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Rossi, Vittorio; Berbegal, Monica; Armengol Forti, Josep; Kehrli, Patrik; Ranca, Aurora-Maria; Širca, Saša; Wipf, Daniel. |
Organic vineyards still rely on large external inputs to control harmful organisms (i.e., pests). The BIOVINE project aims to develop natural solutions based on plant diversity to control pests and reduce pesticide dependence. The capability of plants of increasing the ecosystem resistance to pests and invasive species is a well-known ecosystem service. However, monocultures (including vineyards) do not exploit the potential of plant diversity. BIOVINE aims to develop new viticultural systems based on increased plant diversity within (e.g., cover crops) and/or around (e.g., hedges, vegetation spots, edgings) vineyards by planting selected plant species for the control of arthropods, soil-borne pests (oomycetes, fungi, nematodes), and foliar... |
Tipo: Conference paper, poster, etc. |
Palavras-chave: Crop combinations and interactions Biodiversity and ecosystem services Crop health; Quality; Protection Viticulture. |
Ano: 2019 |
URL: http://orgprints.org/36375/1/Rossi%20et%20al.%2C%202019%20%2811th%20IWGTD%29.pdf |
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Canali, S.; Campanelli, G.; Bavec, F.; von Fragstein, P.; Leteo, F.; Jocop, M.; Kristensen, H.L.. |
Ecological services may be exploited by use of living mulches in intercropping systems for production of vegetable crops. But may high yields be attained in intercropping systems for production of resource demanding crops such as cauliflower? In the frame of the InterVeg (Core Organic II) project, four field experiments were carried out in IT, SLO, DE and DK in order to study the effect of the living mulch introduction in cauliflower based cropping systems on crop yield and yield quality. The preliminary results, obtained after the first year project, showed yield and produces quality equal to those obtained in the sole cropping system if the system is properly managed (i.e. LM is late sown or its growth is controlled by root pruning). |
Tipo: Conference paper, poster, etc. |
Palavras-chave: Crop combinations and interactions Biodiversity and ecosystem services Crop health; Quality; Protection. |
Ano: 2014 |
URL: http://orgprints.org/23521/1/23521%20Canali_MM.pdf |
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Manstretta, Valentina; Si Ammour, Melissa; Armengol Forti, Josep; Kehrli, Patrik; Ranca, Aurora-Maria; Širca, Saša; Wipf, Daniel; Rossi, Vittorio. |
Organic vineyards still rely on large external inputs to control harmful organisms (i.e., pests). The BIOVINE project aims to develop natural solutions based on plant diversity to control pests and reduce pesticide dependence. The capability of plants of increasing the ecosystem resistance to pests and invasive species is a well-known ecosystem service. However, monocultures (including vineyards) do not exploit the potential of plant diversity. BIOVINE aims to develop new viticultural systems based on increased plant diversity within (e.g., cover crops) and/or around (e.g., hedges, vegetation spots, edgings) vineyards by planting selected plant species for the control of arthropods, soil-borne pests (oomycetes, fungi, nematodes), and foliar... |
Tipo: Conference paper, poster, etc. |
Palavras-chave: Crop combinations and interactions Biodiversity and ecosystem services Crop health; Quality; Protection Viticulture. |
Ano: 2018 |
URL: http://orgprints.org/34081/1/ICGWS_biovine-1.pdf |
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Drain, Alice; Bonneau, Laurent; Recorbet, Ghislaine; van Tuinen, Diederik; Wipf, Daniel; Courty, Pierre-Emmanuel. |
We developed a new protocol to study arbuscular mycorrhizal fungal (AMF) communities in Bordeaux vineyards in a standardized way, in order to compare results obtained over years and between locations. To this end, we first used grapevine root samples instead of soil samples to avoid AMF spores or hyphae interacting with cover plants. We next increased the number of grapevine samples to obtain more representative coverage of AMF communities while decreasing variability intra-vineyard, especially for the larger parcels. In addition, we adapted the DNA extraction protocol dedicated to soil samples to grapevine roots, as a way to increase the yield and the purity of samples. These features, coupled to the choice of the LSU-D2 region as the molecular marker for... |
Tipo: Book chapter |
Palavras-chave: Crop combinations and interactions Biodiversity and ecosystem services Crop health; Quality; Protection Viticulture. |
Ano: 2019 |
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Ranca, Aurora-Maria; Petrescu, Anamaria; Artem, Victoria; Boloș, P.; Cîlț, Mihaela; Ene, A.S.. |
The capability of plants of increasing the ecosystem resistance to pests and invasive species is a well-known ecosystem service. However, monocultures (including vineyards) do not exploit the potential of plant diversity. The aims of this research are to develop new viticultural systems based on increased plant diversity within (e.g., cover crops) and/or around (e.g., hedges, vegetation spots, edgings) vineyards by planting selected plant species for the control of arthropods, soil-borne pests (oomycetes, fungi, nematodes), and foliar pathogens. In order to control pests, plants species can either i) repel arthropod pests, ii) attract arthropod pests to a trap crop or iii) attract and/or conserve beneficials. An extensive systematic literature was... |
Tipo: Journal paper |
Palavras-chave: Crop combinations and interactions Biodiversity and ecosystem services Crop health; Quality; Protection Viticulture. |
Ano: 2019 |
URL: http://orgprints.org/34249/1/13419-53096-1-PB.pdf |
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Organic vineyards still rely on large external inputs to control harmful organisms (i.e., pests). BIOVINE will develop natural solutions based on plant diversity to control pests and reduce pesticide dependence. The capability of plants of increasing the ecosystem resistance to pests and invasive species is a well known ecosystem service. However, monocultures (including vineyards) do not exploit the potential of plant diversity. BIOVINE aims to develop new viticultural systems based on increased plant diversity within (eg, cover crops) and/or around (e.g., hedges, vegetation spots, edgings) vineyards by planting selected plant species for the control of arthropods, soil-borne pests (oomycetes, fungi, nematodes), and foliar pathogens. Candidate plants... |
Tipo: Project description |
Palavras-chave: Crop combinations and interactions Biodiversity and ecosystem services Crop health; Quality; Protection Viticulture. |
Ano: 2023 |
URL: http://orgprints.org/33121/1/BIOVINE.pdf |
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