AGRIFOOD SYSTEMS IN NATIONAL BIODIVERSITY STRATEGIES AND ACTION PLANS – Draft guidance for target 10 of the Kunming-Montreal Global Biodiversity Framework
The adoption of the Kunming-Montreal Global Biodiversity Framework (KMGBF) at the Fifteenth Conference of the Parties (COP15) to the Convention on Biological Diversity (CBD) marked a significant commitment by 196 countries to a shared vision of a world living in harmony with nature. The KMGBF outlines four ambitious goals for 2050 and 23 specific targets for 2030.
Agrifood systems are directly or indirectly linked to all the targets of the KMGBF. This gives national agrifood systems and local actors an essential role to play in its achievement, including farmers, forest managers, forest-dependent people, land and water resource managers, fisherfolks and aquaculturists, beekeepers, Indigenous Peoples and others. Target 10 in particular commits countries to managing areas under agriculture, aquaculture, fisheries and forestry sustainably, including through the sustainable use of biodiversity and a substantial increase in the application of biodiversity-friendly practices. Its implementation is interrelated with and dependent on several other targets.
To implement the KMGBF, countries are developing National Biodiversity Strategies and Action Plans (NBSAPs), which are the main instruments for implementing the Convention and the KMGBF.
The purpose of the draft Guidance is to provide practical recommendations for including agrifood systems and their stakeholders into the planning, implementation, and monitoring of NBSAPs, with a specific focus on Target 10 and other relevant targets. The scope covers all agrifood sectors – crop and livestock production, forestry, fisheries and aquaculture. The targeted audience for this guidance includes policy and decision-makers in biodiversity/environment and agrifood systems, producers’ organizations and other stakeholders who participate in agrifood systems and in biodiversity commitments, including civil society organizations, Indigenous Peoples, local communities, women and youth.
CONSULTATION WITH DOCUMENT
This consultation, organized by the FAO Biodiversity Mainstreaming Unit, seeks suggestions and input on the draft Guidance for target 10 of the Kunming-Montreal Global Biodiversity Framework, as well as proposals for relevant examples, materials and case studies. These contributions will help illustrate concepts, provide best practices and share success stories in the Guidance.
This draft Guidance focuses on exploring key topics and providing essential resources to support the integration of agrifood systems into NBSAPs. It emphasizes a whole-of-government and whole-of-society approach. The Guidance does not provide a rigid step-by-step plan but rather offers a framework for understanding and addressing the complex relationship between biodiversity and agrifood systems. It covers key areas, including:
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(i) Establishing the global context: Analyzing existing biodiversity plans and understanding the interplay between biodiversity and agricultural activities; (ii) Planning for Target 10: Providing actionable guidance on how to integrate Target 10 effectively within the framework of NBSAPs; (iii) Operationalizing implementation: Exploring enabling conditions, developing strategies for scaling up successful initiatives, and identifying practical solutions for implementation challenges; (iv) Monitoring and evaluation: Establishing robust monitoring frameworks at both national and global levels to track progress and assess the effectiveness of implemented measures. |
We kindly ask participants to use this Excel Template to submit their comments and suggestions to the draft Guidance, and to provide relevant examples. Comments are welcome in English, French and Spanish.
Contributions and the results of this consultation will be used to further elaborate and refine this Guidance. Proceedings of the contributions received will be made publicly available on this consultation webpage. Please note that only inputs provided in the Excel Template will be considered for incorporation into the final Guidance.
This consultation is open until 16 January 2025.
We thank in advance all the contributors and look forward to a productive consultation.
Co-facilitator:
Julie Bélanger, Natural Resources Officer (Biodiversity), Office of Climate Change, Biodiversity and Environment, FAO
How to take part in the e-consultation
To take part in this consultation, please register to the FSN Forum, if you are not yet a member, or “sign in” to your account. Please read the draft document and download the Excel Template. Please upload the completed template in the box “Post your contribution” on this webpage. For any technical support, please send an email to [email protected].
References
Kunming-Montreal Global Biodiversity Framework
Delivering on the Kunming-Montreal Global Biodiversity Framework through agrifood systems
Delivering restoration outcomes for biodiversity and human well-being
FAO Strategy on Mainstreaming Biodiversity across Agriculture Sectors
Please read the article of FAO publications on this topic here.
