Data or statistical facts on the situation and perspectives of agri-food systems and the impact of policies
51 of the 64 native maize races were preserved through 191 seed banks and seed houses established by the strategy.
3,000 hectares were rehabilitated through agroforestry systems in various regions of Peru, combining forest species and crops to restore degraded soils and strengthen the livelihoods of local communities, according to documented experiences (SERFOR, 2018).
1,250 hectares are under management or recovery processes in Amazonian ecosystems of Peru, integrating ecological restoration actions and sustainable forest management practices documented across various experiences in the country (SERFOR, 2018).
500 hectares were restored in andean areas of Peru, reflecting the progress made in the recovery of high-Andean ecosystems and the implementation of sustainable management practices documented across multiple restoration experiences (SERFOR, 2018).
7% of forest cover was lost between 1990 and 2020 in Latin America and the Caribbean, equivalent to 138 million hectares, highlighting the scale of landscape degradation in the region and the urgency of advancing large-scale restoration and conservation efforts (World Resources Institute, 2024).
58% of greenhouse gas emissions in Latin America and the Caribbean originate from land use, land-use change, and the forestry sector, highlighting the significant weight of these activities in the region’s climate dynamics and the urgent need to strengthen mitigation efforts (World Resources Institute, 2024).
23% of the world’s forests and 60% of global biodiversity are located in Latin America and the Caribbean, highlighting the region’s strategic importance for ecosystem and biodiversity conservation. This significant share also reflects the critical role of LAC in providing essential ecosystem services and in supporting global efforts to address environmental degradation and climate change (Worl...
$5.5 billion was mobilized by the Tropical Forests Forever Facility (TFFF) for tropical forest conservation (CAF, 2025).
The study assesses the impact of converting Amazonian forests to agricultural land in the Peruvian Amazon, analyzing how this transition affects soil organic carbon, total nitrogen, and available potassium. The results show a significant decrease in these essential components, reaching critical levels that compromise fertility, agricultural productivity, and ecological sustainability (Solórzano e...
Transitions to silvopastoral systems increase resilience, productive stability and ecosystem services in degraded soils, but reduce biodiversity by replacing native ecosystems (Picasso and Pizarro, 2024).
