Diagnosis of agricultural systems in Communal Section of Pont-Tamarin- Gonaïves, Haïti: Case of Zone I

Jonas Débréus; Paulo Henrique Mayer; Nahum Louis

doi:10.33448/rsd-v14i4.48659

Authors

Jonas Débréus Universidade Federal da Fronteira Sul https://orcid.org/0000-0002-1546-3804
Paulo Henrique Mayer Universidade Federal da Fronteira Sul https://orcid.org/0000-0001-8300-1559
Nahum Louis MARNDR https://orcid.org/0009-0004-2514-7778

DOI:

https://doi.org/10.33448/rsd-v14i4.48659

Keywords:

Agroecology, Agroecosystem, Sustainability.

Abstract

The study conducted in the Pont-Tamarin region, Zone I (Haiti), aims to diagnose local agricultural systems and identify and assess the parameters influencing their sustainability. Using an exploratory methodology that included questionnaires administered to 42 farmers and field visits. The results reveal a predominance of diverse crops such as leeks, carrots, rice, corn, sorghum, beans, beets, eggplants, peppers, and tomatoes, alongside limited livestock farming by a minority. Although some farmers adopt organic or transitional practices, the majority rely on conventional agriculture for economics purpose and to meet the market demands, thereby compromising the sustainability of agroecosystems in the study area. Despite being aware of the challenges, farmers struggle to change their practices without external support. The study concludes that improving agricultural sustainability in the region depends on technical assistance and training from public authorities to promote agroecological practices and ensure a transition toward more resilient and environmentally respectful farming.

Downloads

Download data is not yet available.

Author Biographies

Jonas Débréus, Universidade Federal da Fronteira Sul

Jonas Débréus has a bachelor degree in Agricultural Sciences (Agronomy Eng.) from the Christian University of Northern Haiti (UCNH) (2021). Recently, graduated from a Master program in Agroecology and Sustainable Rural Development at Universidade Federal da Fronteira Sul (UFFS).
Paulo Henrique Mayer, Universidade Federal da Fronteira Sul

PhD in Environment and Development from UFPR, Specialist in Agroecology and Sustainable Development from UFSC, graduated in Agronomy from UFSM. Has experience in the areas of Technical Team Management, Agroecology and sustainable development, with an emphasis on social organization, social movements, family farming, food security and the development of appropriate technologies for family farmers and their organizations. He works in the areas of animal production, applied animal ethology, nutrition and forage farming. He has also been an agro-ecological producer of vegetables, sheep and pure-bred chickens. He is an Associate Professor II at the Federal University of Fronteira Sul, Laranjeiras do Sul Campus, Paraná.
Nahum Louis, MARNDR

Epidemiology and surveillance agent at the Ministry of Agriculture and Natural Resources for Rural Development (MARNDR).

References

Alba, R. L. (201309). Crédito rural para a agricultura familiar: O perfil dos associados/as da cresol FranciscoCO. BeltrãoELTRÃO-PR. Instituto de Formação do Cooperativismo Solidário. Francisco BeltrãoEd.Grafisul. https://rfd.org.ec/biblioteca/pdfs/LP-020.pdf.

Anderson, D.avid R., Sweeney D. J. &; Williams, T. homas A. (2012). Estadística para negocios y economía. 11ed. Cengage Learning Editores, SA, 1-1116. https://plataforma.institutodelmilagro.com/descargas/estayproba/2021/Anderson_Sweeney_ESTADISTICA_PARA_NEGOCI.pdf.

Babayev, V. (2019). Transition to organic agriculture is a way to preserve soils fertility. Bulletin of Science and Practice; T. 5(11), 205--2011. https://doi.org/10.33619/2414-2948/48/21.

Balota, E. (2018). Manejo e qualidade biológica do solo. Londrina:Ed. Midiograf, 280 p.

Caporal, F., Paulus, G. &; Costabeber, J. A. (2009). Agroecologia: Uma ciência do campo da complexidade. Brasília, DF. Ed. MDS/Embrapa., 5-111.

Chauhan, R.,; Paramar, N. B. &; Gohil, OHIL, G. D. (2023). . Review of Soil Preparation for Agriculture. International Journal of environment and Climate Change, v. 13 (, iss.8), 318-323. https://www.doi.org/10.9734/ijecc/2023/v13i81956.

