Irrigation Scheduling Impacts Vegetative Growth, Seed Yield, and Fungal Diseases of Spinach Seed Crops in a Maritime Mediterranean Climate

IF 1.5 3区 农林科学 Q2 HORTICULTURE Hortscience Pub Date : 2024-06-01 DOI:10.21273/hortsci17661-23
Harmony Varner, Liz Myhre, Betsy Schacht, Jessica Pupo, Kayla A. Spawton, Lindsey J. du Toit, Gabriel T. LaHue
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Abstract

Although irrigation scheduling has been studied for diverse vegetable crops, much less attention has been given to irrigation scheduling for the seed crops on which these production systems rely. In spinach, for which irrigation scheduling needs are likely to vary greatly between seed and leaf production, this leaves seed producers without adequate resources to make irrigation scheduling decisions. Our research sought to fill this gap by evaluating two alternative irrigation scheduling strategies (a publicly available decision-support tool and soil moisture sensors) and four soil moisture thresholds for irrigation for their impacts on vegetative growth, marketable seed yield, seed quality, and the severity of Stemphylium leaf spot (caused by Stemphylium vesicarium and Stemphylium beticola), a common foliar disease of spinach, under sprinkler irrigation. We found that in all 3 years of the study, earlier and more frequent irrigation increased vegetative growth. However, marketable seed yield only increased relative to the control treatment based on farmers’ standard irrigation practices in 1 of the 3 years—a year with an abnormally late planting date. This indicates that vegetative growth is more responsive than seed yield to earlier and more frequent irrigation, and that increases in vegetative growth do not translate directly to increased marketable seed yield. Contrary to the expected increase in Stemphylium leaf spot severity with increasing irrigation, the severity decreased in both years it was measured, likely as a result of the small stature of the spinach seed parent lines used in our study and opportunistic pathogenicity on moisture-stressed plants. These results provide a useful foundation from which spinach seed producers can make irrigation management decisions for their crops that underpin a valuable global industry.
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灌溉调度对地中海海洋性气候下菠菜种子作物的植株生长、种子产量和真菌病害的影响
尽管人们对多种蔬菜作物的灌溉调度进行了研究,但对这些生产系统所依赖的种子作物的灌溉调度却关注较少。在菠菜中,种子和叶片生产对灌溉调度的需求可能会有很大不同,这使得种子生产者没有足够的资源来做出灌溉调度决策。我们的研究试图填补这一空白,评估了两种可供选择的灌溉调度策略(一种可公开获得的决策支持工具和土壤水分传感器)和四种灌溉土壤水分阈值对菠菜无性生长、可销售种子产量、种子质量以及喷灌条件下常见叶面病害--茎孢叶斑病(由茎孢霉和茎孢菌引起)的影响。我们发现,在所有 3 年的研究中,灌溉时间越早、灌溉次数越多,无性生长就越快。然而,与基于农民标准灌溉方法的对照处理相比,3 年中只有 1 年的可销售种子产量有所提高,这一年的播种日期异常晚。这表明,与种子产量相比,无性生长对更早和更频繁灌溉的反应更灵敏,而无性生长的增加并不能直接转化为可销售种子产量的增加。与预期的随着灌溉次数的增加,Stemphylium 叶斑病的严重程度会增加相反,在测量的两年中,其严重程度都有所下降,这可能是由于我们研究中使用的菠菜种子亲本株系较小,以及在水分胁迫植物上的机会致病性。这些结果为菠菜种子生产商提供了一个有用的基础,他们可以据此为作物制定灌溉管理决策,从而为这一宝贵的全球产业奠定基础。
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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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