- Read 27 contributions
Solutions from the Land, a farmer/scientist led not-for-profit NGO focused on agricultural solutions to global challenges, is pleased to provide comments and input on the draft Guidance for Target 10 of the Kunming-Montreal Global Biodiversity Framework.
Our submission is below and attached.
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SOLUTIONS FROM THE LAND (SfL) COMMENTS AND RECOMMENDATIONS
Thank you for the opportunity to provide comments and input on the draft Guidance for Target 10 of the Kunming-Montreal Global Biodiversity Framework1. Target 10 commits to managing agriculture, aquaculture, fisheries, and forests in sustainable ways that increase biodiversity and meet people’s needs through sustainable uses and benefit-sharing. This Guidance Framework offers action-
oriented recommendations directed toward increasing country level capacities to integrate sustainable agriculture and biodiversity friendly approaches to ensure food and nutrition security, healthy ecosystem functioning, and the livelihoods of producers at all scales and systems.
Farmers, forest managers, forest-dependent people, land and water resource managers, herders, fisherfolk, aquaculturists, beekeepers, and Indigenous Peoples are primary producers of food and nutrition essential to all human life.
Solutions from the Land (SfL)2 is a farmer/scientist led nonprofit organization focused on land- based solutions to local, regional, and global challenges. SfL promotes an agricultural
renaissance through which innovative and entrepreneurial farmers, ranchers, aquaculutralists and foresters produce nutritious food, feed, fiber, clean energy, healthy ecosystems, quality livelihoods and strong rural economies.
The comments below reflect our reading and perspectives on the Biodiversity and Agrifood Systems Guidance document. Text in red is suggested language to be inserted into the guidance document; see also excel comments template for additional comment detail.
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We find much in this guidance document of great value. We recognize and appreciate the anchoring of biodiversity in agriculture and food systems in the context of global efforts to achieve UN Sustainable Development Goals (SDGs) and agriculture’s capacity to concurrently deliver multiple SDGs ranging from food and nutrition security, healthy soil,
clean water, enhanced biodiversity, regenerated ecosystem services to rural livelihoods. We commend you for the inclusion and alignment with the UNFCCC Koronivia Joint Work on Agriculture (KJWA) which our farmers have been intimately involved in co-creating over the past few years.
2. Embed biodiversity into sustainability of agriculture and forestry. SfL concurs with the explicit assumption that biodiversity is an element of landscape and ecosystem resilience and sustainability; and must be integrated into agrifood systems strategic design, planning and implementation (Section 1.4 Mainstreaming biodiversity in agricultural sectors, pg7). Biodiversity conservation and management safeguards and enhances the environment as well as sustains into the future economic and social benefits.3 Biodiversity (genetic, species abundance and richness, and ecosystem community diversity) are key indicators of sustainability and resilient earth systems. Concrete action plans must set goals and develop policies and biodiversity-friendly practices and approaches that account for the diverse mosaic of land uses and the multifunctional capacities of agriculture and forestry to concurrently deliver multiple SDGs when conservation, efficiency and productivity goals, resources and policies align. We recommend you insert in this section a statement that proposes to “embed biodiversity into sustainability of agriculture and forestry” definitionally and as a measure/indicator of resilience and sustainability.
3. “Stakeholders” in the agrifood system. In the Executive Summary and throughout, the term “stakeholders” in agrifood systems is used liberally. However, it is not until page 17 that the “primary producers” of food, forestry and agricultural products are explicitly identified as “farmers, herders, fisherfolk, and foresters.” Yet these are the people and occupations that are engaged in agriculture and are central to implementing “concrete action for practices for sustainable agriculture” (499, line 505-508). The language in Target 10 of the CBD/COP decision 15/4 is explicit, “Ensure that areas under agriculture, aquaculture, fisheries and forestry are managed sustainably in particular through the sustainable use of biodiversity, including….application of biodiversity friendly practices.” It is farmers, herders, fisherfolk and foresters who are the target of change and primary “custodians of biodiversity” (p.7 Section 1.4.4). Would it not make sense to be explicit “who” these primary producers are? They are farmers, herders, fisherfolk, and foresters who must be involved at local and country level discussions in the construction of policies and regulations, and experiential and science-based implementation that affect their capacities to embed biodiversity in their management systems to produce food and nutrition and livelihoods that pull them out of poverty.
