Data or statistical facts on the situation and perspectives of agri-food systems and the impact of policies
95% of Tobago's groundwater supply comes from bedrock aquifers, validating the sustainability potential of this source to meet growing agricultural demand (Govia & Roopnarine, 2024).
2.4-3.6°C is the projected temperature increase for Trinidad and Tobago by 2100, significantly threatening agricultural production (Govia & Roopnarine, 2024).
30 hectares of land were transformed by the Fondes Amandes Community Reforestation Project, converting pastures into an organic agroforestry project (Govia & Roopnarine, 2024).
12 non-governmental organizations, including FACRP, emerged as community advocates for watershed protection and sustainable agriculture in Trinidad and Tobago (Govia & Roopnarine, 2024).
2 main uses have rainwater harvesting techniques in Trinidad and Tobago: residential and agricultural, as a cost-effective solution (Govia & Roopnarine, 2024).
3 key benefits of green infrastructure in Trinidad and Tobago: regulation of water supply and quality, and moderation of extreme events for agriculture (Govia & Roopnarine, 2024).
700,000 m³/day will be the projected wastewater flow for Trinidad and 30,000 m³/day for Tobago by 2035, pointing to the potential for reuse in agriculture (Govia & Roopnarine, 2024).
3 solar water technologies are gaining momentum in Trinidad and Tobago: solar desalination, solar disinfection and photocatalytic degradation, especially beneficial for rural agricultural areas (Govia & Roopnarine, 2024).
4 problems affect agriculture in Trinidad and Tobago: agrochemical pollution, solid waste, soil erosion and deforestation (Govia & Roopnarine, 2024).
22-30% is the projected decrease in rainfall for Trinidad and Tobago by 2100, which significantly threatens agricultural production (Govia & Roopnarine, 2024).
