Integrating grafting and companion planting to improve crop performance in intensive high-tunnel tomato production

Journal of Sustainable Agriculture and Environment Pub Date : 2023-10-12 DOI:10.1002/sae2.12074

Wadih Ghanem, Ian Kaplan

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Abstract

Introduction

Tomatoes are among the most popular horticultural crops cultivated in high tunnels. Due to space limitations in these enclosed environments, some tomatoes are produced in succession (i.e., without rotation) across years, which could lead to yield reductions over time. However, the impact of tomato monocultures on productivity in high tunnels and strategies to buffer against yield declines need further testing.

Materials and Methods

We used a 4-year field experiment whereby heirloom tomatoes (cv. Cherokee Purple and Black Krim) were grown in the same high tunnel soil over time. We tested the impact of both tomato grafting and companion planting on aboveground vegetative biomass and fruit yield. For the grafting treatment, we used the commercially available Maxifort and wild tomato, Solanum pimpinellifolium, as rootstocks. For companion planting, we seeded open alleys with clover and spatially shifted crop beds each year such that tomatoes were transplanted into the previous year's clover planting.

Results

Our data indicate that the companion (clover) treatment had little to no impact on tomato production, while grafting to Maxifort rootstock had a significant positive effect on biomass and yield. However, beneficial effects of grafting were only observed over time, in years three (+71% inc. in biomass) and four (+77% inc. in biomass, +38% inc. in yield) of the experiment; not during the initial 2 years. Leaf (SPAD) and fruit (Brix) metrics were unaffected by any of the treatments.

Conclusion

Overall, our results suggest that grafting tomatoes with commercially available rootstock is an effective tool for maintaining production in high tunnel monocultures over time.

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整合嫁接和伴生种植，提高高垄番茄集约化生产中的作物产量

引言番茄是在高温室中栽培的最受欢迎的园艺作物之一。由于这些封闭环境的空间限制，有些番茄是连年生产的（即不轮作），这可能会导致长期减产。然而，番茄单株栽培对高棚生产率的影响以及防止产量下降的策略还需要进一步测试。材料与方法我们进行了一项为期 4 年的田间试验，将传家宝番茄（Cherokee Purple 和 Black Krim 两个品种）长期种植在相同的高隧道土壤中。我们测试了番茄嫁接和伴生种植对地上部植被生物量和果实产量的影响。在嫁接处理中，我们使用市售的 Maxifort 和野生番茄 Solanum pimpinellifolium 作为砧木。在伴生种植方面，我们在空旷的小巷里播种了三叶草，并每年对作物床进行空间移动，以便将番茄移植到前一年种植的三叶草上。结果我们的数据表明，伴种（三叶草）处理对番茄产量几乎没有影响，而嫁接到 Maxifort 砧木上对生物量和产量有显著的积极影响。然而，只有在试验的第三年（生物量增加了 71%）和第四年（生物量增加了 77%，产量增加了 38%），嫁接才会随着时间的推移产生有益的影响，而不是在最初的两年。叶片（SPAD）和果实（Brix）的指标不受任何处理的影响。结论总的来说，我们的研究结果表明，用市场上可买到的砧木嫁接西红柿是长期保持高隧道单一种植产量的有效工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Sustainable Agriculture and Environment

CiteScore

2.60

自引率

0.00%

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