Farmers are more than simply “stakeholders” and should be explicitly referenced upfront and throughout the document. A second agrifood stakeholder group seems to be missing from the text of this document, that of scientists that are helping to produce new knowledge and technologies. Recommend text on page5, (line 114-115) the “whole of government and whole of society approach involving all stakeholders, including primary producers, scientists, practitioners, implementers and holders of rights and knowledge of Indigenous Peoples and local communities.”
Fig 2 is a useful stakeholder mapping graphic. Wonder if the high-level bolded categories ought to be called out sooner than page 18? in the Executive Summary and perhaps page 5 discussion of stakeholders. Recommend text: “Agrifood stakeholders encompass primary producers, consumers, business and industry, government at local and national levels, industry and food associations, academic, scientific and medical communities and research centers.”
Please see the attached excel spreadsheet for places in the document where these primary producers might be explicitly identified. They are the local people who will be expected to implement recommended approaches and biodiversity-friendly practices in ANNEX I and their livelihoods depend on their success and support they receive from other stakeholders as mapped in Figure 2.
4. Target10, agrifood systems relationships with other Biodiversity Targets. Table 1 Relationships between Target 10 and other KMGBF Targets is an excellent start in connecting biodiversity with the complexity of constructing sustainable and resilient agriculture and forestry systems. For example, we as a farmer organization have producers who are facing invasive alien species (Target 6) challenges and associated state and national policies that are undermining conservation, efficiency, productivity and efforts to be sustainable and resilient. Our farmers are also deeply involved in the use of data to guide management decisions (SfL Data Policy). Target 21 focuses on making data, information and knowledge accessible to guide biodiversity actions of small holders. mid- and larger scale operations. As noted above, # 2, biodiversity-genetic, species, and ecosystem community diversity- are important metrics for quantification and monitoring of ecosystem well-being and sustaining agrifood systems. We recommendbuilding out and elaborating these Target 10 relationships in more detail as a next step in the development of country-level Biodiversity Guidance.
5. Whole-of-government and whole-of-society (p 17, lines 485-496). SfL fully supports and applauds this high-level intent. However, the complexity of implementing this approach must not be underestimated. We recommend strongly to insert the text: Design and planning at the national level should involve many stakeholders but must include at the core and be accountable to local primary producers-- farmers, herders, fisherfolk and foresters at all scales and genders including indigenous people—and their cultural values, capacities and resources needed to operationalize and profitably implement a national plan.
6. Translating commitment to concrete action. This is the heart of the Guidance document and the authors have done an excellent job of being purposeful in offering country-level guidance options on “how” to improve, incentivize, energize, and invest in their agrifood systems to achieve multifunctionality. We especially appreciate the articulation of the range of approaches and biodiversity-friendly practices available to improve resilience and sustainability of agrifood systems.
We recommend an additional general principle, Systems approaches inthe Implementation Section 3, general principles (line 626, pg 21)
3.1. Systems and systems-of-systems approaches. Forestry, aquaculture, and agriculture land and water management are not linear production structures but complex systems. It is complexity that gives these systems the capacity to provide multiple benefits. For example, biodiversity in agricultural cropping systems promotes circularity within and among systems, creating complexity that gives the system unique capacity to deliver ecosystem services and a variety of food and agricultural products.4 Different combinations or sets of sustainable and biodiversity friendly approaches will create new systems as they interact. Systems, including systems of systems approaches offer useful feedback loops and data for evaluating individual and combinations of practices/approaches and serve to guide adjustment and redesign as needed.
We recommend adding the following 5th bullet point to the “general principles” list on page 21 (Line 633)
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Adapt system and systems-of-systems approaches that utilize circularity, diversification and complexity to mimic the natural
complexity of earth systems that use, recycle and reuse resources.
3.3 Key elements to create an enabling environment (pg 23; lines 699-714) Congruent with the Systems Approach guiding principle recommended above in 3.1, we recommend an additional (8th) element, “circular bioeconomies” to create enabling environments that would precede current elements, (3) regulatory framework and (4) financial framework
We suggest the following text:
- Promote circular bioeconomies5 that recycle, renew and regenerate resources, reduce waste and pollution, keep products and materials in use as long as possible, increase efficiency and provide for economic benefits.
