INSTITUTE OF AGROPHYSICS POLISH ACADEMY OF SCIENCE

The AGRICORE project proposes a novel tool for improving the current capacity to model policies dealing with agriculture by taking advantage of latest progresses in modelling approaches and ICT. Specifically, the AGRICORE tool will be built as an agent-based approach where each farm is to be modelled as an autonomous decision-making entity which individually assesses its own context and makes decisions on the basis of its current situation and expectations. This modelling approach will allow to simulate the interaction between farms and their context (which will account for environment, rural integration, ecosystem services, land use and markets) at various geographic scales – from regional to global. To do so, advances in big data, artificial intelligence algorithms, mathematical solvers and cloud computing services will be applied to optimise the extremely-long parameterisation and calibration phase required by current agent-based tools, to better mimic the modelling of farmers’ behaviour and interactions, to credibly assess the local effects of global events and EU policies, and in general to improve policy design, impact assessments and monitoring. The AGRICORE tool will be made as a highly modular and customisable suite, and it will be released as an open-source project so institutions can transparently update and improve the tool as needs arise.

As conventional cropping systems face deterioration of soil quality, loss of biodiversity, and declining ecosystem services, there is an urgent need to change practices to more sustainable yet productive systems. Intercropping enhances biodiversity, maximizes land productivity, and optimizes biogeochemical cycles in agroecosystems, but is lacking acceptance from European farmers. Legume-based intercropping takes advantage of biological diversity and synergistic effects between companion plants while reducing external inputs. A major objective of LEGUMINOSE is to identify the obstacles to intercropping and enhance farmers’ acceptance by providing knowledge and demonstrations that promote economic, environmental, and social benefits of legume-cereal intercropping. LEGUMINOSE will assess intercropping potential by focusing on pesticide reduction, plant-microbe mediated element cycling, soil health improvement, and crop quality and health. To overcome barriers to intercropping implementation, we will establish a network of six field trials and farm labs (20 farms in each country; 180 on-farm trials) in different pedo-climatic zones across Europe (IT, DE, DR, ES, PL, CZ, UK), Egypt, and Pakistan. Furthermore, we will integrate remote sensing and crop modelling to survey fields, upscale the field-scale results, and create a web-based decision support system on intercropping. In collaboration with various stakeholders, legume-intercropping systems' economical, ecological, and social gains will be assessed and disseminated with international outreach from farm-level to policymakers. We will recognize and involve the whole value chain to explore and test innovative marketing strategies for the products of intercropping. LEGUMINOSE will contribute to the ecological intensification of European agriculture by providing science-based, farmer-led, and economically viable transformations for legume-based intercropping systems.

Knowledge regarding the complex interplay between agricultural land use and management and soil quality and function is fragmented and incomplete, in particular with regard to underlying principles and regulating mechanisms. The main aim of iSQAPER is to develop an interactive soil quality assessment tool (SQAPP) for agricultural land users that integrates newly derived process understanding and accounts for the impact of agricultural land use and management on soil properties and functions, and related ecosystem services. For this purpose, >30 long-term experimental field trials in the EU and China will be analysed to derive regulating principles for integration in SQAPP. SQAPP will be developed using a multi-actor approach aiming at facilitating social innovation and providing options to land users for cost-effective agricultural management activities to enhance soil quality and crop productivity. SQAPP will be tested extensively in 14 dedicated Case Study Sites in the EU and China covering a wide spectrum of farming systems and pedo-climatic zones, and rolled-out across the continents thereafter. Within the Case Study sites a range of alternative agricultural practices will be selected, implemented and evaluated with regard to effects on improving soil quality and crop productivity. Proven practices will be evaluated for their potential applicability at EU and China levels, and to assess the related soil environmental footprint under current and future agricultural trends and various agricultural policy scenarios. How the soil quality tool can be utilized for different policy purposes, e.g. in cross compliance and agro-environmental measures, will also be investigated and demonstrated. A comprehensive dissemination and communication strategy, including a web-based information portal, will ensure that project results are available to a variety of stakeholders at the right time and in appropriate formats to enhance soil quality and productivity in the EU and China.

European crop production is to remain competitive while reducing environmental impacts, requiring development and uptake of effective soil improving cropping systems. The overall aim of SOILCARE is to identify and evaluate promising soil-improving cropping systems and agronomic techniques increasing profitability and sustainability across scales in Europe. A trans-disciplinary approach will be used to evaluate benefits and drawbacks of a new generation of soil improving cropping systems, incorporating all relevant bio-physical, socio-economic and political aspects. Existing information from literature and long term experiments will be analysed to develop a comprehensive methodology for assessing performance of cropping systems at multiple levels. A multi-actor approach will be used to select promising soil-improving cropping systems for scientific evaluation in 16 study sites across Europe covering different pedo-climatic and socio-economic conditions. Implemented cropping systems will be monitored with stakeholder involvement, and will be assessed jointly with scientists. Specific attention will be paid to adoption of soil-improving cropping systems and agronomic techniques within and beyond the study sites. Results from study sites will be up-scaled to the European level to draw general lessons about applicability potentials of soil-improving cropping systems and related profitability and sustainability impacts, including assessing barriers for adoption at that scale. An interactive tool will be developed for end-users to identify and prioritize suitable soil-improving cropping systems anywhere in Europe. Current policies and incentives will be assessed and targeted policy recommendations will be provided. SOILCARE will take an active dissemination approach to achieve impact from local to European level, addressing multiple audiences, to enhance crop production in Europe to remain competitive and sustainable through dedicated soil care.