Data or statistical facts on the situation and perspectives of agri-food systems and the impact of policies
0.9% was the growth of agricultural Total Factor Productivity (TFP) in Latin America and the Caribbean between 2011 and 2020, signaling a marked slowdown in productivity (IBD, 2025).
30% declines in sustainable productivity in Latin America and the Caribbean when environmental costs are included, lowering total factor productivity (TFP) to 0.14% per year. (IDB, 2025).
2.9% per year was the growth of agricultural output in LAC since 1961, driven by a 1.7% annual TFP (Total factor productivity) increase (IBD, 2025).
In dairy products, input and labor costs decreased (with methodological caution). US$ 33,854 (inputs) and US$ 11,507 (labor).
Up to 70% of agricultural productivity growth in Latin America and the Caribbean is reduced when environmental costs are taken into account. The increase in production has been driven mainly by the intensive use of inputs rather than by technological or managerial improvements, highlighting the need for policies that integrate sustainability and innovation. (IDB, 2025)
In two climate-vulnerable regions of Guatemala, 95 % of farmers perceive climate change; 81 % report production impacts, but only 41 % have adapted—mainly via tree planting (Viguera et al., 2019).
In the Mariño basin, agroecological practices enhance food self-sufficiency, family income, and create synergies between productivity, climate adaptation, and mitigation (Quispe et al., 2021).
The study examines how agroecology supports food security and climate change mitigation in Peru. It highlights its role in strengthening family farming, conserving biodiversity, and reducing emissions (Glave & Escobedo, 2022).
Legal frameworks for crop gene editing have been developed in Latin America, considering institutional drivers and policy frameworks. Regulatory gaps are identified, and an approach to strengthening biotechnology governance is proposed (Zarate & Ramírez, 2023).
Harvest moisture affects rice milling quality, particularly whole grain yield and appearance. Levels between 20 % and 22 % are recommended to optimize industrial outcomes. (Álvarez-Parra et al., 2020).