7. ANNEX I. Approaches and biodiversity-friendly practices
We recommend the addition of Circular Bioeconomy to the list of approaches and biodiversity-friendly practices in ANNEX 1. Draft text below:
Circular Bioeconomy6. Circular bioeconomies recycle, renew and regenerate resources, reduce waste and pollution, keep products and materials in use as long as possible, increase efficiency and provide economic benefits. Circular economies integrate bioeconomies which preserve and enhance natural capital, including biodiversity by balancing renewable resource flows with renewable natural resources and finite earth materials and stock resources with management goals of recycling, refurbishing, reuse/redistribution and maintenance that prolong utility of resources. Country-level bioeconomies7 can promote grow-make-use-restore/regenerate activities of farm level circular systems to produce multi-benefit products that: 1) Retain on-farm value as inputs within the farm system as substitutes for off-farm resources; 2) Retain on-farm and landscape level value as recirculated and regenerated ecosystem resource inputs and outputs returned to the ecosystem; 3) Expand circular biosystems networks as off-farm inputs and resources utilize raw, recycled and regenerated coproducts from regional and national circular economy networks, science and technologies, and public/private infrastructures; 4) Are off-farm outputs for consumption beyond the farm gate as consumer end products (eg food) and inputs to other farms and value chains; and 5) Lead to farmer household outcomes such as improved livelihoods, health and wellbeing, biodiversity and environmental gains, and more robust economies. Adaptations, adjustments, modifications, and redesign can target farm systems a) physical components, material and energy flows, b) system feedbacks on the interactions among farm systems using observation and data tracking systems, c) farm system design, the structures, information flows, that help the farmer manage parameters and feedbacks, and d) the farmer/forester/fisher/community underpinning goals, values and expectations for outcomes.
8. See also Solutions from the Land Online consultation 2024 March 11, FAO Global Forum on Food Security and Nutrition (FSN Forum) Agriculture, Biodiversity and Food Security: From Commitments to Actions Draft Version Zero
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1. Kunming-Montral Biodiversity Framework (KMGBF) adopted CBD/COP15 of Convention on Biological Diversity, Decision 15/4 19 December 2022
2. The SfL mission is focused on the future of agriculture, forestry and conservation. SfL seeks to inspire, educate, equip, and mobilize agricultural thought leaders to advocate, at local, state and global levels for integrated policies, practices and projects that will enable farmers, ranchers and foresters who manage local and landscape scale resources, to produce food and nutrition security, fiber and energy needed to support growing populations and economies while simultaneously enhancing biodiversity, ensuring quality livelihoods, protecting and improving the environment and delivering high value ecosystem services. Home - Solutions from the Land.
3. M. Laurila-Pant, A. Lehikoinen, L. Uusitalo, and R. Venesjarvi. 2015. How to value biodiversity in environmental management. Ecological Indicators 55:1-11. http://dx.doi.org/10.1016/j.ecolind.2015.02.034
4. LW Morton and E Shea. 2022. Frontier: Beyond productivity-recreating the circles of life to deliver multiple benefits with circular systems. ASABE (American Society of Agricultural and Biological Engineers) Vol 65:2:411-418 https://doi.org/10.13031/ja.14904
5. LW Morton and E. Shea. Circular bioeconomies as solution pathways to SDGs: Farm-level circularity networked into regional and national circular economies (under review ASABE).
6. FAO (United Nations Food & Agriculture Organization). 2024. Guidelines on the role of livestock in circular bioeconomy systems. For Public Review.
LW Morton and E Shea. 2022. Frontier: Beyond productivity-recreating the circles of life to deliver multiple benefits with circular systems. ASABE (American Society of Agricultural and Biological Engineers) Vol 65:2:411-418 https://doi.org/10.13031/ja.14904
Jones, J., Verma, B., Basso, B., Mohtar, R., & Matlock, M. 2021. Transforming food and agriculture to circular systems: A perspective for 2050. Resource, 28(2), 7-9. St. Joseph, MI: ASABE.
Rodias, E., Aivazidou, E., Achillas, C., Aidonis, D., & Bochtis, D. 2021. Water-energy-nutrients synergies in the agrifood sector: a circular economy framework Energies 14, 159 doi.org/10.3390/en14010159 LW
7. LW Morton and E. Shea. Circular bioeconomies as solution pathways to SDGs: Farm-level circularity networked into regional and national circular economies (under review ASABE).
