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1. A network approach for managing ecosystem services and improving food and nutrition security on smallholder farms

   https://doi.org/10.1002/pan3.10295  

   Timberlake, Thomas P. ; Cirtwill, Alyssa R. ; Baral, Sushil C. ; Bhusal, Daya R. ; Devkota, Kedar ; Harris‐Fry, Helen A. ; Kortsch, Susanne ; Myers, Samuel S. ; Roslin, Tomas ; Saville, Naomi M. ; et al ( January 2022 , People and Nature)

   Smallholder farmers are some of the poorest and most food insecure people on Earth. Their high nutritional and economic reliance on home‐grown produce makes them particularly vulnerable to environmental stressors such as pollinator loss or climate change which threaten agricultural productivity. Improving smallholder agriculture in a way that is environmentally sustainable and resilient to climate change is a key challenge of the 21st century.

   Ecological intensification, whereby ecosystem services are managed to increase agricultural productivity, is a promising solution for smallholders. However, smallholder farms are complex socio‐ecological systems with a range of social, ecological and environmental factors interacting to influence ecosystem service provisioning. To truly understand the functioning of a smallholder farm and identify the most effective management options to support household food and nutrition security, a holistic, systems‐based understanding is required.

   In this paper, we propose a network approach to understand, visualise and model the complex interactions occurring among wild species, crops and people on smallholder farms. Specifically, we demonstrate how networks may be used to (a) identify wild species with a key role in supporting, delivering or increasing the resilience of an ecosystem service; (b) quantify the value of an ecosystem service in a way that is relevant to the food and nutrition security of smallholders; and (c) understand the social interactions that influence the management of shared ecosystem services.

   Using a case study based on data from rural Nepal, we demonstrate how this framework can be used to connect wild plants, pollinators and crops to key nutrients consumed by humans. This allows us to quantify the nutritional value of an ecosystem service and identify the wild plants and pollinators involved in its provision, as well as providing a framework to predict the effects of environmental change on human nutrition.

   Our framework identifies mechanistic links between ecosystem services and the nutrients consumed by smallholder farmers and highlights social factors that may influence the management of these services. Applying this framework to smallholder farms in a range of socio‐ecological contexts may provide new, sustainable and equitable solutions to smallholder food and nutrition security.

   A freePlain Language Summarycan be found within the Supporting Information of this article.

    

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2. The effects of crop type, landscape composition and agroecological practices on biodiversity and ecosystem services in tropical smallholder farms

   https://doi.org/10.1111/1365-2664.14380  

   Vogel, Cassandra ; Poveda, Katja ; Iverson, Aaron ; Boetzl, Fabian A. ; Mkandawire, Tapiwa ; Chunga, Timothy L. ; Küstner, Georg ; Keller, Alexander ; Bezner Kerr, Rachel ; Steffan‐Dewenter, Ingolf ( March 2023 , Journal of Applied Ecology)

   In the tropics, smallholder farming characterizes some of the world's most biodiverse landscapes. Agroecology as a pathway to sustainable agriculture has been proposed and implemented in sub‐Saharan Africa, but the effects of agricultural practices in smallholder agriculture on biodiversity and ecosystem services are understudied. Similarly, the contribution of different landscape elements, such as shrubland or grassland cover, on biodiversity and ecosystem services to fields remains unknown.

   We selected 24 villages situated in landscapes with varying shrubland and grassland cover in Malawi. In each village, we assessed biodiversity of eight taxa and ecosystem services in relation to crop type, shrubland and grassland cover and the number of agroecological pest and soil management practices on smallholder's fields of different crop types (bean monoculture, maize‐bean intercrop and maize monoculture).

   Increasing shrubland cover altered carabid and soil bacteria communities. Carabid abundance increased in maize but decreased in intercrop and bean fields with increasing shrubland cover. Carabid abundance and richness and wasp abundance increased with soil management practices. Carabid, spider and parasitoid abundances were higher in bean monocultures, but this was modulated by surrounding shrubland cover. Natural enemy abundances in beans were especially high in landscapes with little shrubland, possibly leading to lower bean damage in monocultures compared to intercropped fields, whereas maize monocultures had higher damage. In maize, grassland cover and pest management practices were positively related to damage. Carabid abundance was higher fields with high bean damage, and increased carabid richness in fields with high maize damage. Parasitoid abundance was negatively associated with bean damage.

   Synthesis and application. Our results suggest that maintaining biodiversity and ecosystem services on smallholder farms is not achievable with a ‘one size fits all’ approach but should instead be adapted to the landscape context and the priorities of smallholders. Shrubland is important to maintain carabid and soil bacterial diversity, but legume cultivation beneficial to natural enemies could complement pest management in landscapes with a low shrubland cover. An increased number of agroecological soil management practices can lead to improved pest control while the effectiveness of agroecological pest management practices needs to be re‐evaluated.

