Agroecological techniques: adoption of safe and sustainable agricultural practices among the smallholder farmers in Africa

Attaining sufficiency in food supply to support a growing population without compromising ecosystem functioning remains a top agenda of researchers and agricultural stakeholders. Agroecological farming approaches are effective techniques that ensure sustainable food production even in adverse situations. Population growth has been forecasted to reach over 9.1 billion by 2050 outpacing food production. However, cereals and grain legumes are strategic to achieving the United Nations Sustainable Development Goal of zero hunger by 2030 (SDG 2), ending extreme poverty (SDG 1), and mitigating the climate change effect (SDG 13). There remains an urgent need to embrace more sustainable measures to increase food production for the growing population. This review explores the role of agroecology which employs a transdisciplinary approach to sustainable agricultural practices to improve the resilience of farming systems by increasing diversification through poly-cropping, agroforestry, use of local varieties, and integrated crop and livestock systems. Furthermore, the agroecological farming approach minimizes water use, lowers pollution levels on the farm, and ensures economic profitability for the farmers. Thus, application of agroecology techniques among the smallholder farmers is strategic to ensuring food security.

[1]  Qhithiwe Anna Seko,et al.  Economic modelling and simulation analysis of maize-based smallholder farming systems in the Senqu River Valley agroecological zone, Lesotho , 2022 .

[2]  O. Babalola,et al.  Rhizospheric microorganisms: The gateway to a sustainable plant health , 2022, Frontiers in Sustainable Food Systems.

[3]  S. Muhie Concepts, Principles, and Application of Biodynamic Farming: a Review , 2022, Circular Economy and Sustainability.

[4]  Y. Braun,et al.  Soil and human health: Understanding agricultural and socio-environmental risk and resilience in the age of climate change. , 2022, Health & place.

[5]  M. F. Ibrahim,et al.  Demand and Sustainability of Palm Oil Plantation , 2022, Biorefinery of Oil Producing Plants for Value‐Added Products.

[6]  Xinhua He,et al.  The Influence of Soil Organic Carbon and Climate Variability on Crop Yields in Kongwa District, Tanzania , 2022, Environmental Management.

[7]  Vitus Tankpa,et al.  Climate Change, Flood Disaster Risk and Food Security Nexus in Northern Ghana , 2021, Frontiers in Sustainable Food Systems.

[8]  B. Adeleke,et al.  Plant Disease Management: Leveraging on the Plant-Microbe-Soil Interface in the Biorational Use of Organic Amendments , 2021, Frontiers in Plant Science.

[9]  V. Kindomihou,et al.  Constraints, and Implications of Organic Farming in Bananas and Plantains Production Sustainability in Benin , 2021, Agricultural Sciences.

[10]  C. Sinfort,et al.  Identifying the resource use and circularity in farm systems: Focus on the energy analysis of agroecosystems , 2021 .

[11]  Gebissa Yigezu Wendimu,et al.  The challenges and prospects of Ethiopian agriculture , 2021 .

[12]  Pacôme A. Noumavo,et al.  Efficacy of Biostimulants Formulated With Pseudomonas putida and Clay, Peat, Clay-Peat Binders on Maize Productivity in a Farming Environment in Southern Benin , 2021, Frontiers in Sustainable Food Systems.

[13]  N. Mango,et al.  Smallholder farmers’ perception of climate change and adoption of climate smart agriculture practices in Masaba South Sub-county, Kisii, Kenya , 2021, Heliyon.

[14]  W. Ocimati,et al.  Comparing effectiveness, cost- and time-efficiency of control options for Xanthomonas wilt of banana under Rwandan agro-ecological conditions , 2021, European Journal of Plant Pathology.

[15]  A. Quaye,et al.  Geospatial distribution of soil organic carbon and soil pH within the cocoa agroecological zones of Ghana , 2021 .

[16]  A. Iles,et al.  Narrow and Brittle or Broad and Nimble? Comparing Adaptive Capacity in Simplifying and Diversifying Farming Systems , 2021, Frontiers in Sustainable Food Systems.

[17]  N. Chirinda,et al.  Innovative agronomic practices for sustainable intensification in sub-Saharan Africa. A review , 2021, Agronomy for Sustainable Development.

[18]  H. Sandhu Bottom-Up Transformation of Agriculture and Food Systems , 2021, Sustainability.

[19]  Amber J. Fletcher,et al.  Climate Change and Small Farmers’ Vulnerability to Food Insecurity in Cameroon , 2021 .

