Interspecific Hybrid Rootstocks Improve Productivity of Tomato Grown under High-temperature Stress

IF 1.5 3区 农林科学 Q2 HORTICULTURE Hortscience Pub Date : 2024-01-01 DOI:10.21273/hortsci17482-23
Ahmed Hashem, Y. Bayoumi, Abd El-Shafik El-Zawily, Mark Tester, M. Rakha
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Abstract

Grafting can be a useful technology to improve productivity of vegetable crops, including tomato, particularly under the serious challenges of climate change for agricultural systems. This study aimed to evaluate the impact of some local tomato interspecific hybrid rootstocks along with Maxifort on the vegetative growth, productivity, and fruit quality of tomato under field production conditions. Heat-tolerant tomato hybrid 023 F1 was used as a scion over the two late summer seasons of 2021 and 2022. Grafting 023 F1 onto Maxifort or KFS-16 rootstocks resulted in the maximum plant growth. Similarly, Maxifort and KFS-16 rootstocks significantly increased the fruit setting percentage from 22.2% to 23.5% and 17.8% to 24.6%, total fruit yield from 33.5% to 53.7% and 29.6% to 51.6%, and marketable yields from 34.1% to 56.0% and 27.3% to 56.7%, respectively, during both seasons compared with nongrafted plants. These two rootstocks enhanced nutrient (nitrogen, phosphorus, potassium) uptake compared with nongrafted planted. However, grafting with the interspecific hybrid rootstocks (KFS-8 and KWS-9) significantly decreased the content of catalase, peroxidase, and proline, which might be associated with lower plant vigor and yield in these rootstocks. All rootstocks had an impact on fruit chemical composition; however, generally, Maxifort and KFS-16 had greater contents of vitamin C, β-carotene, and total antioxidants than nongrafted plants. KFS-16 had also greater lycopene content than nongrafted plants. These results demonstrate the potential use of Maxifort and local rootstock KFS-16 to boost the growth and yield of tomato plants under high-temperature stress in the late summer season.
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种间杂交砧木提高高温胁迫下番茄的产量
嫁接是提高包括番茄在内的蔬菜作物产量的一项有用技术,尤其是在农业系统面临气候变化的严峻挑战的情况下。本研究旨在评估一些本地番茄种间杂交砧木与 Maxifort 在田间生产条件下对番茄无性生长、产量和果实品质的影响。在 2021 年和 2022 年的两个夏末季节,使用耐热番茄杂交种 023 F1 作为接穗。将 023 F1 嫁接到 Maxifort 或 KFS-16 砧木上可获得最大的植株生长量。同样,与未嫁接植株相比,Maxifort 和 KFS-16 砧木在两个季节分别显著提高了坐果率(从 22.2% 提高到 23.5% 和 17.8% 提高到 24.6%)、总果实产量(从 33.5% 提高到 53.7%和 29.6% 提高到 51.6%)和可销售产量(从 34.1% 提高到 56.0%和 27.3% 提高到 56.7%)。与未嫁接的植株相比,这两种砧木提高了养分(氮、磷、钾)吸收率。然而,嫁接种间杂交砧木(KFS-8 和 KWS-9)会显著降低过氧化氢酶、过氧化物酶和脯氨酸的含量,这可能与这些砧木的植株活力和产量较低有关。所有砧木都对果实的化学成分有影响;但总体而言,与未嫁接的植株相比,Maxifort 和 KFS-16 的维生素 C、β-胡萝卜素和总抗氧化剂含量更高。KFS-16 的番茄红素含量也高于非嫁接植物。这些结果表明,在夏末高温胁迫条件下,Maxifort 和本地砧木 KFS-16 有可能促进番茄植株的生长和产量。
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来源期刊
Hortscience
Hortscience 农林科学-园艺
CiteScore
3.00
自引率
10.50%
发文量
224
审稿时长
3 months
期刊介绍: HortScience publishes horticultural information of interest to a broad array of horticulturists. Its goals are to apprise horticultural scientists and others interested in horticulture of scientific and industry developments and of significant research, education, or extension findings or methods.
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