Assessment of the effects of inoculation with entomopathogenic fungi on the vegetative growth and yield of Capsicum chinense under water stress conditions

Abstract

In Mexico, Capsicum chinense has significant economic, cultural, and gastronomic value. The cultivation of C. chinense is increasingly challenged by global warming and droughts, which impact both plant health and market stability. Climate change affects agriculture by altering temperature and precipitation patterns, leading to soil moisture loss, drought, phenological damage, and increased pest and disease incidence. The use of bioinoculants, including entomopathogenic fungi (EFs), may be a strategy to mitigate drought in C. chinense production. The aim of this study was to assess the impact of Beauveria brongniartii and Purpureocillium lilacinum inoculation on the vegetative growth and yield of C. chinense var. "Chichen Itza" under two water stress conditions. Experiments were conducted in a gothic greenhouse, and C. chinense seedlings were transplanted into growth bags [coconut fiber (70%) and dust (30%)] with controlled irrigation at 75% and 100% levels. The EFs were applied weekly for the first month (50 mL at 1×10⁷ conidia mL^-1). Agronomic parameters, including plant height, stem diameter, chlorophyll index, leaf area, fruit quality, and yield, were measured. The results indicated that both B. brongniartii and P. lilacinum significantly increased plant height and stem diameter in the early stages of growth under water stress conditions. B. brongniartii notably increased plant growth and maintained fruit yield even under reduced irrigation. However, no significant differences were observed in the chlorophyll index or overall fruit yield among the treatments. The results of this study suggest that B. brongniartii and P. lilacinum can improve C. chinense resilience to water stress, suggesting potential applications in sustainable agriculture amidst climate change.