Litcius/Paper detail

Current Scenario and Perspectives for Nitrogen Fertilization Strategies on Tropical Perennial Grass Pastures: A Review

Lilian Elgalise Techio Pereira, Valdo Rodrigues Herling, Adriano Rogério Bruno Tech

2022Agronomy24 citationsDOIOpen Access PDF

Abstract

Traditional Nitrogen (N) fertilization practices for tropical perennial grass are still based on annual amounts, following flat N rates instalments. This strategy does not consider variations in climatic conditions along the growing season, their impacts on the plant’s demand and the soil N availability. At regrowth cycles where the amount of soil N released from mineralization or through animal excreta surpass the plant’s demand, most of the N may be lost (as ammonia, nitrate, and nitrous oxide), increasing production costs and environmental pollution. This paper examines current N fertilization and discusses possible gaps in knowledge for the definition of more precise fertilization guidelines in pasture-based livestock systems based on tropical perennial grasses. More precise fertilization practices, based upon site and seasonal-specific recommendations, will substantially contribute to the establishment of best fertilization guidelines. Sustainable approaches can be defined by combining the identification of regrowth cycles where high N rates are required, with enhanced efficiency fertilizers, and/or using grass species with the potential for biological nitrification inhibition. The lack of information on tropical grasses requirements, and soil and climatic factors driving the N fate into the mineralization and immobilization processes and how these factors affect plant’s N demand, still prevents opportunities for tactical applications and the establishment of best management guidelines.

Topics & Concepts

Perennial plantEnvironmental scienceAgronomyNitrificationPastureHuman fertilizationMineralization (soil science)AgroforestryNitrogen cycleNitrogenBiologySoil waterSoil scienceChemistryOrganic chemistryRuminant Nutrition and Digestive PhysiologySoil Carbon and Nitrogen DynamicsSoil and Water Nutrient Dynamics