1. Demi, SM. Assessing Indigenous Food Systems and Cultural Knowledges Among Smallholder Farmers in Ghana: Towards Environmental Sustainability Education and Development. Unpublished doctoral dissertation. University of Toronto; 2019.
Google Scholar2. Tambo, JA, Kansiime, MK, Mugambi, I, et al. Understanding smallholders’ responses to fall armyworm (Spodoptera frugiperda) invasion: evidence from five African countries. Sci Total Environ. 2020;740:1-2.
Google Scholar | Crossref3. Williamson, S, Ball, A, Pretty, J. Trends in pesticide use and drivers for safer pest management in four African countries. Crop Prot. 2008;27:1327-1334.
Google Scholar | Crossref | ISI4. European Parliament . The Use of Pesticides in Developing Countries and Their Impact on Health and the Right to Food. Policy Department for External Relations Directorate General for External Policies of the Union; 2021. https://www.europarl.europa.eu/cmsdata/219887/Pesticides%20health%20and%20food.pdf
Google Scholar5. Ntow, WJ, Gijzen, HJ, Kelderman, P, Drechsel, P. Farmer perceptions and pesticide use practices in vegetable production in Ghana. Pest Manag Sci. 2006;62:356-365.
Google Scholar | Crossref | Medline | ISI6. Ikerd, J. Family farms of North America. International Policy Centre for Inclusive Growth (IPC-IG) working paper 152. FAO and UNDP; 2016.
Google Scholar7. MoFA [Ministry of Food and Agriculture] . Agricultural Sector Progress Report 2015. Government of Ghana; 2016. Agriculturalsectorprogressreport2015_Final.pdf.
Google Scholar8. MoFA [Ministry of Food and Agriculture] . Agriculture in Ghana: Fact and Figures 2015. Government of Ghana; 2016. Agriculture-in-Ghana-Facts-and-Figures-2015.pdf.
Google Scholar9. MoFA [Ministry of Food and Agriculture] . Medium Term Agricultural Sector Investment Plan (METASIP) II, 2014–2017. Ministry of Food and Agriculture; 2015. METASIPII2014-17.pdf.
Google Scholar10. Lowder, SK, Skoet, J, Raney, T. The number, size, and distribution of farms, smallholder farms, and family farms worldwide. World Dev. 2016;87:16-29.
Google Scholar | Crossref11. Afari-Sefa, V, Asare-Bediako, E, Kenyon, L, Micah, JA. Pesticide use practices and perceptions of vegetable farmers in the cocoa belts of the Ashanti and western regions of Ghana. Adv Crop Sci Technol. 2015;3:174.
Google Scholar12. Imoro, ZA, Larbi, J, Duwiejuah, AB. Pesticide availability and usage by farmers in the northern region of Ghana. J Health Pollut. 2019;9:190906-190908.
Google Scholar | Crossref | Medline13. Issahaku, G, Abdulai, A. Sustainable land management practices and technical and environmental efficiency among smallholder farmers in Ghana. J Agric Appl Econ. 2020;52:96-116.
Google Scholar | Crossref14. Godfrey, KH, Patrick, K, Judith, K, et al. Farmers’ knowledge and perception of the use of pesticides in Arabica coffee, Coffea arabica agro-ecologies of Uganda. J Agric Environ Sci. 2018;7:173-188.
Google Scholar15. Ndayambaje, B, Amuguni, H, Coffin-Schmitt, J, Sibo, N, Ntawubizi, M, VanWormer, E. Pesticide application practices and knowledge among small-scale local rice growers and communities in Rwanda: a cross-sectional study. Int J Environ Res Public Health. 2019;16:4770.
Google Scholar | Crossref16. Okonya, JS, Petsakos, A, Suarez, V, et al. Pesticide use practices in root, tuber, and banana crops by smallholder farmers in Rwanda and Burundi. Int J Environ Res Public Health. 2019;16:400.
Google Scholar | Crossref17. Lee, N. Assuring safe pesticide use for commercial crops, including soybean, in Sub-Saharan Africa. Afr J Food Agric Nutr Dev. 2020;19:15173-15176.
Google Scholar18. Adekunle, CP, Akinbode, SO, Akerele, D, Oyekale, TO, Koyi, OV. Effects of agricultural pesticide utilization on farmers health in Egbeda local government area, Oyo state, Nigeria. Niger J Agric Econ. 2017;7:73-88.
Google Scholar19. Liverpool-Tasie, LSO, Omonona, BT, Sanou, A, Ogunleye, WO. Is increasing inorganic fertilizer use for maize production in SSA a profitable proposition? Evidence from Nigeria. Food Policy. 2017;67:41-51.
