In 2022, global vegetable production exceeded 1.2 billion tons, with bell pepper accounting for 37 million tons. This crop is essential due to its versatility and nutritional value. In the Dominican Republic, greenhouse vegetable production has grown over the past 23 years, exceeding 10 million m². Specifically, bell pepper production increased from 9,122 to 32,000 tons over two decades. However, there is limited documented information on the influence of various management factors (fertigation and type of substrate, among others) on fruit yield and nutritional quality.

This study evaluated the effects of three fertigation programs (EC in the ranges of 1.2 to 1.9, 1.2 to 2, and 1.4 to 2.2 dS/m, respectively) and substrate types (rice husk biochar, coconut fiber, and a 50/50 mix of both) on bell pepper productivity and quality under protected conditions. The experiment followed a split-plot design with four replications. Evaluated variables included plant height, first internode diameter, canopy width, chlorophyll and nitrogen levels, leaf temperature, fruit size, yield, and Brix degree.

The rice charcoal substrate and its mixture with coconut fiber significantly outperformed coconut fiber alone in terms of fruit weight, diameter, and length. No significant interaction effects were observed (p > 0.05). Brix values ranged from 5.20 to 7.9, averaging 6.50. Fruit size in the rice charcoal substrate increased by 28% compared to coconut fiber; program three significantly outperformed program one by 27% in yields. The biochar substrate, combined with the highest nutrient dose, produced the best results.

In conclusion, bell pepper responds significantly to high nutrient doses and shows better adaptation to rice husk biochar as a substrate. The optimization of pepper crop management in a protected environment through the control of fertigation and substrate would increase the productivity of this crop in the Dominican Republic and improve the quality of the fruit obtained.