17pgs, There is a lack of data on resources used and food produced at urban farms. This hampers attempts to quantify the environmental impacts of urban agriculture or craft policies for sustainable food production in cities. To address this gap, we used a citizen science approach to collect data from 72 urban agriculture sites, representing three types of spaces (urban farms, collective gardens, individual gardens), in five countries (France, Germany, Poland, United Kingdom, and United States). We answered three key questions about urban agriculture with this unprecedented dataset: (1) What are its land, water, nutrient, and energy demands? (2) How productive is it relative to conventional agriculture and across types of farms? and (3) What are its contributions to local biodiversity? We found that participant farms used dozens of inputs, most of which were organic (e.g., manure for fertilizers). Farms required on average 71.6 L of irrigation water, 5.5 L of compost, and 0.53 m2 of land per kilogram of harvested food. Irrigation was lower in individual gardens and higher in sites using drip irrigation. While extremely variable, yields at well-managed urban farms can exceed those of conventional counterparts. Although farm type did not predict yield, our cluster analysis demonstrated that individually managed leisure gardens had lower yields than other farms and gardens. Farms in our sample contributed significantly to local biodiversity, with an average of 20 different crops per farm not including ornamental plants. Aside from clarifying important trends in resource use at urban farms using a robust and open dataset, this study also raises numerous questions about how crop selection and growing practices influence the environmental impacts of growing food in cities. We conclude with a research agenda to tackle these and other pressing questions on resource use at urban farms.
3 pages, The COVID 19 pandemic has demonstrated clearly that change can happen suddenly and dramatically, creating great uncertainty. Social distancing is the norm world-wide as we all work to ‘flatten the curve’. The economy is crashing, and despite stabilizing attempts, continues to stagger. The combination of a pandemic with economies in decline around the world is increasing food insecurity across the globe (UN-FAO 2020).
But in uncertainty, new possibilities arise and new pathways open. Change creates the conditions for transformation. We now have an opportunity—perhaps a once-in-a-lifetime opportunity—to learn from past weaknesses and create food systems that are more healthy, sustainable, equitable and resilient.
Thinking ahead to post-COVID 19 food systems, it is important to ask, what are we learning about our level of preparedness? And what next steps are suggested by food system weaknesses at local, regional and global scales in the context of the international pandemic?
Lessons are already emerging from this crisis—and from the multiple innovative responses to it—about how to retool food systems toward sustainability and resilience. For example, numerous food providers and retailers have moved online (Open Food Network) and social enterprises are delivering fresh local food and backyard growing kits to vulnerable population groups.
20 Pages, Springer Online, Aspirations to farm ‘better’ may fall short in practice due to constraints outside of farmers’ control. Yet farmers face proliferating pressures to adopt practices that align with various societal visions of better agriculture. What happens when the accumulation of external pressures overwhelms farm management capacity? Or, worse, when different visions of better agriculture pull farmers toward conflicting management paradigms? This article addresses these questions by comparing the institutional manifestations of two distinct societal obligations placed on California fruit and vegetable farmers: to practice sustainable agriculture and to ensure food safety. Drawing on the concept of constrained choice, I define and utilize a framework for comparison comprising five types of institutions that shape farm management decisions: rules and standards, market and supply chain forces, legal liability, social networks and norms, and scientific knowledge and available technologies. Several insights emerge. One, farmers are expected to meet multiple societal obligations concurrently; when facing a “right-versus-right” choice, farmers are likely to favor the more feasible course within structural constraints. Second, many institutions are designed to pursue narrow or siloed objectives; policy interventions that aim to shift farming practice should thus anticipate and address potential conflicts among institutions with diverging aspirations. Third, farms operating at different scales may face distinct institutional drivers in some cases, but not others, due to differential preferences for universal versus place-specific policies. These insights suggest that policy interventions should engage not just farmers, but also the intersecting institutions that drive or constrain their farm management choices. As my framework demonstrates, complementing the concept of constrained choice with insights from institutional theory can more precisely reveal the dimensions and mechanisms that bound farmer agency and shape farm management paradigms. Improved understanding of these structures, I suggest, may lead to novel opportunities to transform agriculture through institutional designs that empower, rather than constrain, farmer choice.
15 pages, Sustainable agricultural technologies are of great significance in fully utilizing agricultural resources and promoting agricultural production. However, the adoption rates of these technologies are often characterized as low in rural areas in China. To figure out the potential salient determinants of rice farmers’ willingness to adopt sustainable agricultural technologies, this paper, by employing the multivariate probit model and ordered probit model, particularly and firstly explores the roles of observational learning and experience-based learning through communication from parents within the household on rice farmers’ willingness to adopt these technologies. Results show that there are strong complementarities and substitutabilities between sustainable agricultural technologies that rice farmers are willing to adopt, and that observational learning and experience-based learning through communication within the household do have pronounced effects on rice farmers’ willingness to adopt some sustainable agricultural technologies and on their intensive use intentions. Therefore, while formulating policies to improve the adoption rates and adoption intensity of these technologies, relevant government agencies should take the complementarities and substitutabilities between sustainable agricultural technologies as well as observational learning and experience-based learning through communication from parents into consideration.
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