Multiple anthropogenic challenges threaten nature's contributions to human well-being. Agricultural expansion and conventional intensification are degrading biodiversity and ecosystem functions, thereby undermining the natural foundations on which agriculture is itself built. Averting the worst effects of global environmental change and assuring ecosystem benefits, requires a transformation of agriculture. Alternative agricultural systems to conventional intensification exist, ranging from adjustments to efficiency (e.g., sustainable intensification) to a redesign (e.g., ecological intensification, climate smart agriculture) of the farm management system. These alternatives vary in their reliance on nature or technology, the level of systemic change required to operate, and impacts on biodiversity, landscapes and agricultural production. Different socioeconomic , ecological and political settings mean there is no universal solution, instead there are a suite of interoperable practices that can be adapted to different contexts to maximise efficiency, sustainability and resilience. Social, economic, technological and demographic issues will influence the form of sustainable agriculture and effects on landscapes and biodiversity. These include: 1) the sociotechnical-ecological architecture of agricultural and food systems and trends such as urbanisation in affecting the mode of production, diets, lifestyles and attitudes; 2) emerging technologies, such as gene editing, synthetic biology and 3D bio-printing of meat; and 3) the scale or state of the existing farm system, especially pertinent for smallholder agriculture. Agricultural transformation will require multifunctional landscape planning with cross-sectoral and participatory management to avoid unintended consequences and ultimately depends on people's capacity to accept new ways of operating in response to the current environmental crisis.
Worsening climate change impacts and environmental degradation are increasingly supporting policies and plans in framing a linear understanding of resilience building and vulnerability reduction. However, adaptations to different but interacting drivers of change are unclear in the mix of opportunities and threats related to increasing connections, emerging technologies, new patterns of dependency and possible lock-in effects. This paper discusses a more open-ended understanding of the relationship between resilience and vulnerability, highlighting emerging trade-offs among adaptive capacities and exposures to different (and new) threats as they relate to social–ecological sustainability. The transition of the Southern Bolivian Altiplano, from being a remote rural area of subsistence farming to a global leader in quinoa production and exportation, has been taken as a study case. Results from 18 workshops organised within different communities provide insights about a range of trade-offs between community resilience attributes and social–ecological vulnerability induced from land use changes, livestock strategies, communities’ behavioural change and institutions’ emerging policies. The main theoretical advances of the paper relate to the need for critically framing multiple threat exposures and adaptive capacity trade-offs, contributing to arguing the usually positive meaning of resilience, and taking into account “to whom or to what is positive which adaptation” and “which trade-off should be accepted, and why”. Framing adaptive pathways through these questions would serve as a tool for addressing sustainable development goals, while avoiding lock-ins or unsustainable path dependencies
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