Phenology, yield, and phytochemicals of Capsicum spp. in response to shading

IF 1.1 4区生物学 Q3 PLANT SCIENCES Botanical Sciences Pub Date : 2023-04-11 DOI:10.17129/botsci.3234

Dario De la Cruz-Ricardez, L. C. Lagunes-Espinoza, C. Ortíz-García, E. Hernández-Nataren, R. M. Soto-Hernández, Rocío G. Acosta-Pech

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引用次数: 1

Abstract

Background: Capsicum spp. grow in environments with different incident radiation, that could modify the plant growth and the concentration of phytochemicals in fruits. Hypothesis: Shading positively affects phenology and fruit yield, decreases the total contents of phenols (TPC), flavonoids (FLV), proanthocyanidins (PAN) and carotenoids (CAT) in fruits of wild Capsicum species. Studied species: Capsicum annuum var. glabriusculum: amashito (AMA) and garbanzo (GAR), and C. frutescens (Pico Paloma, PIP) Study site and dates: Huimanguillo, Tabasco, Mexico; 2020 and 2021. Methods: Seeds were treated with gibberellic acid (GA3) (500 mg L-1) for 24 h prior to seeding. The seedlings were transplanted in an open field and under two levels of shade (35 and 70 %) under a subsplit plot design with four replicates. TPC, FLV, PAN and CAT were determinate in immature and ripe fruits by UV-vis spectrophotometry. Results: Shade accelerated the phenological processes from the first bifurcation of the stem, and decreased the fruits ripening time from anthesis of the genotypes studied. Shade only increased the yield of the AMA genotype and reduced the contents of TPC, FLV, and CAT; however, these metabolites increased under open field conditions. Conclusions: The shade reduced the duration of phenological stages including the ripening period of fruits, and increased the plant height of the Capsicum spp. The increase in yield by shading effect only was observed in AMA genotype. The content of phytochemicals in Capsicum fruits is reduced by shading levels.

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辣椒对遮荫反应的表型、产量和植物化学物质

背景：辣椒生长在不同入射辐射的环境中，可以改变植物的生长和果实中植物化学物质的浓度。假说：遮荫对野生辣椒属植物的酚类、黄酮类、原花青素和类胡萝卜素的总含量有显著影响，对果实产量有显著影响。研究物种：辣椒变种：amashito（AMA）和garbanzo（GAR），以及C.frutescens（Pico Paloma，PIP）研究地点和日期：墨西哥塔巴斯科的Huimanguillo；2020年和2021年。方法：在播种前用赤霉酸（GA3）（500mg L-1）处理种子24小时。将幼苗移植到开阔的田地中，在两个遮荫水平（35%和70%）下，采用四个重复的亚种小区设计。采用紫外-可见分光光度法测定了未成熟和成熟果实中的TPC、FLV、PAN和CAT。结果：遮荫加速了所研究基因型从茎第一分叉开始的酚学过程，并缩短了果实从开花开始的成熟时间。遮荫只增加了AMA基因型的产量，降低了TPC、FLV和CAT的含量；然而，这些代谢产物在开阔地条件下增加。结论：遮荫缩短了辣椒的酚期（包括果实成熟期），并增加了辣椒的株高。只有AMA基因型的辣椒才能通过遮荫效应提高产量。辣椒果实中的植物化学物质含量因遮荫程度而降低。

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来源期刊

Botanical Sciences Agricultural and Biological Sciences-Plant Science

CiteScore

1.90

自引率

21.40%

发文量

审稿时长

16 weeks

期刊介绍： Botanical Sciences welcomes contributions that present original, previously unpublished results in Botany, including disciplines such as ecology and evolution, structure and function, systematics and taxonomy, in addition to other areas related to the study of plants. Research reviews are also accepted if they summarize recent advances in a subject, discipline, area, or developmental trend of botany; these should include an analytical, critical, and interpretative approach to a specific topic. Acceptance for reviews will be evaluated first by the Review Editor. Opinion Notes and Book Reviews are also published as long as a relevant contribution in the study of Botany is explained and supported.