Google Scholar | Crossref | Medline20. Sheahan, M, Barrett, CB. Ten striking facts about agricultural input use in Sub-Saharan Africa. Food Policy. 2017;67:12-25.
Google Scholar | Crossref | Medline21. Onwona-Kwakye, M, Hogarh, JN, Van den Brink, PJ. Environmental risk assessment of pesticides currently applied in Ghana. Chemosphere. 2020;254:126845.
Google Scholar | Crossref | Medline22. Kariathi, V, Kassim, N, Kimanya, M. Pesticide exposure from fresh tomatoes and its relationship with pesticide application practices in Meru district. Cogent Food Agric. 2016;2:1-12.
Google Scholar23. Shashi, K, Marcella, V. Cocoa in Ghana: shaping the success of an economy. In: Chuhan-Pole, P, Angwafo, M, eds. Yes, African Can: Success Stories From a Dynamic Continent. World Bank; 2011.
Google Scholar24. Adu, P, Forkuo, EK, Issah, A, et al. High incidence of moderately reduced renal function and lead bioaccumulation in agricultural workers in Assin South district, Ghana: a community-based case-control study. Int J Nephrol. 2019;2019:1-7.
Google Scholar | Crossref25. Environmental Protection Agency, Ghana . Annual Report, EPA; 2015.
Google Scholar26. Vijver, MG, Hunting, ER, Nederstigt, TAP, Tamis, WLM, van den Brink, PJ, van Bodegom, PM. Postregistration monitoring of pesticides is urgently required to protect ecosystems. Environ Toxicol Chem. 2017;36:860-865.
Google Scholar | Crossref | Medline27. NPASP (Northern Presbyterian Agricultural Services and Partners) . Ghana’s Pesticide Crisis: The Need for Further Government Action. NPASP; 2012:50. https://curtisresearch.org/ghanas-pesticide-crisis-the-need-for-further-government-action/
Google Scholar28. Bezu, S, Kassie, GT, Shiferaw, B, Ricker-Gilbert, J. Impact of improved maize adoption on welfare of farm households in Malawi: a panel data analysis. World Dev. 2014;59:120-131.
Google Scholar | Crossref29. Xiang, H, Wang, YH, Huang, QQ, Yang, QY. How much is the eco-efficiency of agricultural production in West China? Evidence from the village level data. Int J Environ Res Public Health. 2020;17:4049-4115.
Google Scholar | Crossref30. Zahedi, SM, Karimi, M, Teixeira da Silva, JA. The use of nanotechnology to increase quality and yield of fruit crops. J Sci Food Agric. 2020;100:25-31.
Google Scholar | Crossref | Medline31. Danso-Abbeam, G, Baiyegunhi, LJS. Adoption of agrochemical management practices among smallholder cocoa farmers in Ghana. Afr J Sci Technol Innov Dev. 2017;9:717-728.
Google Scholar | Crossref32. Harrison, RD, Thierfelder, C, Baudron, F, et al. Agro-ecological options for fall armyworm (Spodoptera frugiperda JE Smith) management: providing low-cost, smallholder friendly solutions to an invasive pest. J Environ Manag. 2019;243:318-330.
Google Scholar | Crossref | Medline33. Hruska, AJ. Fall armyworm (Spodoptera frugiperda) management by smallholders. CAB Rev. 2019;14:1-11.
Google Scholar | Crossref34. Ali, MP, Kabir, MMM, Haque, SS, et al. Farmer’s behavior in pesticide use: insights study from smallholder and intensive agricultural farms in Bangladesh. Sci Total Environ. 2020;747:747:1-20.
Google Scholar | Crossref35. Chimweta, M, Nyakudya, IW, Jimu, L, Bray Mashingaidze, A. Fall armyworm [Spodoptera frugiperda (JE Smith)] damage in maize: management options for flood-recession cropping smallholder farmers. Int J Pest Manag. 2020;66:142-154.
Google Scholar | Crossref36. Kansiime, MK, Mugambi, I, Rwomushana, I, et al. Farmer perception of fall armyworm (Spodoptera frugiderda J.E. Smith) and farm-level management practices in Zambia. Pest Manag Sci. 2019;75:2840-2850.
Google Scholar | Crossref | Medline37. Kumela, T, Simiyu, J, Sisay, B, et al. Farmers’ knowledge, perceptions, and management practices of the new invasive pest, fall armyworm (Spodoptera frugiperda) in Ethiopia and Kenya. Int J Pest Manag. 2019;65:1-9.
Google Scholar | Crossref38. Akutse, KS, Kimemia, JW, Ekesi, S, Khamis, FM, Ombura, OL, Subramanian, S. Ovicidal effects of entomopathogenic fungal isolates on the invasive fall armyworm Spodoptera frugiperda (Lepidoptera: Noctuidae). J Appl Entomol. 2019;143:626-634.
