Preliminary Report
Farmers’ markets’ locavore challenge: The potential of local food production for newly emerged farmers’ markets in Czechia
- Marie Syrovátková, Jiří Hrabák, Jana Spilková
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- Published online by Cambridge University Press:
- 10 March 2014, pp. 305-317
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The shift toward post-productivist agricultural production in developed countries in recent decades has brought a growing focus on local sustainability and quality food production. This trend has been reflected in the development of a variety of alternative food networks and short food supply chain initiatives. In Czechia, the local and good-quality movement has been significantly represented by the boom in farmers’ markets during the past 2 years. The aim of this paper is to examine the actual potential of the Czech agricultural sector to supply the recently developed network of farmers’ markets. Even though these markets are generally considered to offer farmers better revenues than selling their products to big processors and retail companies, many Czech farmers’ market managers face a lack of potential vendors for their markets. Therefore, we ask if there are producers and self-processors of goods typically sold on farmers’ markets of the appropriate size and legal form in suitable locations in relation to the areas of the biggest demand. The quantitative approach applied was based on the national statistical data on the agricultural sector. It was used to develop a set of indicators which have been displayed in maps and further examined. The results show a high theoretical potential of the Czech agricultural sector to supply farmers’ markets because there are relatively many small farmers producing products sellable on farmers’ markets. In the Czech context, where the tradition of running independent businesses was interrupted by the country's communist past, the lack of experience with private entrepreneurship and marketing among farmers seems to be the main obstacle to broader involvement of farmers on farmers’ markets.
Review Article
Research on subsoil biopores and their functions in organically managed soils: A review
- Timo Kautz
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- Published online by Cambridge University Press:
- 15 January 2014, pp. 318-327
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The living soil is the basis for crop production in organic agriculture. Biopores are voids in the soil which were formed by the activity of soil life. The first scientific studies on biopores were published in the 1870s–90s by Victor Hensen who stated that earthworms were opening channels to the subsoil and coating them with humus, thus creating a beneficial environment for root growth. His work was originally widely recognized, but then research on biopores was neglected for many decades and was only revitalized with the rise of ecological concerns in the 1960s. In recent times, biopores have attracted the attention of agronomists with a focus on organic agriculture. New visualization techniques, such as X-ray micro computed tomography, in-situ endoscopy and nuclear magnetic resonance imaging have been applied. Biopores contribute to air transport through the soil, increase water infiltration, reduce water runoff and soil erosion, serve as preferential pathways for root elongation and can facilitate the acquisition of water and nutrients from the subsoil. The relevance of biopores for nutrient acquisition can be pronounced particularly in organic production systems, where crops are more dependent on nutrient acquisition from the solid soil phase than under conditions of conventional agriculture. Organic land-use strategies should aim to increase number, stability and quality of biopores. The biopore density can be increased by the share of dicotyledons in the crop rotation and by cultivating perennial crops with taproot systems. Moreover, density and—in particular—the quality of biopores, e.g., the nutrient contents of pore walls, can be influenced by anecic earthworms which can be promoted by adapted tillage practices.
Conservation agriculture in Southern Africa: Advances in knowledge
- Christian Thierfelder, Leonard Rusinamhodzi, Amos R. Ngwira, Walter Mupangwa, Isaiah Nyagumbo, Girma T. Kassie, Jill E. Cairns
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- Published online by Cambridge University Press:
- 19 February 2014, pp. 328-348
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The increasing demand for food from limited available land, in light of declining soil fertility and future threats of climate variability and change have increased the need for more sustainable crop management systems. Conservation agriculture (CA) is based on the three principles of minimum soil disturbance, surface crop residue retention and crop rotations, and is one of the available options. In Southern Africa, CA has been intensively promoted for more than a decade to combat declining soil fertility and to stabilize crop yields. The objective of this review is to summarize recent advances in knowledge about the benefits of CA and highlight constraints to its widespread adoption within Southern Africa. Research results from Southern Africa showed that CA generally increased water infiltration, reduced soil erosion and run-off, thereby increasing available soil moisture and deeper drainage. Physical, chemical and biological soil parameters were also improved under CA in the medium to long term. CA increased crop productivity and also reduced on-farm labor, especially when direct seeding techniques and herbicides were used. As with other cropping systems, CA has constraints at both the field and farm level. Challenges to adoption in Southern Africa include the retention of sufficient crop residues, crop rotations, weed control, pest and diseases, farmer perception and economic limitations, including poorly developed markets. It was concluded that CA is not a ‘one-size-fits-all’ solution and often needs significant adaptation and flexibility when implementing it across farming systems. However, CA may potentially reduce future soil fertility decline, the effects of seasonal dry-spells and may have a large impact on food security and farmers’ livelihoods if the challenges can be overcome.