Dear Sir/ madam
I am a agriculture journalist, I'm engaging long time in agriculture's media sector, How importance role are in the agriculture sectors.
In the Nepal context food production gradually running commercially progress of processing grow the food in Nepal.
I welly recognized the agriculture values. And I want to thanks FSN Team.
With best regards,
Dhanbahadur Magar
Background :
The agrifood system in National Agro-biodiversity and action plan have playing the lot of role in various factors to implementation the an agricultural development, sustainable food, nutrition, health, business and environmental protection, as well as protection and promotion of agricultural biodiversity, the development and protection of plant varieties is mandatory.
The Agrifood direct relation with farmers, it link with the sustainable market and link to consumers, The agrifood system in this context, Nepal should implement the commitments and agreements expressed during its membership of the WTO, the Convention on Biological Diversity, and the Treaty on Plant Genetic Resources for Food and Agriculture.
In addition, since it is necessary to make a legal arrangement to ensure the rights of farmers and breeders while encouraging research, investment, and technology transfer in this area, the Federal Parliament should implement this Act as soon as possible.
In an agricultural-dominated country like Nepal, where many kinds of agricultural techniques, skills, and knowledge have been created and developed, it strengthens the livelihood of farmers, makes the agricultural system sustainable, and plays an important role in the agricultural revolution. Other contributions include the following. The plant variety Protection and Farmers' Rights topic addresses the conservation of biological diversity in agriculture, the development of new plant varieties, and the protection of farmers' rights.
1.-Encourage the intellectual work and improving performance levels :
By granting exclusive rights to new plant varieties, this system encourages investment in research and development.
Most encourage to breeders to focus on developing high-yielding, disease-resistant, or climate-adapted varieties, which improve agricultural performance, development.
2. Financial benefits:
Breeders and farmers can monetize their efforts through royalties, licensing, and sales of protected breeds. Farmers and breeders who develop unique varieties can earn long-term income, which creates a financial incentive for innovation.
3. Monopoly in the market (exclusive IP rights):
Exclusive monopoly rights: Breeders/farmers get exclusive control over the commercialization of their breed, creating a temporary monopoly to reward their innovation. This feature encourages private investment in plant breeding, as it ensures a return on investment.
4. Fair competition, quality, and speed of innovation:
The regulatory structure ensures that competitors must innovate to develop different plant varieties, which encourages fair competition. By rewarding quality and uniqueness, this system raises standards and accelerates the advancement of agricultural technology.
5. Recognition:
The PVP-FR scheme formally recognizes the contribution of breeders, farmers, and communities, which enhances their reputation and self-reliance.
Farmers or communities that preserve traditional varieties or contribute to the development of new varieties receive recognition and sometimes awards.
6. Social benefits:
Improvement of and agro-biodiversity strategy and action plan of agricultural productivity brings economic stability to rural areas by ensuring food-nutrition-health security. As mentioned, excellent crop varieties like that contribute to environmental sustainability as they require less input and can withstand climate stress.
7. Local (Raithane) Conservation of local agricultural genetic resources:
The protection of farmers' rights gives priority to the protection of traditional and traditional genetic resources - crop varieties.
Farmers are encouraged to conserve and use genetic resources, which are essential for biodiversity and future reproduction.
8. Licensing and royalties support investment:
Exclusive IP rights allow breeders to license their breeds, creating a source of income for reinvestment in research and breeding. Royalties paid by seed companies or farmers for using these varieties support continuous innovation.
9. Balance of Monopoly and Access:
While conferring exclusive rights, this structure ensures a balance: farmers retain the right to save, use, and distribute seeds of protected varieties. . Breeders must make their breeds available for further research and improvement, which prevents stagnation in innovation.
Conservation of plant varieties:
It is a legal procedure for the breeder (crop/plant breeder or farmer) who invents a new type of plant to protect his rights.
Goal:
Protecting plant diversity. To encourage research and development. Providing quality seeds to farmers.
Rules:
It lays down certain criteria for the protection of new varieties, such as: newness, distinctiveness, uniformity, variety, stability.
