4.7 Article

Biochar and Forage Peanut improve pastures: Evidence from a field experiment in Brazil

Journal

AGRICULTURE ECOSYSTEMS & ENVIRONMENT
Volume 353, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.agee.2023.108534

Keywords

Biochar; Forage peanut; Sustainable agriculture; Pasturelands; Farmers; Bottom -up approach; Soil ecosystem services; Payment for ecosystem services

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This study explores the impact of different soil enhancers on soil quality and productivity of forage grass, and finds that they significantly improve the yield and income of different cultivars. Improved management of tropical pasturelands can lead to more sustainable food production and protect and restore ecosystem services.
Pasturelands, often degraded, represent most of the converted lands globally. It is important to understand how different pasture management approaches can improve soil quality, increase feed production and farmer income. Here, the impact of different soil enhancers on soil quality and productivity of three cultivars of Brachiaria (Syn. Urochloa) forage grass is presented. Soil enhancers included: biochar - a carbon-rich product from biomass pyrolysis, moinha (local charcoal residue), traditional fertiliser containing nitrogen, phosphorus and potassium, lime, and forage peanut (Arachis pintoi cv. Amarillo). Considering the total biomass produced over the experiment (sum of four harvests), the highest dry biomass production was observed for Brachiaria brizantha cv. Piata & SIM; (14.1 Mg ha-1) and cv. Marandu (12.7 Mg ha-1), for biochar application of 30 Mg ha-1. Paiagu & PRIME;as had the highest dry matter production (12.4 Mg ha-1) for the treatment with forage peanut plus 15 Mg ha-1 of biochar. The increases in dry mass production translated to additional income, as compared with the control, of U$ 1 291, U$ 1 183 and U$ 991 per year for Marandu, Piata & SIM; and Paiagu & PRIME;as, respectively. The increases in forage grass productivity were reflected by positive changes in soil characteristics such as improvement in cation exchange capacity, pH and nutrient contents. Improved management of tropical pasturelands holds opportunity for more sustainable food production, and for ecosystem services protection and recuperation, for example, biodiversity net-gain, water regulation and carbon sequestration.

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