Litcius/Paper detail

Traditional soil fertility management ameliorates climate change impacts on traditional Andean crops within smallholder farming systems

Anna M. Visscher, Steven J. Vanek, Jhon Huaraca, Jamelith Mendoza, Raúl Ccanto, Katherin Meza, Edgar Olivera, María Scurrah, Camilla Wellstein, Gianmaria Bonari, Stefan Zerbe, Steven J. Fonte

2023The Science of The Total Environment21 citationsDOIOpen Access PDF

Abstract

Global changes, particularly rising temperatures, threaten food security in smallholder mountain communities by impacting the suitability of cultivation areas for many crops. Land-use intensification, associated with agrochemical use and tillage, threatens soil health and overall agroecosystem resilience. In the Andean region, farmers often cultivate crops at multiple elevations. Warming climates have led to a shift in cultivation upslope, but this is not feasible in many areas. Traditional soil fertility management practices together with a focus on traditional (orphan) crops offers promise to cope with rapid climate warming in the region. To understand the impacts of warming and changing nutrient management, we established two side-by-side experiments using the traditional Andean crops Oxalis tuberosa (Oca) and Lupinus mutabilis (Tarwi) at three elevations, each with two fertility treatments (organic and synthetic). Soil and climate data (i.e., temperature and precipitation) were collected throughout the growing season, and crop performance was evaluated through impacts on yield and other growth metrics (e.g., biomass, pest incidence). We used two-way ANOVA to assess the influence of site (elevation) and management type (organic vs. synthetic) on crop performance. Results indicated that warmer climates (i.e., lowest elevation) negatively impact the production and performance of O. tuberosa, but that organic fertilization (sheep manure) can help maintain crop yield and biomass production in warmer conditions relatively to synthetic nutrient inputs. In contrast, L. mutabilis showed accelerated growth in warmer conditions, but grain yield and biomass production were not significantly affected by site and showed no interaction with nutrient management. Our findings highlight that climate warming represents a serious threat to small-scale crop production in the Peruvian Andes and could cause severe declines in the production of locally important crops. Additionally, the continued reliance on traditional crops with organic inputs, instead of synthetic fertilizers, may help support agricultural productivity and resilience under climate change.

Topics & Concepts

Soil fertilityAgroforestryEnvironmental scienceAgronomyNutrient managementBiomass (ecology)Food securityAgricultureCrop yieldAgroecosystemClimate changeBiologySoil waterEcologySoil sciencePlant and soil sciencesEnvironmental and Cultural Studies in Latin America and BeyondAgroforestry and silvopastoral systems