[20]  S. Burbi,et al.  Agroforestry in the Andean Araucanía: An Experience of Agroecological Transition with Women from Cherquén in Southern Chile , 2020, Sustainability.

[21]  F. Gallardo-López,et al.  Resilience as an Adaptation Strategy of Agroecosystems in the light of Climate Change , 2020 .

[22]  M. Nonić,et al.  Genetic Diversity: Sources, Threats, and Conservation , 2020, Encyclopedia of the UN Sustainable Development Goals.

[23]  F. Sinclair,et al.  Agroecological principles and elements and their implications for transitioning to sustainable food systems. A review , 2020, Agronomy for Sustainable Development.

[24]  A. Braun,et al.  Women, agroecology and the state: New perspectives on scaling-up agroecology based on a field research in Chile , 2020 .

[25]  I. Ayinde,et al.  Food Security in Nigeria: Impetus for Growth and Development , 2020 .

[26]  M. Marchetti,et al.  Beyond Sustainability in Food Systems: Perspectives from Agroecology and Social Innovation , 2020, Sustainability.

[27]  Pablo Tittonell,et al.  Assessing resilience and adaptability in agroecological transitions , 2020 .

[28]  J. Woods,et al.  EU land use futures: modelling food, bioenergy and carbon dynamics , 2020 .

[29]  Michael Q. Wang,et al.  Life cycle energy use and greenhouse gas emissions of ammonia production from renewable resources and industrial by-products , 2020, Green Chemistry.

[30]  Jonathan P. Sheppard,et al.  Agroforestry: An Appropriate and Sustainable Response to a Changing Climate in Southern Africa? , 2020, Sustainability.

[31]  T. Baležentis,et al.  Agricultural sustainability assessment framework integrating sustainable development goals and interlinked priorities of environmental, climate and agriculture policies , 2020, Sustainable Development.

[32]  B. Adeleke,et al.  The endosphere microbial communities, a great promise in agriculture , 2020, International microbiology : the official journal of the Spanish Society for Microbiology.

[33]  R. Sommer,et al.  Soil health and ecosystem services: Lessons from sub-Sahara Africa (SSA) , 2020 .

[34]  A. Sobowale,et al.  Efficacy of biochar in the management of Fusarium verticillioides Sacc. causing ear rot in Zea mays L. , 2020, Biotechnology reports.

[35]  N. J. Okolle Alternatives to synthetic pesticides for the management of the banana borer weevil (Cosmopolites sordidus) (Coleoptera: Curculioniidae). , 2020 .

[36]  Júlio Cesar dos Reis,et al.  Drivers of decoupling and recoupling of crop and livestock systems at farm and territorial scales , 2020, Ecology and Society.

[37]  N. Baisakh,et al.  The 21st Century Agriculture: When Rice Research Draws Attention to Climate Variability and How Weedy Rice and Underutilized Grains Come in Handy , 2020, Plants.

[38]  J. Rodenburg,et al.  Mixed outcomes from conservation practices on soils and Striga-affected yields of a low-input, rice–maize system in Madagascar , 2020, Agronomy for Sustainable Development.

[39]  X. Simón,et al.  Advancing Food Security through Agroecological Technologies: The Implementation of the Biointensive Method in the Dry Corridor of Nicaragua , 2020, Sustainability.

[40]  P. Tittonell,et al.  The 10 Elements of Agroecology: enabling transitions towards sustainable agriculture and food systems through visual narratives , 2020, Ecosystems and People.

[41]  Mariaelena Huambachano Indigenous food sovereignty: Reclaiming food as sacred medicine in Aotearoa New Zealand and Peru , 2019 .

[42]  O. Babalola,et al.  Plant Growth Promoting Rhizobacterial Mitigation of Drought Stress in Crop Plants: Implications for Sustainable Agriculture , 2019, Agronomy.

[43]  M. Chappell,et al.  From Transition to Domains of Transformation: Getting to Sustainable and Just Food Systems through Agroecology , 2019, Sustainability.

[44]  Nassib Mugwanya Why agroecology is a dead end for Africa , 2019, Outlook on Agriculture.

[45]  Ž. Malek,et al.  Adaptations in irrigated agriculture in the Mediterranean region: an overview and spatial analysis of implemented strategies , 2019, Regional Environmental Change.

[46]  W. D. de Vries,et al.  Why Tenure Responsive Land-Use Planning Matters: Insights for Land Use Consolidation for Food Security in Rwanda , 2019, International journal of environmental research and public health.

[47]  E. Schmid,et al.  Sustainability Performance of Certified and Non-certified Smallholder Coffee Farms in Uganda , 2019, Ecological Economics.

