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Environmental assessment of viticulture waste valorisation through composting as a biofertilisation strategy for cereal and fruit crops
2020
Cortés, Antonio | Oliveira, Luis F.S. | Ferrari, Valdecir | Taffarel, Silvio R. | Feijoo, Gumersindo | Moreira, Maria Teresa
Composting is a solid waste management alternative that avoids the emission of methane associated with its disposal in landfill and reduces or eliminates the need for chemical fertilisers if compost is applied. The main objective of this study was to analyse the environmental burdens of composting as a way to achieve a more circular valorisation of wine waste. To do so, with the purpose of identifying optimal operational conditions and determining the “hotspots” of the process, the life cycle assessment (LCA) methodology was used. The consumption of diesel fuel in machinery was determined to be the main critical point in the environmental effects of the system, followed by the transport and distribution of the compost. After the application of compost instead of mineral fertilisers, corn, tomato and strawberry crops would have a better environmental performance in most impact categories. In this sense, a maximum improvement of 65% in terrestrial ecotoxicity is achieved in strawberry cultivation. In light of the results obtained, it is demonstrated that composting is a suitable way of organic waste valorisation according to Circular Economy principles.
Show more [+] Less [-]Copper stress in grapevine: Consequences, responses, and a novel mitigation strategy using 5-aminolevulinic acid
2022
Yang, Yuxian | Fang, Xiang | Chen, Mengxia | Wang, Lingyu | Xia, Jiaxin | Wang, Zicheng | Fang, Jinggui | Tran, Lam-son Phan | Shangguan, Lingfei
Improper application of copper-based fungicides has made copper stress critical in viticulture, necessitating the need to identify substances that can mitigate it. In this study, leaves of ‘Shine Muscat’ (‘SM’) grapevine seedlings were treated with CuSO₄ solution (10 mM/L), CuSO₄ + 5-aminolevulinic acid (ALA) (50 mg/L), and distilled water to explore the mitigation effect of ALA. Physiological assays demonstrated that ALA effectively reduced malondialdehyde accumulation and increased peroxidase and superoxide dismutase activities in grapevine leaves under copper stress. Copper ion absorption, transport pathways, chlorophyll metabolism pathways, photosynthetic system, and antioxidant pathways play key roles in ALA alleviated-copper stress. Moreover, expression changes in genes, such as CHLH, ALAD, RCA, and DHAR, play vital roles in these processes. Furthermore, abscisic acid reduction caused by NCED down-regulation and decreased naringenin, leucopelargonidin, and betaine contents confirmed the alleviating effect of ALA. Taken together, these results reveal how grapevine responds to copper stress and the alleviating effects of ALA, thus providing a novel means of alleviating copper stress in viticulture.
Show more [+] Less [-]Cocktails of pesticide residues in conventional and organic farming systems in Europe – Legacy of the past and turning point for the future
2021
Geissen, Violette | Silva, Vera | Lwanga, Esperanza Huerta | Beriot, Nicolas | Oostindie, Klaas | Bin, Zhaoqi | Pyne, Erin | Busink, Sjors | Zomer, Paul | Mol, Hans | Ritsema, Coen J.
Considering that pesticides have been used in Europe for over 70 years, a system for monitoring pesticide residues in EU soils and their effects on soil health is long overdue. In an attempt to address this problem, we tested 340 EU agricultural topsoil samples for multiple pesticide residues. These samples originated from 4 representative EU case study sites (CSS), which covered 3 countries and four of the main EU crops: vegetable and orange production in Spain (S–V and S–O, respectively), grape production in Portugal (P-G), and potato production in the Netherlands (N–P). Soil samples were collected between 2015 and 2018 after harvest or before the start of the growing season, depending on the CSS. Conventional and organic farming results were compared in S–V, S–O and N–P. Soils from conventional farms presented mostly mixtures of pesticide residues, with a maximum of 16 residues/sample. Soils from organic farms had significantly fewer residues, with a maximum of 5 residues/sample. The residues with the highest frequency of detection and the highest content in soil were herbicides: glyphosate and its main metabolite AMPA (P-G, N–P, S–O), and pendimethalin (S–V). Total residue content in soil reached values of 0.8 mg kg⁻¹ for S–V, 2 mg kg⁻¹ for S–O and N–P, and 12 mg kg⁻¹ for P-G. Organic soils presented 70–90% lower residue concentrations than the corresponding conventional soils. There is a severe knowledge gap concerning the effects of the accumulated and complex mixtures of pesticide residues found in soil on soil biota and soil health. Safety benchmarks should be defined and introduced into (soil) legislation as soon as possible. Furthermore, the process of transitioning to organic farming should take into consideration the residue mixtures at the conversion time and their residence time in soil.
