes. Environ. Poll. 132, 403–411. DOI: 10.1016/j.envpol.2004.05.026. Cerca con Google

Bouwman, AF., van Grinsven, JM., Eickhout, B. (2010). Consequences of the cultivation of energy crops for the global nitrogen cycle. Ecological Applications 20(1), 101–109. Cerca con Google

Brinson, M. M. & Eckles, D.S. (2011). U.S. Department of Agriculture conservation program and practice effects on wetland ecosystem services: a synthesis. Ecological Applications 21, S116–S127. Cerca con Google

Brix, H. (1994). Functions of macrophytes in constructed wetlands. Water Science Technology 29, 71–78. Cerca con Google

Calamari, D., Vighi, M., Bacci, E. (1987). The use of terrestrial plants biomass as a parameter in the fugacity model. Chemosphere 16, 2359–2364. DOI: 10.1016/0045-6535(87)90293-1. Cerca con Google

Cardinali, A., Otto, S., Zanin, G. (2013). Herbicides runoff in vegetative filter strips: evaluation and validation of a recent rainfall return period model. Int. J. Environ. Analyt. Chem. 1, 1–10. DOI: 10.1080/03067319.2013.841151. Cerca con Google

Carturan, L., Cazorzi, F., Dalla Fontana, G. (2009). Enhanced estimation of glacier mass balance in unsampled areas by means of topographic data. Annals of Glaciology 50, 37– 56. Cerca con Google

Cataldo, D.A., Haroon, L.E., Schrader, L.E., and Youngs, V.L. (1975). Rapid colorimetric determination of nitrate in plant tissue by nitration of salicylic acid. Communications in Soil Science and Plant Analysis 6, 71–80. Cerca con Google

Cazorzi, F., Dalla Fontana, G., De Luca, A., Sofia, G., Tarolli, P. (2013). Drainage network detection and assessment of network storage capacity in agrarian landscape. Hydrological Processes 27(4), 541–553. ISSN: 0885-6087, DOI: 10.1002/hyp.9224. Cerca con Google

Chaabane, H., Vulliet, E., Calvayrac, C., Coste, C-M., Cooper, J-F. (2008). Behaviour of sulcotrione and mesotrione in two soils. Pest Manage. Sci. 64, 86–93. DOI: 10.1002/ps.1456. Cerca con Google

Chiaramonti, D., Prussi, M., Ferrero, S., Oriani, L., Ottonello, P., Torre, P., Cherchi, F. (2012), Review of pretreatment processes for lignocellulosic ethanol production, and development of an innovative method. Biomass and Bioenergy 46, 25–35. Cerca con Google

Cooper, CM., Moore, MT., Bennet, ER., Smith, S., Farris, JL., Milam, CD., Shields, FD (2004). Innovative use of vegetated drainage ditches for reducing agricultural runoff. Water Sci. Technol. 49, 117–123. Cerca con Google

Cosentino, SL., Copani, V., Patanè, C., Mantineo, M., D’Agosta, GM. (2009). Agronomic, energetic and environmental aspects of biomass energy crops suitable for Italian environments. Italian Journal of Agronomy 2, 81–95. Cerca con Google

Cosentino, SL., Testa, G., Scordia, D., Alexopoulou, E. (2012). Future yields assessment of bioenergy crops in relation to climate change and technological development in Europe. Italian Journal of Agronomy 7, 22. Cerca con Google

Costanza, R., Costanza, F., (2002). Introduction to the special issue on the dynamics and value of ecosystem services: integrating economic and ecological perspectives. Ecological Economics, 41(3), 367–73. Cerca con Google

Costanza, R., Fisher, B., Mulder, K., Liu,S., Christopher, T. (2007). Biodiversity and ecosystem services: A multi-scale empirical study of the relationship between species richness and net primary production. Ecological Economics 61, 478– 491. Cerca con Google

Crutzen, PJ., Mosier, AR., Smith, KA., Winiwarter, WW. (2008). N2O release from agro-fuels production negates global warming reduction by replacing fossil fuels. Atmospheric Chemistry and Physics 8, 389–395. Cerca con Google

Cubars, E. and Noviks, G. (2012). Evaluation of reed resources in Latvia and analysis of its use for energy production. Journal of Environmental Biology 33, 387–392. Cerca con Google

Dabrowski, M., Peall, S.K.C., Reinecke, A. J., Liess, M., Schulz, R. (2002). Runoff-related pesticide input into the Lourens River, South Africa: basic data for exposure assessment and risk mitigation at the catchment scale. Water, Air, Soil Pollution 135, 265–283. Cerca con Google

Daily, GC. and Matson, A. (2008). Ecosystem services: From theory to implementation. PNAS 105, 9455–9456. Cerca con Google

