Soil solarization as a non-chemical weed control method in tree nursery production systems of the Pacific Northwest, USA

IF 3.5 Q1 AGRONOMY
Nami Wada, Pete A. Berry, Brian Hill, Carol Mallory-Smith, Jennifer L. Parke
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引用次数: 0

Abstract

Herbicide application in tree nurseries is limited because of the potential for chemical injury to the large diversity of trees species grown, the lack of registered products, and increasing restrictions on herbicide use, necessitating the costly practice of hand weeding. Soil solarization can reduce the weed seedbank by trapping solar energy under clear plastic film, resulting in high soil temperatures lethal to imbibed weed seeds and seedlings. The objective of this study was to determine if soil solarization would be an effective weed management strategy in Pacific Northwest, USA, tree production systems.Field studies were conducted at three commercial tree nurseries in Oregon and Washington over two years to test soil solarization in reducing the naturally occurring weed seedbank and the time required to hand weed fields. Further field and laboratory tests were conducted with five weed species: Poa annua, Polygonum pensylvanicum, Amaranthus retroflexus, Portulaca oleracea, and Cyperus esculentus. Weed seeds and tubers were buried in packets at 5 and 10 cm to determine their viability after 6 weeks of solarization. A laboratory study was conducted with all but C. esculentus to quantify the exposure time at 45, 50, and 55°C required for 90% death (T90).Soil solarization was particularly effective in reducing the emergence of naturally occurring weeds in the fall and winter, when weed emergence was reduced by 94-96%. Emergence was reduced 67-81% during the subsequent spring and early summer. Nine to ten months after solarization, solarized areas had a 52 – 69% reduction in hand weeding time compared to non-solarized areas. In field trials with buried seed and tuber packets, mortality differed by location and depth, with P. annua and P. pensylvanicum having the greatest percent seed mortality followed by A. retroflexus and variable results for P. oleracea and C. esculentus. In lab studies, seed mortality differed depending on species and temperature; however, at 55°C, there was a relatively rapid drop in seed viability for all species, and T90 values ranged from 1.2 to 41 h whereas at 45°C the range was 47 to > 3000 h. Similar to the field studies, P. annua and P. pensylvancium were more sensitive to heat, followed by A. retroflexus and P. oleracea.Soil solarization can be an effective weed management tool in reducing the weed seedbank in Pacific Northwest tree nurseries and other fall-sown crops but may not work for certain, thermotolerant weed species such as C. esculentus.
在美国西北太平洋地区苗木生产系统中将土壤日晒作为一种非化学除草方法
在苗圃中施用除草剂受到限制,因为种植的树木种类繁多,可能会造成化学伤害,而且缺乏注册产品,除草剂的使用限制也越来越多,因此必须采用成本高昂的人工除草方法。土壤日晒可以通过在透明塑料薄膜下捕获太阳能来减少杂草种子库,从而使土壤温度升高,对浸种的杂草种子和幼苗产生致命的影响。在俄勒冈州和华盛顿州的三个商业苗圃进行了为期两年的实地研究,以测试土壤日晒是否能减少自然产生的杂草种子库和人工除草所需的时间。对五种杂草进行了进一步的田间和实验室测试:这五种杂草是:Poa annua、Polygonum pensylvanicum、Amaranthus retroflexus、Portulaca oleracea 和 Cyperus esculentus。杂草种子和块茎分别埋在 5 厘米和 10 厘米处的土包中,以确定它们在日晒 6 周后的存活率。对除香附子以外的所有杂草进行了实验室研究,以量化在 45、50 和 55°C 下达到 90% 死亡(T90)所需的曝晒时间。在随后的春季和初夏,杂草萌发减少了 67-81%。日晒九至十个月后,日晒区的人工除草时间比未日晒区减少 52 - 69%。在埋藏种子和块茎包的田间试验中,不同地点和不同深度的种子死亡率不同,其中 P. annua 和 P. pensylvanicum 的种子死亡率最高,其次是 A. retroflexus,而 P. oleracea 和 C. esculentus 的结果则各不相同。在实验室研究中,种子死亡率因物种和温度而异;不过,在 55°C 温度下,所有物种的种子活力都相对较快下降,T90 值从 1.2 到 41 小时不等,而在 45°C 温度下,T90 值从 47 到 > 3000 小时不等。土壤日晒是一种有效的杂草管理工具,可减少西北太平洋地区苗圃和其他秋播作物中的杂草种子库,但对某些耐高温的杂草物种(如 C. esculentus)可能不起作用。
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来源期刊
Frontiers in Agronomy
Frontiers in Agronomy Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
4.80
自引率
0.00%
发文量
123
审稿时长
13 weeks
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