Farmers rights:
Farmers rights include farmers' traditional knowledge, practices, contributions and agricultural genetic resources. Recognizing these, it gives them the following rights
Right to save seeds:
Farmers can save, reuse, exchange, or sell the seeds they produce:
Respect for traditional knowledge:
Legal recognition of farmers' traditional knowledge and contribution.
Compensation rights:
If the quality of the seed or variety is not as promised, the farmer can demand compensation.
Recognition and awards: Provision to give special recognition and awards to farmers or communities who help in developing new varieties.
Challenges:
Lack of awareness:
Entire of Farmers they may not be aware of their own rights and protection procedures.
Complexity of legal process:
Can be difficult to meet the necessary procedures and standards for protection.
Lack of financial resources:
Lack of adequate investment for research and development.
From my perspective, the guidance primarily focuses on the sustainable management of food production areas (agriculture, aquaculture, fisheries, and forestry, with an emphasis on biodiversity conservation) but it does not explicitly address the nutritional aspects of food production or the importance of healthy diets. While the guidance mentions food security, it does not delve into how the nutritional quality of food and the promotion of healthy diets can be integrated into biodiversity conservation efforts. Furthermore, the guidance lacks specific recommendations or examples of how to incorporate nutritional considerations into the planning, implementation, and monitoring of National Biodiversity Strategies and Action Plans (NBSAPs).
Having worked on technical and programming issues related to bio-diverse food systems since the 1970s, I am comfortable in saying that the “what” is known. The ongoing key challenge is the “how.”
The food insecure are focused on what they will eat today. Not next week or next month, today. Subsistence farming households, which women increasingly manage, endeavor to set up flexible resilient ,bio-diverse, polyculture food production systems for their daily survival. These survival systems are designed to operate in fragile and fluid food environments and therefore need to function in the face of multiple acute and chronic threats including weather extremes, a wide range of conflicts, pandemics, economic shocks, etc.
The two briefs attached were produced for the European Parliament. They present practical examples from the field as to why priority must be given urgently to the rebuilding /expansion of local food systems. Vulnerable food insecure farming families have their bio-diverse food production systems on full display showing what is important to them. Promoting a local food system policy means using a bottom-up approach. The brief highlights examples of how households apply the approach in a variety of situations to ensure their food security. The key to achieving a meaningful impact in the short and long term is to redouble efforts to listen and appreciate the local knowledge, skills, and wisdom of those who farm to survive. This approach not only acknowledges the resilience of these communities but also underscores the significance of community-driven solutions.
https://assets.fsnforum.fao.org/public/contributions/2024/EP%20Brief.pdf
The FAO may want to help the universities in tropical areas establish major nurseries and garden centers near major towns such as the highly successful and profitable Garden Center in Torremolinas Spain. https://www.yelp.com/biz_photos/garden-center-infantes-c%C3%A1rtama
Technical tree nursery expertise can be provided by the CIFOR-ICRAF office in Cameroon https://www.cifor-icraf.org/locations/africa/cameroon/
Here are the 20 most common trees in Cameroon, https://www.picturethisai.com/region/tree/Cameroon.html
Dear Facilitator,
Please find some comments on the draft guideline for your consideration.
Regards
Rishiraj Dutta
Dr. Sanjay Rathore
Dear sir
Thanks for sharing the information about the draft Guidance to provide practical recommendations for including agrifood systems and their stakeholders in the planning, implementation, and monitoring of NBSAPs, specifically focusing on Target 10 and other relevant targets. The biodiversity in the agri-food system is the basis for long and short-term sustainability.
Unfortunately, most of the largest agri-food systems are highly specialized and lack the desired diversity. Hence it's very timely. The cropping and farming system must be designed to ensure adequate biodiversity in farming. The diversity in agri-food system also helps in ensuring the nutritional security at household levels. In most of the tribal areas in India, the agri-food systems are highly diverse.
See the attachment:
An article: Shyam, C.S.; Shekhawat, K.; Rathore, S.S.; Babu, S.; Singh, R.K.; Upadhyay, P.K.; Dass, A.; Fatima, A.; Kumar, S.; Sanketh, G.D.; et al. Development of Integrated Farming System Model—A Step towards Achieving Biodiverse, Resilient and Productive Green Economy in Agriculture for Small Holdings in India. Agronomy 2023, 13, 955. https://doi.org/10.3390/ agronomy13040955
This activity is now closed. Please contact [email protected] for any further information.