Description
Data with "Global change drivers alter weed performance and threaten forage production in an Andean agroecosystem"
This dataset underlays the peer-reviewed research paper: Anna M. Visscher, Steven Vanek, Jhon Huaraca, Jamelith Mendoza, Raul Ccanto, Katherin Meza, Edgar Olivera, Steven J. Fonte; "Global change drivers alter weed performance and threaten forage production in an Andean agroecosystem", Agriculture, Ecosystems & Environment, Volume 390, 2025; https://doi.org/10.1016/j.agee.2025.109692.
This dataset is published in 2025; publisher is Wageningen University and Research.
## Research paper abstract
Climate change and other global drivers threaten the long-term sustainability of production systems in the Andean highlands. Impacts on forage production and weed competition have important implications for farmer livelihoods but have received only limited attention. This study examines the impact of key global change drivers on the performance of the common forage, Lolium multiflorum, grown in competition with two important weeds of the region (Rumex acetosella or Pennisetum clandestinum). Forage-weed mixtures were grown in field mesocosms at different elevations, as a proxy for climate (3520 and 3740 m a.s.l.) and under contrasting nutrient management strategies (manure vs. synthetic fertilizer) to reflect a trend of increasing fertilizer use in the region. The findings indicate that warming conditions negatively impacted L. multiflorum performance, while manure inputs increased overall biomass production by 27 % relative to synthetic fertilizer. Meanwhile the impacts of amendments on weed-crop competition were plant-specific. For instance, R. acetosella competed better with organic manure nutrients, whereas P. clandestinum performed better at warmer sites amended with synthetic fertilizer. Findings from this study suggest that climate warming may exacerbate weed pressures, threatening crop production and food security in Andean landscapes. Additionally, continued reliance on traditional nutrient management, instead of synthetic fertilizers, may help support forage productivity and resilience under changing climate conditions.
## Creators & contact
Anna Visscher, https://orcid.org/0000-0002-5119-8198, Wageningen University & Research; Free University of Bozen-Bolzano
Steven J. Fonte, https://orcid.org/0000-0002-3727-2304, Colorado State University
This dataset underlays the peer-reviewed research paper: Anna M. Visscher, Steven Vanek, Jhon Huaraca, Jamelith Mendoza, Raul Ccanto, Katherin Meza, Edgar Olivera, Steven J. Fonte; "Global change drivers alter weed performance and threaten forage production in an Andean agroecosystem", Agriculture, Ecosystems & Environment, Volume 390, 2025; https://doi.org/10.1016/j.agee.2025.109692.
This dataset is published in 2025; publisher is Wageningen University and Research.
## Research paper abstract
Climate change and other global drivers threaten the long-term sustainability of production systems in the Andean highlands. Impacts on forage production and weed competition have important implications for farmer livelihoods but have received only limited attention. This study examines the impact of key global change drivers on the performance of the common forage, Lolium multiflorum, grown in competition with two important weeds of the region (Rumex acetosella or Pennisetum clandestinum). Forage-weed mixtures were grown in field mesocosms at different elevations, as a proxy for climate (3520 and 3740 m a.s.l.) and under contrasting nutrient management strategies (manure vs. synthetic fertilizer) to reflect a trend of increasing fertilizer use in the region. The findings indicate that warming conditions negatively impacted L. multiflorum performance, while manure inputs increased overall biomass production by 27 % relative to synthetic fertilizer. Meanwhile the impacts of amendments on weed-crop competition were plant-specific. For instance, R. acetosella competed better with organic manure nutrients, whereas P. clandestinum performed better at warmer sites amended with synthetic fertilizer. Findings from this study suggest that climate warming may exacerbate weed pressures, threatening crop production and food security in Andean landscapes. Additionally, continued reliance on traditional nutrient management, instead of synthetic fertilizers, may help support forage productivity and resilience under changing climate conditions.
## Creators & contact
Anna Visscher, https://orcid.org/0000-0002-5119-8198, Wageningen University & Research; Free University of Bozen-Bolzano
Steven J. Fonte, https://orcid.org/0000-0002-3727-2304, Colorado State University
| Date made available | 30 Jul 2025 |
|---|---|
| Publisher | Wageningen University & Research |
Research output
- 1 Article
-
Global change drivers alter weed performance and threaten forage production in an Andean agroecosystem
Visscher, A. M., Vanek, S., Huaraca, J., Mendoza, J., Ccanto, R., Meza, K., Olivera, E. & Fonte, S. J., 15 Sept 2025, In: Agriculture, Ecosystems and Environment. 390, 109692.Research output: Contribution to journal › Article › Academic › peer-review
Open Access1 Link opens in a new tab Citation (Scopus)
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