[48]  Montague W. Demment,et al.  Challenges and opportunities to the African agriculture and food system , 2019, African Journal of Food, Agriculture, Nutrition and Development.

[49]  M. Fernández,et al.  New opportunities, new challenges: Harnessing Cuba’s advances in agroecology and sustainable agriculture in the context of changing relations with the United States , 2018 .

[50]  C. Anderson,et al.  Transformative agroecology learning in Europe: building consciousness, skills and collective capacity for food sovereignty , 2018, Agriculture and Human Values.

[51]  Miroslava Bavorova,et al.  Adoption of sustainable agricultural practices and food security threats: Effects of land tenure in Zambia , 2018, Land Use Policy.

[52]  S. Mureithi,et al.  Effect of water conservation measures on soil moisture and maize yield under drought prone agro-ecological zones in Rwanda , 2018, International Soil and Water Conservation Research.

[53]  L. Salvati,et al.  Agro-Forest Management and Soil Degradation in Mediterranean Environments: Towards a Strategy for Sustainable Land Use in Vineyard and Olive Cropland , 2018, Sustainability.

[54]  R. Quiroz,et al.  Impact of climate change on the potato crop and biodiversity in its center of origin , 2018, Open Agriculture.

[55]  J. Ryschawy,et al.  How to Address the Sustainability Transition of Farming Systems? A Conceptual Framework to Organize Research , 2018, Sustainability.

[56]  F. Kohler,et al.  The homeopathy/agroecology nexus: a discourse-centered analysis in a Brazilian agrarian settlement , 2018 .

[57]  A. Tesfaye,et al.  Yield Performance and Adoption of Released Sorghum Varieties in Ethiopia , 2018 .

[58]  C. Shackleton,et al.  Household Food Insecurity along an Agro-Ecological Gradient Influences Children’s Nutritional Status in South Africa , 2018, Front. Nutr..

[59]  Christopher M. Wharton,et al.  Identifying attributes of food system sustainability: emerging themes and consensus , 2017 .

[60]  M. Kummu,et al.  The use of food imports to overcome local limits to growth , 2017 .

[61]  Mark D. Hathaway Agroecology and permaculture: addressing key ecological problems by rethinking and redesigning agricultural systems , 2016, Journal of Environmental Studies and Sciences.

[62]  L. Cabral,et al.  Brazil’s Agricultural Politics in Africa: More Food International and the Disputed Meanings of “Family Farming” , 2016 .

[63]  L. Hove,et al.  Maize productivity and profitability in Conservation Agriculture systems across agro-ecological regions in Zimbabwe: A review of knowledge and practice , 2016 .

[64]  G. Ortmann,et al.  Farm-level crop diversification in the Midlands region of Kwazulu-Natal, South Africa: patterns, microeconomic drivers, and policy implications , 2016 .

[65]  W. Ripple,et al.  Biodiversity conservation: The key is reducing meat consumption. , 2015, The Science of the total environment.

[66]  A. Lartey,et al.  End hunger, achieve food security and improved nutrition and promote sustainable agriculture , 2015 .

[67]  A. Mashingaidze,et al.  Narrow row planting increases yield and suppresses weeds in common bean (Phaseolus vulgaris L.) in a semi-arid agro-ecology of Nyagatare, Rwanda , 2014 .

[68]  L. Levidow,et al.  Agroecological Research: Conforming—or Transforming the Dominant Agro-Food Regime? , 2014 .

[69]  A. O. Akanmu,et al.  Host–pathogen interaction of maize (Zea mays L.) and Aspergillus niger as influenced by arbuscular mycorrhizal fungi (Glomus deserticola) , 2014 .

[70]  G. Conway On being a smallholder , 2014 .

[71]  A. Abdulai,et al.  Organic certification, agro-ecological practices and return on investment: Evidence from pineapple producers in Ghana , 2013 .

[72]  T. Lang,et al.  Food security and food sustainability: reformulating the debate , 2012 .

[73]  C. Fadda,et al.  A risk-minimizing argument for traditional crop varietal diversity use to reduce pest and disease damage in agricultural ecosystems of Uganda , 2012 .

[74]  G. Hilson,et al.  POVERTY AND LIVELIHOOD DIVERSIFICATION: EXPLORING THE LINKAGES BETWEEN SMALLHOLDER FARMING AND ARTISANAL MINING IN RURAL GHANA , 2011 .

[75]  Mindi Schneider,et al.  Food Security Politics and the Millennium Development Goals , 2011, Third world quarterly.