Show more [+] Less [-]Transfert du diuron et de l'oryzalin en lysimètres dans trois sols viticoles non perturbés (Vosne-Romanée, 21)
2001
Landry , David (INRA Institut National de la Recherche Agronomique, Dijon(France). UMR 0111 INRA / Univ. Bourgogne : Microbiologie des Sols) | DOUSSET , Sylvie (INRA (France). UMR 0111 UMR INRA / Univ. Bourgogne : Microbiologie des Sols) | Andreux , Francis (INRA (France). UMR 0111 UMR INRA / Univ. Bourgogne : Microbiologie des Sols)
La mobilité du diuron et de l'oryzalin a été étudiée en colonnes de sol non perturbé au laboratoire. Les sols étudiés sont trois sols viticoles de la région Bourgogne (Vosne-Romanée, 21) et ont été prélevés selon une topolithoséquence. Leurs teneurs en carbone organique sont respectivement de 1,2 %, 1,7 % et 2,2 % pour le sol brun calcaire de mi-pente (SBC MP), le sol brun calcaire de bas de pente (SBC BP) et la rendzine. Après une hauteur de pluie simulée de 845 mm, les percolats respectifs de la rendzine, du SBC MP et du SBC BP contiennent des quantités plus importantes de diuron (3,2 %, 11,8 % et 18,8 %), que d'oryzalin (0,2 %, 4,9 % et 3,7 % des quantités appliquées). Dans les colonnes de sol, les quantités extractibles de résidus herbicides sont plus élevées pour le diuron (48,7 %, 31,1 % et 35,6 %) que pour l'oryzalin (12,7 %, 11,9 % et 15,5 %) dans la rendzine, le SBC MB et le SBC BP respectivement. La distribution des deux herbicides au sein des colonnes de sol et les quantités percolées semblent en relation avec la teneur en matière organique du sol en surface et avec la structure du sol en profondeur. | Mobility of diuron and oryzalin were studied in undisturbed soil columns in laboratory. Soils studied were three vineyard soils from Burgundy (Vosne-Romanée) and were chosen from a topolihoséquence. Organic carbon contents of this soils were 1,2 %, 1,7 % et 2,2 % for SBC MP, SBC BP and rendzine, respectively. After 845 mm of water applied, leachates of rendzine, SBC MP and SBC BP showed greater amounts of diuron (3,2 %, 11,8 % and 18,8 %) than oryzalin (0,2 %, 3,9 % and 4,7 % of applied) respectively. In soil columns, more residues were extractable for diuron (48,7 %, 31,1 % et 35,6 %) than for oryzalin (12,7 %, 11,9 % et 15,5 %) from the rendzine, SBC MB and SBC BP, respectively. Mobility of this two herbicides seems in relation to organic matter content in surface soils and to structure of the soils deeper.
Show more [+] Less [-]Insight into how fertilization strategies increase quality of grape (Kyoho) and shift microbial community
2022
Li, Xunan | Chu, Changbin | Ding, Sheng | Wei, Huawei | Wu, Shuhang | Xie, Bing
Organic and bioorganic fertilizers were increasingly used for agricultural soil. However, little is known on what kind of organic fertilizer application strategies can promote grape production well and how appropriate fertilization strategies improve soil properties and shift microbial community. This study investigated the improvement in soil physicochemical properties as well as their relations with microbial community structure and grape quality under different fertilization strategies. Our results found that (bio)organic fertilizer (CF1, CF2, and BF) especially combined application of organic and bioorganic fertilization (CBF) had smaller effects on electrical conductivity (EC) and pH, while it improved soil nutrients including N, P, K, and organic matter (OM) well, thereby promoting the grape quality comparing to the group without any fertilizer (CK) and with chemical fertilizer (NPK). Especially, the concentrations of Cr, Hg, Zn, and Cu were reduced by 13.63%, 12.50%, 12.52%, and 11.75% in CBF, respectively. Additionally, CF1, CF2, and BF, especially CBF, optimized the communities’ composition and increased the abundance of some plant probiotics such as Solirubrobacter and Lysobacter. Nevertheless, excessive application of organic fertilizer derived from livestock manure could cause the accumulation of heavy metals such as Zn and Cu in soil and leaves, which could further influence the grape quality. Additionally, the structure of microbial communities was also changed possibly because some bacterial genera showed distinct adaptability to the stress of heavy metals or the utilization capacity of N, P, K, and OM. Our results demonstrated that combined application of organic and bioorganic fertilization showed a great influence on soil physicochemical properties, whose positive changes could further optimize microbial communities and facilitate the promotion of grape quality.
