The Dexi-SH* model for a multivariate assessment of agro-ecological sustainability of dairy grazing systems

Dexi-SH* is an ex ante multivariate model for assessing the sustainability of dairy cows grazing systems. This model is composed of three sub-models that evaluate the impact of the systems on: (i) biotic resources; (ii) abiotic resources, and (iii) pollution risks. The structuring of the hierarchical tree was inspired by that of the Masc model. The choice of criteria and their aggregation modalities were discussed within a multi-disciplinary group of scientists. For each cluster, a utility function was established in order to determine weighting and priority functions between criteria. The model can take local and regional conditions and standards into account by adjusting criterion categories to the agroecological context, and the specific views of the decision makers by changing the weighting of criteria

Routes to achieving sustainable intensification in simulated dairy farms: The importance of production efficiency and complimentary land uses

1.Sustainable intensification (SI) is a global challenge, aiming to increase food production whilst conserving biodiversity and ecosystem services. This is contrary to the observed trend of agricultural intensification degrading environmental quality. We developed a framework integrating animal nutrition, crop yields, and biodiversity modelling to explore SI potential in multiple model dairy farming systems through varying crop composition to provide cattle feed rations. We then identified key drivers of biodiversity gain that may be applicable at a wider scale. 2.We developed multiple feed rations to meet the nutritional demands of a high-yielding, housed dairy herd. The land area required varied due to productivity and nutritional differences between crops, generating spare land. We used published biodiversity models to compare alpha- and beta-diversity of spiders and plants across 36 scenarios that used the spare land in different ways, for either biodiversity maximisation or additional production. 3.Alpha and beta-diversity for both taxa was greatest in scenarios that maximised spare land and utilised this for species-rich extensive grassland. However, commensurate biodiversity gains for plant alpha-diversity, and spider and plant beta-diversity (respectively 100%, 76% and 86% gain relative to that optimal scenario) were achievable when spare land was used for additional crop production. 4.Maximising compositional heterogeneity and adding complementary productive land uses to spared land were key to increasing production and beta-diversity, while adding species-rich productive land uses drove increasing production and alpha-diversity. 5.Synthesis and applications. This study indicates the potential for SI of dairy farming through manipulating feed rations to increase land-efficiency and spare land, which could then be used to enhance production and biodiversity. The optimum land composition depends on target goal(s) (e.g. maximising production and/or biodiversity). Greatest ‘win-wins’ were achieved through increasing land cover heterogeneity and selecting crops that complement each other in the species they support, highlighting the important role of heterogeneity in the crop matrix. Our study provides a framework that integrates production efficiency and biodiversity modelling to explore potential routes to achieve SI goals

Using Malaise traps to assess aculeate Hymenoptera associated with farmland linear habitats across a range of farming intensities

The intensification of farming practices, along with the loss and fragmentation of semi-natural habitats within agricultural areas, has contributed significantly to insect decline worldwide including flower-visiting aculeate Hymenoptera. In this study aculeate Hymenoptera were collected using bi-directional Malaise traps placed along farmland linear habitats across a range of farming intensities. The aim was to further our understanding of the value of farmland linear habitats to this insect group and in particular the Vespinae, an understudied subfamily. Overall, significantly greater aculeate Hymenoptera species richness was found on extensive than on intermediate and intensive farms. Significantly more species and specimens were collected on the side of the traps adjacent to the linear habitats compared to the side which opened onto the fields. Aculeate Hymenoptera species richness was also significantly greater in dense hedgerows than in open hedgerows. Furthermore, two out of six Vespinae species, Vespula rufa and Vespula vulgaris, had significantly more individuals on extensive than intensive farms. This study highlights that low-intensity farming practices and farmland linear habitats, especially dense hedgerows, may enhance aculeate Hymenoptera occurrence in agricultural areas. It also demonstrates that Malaise traps set up along linear habitats across a range of farming intensities can make a significant contribution to knowledge regarding the biodiversity value of such areas. Given that selected Vespinae species follow similar trends to aculeate Hymenoptera, the possibility of using them as simple biodiversity indicators is worthy of further exploration.© 2019 The Royal Entomological Societ

Multilocal validation of Ceres-Maize model

International audienc

Prise en compte du stress hydrique dans CERES-Maize

International audienc

Wplyw oporu mechanicznego na pH roztworu odzywczego i wydzielanie substancji organicznych przez korzenie kukurydzy

The effect of increased mechanical impedance on pH and release of organic substances by roots of maize grown in nutrient solution was studied. pH of the nutrient solution and release of water soluble and insoluble exudates per unit of root weight increased as mechanical impedance increased. Root and top growth was reduced with increasing mechanical impedance.Badano wpływ zwiększonego oporu mechanicznego na pH roztworu odżywczego i wydzielanie substancji organicznych przez korzenie tej rośliny. pH oraz ilość wydzielin korzeniowych na jednostkę masy korzeni zwiększały się wraz ze wzrostem oporu mechanicznego. Wzrost korzeni i części nadziemnych kukurydzy był ograniczony w warunkach zwiększonego opora mechanicznego

Biodiversity in intensive grasslands: effect of management, improvement and challenges

International audienc