Cordeiro, M. A. S.,; Corá, J. A. & Nahas, E. (1794). Atributos bioquímicos e químicos do solo rizosférico e não rizosférico de culturas em Rotação no sistema de semeadura direta. Revista Brasileiro de ciência do Solo, 36(6), 1794-1803.

Corona, I. M. P. (2006). A reprodução social da agricultura familiar na região metropolitana de Curitiba em suas múltiplas interrelações. Tese (Doutorado). Universidade Federal do Paraná, Curitiba, 262 p.

Crespo, G.; Rodriguéz, I.; & Lok, S. (2024). Contribution to the study of soil fertility and its relation to pastures and forages production. Cuban Journal of Agricultural Science: 49(2). https://typeset.io/papers/contribution-to-the-study-of-soil-fertility-and-its-relation-gakvj6j7rv.

DDA-A. (2008). Etude de la faisabilité technique pour la réhabilitation du système d'irrigation de la Basse Plaine des Gonaïves. Rapport annuel de la Direction Départementale de l’Agriculture –Artibonite (DDA-A).

Doneda, A. (2010). Plantas de cobertura de solo consorciadas e em cultivo solteiro: decomposição e fornecimento de nitrogênio ao milho. (Universidade Federal de Santa Maria (UFSM): Dissertações. Santa Maria, RS, Brasil. 63 p.

FAO; MARNDR. (2012). Synthese nationale des résultats du recensement general de l’agriculture (rga). 5-218. http://agriculture.gouv.ht/view/01/IMG/pdf/Resultats_RGA_National_05-11-12.pdf.

Fayad, J. A.,; Arl, RL, V V.,; Comin, J. J.,; Mafra, A. L. &; Marchesi D. R. (2019). Sistema de Plantio Direto de Hortaliças: Método de transição para um novo modo de produção. 2ed. Florianópolis:Ed. Epagri, 21-426. ISBN: 978-85-7743-365-0. https://acervo.uniarp.edu.br/wp-content/uploads/livros/Sistema-de-plantio-direto-de-hortalicas.pdf

Fayad, J. A.,; Comin, J. &; Berto, L. (2016). Sistema de plantio direto de hortaliças (SPDH): o cultivo do tomate. Florianópolis: Epagri, 1-87. FCM. (2018). Le domaine foncier et l’égalité de genre en Haïti. https://fcm.ca/fr/ressources/pirfh/le-domaine-foncier-et-legalite-de-genre-en-haiti.

Furey, G. &; Tilman, D. (2021). Plant biodiversity and the regeneration of soil fertility. Edição: PNAS, 118(449). https://www.doi.org/10.1073/PNAS.2111321118.

Gustave, W. (2021). Focus groups report from Bois Neuf. Sans Souci and la Belle Mère. PDL IHSI. (2015). Population totale, population de 18 ans et plus ménages et densités estimés en 2015, 1-102.

Khatounian, C. A. (2001). A reconstrução ecológica da agricultura. Botucatu: Ed. Agroecológica.

Krasavin, D.,; Gorovtsov, A. & Krasavin, E. (2021). The influence of different methods of soil processing on the microbial communities composition. Interagromash: v. 273, iss. 05016. https://www.doi.org/10.1051/E3SCONF/202127305016.

Le Cam, V. (2019). Gestion durable de la fertilité des sols : étude des pratiques innovantes des maraîchers biologiques diversifiés du Grand Ouest. . Sciences du Vivant [q-bio]. 2019, 85p.

Mandosi, J. (2010). Échantillonnage des études scientifiques.

Mayer, H. P (2009). Fertilidade do sistema agrícola: estudo em três comunidades da região metropolitana de Curitiba- Pr. Universidade Federal do Paraná (UFPR): Tese de doutorado, 211p.

Mcclintock, N. (2004). Des pratiques agroecologiques pour une agriculture durable dans le Plateau Central en Haïti. . Paris, 1-43. doi: 10.13140/2.1.3096.8001.