De Groot, R., Stuip, M., Finlayson, M., Davidson, N. (2006). Wetlands: guidance for valuing the benefits derived from wetland ecosystem services. Ramsar Technical Report No. 3 CBD Technical Series 27. Gland, Switzerland. Cerca con Google

De Stefani, G. (2012). Performance of floating treatment wetlands (FTW) with the innovative Tech-IA® system. PhD thesis. Università degli Studi di Padova, Padova, Italy. Cerca con Google

De Stefani, G., Tocchetto, D., Salvato, M., and Borin, M. (2011). Performance of a floating treatment wetland for in-stream water amelioration in NE Italy. Hydrobiologia 674, 157–167. Cerca con Google

Desai, V., Potter, RB. (2006). Remote Sensing, GIS and Ground Truthing. SAGE. http://dx.doi.org/10.4135/9781849208925. Vai! Cerca con Google

Di Guardo, A., Calamari, D., Zanin, G., Consalter, A., Mackay, D. (1994). A fugacity model of pesticide runoff to surface water: Development and validation Chemosphere 28, 511–531. DOI: 101016/0045-6535(94)90295-X. Cerca con Google

Durel, L., Estrada-Peña, A., Franc, M., Mehlhorn, H., Bouyer, J. (2015). Integrated fly management in European ruminant operations from the perspective of directive 2009/128/EC on sustainable use of pesticide. Parasitology Research 114, 379–89. Cerca con Google

Dworak, T., Elbersen, B., Van Diepen, K., Staritsky, I., Van Kraalingen, I., Suppit, I., Berglund, M., Kaphengst, T., Laaser, C., Ribeiro, M. (2009). Assessment of inter-linkages between bioenergy development and water availability. Ecologic – Institute for International and European Environmental Policy Berlin/Vienna. Cerca con Google

Dyson, J.S., Beulke, S., Brown, C. D., Lane, M.C.G. (2002). Adsorption and degradation of the weak acid mesotrione in soil and environmental fate implications. Organic compounds in the environment. Journal of Environmental Quality 31, 613–618. Cerca con Google

Edwards, G.P., Molof, A.H., and Schneeman, R.W. (1965). Determination of orthophosphate in fresh and saline waters. Journal of American Water Works Association. 57, 917. Cerca con Google

Elbersen, B., Startisky, I., Hengeveld, I., Schelhaas, MJ., Naeff, H. (2012). Atlas of EU biomass potentials. Spatially detailed and quantified overview of EU biomass potential taking into account the main criteria determining biomass availability from different sources. Biomass Future, European Commission: Intelligent Energy Europe. Cerca con Google

European Biofuels Technology Platform (2013) Report bioenergy report, http://physicsweb.org/articles/news/11/6/16/1. Accessed 26 June 2007. Vai! Cerca con Google

European Commission (2006). Communication from the Commission to the Council and the European Parliament. Renewable energies in the 21st century: building a more sustainable future. COM/2006/0848. Cerca con Google

European Commission (2008). Proposal for a Directive of the European Parliament and of the Council on the promotion of the use of energy from renewable resources. COM/2008/0019. Cerca con Google

European Commission, (2011a). Our life insurance, our natural capital: an EU biodiversity strategy to 2020, COM/2011/244, Brusells. Cerca con Google

European Commission, (2011b). Proposal for a regulation of the European parliament and of the council on support for rural development by the European Agricultural Fund for Rural Development (EAFRD). COM/2011/627, Brussels. Cerca con Google

European Commission. Directive 2009/128/EC of the European Parliament and of the Council of 21 October 2009 establishing a framework for Community action to achieve the sustainable use of pesticides. Cerca con Google

FAO, (2008) The State of Food and Agriculture. Biofuels: prospects risks and opportunities. ISSN 0081-4539. Cerca con Google

FAO, (2009). Statistics from www.faostat.fao.org, updated April 2009, Rome, Italy: FAO. Vai! Cerca con Google

Fava, L., Orrù, MA., Scardala, S., Funari, E. (2007). Leaching potential of carbamates and their metabolites and comparison with triazines. Microchem. J. 86, 204–208. DOI: 10.1016/j.microc.2007.03.003. Cerca con Google

Fazio, S., Monti, A. (2011). Life cycle assessment of different bioenergy production systems including perennial and annual crops. Biomass and Bioenergy. 35, 4868–4878. Cerca con Google

Florio, G. (2014). Agronomic and environmental evaluation of perennial herbaceous plants fertilized with slurry to obtain biomass for bioenergy. PhD thesis, Università degli Studi di Padova, Padova, Italy. Cerca con Google

