Abstract
The social-ecological effects of agricultural intensification are complex. We explore farmers' perceptions about the impacts of their land management and the impact of social information flows on their management through a case study in a farming community in Navarra, Spain, that is undergoing agricultural intensification due to adoption of large scale irrigation. We found that modern technology adopters are aware that their management practices often have negative social-ecological implications; by contrast, more traditional farmers tend to recognize their positive impacts on non-material benefits such as those linked with traditions and traditional knowledge, and climate regulation. We found that farmers' awareness about nature contributions to people co-production and their land management decisions determine, in part, the structure of the social networks among the farming community. Since modern farmers are at the core of the social network, they are better able to control the information flow within the community. This has important implications, such as the fact that the traditional farmers, who are more aware of their impacts on the environment, rely on information controlled by more intensive modern farmers, potentially jeopardizing sustainable practices in this region. We suggest that this might be counteracted by helping traditional farmers obtain information tailored to their practices from outside the social network.
Highlights
Agriculture is undergoing a transformation, mainly through intensification, worldwide [1]
We found different levels of awareness among farmers regarding how they can affect nature’s contributions to people (NCP) within the agricultural landscape given their land management decisions
We found that most farmers were aware of their co-production of NCP through their land management decisions, though modern and traditional farmers’ awareness of their contributions differed
Summary
Agriculture is undergoing a transformation, mainly through intensification, worldwide [1] This is reflected in the increased numbers of industry-oriented farms, characterized by largescale monocultures with high use of pesticides and fertilizers and, which often go hand in hand with investments into irrigation technology. This intensification process is driven by a push for higher yields [2] and the allocation of increased amounts of food crop production toward biofuel production to meet energy demand [3]. EB, Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and EngineeringResearch Council of Canada RK, European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (grant agreement No 648693)
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