Google Scholar | Crossref39. Zaitzove-Raz, M, Comay, O, Motro, Y, Dayan, T. Barn owls as biological control agents: potential risks to non-target rare and endangered species. Anim Conserv. 2020;23:646-659.
Google Scholar | Crossref40. Ghana Statistic Service . Ghana Living Standard Survey Round 6 (GLSS6), Main Report. Ghana Statistical Service; 2014.
Google Scholar41. Poku, A-G, Birner, R, Gupta, S. Making contract farming arrangements work in Africa’s bioeconomy: evidence from Cassava outgrower schemes in Ghana. Sustainability. 2018;10:1604-1621.
Google Scholar | Crossref42. Tonah, S. The presidential special initiative on cassava: a bane or blessing to Ghana’s smallholder farmers. Ghana J Dev Stud. 2006;3:66-84.
Google Scholar | Crossref43. Freeman, T. Best practice’ in focus group research: making sense of different views. J Adv Nurs. 2006;56:491-497.
Google Scholar | Crossref | Medline | ISI44. Muijeen, K, Kongvattananon, P, Somprasert, C. The key success factors in focus group discussions with the elderly for novice researchers: a review. Health Res J. 2020;34:359-371.
Google Scholar | Crossref45. Appiah-Opoku, S. Indigenous economic institutions and ecological knowledge: a Ghanaian case study. Environmentalist. 1999;19:217-227.
Google Scholar | Crossref46. Bhattarai, B, Beilin, R, Ford, R. Gender, agrobiodiversity, and climate change: a study of adaptation practices in the Nepal Himalayas. World Dev. 2015;70:122-132.
Google Scholar | Crossref47. Maxwell, JA. Qualitative Research Design: An Interactive Approach. Sage; 2012.
Google Scholar48. Palinkas, LA, Horwitz, SM, Green, CA, Wisdom, JP, Duan, N, Hoagwood, K. Purposeful sampling for qualitative data collection and analysis in mixed method implementation research. Adm Policy Ment Health. 2015;42:533-544.
Google Scholar | Crossref | Medline | ISI49. Anang, BT, Amikuzuno, A. Factors influencing pesticide use in smallholder rice production in Northern Ghana. Agric For Fish. 2015;4:77-82.
Google Scholar50. Dzobo, A. Knowledge, Practices and Self-Reported Symptoms of Pesticides Use Among Vegetable Farmers: A Cross Sectional Study in the Offinso North District. Unpublished, Masters dissertation Submitted to School of Public Health. University of Ghana; 2016.
Google Scholar51. Mattah, MM, Mattah, PA, Futagbi, G. Pesticide application among farmers in the catchment of Ashaiman irrigation scheme of Ghana: health implications. J Environ Public Health. 2015;2015:1-7.
Google Scholar | Crossref52. Dinham, B. Growing vegetables in developing countries for local urban populations and export markets: problems confronting small-scale producers. Pest Manag Sci. 2003;59:575-582.
Google Scholar | Crossref | Medline | ISI53. Avea, A, Zhu, J, Tian, X, et al. Do NGOs and development agencies contribute to sustainability of smallholder soybean farmers in Northern Ghana—a stochastic production frontier approach. Sustainability. 2016;8:465.
Google Scholar | Crossref54. Osei, G. Self-help without the self: critique of non-governmental organizational approaches to rural development in Ghana. Int Soc Work. 2017;60:494-506.
Google Scholar | SAGE Journals | ISI55. Scown, MW, Brady, MV, Nicholas, KA. Billions in misspent EU agricultural subsidies could support the sustainable development goals. One Earth. 2020;3:237-250.
Google Scholar | Crossref | Medline56. Jepson, PC, Guzy, M, Blaustein, K, et al. Measuring pesticide ecological and health risks in West African agriculture to establish an enabling environment for sustainable intensification. Phil Trans R Soc A. 2014;369:20130491.
Google Scholar | Crossref57. Matthews, G, Wiles, T, Baleguel, P. A survey of pesticide application in Cameroon. Crop Prot. 2003;22:707-714.
Google Scholar | Crossref58. Lencucha, R, Pal, NE, Appau, A, Thow, A-M, Drope, J. Government policy and agricultural production: a scoping review to inform research and policy on healthy agricultural commodities. Global Health. 2020;16:11-15.
Google Scholar | Crossref | Medline59. Łuczka, W, Kalinowski, S. Barriers to the development of organic farming: a polish case study. Agriculture. 2020;10:536.
Google Scholar | Crossref60. Demi, SM . Local Ghanaians’ resistance against GM crops. In: Dei, GJS, Demi, SM, eds. Theorizing the ‘Anti-Colonial’. DIO Press Inc; 2021:125-139.