Freitas, LG., Götz, CW., Ruff, M., Singer, HP., Müller, SR. (2004). Quantification of the new triketone herbicides, sulcotrione and mesotrione, and other important herbicides and metabolites, at the ng/l level in surface waters using liquid chromatography-tandem mass spectrometry. J. Chromatogr. A 1028, 277–286. DOI: 10.1016/j.chroma.2003.11.094. Cerca con Google

Ghirardello, D., Morselli, M., Otto, S., Zanin, G., Di Guardo, A. (2014). Investigating the need of complex vs. simple scenarios to improve predictions of aquatic ecosystem exposure with the SoilPlus model. Environ. Poll. 184, 502–510. DOI: 10.1016/j.envpol.2013.10.002. Cerca con Google

Goldemberg, J., Guardabassi, P. (2010). The potential for first-generation ethanol production from sugarcane. Biofuels, Bioproducts and Biorefining. 4(1), 17–24. Cerca con Google

Gómez-Baggethun, E., de Groot, R., Lomas, P.L., Montes, C. (2010). The history of ecosystem services in economic theory and practice: From early notions to markets and payment schemes. Ecological Economics 69(6), 1209–1218. Cerca con Google

Gottschall, N., Boutin, C., Crolla, A., Kinsley, C., and Champagne, P. (2007). The role of plants in the removal of nutrients at a constructed wetland treating agricultural (dairy) wastewater, Ontario, Canada. Ecological Engineering 29, 154–163. Cerca con Google

Greenaway, M. (2007). The role of macrophytes in nutrient removal using constructed wetlands. Environmental Bioremediation Technologies, 331–351, Springer. ISBN: 978-3-540-34790-3. Cerca con Google

Gregoire, C., Elsaesser, D., Huguenot, D., Lange, J., Lebeau, T., Merli, A., Mose, R., Passeport, E., Payraudeau, S., Schütz, T., Schulz, R., Tapia-Padilla, G., Tournebize, J., Trevisan, M., Wanko, A. (2009). Mitigation of agricultural nonpoint-source pesticide pollution in artificial wetland ecosystems. Environ. Chem. Lett. 7, 205–231. DOI: 10.1007/s10311-008-0167-9. Cerca con Google

Hackett, M., Lawrence, A. (2104). Multifunctional role of field margins in arable farming. CEA report. Cambridge Environmental Assessments, ADAS UK Ltd., Battlegate Road, Boxworth, Cambridge, CB23 4NN, UK. Cerca con Google

Hand, L.H., Kuet, S.F., Lane, M.C.G., Maund, S.J., Warinton, J.S., Hill, I.R. (2001). Influences of aquatic plants on the fate of the pyrethroid insecticide lambda-cyhalothrin in aquatic environments. Environ. Toxicol. Chem. 20, 1740–1745. DOI: 10.1002/etc.5620200817. Cerca con Google

Hansson and Fredriksson, (2004). Use of summer harvested common reed (Phragmites australis) as nutrient source for organic crop production in Sweden. Agriculture, Ecosystems and Environment. 102, 365–375. Cerca con Google

Headley, T.R., and Tanner, C.C. (2006). Applications of floating wetlands for enhanced stormwater treatment: a review. Auckland Regional Council, Technical Publication, Auckland. Cerca con Google

Helbig, S. (2009). Biogas Production from Common Reed in Mariental. Renewable Energy and Ecological Development Solution. REEDS Project. http://www.drfn.info/docs/reeds/Biogas_production_from_REEDS.pdf. Accessed 14 September 2013. Vai! Cerca con Google

Hernández-Crespo, C., Bixquert, J., Gargallo, S., Oliver, N., and Martín, M. (2015). Comparison of three plants in a surface-flow constructed wetland 1 treating eutrophic water in Mediterranean climate. Hydrobiologia. DOI: 10.1007/s10750-015-2493-9. Cerca con Google

Herzon, I., Helenius, J. (2008). Agricultural drainage ditches, their biological importance and functioning. Biol. Cons. 141, 1171–1183. DOI: 10.1016/j.biocon.2008.03.005. Cerca con Google

Hinman, M.L., Klaine, S.J. (1992). Uptake and translocation of selected organic pesticides by rooted aquatic plant Hydrilla verticillata Royle. Environmental Science & Technology 26, 609–613. Cerca con Google

Horppila, J., and Nurminen, L. (2001). The effect of an emergent macrophyte (Typha angustifolia) on sediment resuspension in a shallow north temperate lake. Freshwater Biology 46, 1447–1455. Cerca con Google

Horppila, J., and Nurminen, L. (2003). Effects of submerged macrophytes on sediment resuspension and internal phosphorus loading in Lake Hiidenvesi (southern Finland). Water Research 37, 4468–4474. Cerca con Google

Horppila, J., and Nurminen, L. (2005). Effects of different macrophyte growth forms on sediment and P resuspension in a shallow lake. Hydrobiologia 545, 167–175. DOI: 10.1007/s10750-005-2677-9. Cerca con Google

