Litcius/Paper detail

Biostimulants in Fruit Crop Production: Impacts on Growth, Yield, and Fruit Quality

Berta Gonçalves, Marlene Santos, Vânia Silva, Ana I. Rodrigues, Ivo Oliveira, Tiago Lopes, Neerakkal Sujeeth, Kieran J. Guinan

2025Horticulturae8 citationsDOIOpen Access PDF

Abstract

Modern fruit crop production increasingly seeks sustainable strategies to enhance growth, yield, and fruit quality while minimizing environmental impacts. Plant biostimulants—naturally derived substances or beneficial microorganisms, such as seaweed and plant extracts, Plant-Growth-Promoting Rhizobacteria (PGPR), humic substances, protein hydrolysates, and Si—emerge as promising tools to achieve these goals by stimulating key physiological and biochemical processes. They can improve nutrient uptake and efficiency, modulate hormonal and metabolic pathways, and enhance the activity of enzymatic and non-enzymatic antioxidants, leading to improved plant vitality and fruit quality. Biostimulants also influence rhizosphere microbial communities and soil health, promoting nutrient cycling, beneficial microbial diversity, and soil structure. This review evaluates the application of biostimulants in fruit crops and their effects on growth, physiology, productivity, fruit quality, both chemical and nutritional composition and physical parameters. Challenges related to variability in efficacy, formulation standardization, and crop-specific responses are discussed, alongside future perspectives on integrating biostimulants into sustainable orchard management. Overall, biostimulants represent multifunctional tools that support both productivity and ecological sustainability in modern fruit production systems.

Topics & Concepts

RhizosphereRhizobacteriaCropNutrientBiologySustainabilityAgronomyCrop productivityOrchardSustainable agricultureCrop yieldBiofertilizerAgricultureAdaptabilityBiotechnologyPassion fruitCrop productionPlant nutritionProductivitySoil qualityVitalityEssential nutrientCrop residueEnvironmental sciencePhosphate solubilizing bacteriaBeneficial organismAgroforestryPlant Growth Enhancement TechniquesSilicon Effects in AgricultureSeaweed-derived Bioactive Compounds