Show more [+] Less [-]Assessment of the environmental impacts associated with vineyards and winemaking. A case study in mountain areas
2021
Laca, Amanda | Gancedo, Samuel | Laca, Adriana | Díaz, Mario
Mountain wines produced in specific mountain areas and following singular practices have gained popularity over the last few decades. During this time, the environmental impacts associated with the food and beverage manufacturing sector have become a question of interest. However, the environmental impacts derived from the production of this peculiar wine have scarcely been studied until now. A mountain winery in north Spain has been analyzed as representative of PDO “Cangas” winemaking by means of life cycle assessment (LCA). High-quality inventory data for one year of operation was obtained directly from this facility and two steps have been considered, the vineyard and the winery phases. The main factors involved in grape cultivation and wine production were included. In common with standard winemaking processes, the use of fertilizers and the production of glass bottles were the principal hotspots in the grape cultivation and wine production phases, respectively. Additionally, in the winery here evaluated, waste management also contributed notably to several impacts, mainly due to the employment of traditional practices such as the incineration in situ of vineyard pruning wastes. The carbon footprint obtained for “Cangas” PDO wine was 2.35 kg of CO₂eq per 0.75-l bottle, a value within the range reported in the literature for different wines around the world (0.2–2.5 kg CO₂eq per bottle). A sensitivity analysis has shown that changes in vineyard productivity and the amount of fertilizers applied to the land would strongly affect the environmental performance of the wine manufacturing process. Some alternative scenarios have been proposed, modifying the management of pruning wastes in the vineyard and the packaging material in the winery. Results showed that environmental impacts associated with the production of this mountain wine could be notably reduced simply by reusing a percentage of the bottles and/or composting the organic wastes. Specifically, the carbon footprint would be 40% lower if these two improvements were implemented. Considering the lack of similar studies, further research on the production of mountain wines should be carried out in other regions to increase the knowledge about the environmental impacts associated with the manufacturing of this singular type of wine.
Show more [+] Less [-]Microbiological and Chemical Modifications of Soil Cultivated with Grapevine Following Agronomic Application of Olive Mill Wastewater
2020
Lanza, B. | Di Serio, M.G. | Di Giovacchino, L.
The reuse of olive mill wastewater (OMW) by spreading on agricultural land is subject to a long-time debate since they supply to agricultural land both substances of undoubted positive influence on fertility and compounds that may adversely alter its chemical, physical and microbiological characteristics and/or cause negative effects on crops. In this study different amounts of OMW from 3-phases centrifugal decanter were spread in February on soil cultivated with grapevine in a research-farm located in central Italy for 11 consecutive years, with the aim to verify the long term effect on grape production, physico-chemical and microbiological characteristics of soil. In particular, the effect of the OMW spread in the largest amount (50 L m⁻²) was an increase of the weight of the grape-brunches and total grapes production and, in addition, an improvement of the soil characteristics due to the increase of the content of the organic reducing substances with humic-like properties. Moreover, it was also ascertained that in the short-medium period (2–8 months) the respiratory activity of the micro-organisms of the soil parcels, treated with different amount of OMW, was higher than that of the soil control parcels. The results obtained demonstrated that the controlled spreading of OMW helps to increase both the grapes crop and the fertility of the soil, recycling the organic matter and mineral nutrients, in this way allowing to reduce, or avoid, the use of chemical fertilisers.