    

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3. Techno‐economic modeling and assessment of cultivated meat: Impact of production bioreactor scale

   https://doi.org/10.1002/bit.28324  

   Negulescu, Patrick G. ; Risner, Derrick ; Spang, Edward S. ; Sumner, Daniel ; Block, David ; Nandi, Somen ; McDonald, Karen A. ( January 2023 , Biotechnology and Bioengineering)

   Increases in global meat demands cannot be sustainably met with current methods of livestock farming, which has a substantial impact on greenhouse gas emissions, land use, water consumption, and farm animal welfare. Cultivated meat is a rapidly advancing technology that produces meat products by proliferating and differentiating animal stem cells in large bioreactors, avoiding conventional live‐animal farming. While many companies are working in this area, there is a lack of existing infrastructure and experience at commercial scale, resulting in many technical bottlenecks such as scale‐up of cell culture and media availability and costs. In this study, we evaluate theoretical cultivated beef production facilities with the goal of envisioning an industry with multiple facilities to produce in total 100,000,000 kg of cultured beef per year or ~0.14% of the annual global beef production. Using the computer‐aided process design software, SuperPro Designer®, facilities are modeled to create a comprehensive analysis to highlight improvements that can lower the cost of such a production system and allow cultivated meat products to be competitive. Three facility scenarios are presented with different sized production reactors; ~42,000 L stirred tank bioreactor (STR) with a base case cost of goods sold (COGS) of $35/kg, ~211,000 L STR with a COGS of $25/kg, and ~262,000 L airlift reactor (ALR) with a COGS of $17/kg. This study outlines how advances in scaled up bioreactors, alternative bioreactor designs, and decreased media costs are necessary for commercialization of cultured meat products.

    

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4. Temperature and soil moisture monitoring of celery trials and compost piles at a farm in Fairbanks, Alaska from May 2022 to March 2023

   https://doi.org/10.18739/A2319S45K  

   Ward Jones, Melissa ; Gannon, Glenna ; Jones, Benjamin ( January 2024 , NSF Arctic Data Center)

   The Permafrost Grown project (NSF RISE Award # 2126965) is co-producing knowledge with farmers in Alaska (Tanana Valley and Bethel) to investigate the interactions and feedbacks between permafrost and agriculture. Additional project objectives include understanding legacy effects over a 120-year cultivation history in the Tanana Valley, evaluating the socio-economic effects of permafrost-agriculture interactions and provide decision making tools for farmers and finally to utilize education and outreach activities to share knowledge with the farmers and the public. The project focuses on in-the-ground farming in a range of cultivation types including crops, peonies and livestock. The project is funded through the National Science Foundation's (NSF) Navigating the New Arctic Initiative. Data was collected at a small (less than one acre) farm that grows diverse crops. This farm has been impacted by subsidence from thawing ice-rich permafrost. The goal of the celery trials was to compare celery grown in areas that are wetter due to subsidence and celery grown in an upper area that has been less impacted by subsidence. In addition, over the same period, monitoring was done of two compost piles: one older pile that has been actively used and maintained for a few years that will no longer be maintained (i.e. adding of new material for decomposition) and the establishment of a new compost pile. The monitoring of the compost pile is part of a larger effort to determine the thermal impact of commonly used agricultural practices and the potential impact on permafrost. 

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5. Socio-Economic and Governance Conditions Corresponding to Change in Animal Agriculture: South Dakota Case Study

   https://doi.org/10.3390/su131910682  

   Welles, Jacqueline S. ; Soriano, Noelle Cielito ; Dorbu, Freda Elikem ; Pereira, G. M. ; Rubeck, Laura M. ; Timmermans, Erica L. ; Ndayambaje, Benjamin ; Deviney, Alison V. ; Classen, John J. ; Koziel, Jacek A. ; et al ( October 2021 , Sustainability)

   Understanding sustainable livestock production requires consideration of both qualitative and quantitative factors in a temporal and/or spatial frame. This study adapted Qualitative Comparative Analysis (QCA) to relate conditions of social, economic, and governance factors to changes in livestock inventory across several counties and over time. This paper presents an approach that (1) identified factors with the potential to relate to a change in livestock inventory and (2) analyzed commonalities within these factors related to changes spatially and temporally. This paper illustrates the approach and results when applied to five counties in eastern South Dakota. The specific response variables were periods of increasing, no change, or decreasing beef cattle, dairy cattle, and swine inventories in the specific counties for five-year census periods between 1992 and 2017. In the spatial analysis of counties, stable beef inventories and decreasing dairy inventories related to counties with increasing gross domestic products. The presence of specific social communities related to increases in county swine inventories. In the temporal analysis of census periods, local governance and economic factors, particularly market price influences, were more prevalent. Swine inventory showed a stronger link to cash crop markets than to livestock markets, whereas cattle market price increases associated with stable inventories for all animal types. Local governance tools had mixed effects for the different animal types across space and time. The factors and analysis results are context-specific. However, the process considers the various socio-economic processes in livestock production and community development applicable to agricultural sustainability questions in the Midwest and beyond. 

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