Effectiveness of the cross-compliance Standard 5.2 'buffer strips' on protecting freshwater against diffuse nitrogen pollution

Bruna Gumiero; Bruno Boz; Alessandra Lagomarsino; Paolo Bazzoffi; Rosario Napoli; Francesco Montemurro; Lamberto Borrelli; Rosa Francaviglia; Silvia Carnevale; Andrea Rocchini; Alessandro Elio Agnelli; Angelo Fiore; Giovanni Cabassi; Bruno Pennelli; Giorgio Moretti; Andrea Gasparini; Giuseppina Pipitone; Luigi Sansone

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Effectiveness of the cross-compliance Standard 5.2 'buffer strips' on protecting freshwater against diffuse nitrogen pollution

机译：交叉遵守标准5.2“缓冲带”在保护淡水免受氮扩散污染方面的有效性

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Sette Fasce Tampone, realizzate secondo le indicazioni tecniche contenute nello Standard di condizionalità 5.2, in diversi ambiti e contesti climatici, sono state monitorate per un periodo biennale, al fine di quantificare la loro efficienza nella rimozione di azoto inorganico disciolto. Tale azoto è costituito per lo più da molecole di azoto nitrico che vengono veicolate principalmente tramite deflussi sub-superficiali da zone soggette a diverse pratiche colturali verso i corpi idrici superficiali adiacenti. Ad eccezione di due casi: i siti di Lodi e Metaponto, in tutti i sistemi monitorati è stata confermata la presenza di deflussi trasversali ai sistemi tampone, permanenti o temporanei, in grado di veicolare inquinanti e con portate variabili fra 919 e 8.590 m 3 /anno per 100 m lineari di FT. Le differenze di portata sono imputabili principalmente alla diversa superficie dei bacini agricoli afferenti ai sistemi tampone, che nei casi analizzati occupano superfici variabili fra il 3,6 ed il 33,3% del bacino agricolo. Sulla base dei bilanci di massa è emerso che dai campi coltivati giungono ai sistemi tampone percentuali variabili fra l’1,6 ed il 29,4% dell’azoto inorganico applicato. Ad eccezione dei sistemi in cui i maggiori deflussi non hanno alcuna interazione con la rizosfera (deflussi profondi) oppure non attraversano la Fascia Tampone, in tutti gli altri siti si registra un effetto di riduzione dell’azoto fra entrata ed uscita, con percentuali variabili fra il 33 ed il 62 %. Percentuali di abbattimento non elevate sono giustificate dallo scarso grado di maturazione dei siti monitorati, in molti casi recentemente convertiti a Fascia Tampone. Ancora una volta si conferma l’estrema eterogeneità delle risposte di questi sistemi ed il ruolo prioritario delle forzanti idrologiche nel determinarne l’efficacia. Seven buffer strips (BS) adjacent to fresh water bodies, realized according to the technical data contained in the Standard 5.2 of Cross-compliance, located in different areas and climate contexts, were monitored for a period of two years. It was done in order to quantify their effectiveness in removing dissolved inorganic nitrogen conveyed through sub- surface flow from field crops with different cultural practices. Except for two case studies (sites: Lodi and Metaponto) in all monitored systems has been confirmed an outflow, permanent or temporary, through the buffer systems, with flow rates ranging from 919 to 8590 m 3 y -1 every 100 meters of buffer stip. The differences in flow rate were mainly due to different sizes of agricultural basins related to buffer systems, which in the case studies ranging from 3.6 to 33.3%. Based on the mass balance, was found percentages of applied inorganic nitrogen, flowing from cultivated fields to the buffer systems, varied between 1.6 and 29.4%. In most of the sites was estimated nitrogen reduction between inlet and outlet of BS, with percentages ranging from 33 to 61.9%. The exceptions were the systems with groundwater that: or have no interaction with the rhizosphere (deep flow) or not crossing the buffer zone. Low percentages of removal shall be justified by the young stage of the monitored sites, being in many cases recently converted to buffer strip. This study confirms the extreme variability of these systems efficiency and the key role of hydrology drives its effectiveness.

机译：根据条件标准5.2中包含的技术指标，在不同的气候区域和环境下对七个缓冲带进行了为期两年的监控，以量化其去除溶解性无机氮的效率。该氮主要由硝态氮分子组成，这些氮态氮分子主要是通过地下流从不同耕作方式的区域输送到相邻的地表水体。除以下两种情况外：Lodi和Metaponto站点，在所有受监视的系统中，均存在永久性或临时性，能够携带污染物且流量在919至8,590 m 3 /之间的缓冲系统的横向流出。每100线性米FT年。流速的差异主要归因于属于缓冲系统的农业流域的不同表面，在分析的情况下，这些流域占农业流域的3.6％至33.3％。根据质量平衡，从耕地中发现，缓冲系统的百分比在所施用无机氮的1.6％至29.4％之间变化。除最大流出量与根际没有相互作用（深层流出量）或不穿越缓冲带的系统外，在所有其他位置，进口和出口之间都有氮减少作用，百分比在33和62％。监测位点的低成熟度是不合理的，这在许多情况下是最近转换到缓冲区的。再次确认了这些系统响应的极端异质性以及水文强迫在确定其有效性方面的优先作用。根据交叉遵从标准5.2中包含的技术数据，在不同地区和气候环境下对七个与淡水水体相邻的缓冲带（BS）进行了为期两年的监控。这样做是为了量化其在不同文化习俗下从田间作物中去除地下流中输送的溶解性无机氮的有效性。除两个案例研究（站点：Lodi和Metaponto）外，所有受监控系统均已确认通过缓冲系统永久或临时流出，每100米缓冲规定流量为919至8590 m 3 y -1 。流量的差异主要是由于与缓冲系统有关的农业流域的大小不同，在本案例研究中，其范围为3.6％至33.3％。基于质量平衡，发现从耕地流向缓冲系统的无机无机氮百分比在1.6％至29.4％之间变化。在大多数站点中，估计了BS入口和出口之间的氮减少量，百分比范围为33％至61.9％。地下水系统的例外情况是：或与根际无相互作用（深水流）或不穿越缓冲区。监测地点的年轻阶段应证明清除率较低，在许多情况下，最近才将其转换为缓冲带。这项研究证实了这些系统效率的极端可变性，而水文学的关键作用驱动了其有效性。

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《Italian Journal of Agronomy》 |2015年第1s期|共页
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Bruna Gumiero; Bruno Boz; Alessandra Lagomarsino; Paolo Bazzoffi; Rosario Napoli; Francesco Montemurro; Lamberto Borrelli; Rosa Francaviglia; Silvia Carnevale; Andrea Rocchini; Alessandro Elio Agnelli; Angelo Fiore; Giovanni Cabassi; Bruno Pennelli; Giorgio Moretti; Andrea Gasparini; Giuseppina Pipitone; Luigi Sansone;
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机译：交叉合规标准5.2'缓冲带'在保护淡水免受氮氧化物污染方面的有效性

Effectiveness of the cross-compliance Standard 5.2 'buffer strips' on protecting freshwater against diffuse nitrogen pollution

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