[76]  J. Kienzle,et al.  Conservation agriculture (CA) in Tanzania: the case of the Mwangaza B CA farmer field school (FFS), Rhotia Village, Karatu District, Arusha , 2011 .

[77]  M. Paoletti,et al.  Environmental Impact of Different Agricultural Management Practices: Conventional vs. Organic Agriculture , 2011 .

[78]  C. Staver,et al.  Evaluation of the dissemination of new banana (Musa spp. , 2010 .

[79]  D. Garrity,et al.  Evergreen Agriculture: a robust approach to sustainable food security in Africa , 2010, Food Security.

[80]  David Pimentel,et al.  Energy and Environmental Issues in Organic and Conventional Agriculture , 2008 .

[81]  C. Reij,et al.  Analyzing successes in agriculture and land management in Sub-Saharan Africa: Is macro-level gloom obscuring positive micro-level change? , 2008 .

[82]  R. Driesche,et al.  Field surveys in Indonesia for natural enemies of the banana weevil, Cosmopolites sordidus (Germar) , 2006 .

[83]  W. Parton,et al.  Agricultural intensification and ecosystem properties. , 1997, Science.

[84]  P. Hazell,et al.  The Role of Agriculture in Sustainable Economic Development in Africa , 1996 .

[85]  T. Tomich,et al.  Transforming Agrarian Economies: Opportunities Seized, Opportunities Missed , 1995 .

[86]  E. Ikrang,et al.  The use of artificial intelligence in tractor field operations: A review , 2022, Poljoprivredna tehnika.

[87]  Saikat Mondal,et al.  Ecological Intensification for Sustainable Agriculture and Environment in India , 2021 .

[88]  A. Odusola Agriculture as the Fulcrum of Inclusive Development in Africa , 2021, Africa's Agricultural Renaissance.

[89]  N. Ramankutty,et al.  Beyond productivism versus agroecology: lessons for sustainable food systems from Lovins’ soft path energy policies , 2021 .

[90]  G. Hilson Small-scale mining, rural resilience and the Sustainable Development Goals in Sub-Saharan Africa , 2021, Handbook of Sustainable Politics and Economics of Natural Resources.

[91]  K. Singh Assessment of industrial wastewater treatment processes , 2021, ACADEMICIA: An International Multidisciplinary Research Journal.

[92]  Pete Smith,et al.  Assessing agro-ecological practices using a combination of three sustainability assessment tools , 2020 .

[93]  S. Shams,et al.  Information and Communication Technology for Small-Scale Farmers: Challenges and Opportunities , 2020 .

[94]  Paracchini Maria-Luisa,et al.  Agroecological practices supporting food production and reducing food insecurity in developing countries: A study on scientific literature in 17 countries , 2020 .

[95]  Abhishek Dutt Tripathi,et al.  Estimates for World Population and Global Food Availability for Global Health , 2019, The Role of Functional Food Security in Global Health.

[96]  J. Glauber,et al.  Trade, policy, and food security , 2019 .

[97]  S. Snapp,et al.  Farming for change: developing a participatory curriculum on agroecology, nutrition, climate change and social equity in Malawi and Tanzania , 2019, Agriculture and Human Values.

[98]  Crop Evolutionary Agroecology , 2019, Agrobiodiversity.

[99]  F. Celette,et al.  Agroecological practices for sustainable agriculture. A review , 2013, Agronomy for Sustainable Development.

[100]  Miguel A. Altieri,et al.  The adaptation and mitigation potential of traditional agriculture in a changing climate , 2013, Climatic Change.

[101]  O. Husson,et al.  Striga asiatica : a driving-force for dissemination of conservation agriculture systems based on Stylosanthes guianensis in Madagascar , 2011 .

[102]  F. Funes-Monzote,et al.  Agroecologically efficient agricultural systems for smallholder farmers: contributions to food sovereignty , 2011, Agronomy for Sustainable Development.

[103]  Miguel A. Altieri,et al.  Globally Important Agricultural Heritage Systems A Legacy for the Future , 2011 .

[104]  Peter J. Gregory,et al.  Soil management in relation to sustainable agriculture and ecosystem services , 2011 .

[105]  R. Bandyopadhyay,et al.  Distribution of Aspergillus section Flavi in soils of maize fields in three agroecological zones of Nigeria , 2009 .

[106]  H. Ssali,et al.  The potential of Velvet bean (Mucuna pruriens) and N fertilizers in maize production on contrasting soils and agro-ecological zones of East Uganda , 2004, Nutrient Cycling in Agroecosystems.