Meynard, J. M. Salembier C. (2013). Evaluation de systèmes de culture innovants conçus par des agriculteurs: un exemple dans la Pampa Argentine. Innovations Agronomiques: (31), 27-44. https://ideas-agrifood.hub.inrae.fr/content/download/3875/38484?version=1

Moonen, A-C.; Bàrberi, P. (2008). Functional biodiversity: An agroecosystem approach. Agriculture, Ecosystems and Environment, 127(1), 7-21.

Mosley, S. (2010). The Environment in World History. London: Routledge, 1st edition, 136p. doi: https://doi.org/10.4324/9780203859537.

Murphy, W. B. (2014). Soil Organic Matter and Soil Function – Review of the Literature and Underlying Data: Effects of soil organic matter on functional soil properties. Canberra: Department of the Environment, Australia, 155p.

OIM. (2008). Environnement, changement climatique et migration: approche et activités de l’OIM. https://publications.iom.int/system/files/pdf/climatechangefr_29nov.pdf.

Paul, R. (2023). Sécheresse Les rizicultuers aux Gonaives sonbt aux abois. Haiti Climat. https://haiticlimat.org/site/secheresse-les-riziculteurs-de-la-plaine-des-gonaives-sont-aux-abois/.

Pereira, A. S., Shitsuka, D. M., Parreira, F. J. et Shitsuka, R. (2018). Méthodologie de recherche scientifique. [livre électronique gratuit]. Éd. UFSM.

Pessis, C. (2020). Histoire des sols vivants. Revue d´anthropologie des connaissances [En ligne]. https://doi.org/10.4000/rac.12437.

Pierre, G. (2014). Impacts et adaptation aux changements climatiques de l’agriculture haïtienne. Rapport scientifique pour les décideurs, 2014, 48p.

Plimmer, J. R. (2023). Les produits chimiques dans l´agriculture. Aiea Bulletin. 26(2). https://www.iaea.org/sites/default/files/26205481316_fr.pdf.

Saint-Fleur, W. (2021). Análise da gestão integrada de agroecossistemas no Haiti: caso de Haut-Limbé. Araras: UFSCAr, 88p.

Santos, G. D. A., Silvana, L., Canellas, L. P. & Camargo, F. A. D. O. (2008). Fundamentos da matéria orgânica do solo: ecossistemas tropicais e subtropicais. (2ed.). Ed. Metrópole, 654p.

Sebillotte, M. (1990a). Système de culture, un concept opératoire pour les agronomes. In: L. Combe et D. Picard coord., Les systèmes de culture. Inra, Versailles, 165-96.

Shitsuka et al. (2014). Mathématiques fondamentales pour la technologie. São Paulo : Éd. Érica.

Simon, C. (2016). Évaluation de l’efficience technique du système d’irrigation de la basse Plaine des Gonaïves, cas de la zone IV, (1ère Section communale de Pont-Tamarin). FAMV: Port-au-Prince, 76p.

Touzard, J. M. (2003). Les figures du métayage : Pour une analyse compréhensive des contrats dans l’agriculture. Montpellier, Inra: Economie et Société. (41), 1523-152. https://www.researchgate.net/publication/263388781_Les_figures_du_metayage_pour_une_analyse_comprehensive_des_contrats_dans_l'agriculture

Veeken, A., Adani, F., Fangueiro, D. & Jensen, L. S. (2019). The Value of Recycling Organic Matter to Soils: Classification as Organic Fertiliser or Organic Soil Improver. EIP-AGRI Focus Group-Nutrient Recycling.

Visser, J. (2010). A historical-sociological analysis of the rise and fall of industrial agriculture and of the prospects for the re-rooting of agriculture from the factory to the local farmer and ecology. Thesis, Wageningen University, Wageningen.

Winiwarter, V. (2011). Environmental history of soils. . In: Agnoletti, M.; Neri Serneri, S. (dir.), The Basic Environmental History. Springer, 4, 79-119. doi:10.1007/978-3-319-09180-8_3.

World Bank Group. (2019). Agricultural Financing in Haiti: Diagnosis and Recommendations. World Bank, Washington, DC. https://hdl.handle.net/10986/33178.

Diagnosis of agricultural systems in Communal Section of Pont-Tamarin- Gonaïves, Haïti: Case of Zone I

Authors

DOI:

Keywords:

Abstract

Downloads

Author Biographies

References

Downloads

Published

Issue

Section

License

How to Cite

Language

Make a Submission