Social Life-Cycle Assessment (S-LCA) is under continuous development. The Methodological Sheets for Subcategories in S-LCA are a set of guidelines commonly used for the performance of such assessments. They cover a variety of stakeholders and subcategories for the social assessment of products in general. However, they may not necessarily be appropriate for the assessment of biobased value chains of agricultural and forestry origin. The aim of this study is the identification of social aspects relevant for the assessment of biobased value chains across various regions of the world, including those aspects possibly overlooked in the Methodological Sheets for Subcategories in S-LCA. For this purpose, a literature review of empirical studies was performed using the sheets as a reference. The results show that the Methodological Sheets for Subcategories in S-LCA provide good coverage of social topics relevant for biobased value chains, but that the stakeholders “smallholder” and “family farm” are not adequately addressed. Drawing on the empirical literature reviewed, the study emphasizes the relevance of these stakeholders in the analysis of biobased value chains of agricultural and forestry origin, and proposes criteria for consideration in the assessment of this stakeholder.
Acrocomia spp., a genus of wild-growing palms in the neotropics, is rapidly gaining interest as a promising multipurpose crop. Diverse products can be derived from various components of the palm, the oils being of highest interest. Acrocomia shows similar oil yield and fatty acid composition to the African oil palm (Elaeis guineensis). It is, however, able to cope with a wider range of environmental conditions, including temporary water scarcity and lower temperatures, thus potentially a more sustainable alternative to its tropical counterpart. Acrocomia’s research history is recent compared to other traditional crops and thus knowledge gaps, uncertainty, and challenges need to be addressed. This review attempts to assess the acrocomia’s preparedness for cultivation by highlighting the state-of-the-art in research and identifying research gaps. Based on a systematic literature search following a value web approach, it (a) provides a comprehensive overview of research topics, (b) shows the development of publication activities over time and the drivers of this development, and (c) compiles main findings to assess the acrocomia’s preparedness for commercial cultivation. Our results confirm its multipurpose characteristic as a potential feedstock for manifold sectors. Research has continued to increase over the last decade, especially on A. aculeata and is driven by the interest in bioenergy. Increasing knowledge on botany has contributed to understanding the genetic diversity and genus-specific biology. This has enabled applied research on seed germination and propagation toward domestication and initial plantation activities, mostly in Brazil. Main research gaps are associated with genotype–environment interaction, planting material, crop management, and sustainable cropping systems. Overall, we conclude that acrocomia is at an early phase of development as an alternative and multipurpose crop and its up-scaling requires the integration of sustainability strategies tailored to location-based social-ecological conditions.
Over the past decade, research has intensified on how to evaluate and manage these ES to minimize environmental impacts of business and everyday life. [8] Concepts such as civic ecology, [9] sustainable development, [10][11][12] and the bioeconomy [13,14] are being rapidly operationalized and often integrate ecological practices into their implementation strategies, by way of how we interact with nature. In this regard, philosopher and scientist Aldo Leopold wrote in the mid-20th century: "A thing is right when it tends to preserve the integrity, stability, and beauty of the biotic community. It is wrong when it tends otherwise." [15] Similarly, the paradigm of civic ecology [9] is founded in subjective philosophy, which aims to expand our awareness of the natural world and the systems in place.One of the fundamental practices in civic ecology is systems thinking, with the idea that individuals should form a relation to nature, like they do to a human community. Further, systems thinking is frequently used in science to understand how individuals interact with the system. For instance, an ecosystem shares this attribute, where a dynamically evolving system is influenced by interacting, individual elements including air, water, soil, microbes, plants, and animals. Unfortunately, this notion is often ignored, because the provisioning The current geological epoch is characterized by anthropogenic activity that greatly impacts on natural ecosystems and their integrity. The complex networks of ecosystem services (ESs) are often ignored because the provision of natural resources, such as food and industrial crops, is mistakenly viewed as an independent process separate from ecosystems and ignoring the impacts on ecosystems. Recently, research has intensified on how to evaluate and manage ES to minimize environmental impacts, but it remains unclear how to balance anthropogenic activity and ecosystem integrity. This paper reviews the main ESs at farm level including provisioning, regulating, habitat, and cultural services. For these ESs, synergies are outlined and evaluated along with the respective practices (e.g., cover-and intercropping) and ES suppliers (e.g., pollinators and biocontrol agents). Further, several farm-level ES trade-offs are discussed along with a proposal for their evaluation. Finally, a framework for stakeholder approaches specific to farm-level ES is put forward, along with an outlook on how existing precision agriculture technologies can be adapted for improved assessment of ES bundles. This is believed to provide a useful framework for both decision makers and stakeholders to facilitate the development of more sustainable and resilient farming systems.
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The diversification of biomass resources is key to the transition towards a bioeconomy. Acrocomia spp., a neotropical genus of palms, is an example of plants’ diversity potential for a sustainable bioeconomy. Acrocomia’s adaptability to environments outside rainforests, its specific fruit properties and high yields has generated the interest of researchers and entrepreneurs, triggering its introduction as a multipurpose oil crop. Developing sustainability-oriented and knowledge-based acrocomia value webs requires a collaborative, systems approach from the outset. Fostering an inter- and transdisciplinary dialogue on acrocomia through a participatory workshop with both academic and non-academic actors contributed to this endeavor. This allowed the identification of priorities, knowledge gaps, and stakeholder roles, and served as the basis for the co-creation of a research and development roadmap. Key steps for the introduction of acrocomia include intertwined technical aspects relating to the development of planting material, cultivation systems, processing technologies and applications, market entry, and value web governance aspects. A broad collaboration among scientists, the public and private sectors, farmers, and civil society, is required for the development of acrocomia value webs. The incorporation of sustainability and a consideration of context in the design and development phases are fundamental to fostering the sustainable performance of acrocomia value webs.
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