The Freese Organic Farm is testing a number of adaptation options for agriculture, especially in the area of the cultivation of cereals and of high-quality vegetables. Open-field crop farming is becoming ever more difficult due to climate change. In order to better protect vegetable cultures from such extreme weather events as heat waves or heavy rain, the Freese Organic Farm is testing the following innovations: (1) A new greenhouse covering which, due to its particular permittivity, makes open-field-like light conditions possible in a protected structure. At the same time the farm is seeking resilient, climate adapted vegetable strains which are to be examined for their particular properties, both in open-field cultivation and under the protection of this innovative foil. (2) In the area of cereal raising, the organic farm is trying to cultivate an old strain of rye. (3) And by baking and marketing bread from this rye, the farm wants to raise consciousness about the issue of climate change and adaptation.
Regional climate change projections show a changing climate in the metropolitan region of Hamburg for the end of the century: The temperature could increase and the precipitation in summer could decrease. To cope with the probably longer lasting and hotter summer conditions in Europe there are different possible adaptation measures in land management practice, e.g. forest conversion. That means the conversion of mostly coniferous forest monocultures to deciduous and mixed forests. Mixed forests are generally more adaptable in comparison to conifer forests. They ensure an increased groundwater recharge because of less canopy interception and reduced transpiration outside the growing season. An interesting question is how forest conversion would feedback to the regional climate under different climate conditions. To explore climate feedbacks, REMO (regional climate model at the Max Planck Institute for Meteorology, Hamburg) is applied. To get a more realistic representation of the land surface, a current dataset from a digital basis landscape model of the Federal Agency for Cartography and Geodesy is used instead of the standard representation of the land surface in REMO. In some areas of the metropolitan region of Hamburg the updated land surface increases the forest fraction. Additionally, all coniferous forest types are converted into broadleaf forest types to study the maximum impact on the simulated near surface climate. This set-up is used for a climate simulation with REMO, forced by ERA-INTERIM reanalysis data for the period of 1990-2008. Selected climate variables are analyzed and the associated processes are investigated: The different forest distributions affect particularly the evapotranspiration and thus the water- and energy cycle of the soil and the lower atmosphere. Especially, the effects in the very hot and dry year 2003 and in the wet year 2002 are analyzed. To study the impacts of the forest distributions under different climate conditions, a second climate simulation is set up with REMO, forced by ECHAM5-MPIOM for the historical period 1970-2000 and for the future time periods 2035-2065 and 2070-2100 under A1B emissions. This allows analyzing the impact of a changed forest cover under different climate conditions. It gives a first estimation of climate sensitivity.
INKA BB sees itself as an innovation network encompassing academia and business practice that brings about change proactively. As a role model and partner, the network wishes to disseminate findings and initiate learning processes. To achieve this, we combine the region’s existing expertise of research institutions, public administrations, business enterprises and associations. The network operates in Brandenburg with a federal state-wide focus. Most site- and company-related measures are undertaken in the regions of Lausitz-Spreewald and Uckermark-Barnim, as well as in the metropolis of Berlin.
Impacts of climate change on agriculture have been predominantly analyzed by using biophysical and crop specific model applications. Vulnerability assessments which identify the vulnerability of regions with their farming systems are urgently required, because agricultural adaptations to climate change are related to regional specifics, and therefore research has to consider the regional level. Therefore sector- and system-specific approaches have to be developed. This paper presents the methodology of a vulnerability assessment for organic farming systems in the Brandenburg Region, which considers regional-specific climatic impact, as well as the regional-specific adaptive capacity. In this region, the cultivation and management of legume-grass swards have a key position, especially the climate change impact on legume symbiotic nitrogen fixation and nitrogen mineralization. Adaptation strategies of crop production systems include reduced soil tillage, which plays an important role also in organic farming systems (reducing soil erosion, improving water infiltration, reducing evaporation and improving soil structure, control of N-dynamics) are developed and tested by means of an action research approach.
In order to initiate the design, communication and implementation of the transformation to a lowconflict and climate-adapted land-use system, the Centers of Competence e.V. organized three events in the context of nordwest2050 between 2010 and 2013. In cooperation with the Carl von Ossietzky University of Oldenburg, a dialogue was initiated in which heterogeneity of the issues and the various interests of the actors on the issue of land-use was discussed and a solution-oriented manner. At the second and largest event, in February 2013, the »Aurich Declaration,« a regional statement on the most important land-use problems, and concrete approaches to solutions, was adopted. It is represented and supported by a wide range of authors from the region.
ONNO e.V., the East Frisian Network for Ecology – Region – Future, functions as a mediator between its members affected by climate change, the scientists in the project nordwest2050, and the public. The Association is especially active in the area of food communications and education, in order to strengthen the perspective of sustainable food culture in East Friesland among all relevant actors. In the context of this project, this is especially being developed and deepened with respect to the issue of climate change.
Due to growing animal stocks and increasing numbers of biogas facilities (fermentation residues), as well as the limited possibilities for use as fertilizer, handling liquid manure involves ever greater distances. In the future therefore, important steps will involve both an increase in transport-worthiness and a reduction of transport routes and quantities of organic nutrient-containing materials produced; this is especially true for liquid manure and fermentation residues. New, climate-adapted business models need to be developed. During the course of the nordwest2050 project, The Naturdünger-Verwertungs GmbH (Natural Fertilizer Recycling Company/NDV), functioning as an expert and a multiplier, provided data on background knowledge especially for the presentation series Land-Use in the Context of Climate Change in the Northwest.
The restaurant trade is increasingly facing delivery bottlenecks as a result of climate change, which may even cause interruptions of the production of food products. Due to reduced yields and at the same time increased resource requirements, cost pressures are rising. In order to face these challenges in a timely manner, the DEHOGA East Friesland & Weser-Ems District Association is developing climate adaptation strategies for the restaurant trade. In the present project, the effects of climate change are analyzed, and specific solution paths for the restaurant trade are developed and communicated within the DEHOGA District Association.
Rather than focusing on climate-protection measures, the Bremen Cargo Distribution Center (GVZ Bremen) has identified measures for adaptation to climate change. In 2011 and 2012 the Institute of Shipping Economics and Logistics (ISL), together with the Bremen University of Applied Science, carried out a comprehensive empirical investigation of the effects of climate change on the logistics sector of the Metropolitan Region Bremen-Oldenburg in the Northwest. The results clearly show that the expected impacts of climate change could mean a new challenge, both for the GVZ and for individual companies at the Center.