Research Papers
Regional self-reliance of the Northeast food system
- Timothy Griffin, Zach Conrad, Christian Peters, Ronit Ridberg, Ellen Parry Tyler
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- Published online by Cambridge University Press:
- 26 February 2014, pp. 349-363
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Farms producing similar products have become increasingly concentrated geographically over the past century in the United States (US). Due to the concentration of food production, a disruption in key production areas may reduce the availability of certain foods nationwide. For example, climate change poses such a threat, with projections of altered precipitation patterns, increased temperature and pest outbreaks, which may result in reduced crop yields and geographic shifts in crop adaptation. Analyses of the degree to which US regions can satisfy the food needs of their resident populations—a concept we refer to as regional self-reliance (RSR)—are therefore warranted. We focus on the Northeast region because of its high population density and declining agricultural landbase. Our objectives are to: (1) determine how agricultural land is used in the Northeast region; (2) determine the variety and amount of foods produced; and (3) analyze the relationship between food consumption and agricultural output. Annual (2001–2010) data on land area, yield and output of all crops and major livestock categories, as well as seafood landings, were catalogued. National annual (2001–2009) data on food availability were used as a proxy for estimates of food consumption, and these data were downscaled to a regional level and compared with regional production data in order to estimate RSR. In the Northeast region, approximately 65% of land in farms contributed directly to the food supply from 2001 to 2010, although this varied significantly across states. Just over one-half of all land in farms in the region was devoted to the production of livestock feed. The region produced >100 food crops annually from 2001 to 2009, and vegetables represented the majority of food crop production by weight. Chicken accounted for the largest weight of meat products produced. Compared to the Northeast region's share (~6%) of total land in farms in the nation, it accounted for disproportionately higher amounts of the national production of dairy (16%), eggs (13%), chicken (9%), lamb (7%) and vegetables (7%). However, the region accounted for ~22% of the national population and therefore produced a disproportionately low share of food on a per capita basis. RSR for plant-based foods was lowest for pulses (7%) and highest for vegetables (26%). There are four specific factors in the RSR in our analysis, each of which could result in substantial shifts (upward or downward) of the RSR in the future: land used for agriculture, crop (or animal) productivity, population and dietary preferences.
Mapping the potential of local food capacity in Southeastern Minnesota
- Jake C. Galzki, David J. Mulla, Christian J. Peters
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- Published online by Cambridge University Press:
- 21 March 2014, pp. 364-372
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The numerous benefits associated with localized food production have helped increase its popularity among a diverse cross-section of concerned citizens over the past few decades. Quantitative benefits are often attributed to local food systems, such as improvements to local economies or environmental benefits associated with decreased food transportation distances. Qualitative benefits play an equally vital role in the increasing popularity of local foods. The direct connection between people and agricultural land instills a sense of responsibility among consumers, there is a great deal of pride associated with creating a self-sustaining community, and increasing locally derived nutritional produce in our diet can improve health. This research attempts to analyze the feasibility of supplying the nutritional needs for an 11-county region in Southeastern Minnesota entirely from locally grown foods. The study also evaluates an alternative land-use scenario to illustrate how better utilizing land resources can yield environmental benefits in addition to those already inherent with local food production. Potential foodsheds are mapped to represent the theoretical spatial extent of agricultural resources needed to sustain population within the region. The foodshed model finds optimum locations for growing local food based on production potential and availability of agricultural resources to meet the demands of population centers, while minimizing the total distance to transport local foods to nearby distribution centers. Results show that it is theoretically feasible for Southeastern Minnesota to be entirely sustained on local food production. The average distance a unit of food travels in this theoretical baseline scenario is just under 12 km (7.5 miles). The foodshed model produces a surplus of agricultural supply in the region, thus an alternative land-use scenario was explored that involves removing marginal cropland from cultivation in vulnerable landscapes with high ecological value in an attempt to further increase the environmental benefits of locally grown foods. In comparison with the baseline foodshed model, the alternative land-use foodshed converts 68,000 ha (168,000 acres) of marginal cropland on vulnerable landscapes from annually cultivated land to perennial agriculture. This conversion not only reduces total distance traveled by a unit of food from 11.8 km (7.3 miles) in the baseline scenario to 10.8 km (6.7 miles) in the alternative scenario, but also reduces soil degradation, has positive impacts on surface water quality, and may lead to better wildlife habitat. The multiple benefits demonstrated by this study are encouraging to leaders of the local food movement in Southeastern Minnesota. Results of the study demonstrate that the methodology developed for mapping New York state foodsheds is adaptable to the Midwestern US, and should also be adaptable in other regions of the country.