Show more [+] Less [-]Formation of chlorinated disinfection by-products in viticulture
2009
Barhorst, Jan Bernd | Kubiak, Roland
Background, aim and scope The use of sodium hypochlorite (HYP) in viticulture results in effluents which are contaminated with halogenated substances. These disinfection by-products (DBPs) can be quantified as group parameter 'adsorbable organic halogens' (AOX) and have not been determined in effluents of viticulture yet. The substances that are detected as AOX are unknown. The AOX can be composed of harmless substances, but even toxic contaminants. Thus, it is impossible to assess ecological impacts. The aim of this study is to determine the quantification of AOX and DBPs after the use of HYP. This will be helpful to reduce environmental pollution by AOX. Materials and methods The potential of HYP to generate AOX was determined in laboratory-scale experiments. Different model solutions were treated with HYP according to disinfection processes in viticulture and conditions of AOX formation in effluents were simulated. AOX were quantified using the flask-shaking method and identified DBPs were investigated by gas chromatography-mass spectrometry. Results Treatment with HYP resulted in the formation of AOX. The percentage conversion of HYP to AOX was up to 11%. Most important identified DBPs in viticulture are chloroform, dichloroacetic acid and trichloroacetaldehyde. In addition, the formation of carbon tetrachloride (CT), 1,1,1-trichloropropanone, 2,4-dichlorobenzoic acid and 2-chloro-/2,4-dichlorophenylacetic acid was investigated. It was demonstrated that reaction temperature, concentration of HYP and type of organic matter have important influence on the formation of chlorinated DBPs. Discussion The percentage conversion of HYP to AOX was similar to other published studies. Although a correlation of single compounds and AOX is difficult, chloroform was the predominant AOX. Generation of the volatile chloroform should be avoided due to possible adverse effects. The generation of dichloroacetic acid is of minor importance on account of biodegradation. Trichloroacetaldehyde and 1,1,1-trichloropropanone are weak mutagens and their formation should be avoided. Conclusions The generation of AOX and chlorinated DBPs can be minimised by reducing the concentrations of the organic materials in the effluents. The removal of organic matter before disinfection results in a decreased formation of AOX. HYP is an effective disinfectant; therefore, it should be used at low temperatures and concentrations to reduce the amount of AOX. If possible, disinfection should be accomplished by the use of no chlorine-containing agents. By this means, negative influences of HYP on the quality of wine can also be avoided. Recommendations and perspectives Our results indicate that HYP has a high potential to form AOX in effluents of viticulture. The predominant by-products are chloroform, dichloroacetic acid and trichloroacetaldehyde. In further research, wastewaters from a winery and the in- and outflows of two sewage treatment plants were sampled during vintage and analysed. These results will be discussed in a following paper.
Show more [+] Less [-]Woody residues of the grape production chain as an alternative precursor of high porous activated carbon with remarkable performance for naproxen uptake from water
2022
Georgin, Jordana | Netto, Matias S. | Franco, Dison S. P. | Piccilli, Daniel G. A. | da Boit Martinello, Kátia | Silva, Luis F. O. | Foletto, Edson L. | Dotto, Guilherme L.
Activated carbon prepared from grape branches was used as a remarkable adsorbent to uptake naproxen and treat a synthetic mixture from aqueous solutions. The material presented a highly porous texture, a surface area of 938 m² g⁻¹, and certain functional groups, which were key factors to uptake naproxen from effluents. The maximum adsorption capacity predicted by the Langmuir model for naproxen was 176 mg g⁻¹. The thermodynamic study revealed that the adsorption process was endothermic and spontaneous. The linear driving force (LDF) model presented a good statistical adjustment to the experimental decay data. A suitable interaction pathway of naproxen adsorption onto activated carbon was proposed. The adsorbent material was highly efficient to treat a synthetic mixture containing several drugs and salts, reaching 95.63% removal. Last, it was found that the adsorbent can be regenerated up to 7 times using an HCl solution. Overall, the results proved that the activated carbon derived from grape branches could be an effective and sustainable adsorbent to treat wastewaters containing drugs.
Show more [+] Less [-]N2O, CO2, Production, and C Sequestration in Vineyards: a Review
2018
Nistor, Eleonora | Dobrei, Alina Georgeta | Dobrei, Alin | Camen, Dorin | Sala, Florin | Prundeanu, Horia
Even if it is less polluting than other farm sectors, grape growing management has to adopt measures to mitigate greenhouse gas (GHG) emissions and to preserve the quality of grapevine by-products. In viticulture, by land and crop management, GHG emissions can be reduced through adjusting methods of tillage, fertilizing, harvesting, irrigation, vineyard maintenance, electricity, natural gas, and transport until wine marketing, etc. Besides CO₂, nitrous oxide (N₂O) and methane (CH₄), released from fertilizers and waste/wastewater management are produced in vineyards. As the main GHG in vineyards, N₂O can have the same harmful action like large quantities of CO₂. Carbon can be found in grape leaves, shoots, and even in fruit pulp, roots, canes, trunk, or soil organic matter. C sequestration in soil by using less tillage and tractor passing is one of the efficient methods to reduce GHG in vineyards, with the inconvenience that many years are needed for detectable changes. In the last decades, among other methods, cover crops have been used as one of the most efficient way to reduce GHG emissions and increase fertility in vineyards. Even if we analyze many references, there are still limited information on practical methods in reducing emissions of greenhouse gases in viticulture. The aim of the paper is to review the main GHG emissions produced in vineyards and the approached methods for their reduction, in order to maintain the quality of grapes and other by-products.
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