The Effect of Night Low Temperature on Agronomical Traits of Thirty-Nine Pepper Accessions (Capsicum annuum L.)

Sherzod Nigmatullayevich Rajametov,Eun-Young Yang,Hyo-Bong Jeong,Chun-Woo Nam,Kwanuk Lee,Myeong-Cheoul Cho

doi:10.3390/agronomy11101986

Abstract

Pepper plants are subject to complex environmental factors including abiotic and biotic stresses in fields, as well as the significant effects of climate changes, including low and high temperatures. Low temperature stress in the growth and development of pepper plants is one of the most critical issues, and directly impacts the crop yield and productivity of pepper plants. Therefore, it is essential to select and breed low temperature-(LT) tolerant pepper (Capsicum annuum L.) cultivars. This research was conducted to assess the agronomical traits of 39 pepper accessions belonging to the chili and bell fruit varieties which were cultivated under two different night temperature set-points: at 15 °C for a suboptimal temperature (CT) and at 10 °C for a low temperature (LT). The plant heights (PH) of most pepper accessions in a LT were significantly decreased compared to those in a CT. The stem diameter (SD) and the length of main axis (LMA) varied depending on the genotypes under LT. Moreover, the number of flowers (NFL), total number of fruits (NFR), fruit yield (FY), fruit fresh weight (FFW), fruit length (FL), fruit diameter (FD), and number of seeds in a fruit (NSF) remarkably declined in a LT compared to in a CT. The evaluated agronomical traits between LT and CT were further applied for the correlation analysis, principal component analysis (PCA), and hierarchical cluster analysis. Notably, the FY trait was correlated with other reproductive traits including NFR, FFW, FD, and FL on the positive directions and thirty-nine LT-treated pepper accessions were clustered into seven groups by the hierarchical clustering analysis. The selected accessions were primarily involved in the positive trends with the reproductive index including NFR, FL, FD, and FFW traits and could be used for pepper breeding programs to develop LT-tolerant cultivars.

Highlights

Pepper plants (Capsicum annuum L.) originate from the American tropics, are classified into the Solanaceae family, and are considered as an essential horticultural crop
In order to understand the response of pepper plants to the night low temperature (NLT), the vegetative parameters including plant height (PH), stem diameter (SD), and length of main axis (LMA) were investigated among 39 pepper accessions at 120 days after transplanting (DAT) in LT and CT greenhouses
The effect of LT showed that the PH decreased significantly in almost all accessions, except for one accession, C32, which was not significantly different among the chili peppers grown between the LT and CT greenhouses (Figure 1A)

Summary

Introduction

Pepper plants (Capsicum annuum L.) originate from the American tropics, are classified into the Solanaceae family, and are considered as an essential horticultural crop. According to the Food and Agriculture Organization (FAO) and the Korean Statistical Information Service (KOSIS) in 2019, the cultivation area and the production of peppers accounted for approximately 4.5 million ha and 61 million tonnes of the total green and dried peppers grown worldwide (http://www.fao.org/faostat/), as well as around 36,600 ha and 334,280 tonnes of green and dried peppers of both chili and bell varieties in Korea (https://kosis.kr/eng (accessed on 9 August 2021), respectively. The plants grown in temperatures below 15 ◦C resulted in abnormal flower shapes, reduced pollen activity and quality [18,19,20], parthenocarpic fruits [21], a decrease in the number of seeds in the fruit (NSF) [21,22,23]. The effects of NLT on the aforementioned vegetative and reproductive parameters were determined in pepper plants, the impact of NLT was only characterized in limited accessions and mainly in sweet peppers

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Results

Conclusion