Options to improve family income, labor input and soil organic matter balances by soil management and maize–livestock interactions. Exploration of farm-specific options for a region in Southwest Mexico
- Diego Flores-Sánchez, Jeroen C.J. Groot, Egbert A. Lantinga, Martin J. Kropff, Walter A.H. Rossing
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- Published online by Cambridge University Press:
- 29 April 2014, pp. 373-391
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Farming systems in the Costa Chica region in Mexico face limitations linked to low yields and soil fertility degradation. Several alternative maize-based cropping systems have been proposed to improve current limitations. These field-level options need to be evaluated at farm level in order to assess their feasibility, taking into account input requirements, contributions to self-sufficiency in food and long-term soil fertility, and the availability of labor. In this study, we defined four scenarios to explore consequences of changes in current farming systems for eight typical farms in the region; the first two scenarios comprised redressing current imbalances in crop nutrition and organic matter (OM) supply, respectively, and the last two scenarios explored high fertilizer input and animal husbandry. Farms responded in different ways to the various options depending on available land, current soil quality, current cropping systems and presence of livestock. Improvements in crop nutrition based on mineral fertilizers increased family income but only had substantial effects on soil OM (SOM) balances when fertilizer rates were double the amount currently subsidized. Addition of organic fertilizers resulted in positive effects on SOM balance, but with often strong trade-offs with family income due to costs of acquisition, transport and application. Animals played an important role in increasing SOM balances, but had relatively little effect on improving family income. The results demonstrated that improvements in family income and SOM balance at farm scale were feasible but that without more fundamental system changes trade-offs between short-term yield increases and longer-term soil fertility increases should be expected. The results highlight the need for policies that take into account farm-specific differences in crop and livestock intensification opportunities.
A cultural system to reduce weed interference in organic soybean
- Randy L. Anderson
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- Published online by Cambridge University Press:
- 25 April 2014, pp. 392-398
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Organic producers are seeking alternative tactics for weed control, so that they can reduce their need for tillage. In this study, we examined cultural strategies for controlling weeds during the transition from a cool-season crop to soybean. The study was arranged as a two-way factorial, with factors being choice of cool-season crop and tillage treatments. The cool-season crops were either spring wheat harvested for grain or an oat–pea mixture harvested for forage. Five tillage treatments, ranging from intensive tillage to no-till, were established following each cool-season crop. Two tillage treatments included the cover crops, oat plus oilseed radish. Soybean was planted the following growing season. Each soybean plot was split into two subplots: weed-free and weed-infested. A cultural system comprising oat/pea as a preceding crop with no-till and cover crops reduced weed biomass in soybean 63% compared to intensive tillage. Reduced weed biomass resulted because of delayed weed emergence and lower weed community density. Consequently, soybean yielded 14% more in this treatment than with the intensive tillage treatment when weeds were present. Weed community composition also differed between the two systems; horseweed and field dandelion were prominent in no-till, whereas common lambsquarters, redroot pigweed and buffalobur were prevalent in the tillage control. Other treatments did not control weeds better than intensive tillage. A cultural system approach may minimize the need for tillage during the interval between cool-season crops and soybean.