Abstract

Chili pepper (Capsicum spp.) is one of the most economically important horticultural crops in the world; its production for the food and pharmaceutical industries has been increasing worldwide. The economic importance of this crop is due, in part, to the nutraceutical properties derived from its secondary metabolism. Drought is the main environmental factor that affects crop production. Nevertheless, studies involving water deficit have considered short-term responses to sharp water deficit rather than long-term acclimation processes through moderate and gradually increasing water deficits, which omitted the dynamics and profile of the secondary metabolism that are part of the plant’s defence system against this stress factor. The present study aimed to identify the different mechanisms that chili pepper plants use to cope with drought stress using a progressive decrease and increase of water availability, conditions that commonly occur for crops in open fields. Four treatments were applied as follows: gradual water deficit (GWD), initial waterlogging with gradual water deficit (IWGD), sudden water deficit with gradual recovery (SWDR), and no deficit of water (NDW). These conditions should represent a more real situation similar to that faced by plants in the agricultural environment. In order to evaluate the response mechanisms associated with these water deficits, changes in phenological variables, proline accumulation, and the gene expression of phenylalanine ammonia-lyase (PAL), chalcone synthase (CHS), peroxidase (POD), and superoxide dismutase (SOD) were measured in chili pepper plants growing on land under different irrigation regimes in two contrasting soil types in areas where chili pepper plants are cultivated in central Mexico. The variables evaluated showed a differentiated response of the mechanisms in plants growing under different levels of water deficit. Given the differential response observed for the gene expression and morphological and biochemical variables studied in chili pepper plants against different water regimes, in this work, this may have implications for more efficient use of water in crops with high nutraceutical content, in addition to prospects for using products derived from secondary metabolism in the pharmaceutical industry.

Highlights

  • The genus Capsicum spp. includes 25 to 30 species, of which the following five are cultivated: C. annuum L., C. frutescens L., C. chinense Jaqch, C. baccatum, and C. pubescens

  • We studied the impacts of these conditions on morphological variables, proline accumulation, and the expression of phenylalanine ammonia-lyase (PAL), chalcone synthase (CHS), peroxidase (POD), and superoxide dismutase (SOD)

  • In order to evaluate the impacts that sandy and clay soils have on the performance of C. annuum, some morphological variables of chili plants grown in these soils were measured

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Summary

Introduction

The genus Capsicum spp. (chili pepper) includes 25 to 30 species, of which the following five are cultivated: C. annuum L., C. frutescens L., C. chinense Jaqch, C. baccatum, and C. pubescens. (chili pepper) includes 25 to 30 species, of which the following five are cultivated: C. annuum L., C. frutescens L., C. chinense Jaqch, C. baccatum, and C. pubescens Agriculture 2020, 10, 381 species have been domesticated and are currently cultivated [1]. Chili pepper (Capsicum spp.) is one of the most economically important horticultural crops worldwide; it is among the 50 main food products according to The Food and Agriculture Organization of the United Nations (FAO). The consumption of chili fruits as a fresh food or seasoning has been increasing worldwide [2]. This increase is due to it is used as an additive in the food and pharmaceutical industries [3]. The economic importance of this crop is due, in part, to the nutraceutical properties derived from its secondary metabolism

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