IEA (2006). World Energy Outlook 2006. International Energy Agency, Paris. Cerca con Google

Istituto Geografico Militare (1976). Carta geografica “Regione”, scala 1:250000, Firenze. Cerca con Google

Jacobs, J. (2008). Ecology and Management of Purple Loosestrife (Lythrum salicaria L.). United States Department of Agriculture, Natural Resources Conservation Service (NRCS), Invasive Species Technical Note No. MT-21. Cerca con Google

Jacobs, J., Pokorny, M., Mangold, J., and Graves-Medley, M. (2011). Biology, Ecology and Management of Yellow flag Iris (Iris pseudacorus L.). Montana State University Extension. Cerca con Google

Jaddhav, R.S., and Buchberger, S.G. (1995). Effects of vegetation on flow through free watersurface wetlands. Ecological Engineering 5, 481–496. Cerca con Google

Jordan, S., Stoffer, J., and Nestlerode, J. (2011). Wetlands as sinks for reactive nitrogen at continental and global scales: A meta-analysis. Ecosystems 14(1), 144–155. Cerca con Google

Kadlec, R.H., and Knight, R.L. (1996). Treatment Wetlands. CRC Lewis Publishers, Boca Raton, FL, USA. Cerca con Google

Kadlec, R.H., and Wallace, S.D. (2009). Treatment Wetlands, Second Edition. CRC Press, Taylor and Francis Group, NY, USA. p. 1016. Cerca con Google

Kallioinen, A., Uusitalo, J., Pahkala, K., Kontturi, M., Viikari, L., von Weymarn, N., Siika-aho, M. (2012). Reed canary grass as a feedstock for 2nd generation bioethanol production. Bioresource Technology 123, 669–672. Cerca con Google

Kask, U., Kask, L., Link, S. (2013). Combustion characteristics of reed and its suitability as a boiler fuel. Mires and Peat 13(05), 1–10. Cerca con Google

Kay, P., Edwards, A. C., Foulger, M. (2009). A review of the efficacy of contemporary agricultural stewardship measures for ameliorating water pollution problems of key concern to the UK water industry. Agricultural Systems 99, 67–75. Cerca con Google

Kitzler, H., Pfeifer, C., Hofbauer, H. (2012). Combustion of reeds in a 3MW district heating plant. International Journal of Environmental Science and Development 3(4). Cerca con Google

Komulaien, M., Simi, P., Hagelberg, E., Ikonen, I., Lyytinen, S. (2008). Reed Energy. Possibilities of using Common Reed for energy generation in Southern Finland. Reports from Turku University of Applied Science. ISBN: 978-952-216-035-5. Cerca con Google

KTBL (2005). Key data for agriculture. (Faustzahalen fur die Land-wirtschaft). Kuratorium fur Bauwesen in der Landwirtschaft e. V, Darmstadt. Cerca con Google

Laabs, V., Amelung, W., Pinto, A., Altstaedt, A., Zech, W. (2000). Leaching and degradation of corn and soybean pesticides in an Oxisol of the Brazilian Cerrados. Chemosphere 41, 1441–1449. Cerca con Google

Lashermes, B., Foufoula-Georgiou, E., Dietrich, WE. (2007). Channel network extraction from high resolution topography using wavelets. Geophysical Research Letters 34, L23S04. DOI: 10.1029/2007GL031140. Cerca con Google

Lazzaro, L., Otto, S., Zanin, G. (2008). Role of hedgerows in intercepting spray drift: Evaluation and modelling of the effects. Agriculture Ecosystems and Environment 123, 317–327. Cerca con Google

Lianpeng, S., Yang, L., and Hui, J. (2009). Nitrogen removal from polluted river by enhanced floating bed grown canna. Ecological Engineering 35, 135–140. Cerca con Google

MacBean, C. (2012). The Pesticide Manual, 16th Edition. British Crop Protection Council Publications. Alton, Hampshire, UK. Cerca con Google

Mackay, D., Paterson, S. (1982). Fugacity revisited. Environ. Sci. Technol. 16, 654A–660A. DOI: 10.1021/es00106a724. Cerca con Google

Mackay, D., Shiu, W.Y., Ma, K.C. (1997). Illustrated handbook of physical-chemical properties and environmental fate for organic chemicals. Volume V: Pesticide Chemicals. Lewis Publisher, Boca Raton, USA. Cerca con Google

MacLeod, M., Scheringer, M., McKone, TE., Hungerbuhler, K. (2010). The state of multimedia mass-balance modeling in environmental science and decision-making. Environ. Sci. Technol. 44, 8360–8364. DOI: 10.1021/es100968w. Cerca con Google

