Site Factors Related to Dry Farm Vegetable Productivity and Quality in the Willamette Valley of Oregon

IF 1 4区农林科学 Q3 HORTICULTURE

Horttechnology Pub Date : 2023-12-01 DOI:10.21273/horttech05287-23

Matthew Davis, Alexandra Stone, Andy Gallagher, Amy Garrett

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Abstract

Dry farming has been defined as rainfed crop production in a climate with more than 20 inches of annual precipitation, but where most precipitation falls outside the growing season. Dry farming is garnering interest in the western United States because it allows farmers to produce crops despite a lack of access to irrigation or water rights or to eliminate the infrastructure, labor, and energy costs of irrigation systems. Sites have differing suitability for dry farming, and some sites that can be farmed with irrigation will perform poorly when dry-farmed. To determine site factors associated with dry farm yield and fruit quality, trials of ‘Early Girl’ tomato (Solanum lycopersicum) and ‘North Georgia Candy Roaster’ winter squash (Cucurbita maxima) were conducted at 17 participant farms in the Willamette Valley in Oregon, USA, in 2018 and 2019. The mean blossom-end rot (BER) incidence was higher in the Willamette Valley than in coastal California; this was probably because of the Willamette Valley’s hotter and drier climate. Increasing the available water-holding capacity of soil, total available water (available water-holding capacity of the soil plus in-season rainfall), native productivity rating, soil pH (0–6 inches and 24–36 inches), soil nutrient concentrations (0–6 inches and 24–36 inches), and in-season rainfall were positively associated with at least one measure of tomato or winter squash yield, fruit number, or average fruit weight. An earlier planting date was positively associated with winter squash total yield and total fruit number in 2019. The water-limited yield potential (the total yield potential if water was the only limiting factor) for 20-ft2/plant plots was estimated to be 2.2 tons/acre per inch for tomato and 2.8 tons/acre per inch for winter squash. In 2019, high-density plantings (20 ft2/plant) had higher tomato and winter squash mean total yields, mean total fruit numbers, and mean tomato unblemished yield than low-density plantings (40 ft2/plant). In 2019, planting tomato at 20 ft2/plant decreased the mean BER incidence by 15.6% when compared with planting tomato at 40 ft2/plant.

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与俄勒冈州威拉米特谷旱地蔬菜产量和质量有关的场地因素

旱作农业被定义为在年降水量超过20英寸的气候下生产雨养作物，但大部分降水发生在生长季节之外。旱作农业正在美国西部引起人们的兴趣，因为它允许农民在缺乏灌溉或水权的情况下种植作物，或者消除灌溉系统的基础设施、劳动力和能源成本。不同地点对旱作的适宜性不同，一些可以灌溉的地点在旱作时表现不佳。为了确定与旱田产量和水果质量相关的场地因素，2018年和2019年在美国俄勒冈州威拉米特山谷的17个参与农场进行了“早女”番茄(茄茄)和“北乔治亚糖果烘焙师”冬瓜(葫芦)的试验。威拉米特河谷的平均花端腐病发生率高于加州沿海地区;这可能是因为威拉米特山谷的气候更热更干燥。增加土壤有效持水量、总有效持水量(土壤有效持水量加上当季降雨量)、本地生产力等级、土壤pH值(0-6英寸和24-36英寸)、土壤养分浓度(0-6英寸和24-36英寸)和当季降雨量与番茄或冬瓜产量、果实数量或平均果实重量的至少一项指标呈正相关。提前播种与2019年冬瓜总产量和总果数呈正相关。据估计，20平方英尺/株地块的限水产量潜力(如果水分是唯一限制因素，则总产量潜力)为西红柿2.2吨/英亩每英寸，冬瓜2.8吨/英亩每英寸。2019年，高密度种植(20平方英尺/株)的番茄和冬南瓜平均总产量、平均总果数和平均番茄无缺陷产量高于低密度种植(40平方英尺/株)。2019年，种植20平方英尺/株的番茄比种植40平方英尺/株的番茄减少了15.6%的平均BER发病率。

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

Horttechnology 农林科学-园艺

CiteScore

2.30

自引率

10.00%

发文量

审稿时长

3 months

期刊介绍： HortTechnology serves as the primary outreach publication of the American Society for Horticultural Science. Its mission is to provide science-based information to professional horticulturists, practitioners, and educators; promote and encourage an interchange of ideas among scientists, educators, and professionals working in horticulture; and provide an opportunity for peer review of practical horticultural information.