Litcius/Paper detail

Environmental Drivers of Fruit Quality and Shelf Life in Greenhouse Vegetables: Species-Specific Insights

Dimitrios Fanourakis, Theodora Makraki, George P. Spyrou, Ioannis Karavidas, Georgios Tsaniklidis, Georgia Ntatsi

2025Agronomy22 citationsDOIOpen Access PDF

Abstract

This review integrates current knowledge on how greenhouse conditions regulate the nutritional quality and shelf life of tomato, cucumber, and sweet pepper. Preharvest environmental factors jointly shape fruit composition, firmness, and storage performance through their control of photosynthesis, assimilate partitioning, and structural stability. Across all variables, light intensity and fruit temperature emerge as the dominant determinants of overall quality and shelf life potential. Relative air humidity (RH), irrigation regime, and nutrient balance primarily affect firmness, water loss, and physiological disorders, while CO2 enrichment, shading, and mineral or biostimulant inputs exert secondary yet consistent effects. Comparative evaluation shows that tomato is most sensitive to temperature and RH, cucumber to water status and epidermal stress, and sweet pepper to radiation for color and antioxidant development. These distinctions confirm that no single climatic optimization can be universally applied, and management must therefore target species-specific physiological constraints to sustain both nutritional excellence and storage performance. Major knowledge gaps remain, particularly regarding the combined effects of interacting environmental drivers and the integration of physiological responses with postharvest behavior. Future research should adopt multifactorial designs and predictive modeling to support climate-smart greenhouse strategies that optimize quality and storability under variable growing conditions.

Topics & Concepts

PreharvestGreenhouseEnvironmental scienceShelf lifePostharvestAgricultural engineeringAdaptabilityRelative humidityLycopeneIrrigationQuality (philosophy)MoistureNutrientExcellenceCold storageAgronomyHumidityWater useGrowing seasonWater qualityLight intensityBiomass (ecology)Greenhouse effectGreenhouse Technology and Climate ControlPlant Physiology and Cultivation StudiesPostharvest Quality and Shelf Life Management