Maes, J., Egoh, B., Willemen, L., Liquete, C., Vihervaara, P., Schagner, J.P., Grizzetti, B., Drakou, E.G., La Notte, A., Zulian, G., Bouraoui, F., Parachini, M.L., Braat, L., Bidoglio, G. (2012). Mapping ecosystem services for policy support and decision making in the European Union, Ecosystem Services 1, 31–39. Cerca con Google

Mahabali, S., Spanoghe, P. (2014). Mitigation of two insecticides by wetland plants: feasibility study for the treatment of agricultural runoff in Suriname (South America). Water Air Soil Pollut 225, 1771. DOI: 10.1007/s11270-013-1771-2. Cerca con Google

Maillard, E., Payraudeau, S., Faivre, E., Gregoire, C., Gangloff, S., Imfeld, G. (2011). Removal of pesticide mixtures in a storm water wetland collecting runoff from a vineyard catchment. Science of Total Environment 409, 2317–2324. Cerca con Google

Maltais-Landry, G., Maranger, R., Brisson, J., and Chazarenc, F. (2009). Nitrogen transformations and retention in planted and artificially aerated constructed wetlands. Water Research 43, 535–545. Cerca con Google

Maucieri, M., Salvato, M., Tamiazzo, J., Borin, M. (2014). Biomass production and soil organic carbon accumulation in a free water surface constructed wetland treating agricultural wastewater in North Eastern Italy. Ecological Engineering 70, 422–428. Cerca con Google

Mayo, A.W., and Bigambo, T. (2005). Nitrogen transformation in horizontal subsurface flow constructed wetlands I: Model development. Physics and Chemistry of the Earth 30, 658–667. http://dx.doi.org/10.1016/j.pce.2005.08.005. Vai! Cerca con Google

MEA, Millennium Ecosystem Assessment, (2005a), Ecosystems and human well–being: Synthesis, Washington, DC: Island Press. Cerca con Google

MEA, Millennium Ecosystem Assessment, (2005), Ecosystems and human well–being: wetlands and water, Washington, DC: Island Press. Cerca con Google

MEA, Millennium Ecosystem Assessment. (2005). Ecosystems and human well–being: wetlands and water. Island Press, Washington DC. Cerca con Google

Meng, P., Pei, H., Hu, W., Shao, Y., and Li, Z. (2014). How to increase microbial degradation in constructed wetlands: Influencing factors and improvement measures. Bioresource Technology, 157, 316-326. Cerca con Google

Merlin, G., Vuillod, M., Lissolo, T., Clement, B. (2002). Fate and bioaccumulation of isoproturon in outdoor aquatic microcosms. Environ. Toxicol. Chem. 21, 1236–1242. Cerca con Google

Mietto, A., Borin, M., Salvato, M., Ronco, P., and Tadiello, N. (2013). TECH-IA floating system introduced in urban wastewater treatment plants in Veneto Region – Italy. Water Science Technology 68(5), 1144–1150. DOI: 10.2166/wst.2013.357. Cerca con Google

Moore, MT., Bennet, ER., Cooper, CM., Smith, Jr S., Shields, Jr FD., Milam, CD., Farris, JL. (2001). Transport and fate of atrazine and lambda-cyhalothrin in an agricultural drainage ditch in the Mississippi Delta, USA. Agr. Ecosyst. Environ. 87, 309–314. Cerca con Google

Moore, MT., Denton, DL., Cooper, C.M, Wrysinski, J., Miller, JL., Reece, K., Crane, D., Robins, P. (2008). Mitigation assessment of vegetated drainage ditches for collecting irrigation runoff in California. J. Environ. Qual. 37, 486–493. DOI: 10.2134/jeq2007.0172. Cerca con Google

Morselli, M., Semplice, M., De Laender, F., Van den Brink, PJ., Di Guardo, A. (2015). Importance of environmental and biomass dynamics in predicting chemical exposure in ecological risk assessment. Sci. Total Environ. 526, 338–345. DOI: 10.1016/j.scitotenv.2015.04.072. Cerca con Google

Mthembu, M.S., Odinga, C.A., Swalaha, F.M., and Bux F. (2013). Constructed wetlands: A future alternative wastewater treatment technology. African Journal of Biotechnology 12(29), 4542–4553. DOI: 10.5897/AJB2013.12978. Cerca con Google

Murphy, J., and Riley J. (1962). A modified single solution method for the determination of phosphate in natural waters. Analytica. Chimica Acta 27, 31. Cerca con Google

Naik, SN., Goud Vaibhav, V., Rout Prasant, K., Dalai Ajay, K. (2010). Production of first and second generation biofuels: A comprehensive review. Renewable and Sustainable Energy Reviews 14, 578–597. Cerca con Google

Nkemka, VN., Murto, M. (2013). Two-stage anaerobic dry digestion of blue mussel and reed. Renewable Energy 50, 359–364. Cerca con Google

O’Geen, A.T., Budd, R., Gan, J., Maynard, J.J., Parikh, S.J., and Dahlgren, R.A. (2010). Chapter one - Mitigating nonpoint source pollution in agriculture with constructed and restored wetlands. Advances in Agronomy 108, 1–76. Cerca con Google

Otto, S., Cardinali, A., Marotta, E., Paradisi, C., Zanin, G. (2012). Effect of vegetative filter strips on herbicide runoff under various types of rainfall. Chemosphere 88, 113–119. DOI: 10.1016/j.chemosphere.2012.02.081. Cerca con Google

Otto, S., Cardinali, A., Marotta, E., Paradisi, C., Zanin, G. (2012). Effect of vegetative filter strips on herbicide runoff under various types of rainfall. Chemosphere 88, 113–119. Cerca con Google

Otto, S., Loddo, D., Baldoin, C., Zanin, G. (2015). Spray drift reduction techniques for vineyards in fragmented landscapes. J. Environ. Manage. 162, 290–298. DOI: 10.1016/j.jenvman.2015.07.060. Cerca con Google

Otto, S., Pappalardo, S.E., Cardinali, A., Masin, R., Zanin, G., Borin, M. (2016). Vegetated ditches for the mitigation of pesticides runoff in the Po Valley. PLoS ONE 11(4): e0153287. DOI: 10.1371/journal.pone.0153287. Cerca con Google

Otto, S., Riello, L., Düring, R-A., Hummel, H. E., Zanin, G. (1997). Herbicide dissipation and dynamics modelling in three different tillage systems. Chemosphere 4, 163–178. Cerca con Google

Otto, S., Vianello, M., Infantino, A., Zanin, G., Di Guardo, A. (2008). Effect of a full-grown vegetative filter strip on herbicide runoff. Maintaining of filter capacity over time. Chemosphere 71, 74–82. DOI: 10.1016/j.chemosphere.2007.10.029. Cerca con Google

Pappalardo, S.E., Otto, S., Gasparini, V., Zanin, G., and Borin, M. (2015). Mitigation of herbicide runoff as an ecosystem service from a constructed surface flow wetland. Hydrobiologia. DOI: 10.1007/s10750-015-2375-1. Cerca con Google

Pappalardo, S.E., Prosdocimi, M., Tarolli, P., and Borin, M. (2015). Assessment of energy potential from wetland plants along the minor channel network on an agricultural floodplain. Environmental Science Pollution Research 22(4), 2479–2490. DOI: 10. 1007/s11356-014-3105-3. Cerca con Google

Pappalardo, SE., Otto, S., Gasparini, V., Zanin, G., Borin, M. (2015). Mitigation of herbicide runoff as an ecosystem service from a constructed surface flow wetland. Hydrobiologia. DOI: 10.1007/s10750-015-2375-1. Cerca con Google

Passalacqua, P., Do Trung, T., Foufoula-Georgiou, E.; Sapiro, GDWE. (2010a). A geometric framework for channel network extraction from LiDAR: Nonlinear diffusion and geodesic paths. Journal of Geophysical Research 115, F01002. DOI: 10.1029/2009JF001254. Cerca con Google

Passalacqua, P., Tarolli, P., Foufoula-Georgiou, E. (2010b). Testing space-scale methodologies for automatic geomorphic feature extraction from LiDAR in a complex mountainous landscape. Water Resources Research 46, W11535. DOI: 10.1029/2009WR008812. Cerca con Google

Pavan, F., Breschigliaro, S., and Borin, M. (2015) Screening of eighteen species for digestate phytodepuration. Environmental Science Pollution Research. 22(4), 2455–2466. DOI: 10.1007/s11356-014-3247-3. Cerca con Google

Petticrew, E. L., and Kalff, J. (1992). Water flow and clay retention in submerged macrophyte bed. Canadian Journal of Fisheries and Aquatic Sciences 49, 2483–2489. Cerca con Google

Pirotti, F., Tarolli, P. (2010). Suitability of LiDAR point density and derived landform curvature maps for channel network extraction. Hydrological Processes 24, 1187–1197. DOI: 10.1002/hyp.758. Cerca con Google

Politeo, M., Borin, M., Milani, M., Toscano, A., Molari, G. (2011). Production and energy value of Phragmites australis obtained from two constructed wetlands. 19th European Biomass Conference and Exhibition. Berlin, Germany. Cerca con Google

Porter, J., Costanza, R., Sandhu, H., Sigsgaard, L., Wratten, S. (2009). The Value of Producing Food, Energy, and Ecosystem Services within an Agro-Ecosystem. Royal Swedish Academy of Sciences Ambio Vol. 38, No. 4. Cerca con Google

Power, A.J. (2010). Ecosystem services and agriculture: tradeoffs and synergies. Philosophical Transactions of the Royal Society, Biological Sciences 365, 2959–2971. Cerca con Google

Power, A.J. (2010). Ecosystem services and agriculture: tradeoffs and synergies. Philosophical Transactions of the Royal Society, Biological Sciences 365(1554), 2959–2971. Cerca con Google

Power, A.J., (2010). Ecosystem services and agriculture: tradeoffs and synergies. Philosophical Transactions of the Royal Society, Biological Sciences 365, 2959–2971. Cerca con Google

Rahman, MD., Mostafiz, SB., Paatero, JV., Lahdelma, R. (2014). Extension of energy crops on surplus agricultural lands: A potentially viable option in developing countries while fossil fuel reserves are diminishing. Renewable and Sustainable Energy Reviews 29, 108–119. DOI: http://dx.doi.org/10.1016/j.rser.2013.08.092. Vai! Cerca con Google

Ramsar Technical Report No. 3, CBD Technical Series No. 27, De Groot R., Stuip M., Finlayson M., Davidson N., (2006), wetlands: guidance for valuing the benefits derived from wetland ecosystem services, Gland, Switzerland. Cerca con Google

Rawlings, J.O., Pantula, S.G., Dickey, D.A. (1998). Applied regression analysis: a research tool. 2nd ed. Springer-Verlag Inc., New York. Cerca con Google

Reichenberger, S., Bach, M., Skitschak, A., Frede, H.G. (2007). Mitigation strategies to reduce pesticide inputs into ground- and surface water and their effectiveness; A review. Science of the Total Environment 384, 1–35. Cerca con Google

Risen, E., Gregeby, E., Tatarchenko, O., Blidberg, E., Malmstrom, ME., Welander, U., Grondahl, F. (2013). Assessment of biomethane production from maritime common reed. Journal of Clearer Production 53, 186–194. Cerca con Google

Robertson, G.P., Swinton, S.M. (2005). Reconcilling agricultural productivity and environmental integrity: a grand challenge for agriculture. Frontiers in Ecology and the Environment 3, 38–46. Cerca con Google

Ruhl, J.B., Kraft, S.E., Lant, C.L. (2007). The law and policy of ecosystem services, Washington DC, Island Press. Cerca con Google

Salvato, M., and Borin, M. (2010). Effect of different macrophytes in abating nitrogen from a synthetic wastewater. Ecological Engineering 36(10), 1222–1231. Cerca con Google

Sasser, C. E., Gosselink, J.G., and Shaffer, G. P. (1991). Distribution of nitrogen and phosphorus in a Louisiana freshwater floating marsh. Aquatic Botany 41, 317–331. Cerca con Google

Scott, M., Swinton, Frank, L., Philip Robertson, G., Douglas A. Landis, (2006). Ecosystem Services from Agriculture: looking beyond the usual suspects. American of Agricultural Economics, 5, 1160–1166. Cerca con Google

Seppelt, R., Dormann, C.F., Eppink, F.V., Lautenbach, S., Schmidt, S. (2011). A quantitative review of ecosystem service studies: approaches, shortcomings and the road ahead. Journal of Applied Ecology 48(3), 630–636. Cerca con Google

Sofia, G., Pirotti, F., Tarolli, P. (2013). Variations in multiscale curvature distribution and signatures of LiDAR DTMs errors. Earth Surface Processes and Landforms 38, 1116–1134. DOI: 10.1002/esp.3363. Cerca con Google

StatSoft Inc. (2011). Statistica (data analysis software system), version 10.http://www.statsoft.com StatSoft, Inc. Tulsa, OK, 74,104, USA. Vai! Cerca con Google

Stehle, S., Elsaesser, D., Gregoire, C., Imfeld, G., Niehaus, E., Passeport, E., Payraudeau, S., Schäfer, R. B., Tournebize, J., Schulz, R. (2011). Pesticide risk mitigation by vegetated treatment systems: A meta-analysis. Journal of Environmental Quality 40, 1068–1080. Cerca con Google

Swinton, S. M., Lupi F., Robertson, G. P., and Hamilton, S. K. (2007). Ecosystem services and agriculture: cultivating agricultural ecosystems for diverse benefits. Ecological Economics (64), 245–252. Cerca con Google

Swinton, S.M., Lupi, F., Robertson, G. P., Hamilton, S.K. (2007). Ecosystem services and agriculture: cultivating agricultural ecosystems for diverse benefits. Ecological Economics 64, 245–252. Cerca con Google

Tanner, C.C., Howard-Williams, C., Tomer, M.D., Lowrance, R. (2013). Bringing together science and policy to protect and enhance wetland ecosystem services in agricultural landscapes. Ecological Engineering 56, 1–4. Cerca con Google

Tarolli, P., Dalla Fontana, G. (2009). Hillslope to valley transition morphology: new opportunities from high resolution DTMs. Geomorphology 113, 47–56. DOI: 10.1016/j.geomorph.2009.02.006. Cerca con Google

Tilman, D., Socolow, R., Foley, JA., Hill, J., Larson, E., Lynd, L., Pacala, S., Reilly, J., Searchinger, T., Somerville, C., Williams, R. (2009). Beneficial biofuels—the food, energy, and environment trilemma. Science 325(5938), 270–271. DOI: 10.1126/science.117797. Cerca con Google

Tomlin, C.D.S. (2006). The Pesticide Manual, 14th Edition, British Crop Protection Council Publications, Alton, Hampshire, UK. Cerca con Google

Tournebize, J., Passeport, E., Chaumont, C., Fesneau, C., Guenne, A., and Vincent, B. (2013). Pesticide de-contamination of surface waters as a wetland ecosystem service in agricultural landscapes. Ecological Engineering 56, 51–59. Cerca con Google

Tournebize, J., Passeport, E., Chaumont, C., Fesneau, C., Guenne, A., Vincent, B. (2013). Pesticide de-contamination of surface waters as a wetland ecosystem service in agricultural landscapes. Ecol. Eng. 56, 51–59. DOI: 10.1016/j.ecoleng.2012.06.00. Cerca con Google

UNEP (2009). Towards Sustainable Production and Use of Resources - Assessing Biofuels. ISBN No: 978-92-807-3052-4. Cerca con Google

Van Acker, J., Buts, L., Thoeye C., and De Gueldre, G. (2005). Floating plant beds: BAT for CSO treatment? Book of abstracts from international symposium on wetland pollutant dynamics and control, September 4–8, 2005, Ghent, Belgium: 186–187. Cerca con Google

VDI (2006). VDI standard 4630: fermentation of Organic Materials. Characterisation of the Substrates, Sampling, Collection of Material Data, Fermentation Tests. VDI-Handbuch Energietechnik. Cerca con Google

Vianello, M., Vischetti, C., Scarponi, L., Zanin, G. (2005). Herbicide losses in runoff events from a field with a low slope: role of a vegetative filter strip. Chemosphere 61, 717–725. Cerca con Google

Vymazal, J. (2007). Removal of nutrients in various types of constructed wetlands. Science of the Total Environment 380, 48–65. Cerca con Google

Vymazal, J. (2010). Constructed wetlands for wastewater treatment. Water 2010, 2, 530–549. DOI: 10.3390/w2030530. Cerca con Google

Vymazal, J. (2011). Plants used in constructed wetlands with horizontal subsurface flow: a review. Hydrobiologia 674, 133–156. Cerca con Google

Vymazal, J. (2013). Emergent plants used in free water surface constructed wetlands: A review. Ecological Engineering 61P, 582– 592. Cerca con Google

Vymazal, J., Březinová, T. (2015). The use of constructed wetlands for removal of pesticides from agricultural runoff and drainage: a review. Environ. Int. 75, 11–20. DOI: 10.1016/j.envint.2014.10.026. Cerca con Google

Vymazal, J., Greenway, M., Tonderski, K., Brix, H., and Mander, Ü. (2006). Constructed wetlands for wastewater treatment. In Wetlands and Natural Resource Management; Ecological Studies. Verhoeven, J.T.A., Beltman, B., Bobbink, R., Whigham, D.F., Eds.; Springer Verlag: Berlin, Germany, 190, 69–94. Cerca con Google

Wichtmann, W., Joosten, H. (2007). Paludiculture: peat formation and renewable resources from rewetted peatlands. IMCG-Newsletter 3, 24–28. Cerca con Google

Wichtmann, W., Wichmann, S. (2011). Environmental, social and economic aspects of sustainable biomass production. Journal of Sustainable Energy & Environment Special Issue, 77–81. Cerca con Google

Zhang, X., Zhang, M. (2001). Modeling effectiveness of agricultural BMPs to reduce sediment load and organophosphate pesticides in surface runoff. Sci. Total Environ. 409, 1949–1958. DOI: 10.1016/j.scitotenv.2011.02.012. Cerca con Google

Zollo, LA., Rillo, V., Bucchignani, E., Montesarchio, M., Mercogliano, P. (2015). Extreme temperature and precipitation events over Italy: assessment of high resolution simulations with COSMO-CLM and future scenarios. Int. J. Climatol., in press. DOI: 10.1002/joc.441. Cerca con Google

Solo per lo Staff dell Archivio: Modifica questo record