Predicted climate conditions and cover crop composition modify weed communities in semiarid agroecosystems

IF 2.2 3区 农林科学 Q2 AGRONOMY
Weed Research Pub Date : 2021-11-22 DOI:10.1111/wre.12514
M. Dupré, Tim F. Seipel, M. Bourgault, Darin L. Boss, F. Menalled
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引用次数: 4

Abstract

The US Northern Great Plains is one of the largest expanses of small grain agriculture, but excessive reliance on off-farms inputs and predicted warmer and drier conditions hinder its agricultural sustainability. In this region, the use of cover crops represents a promising approach to increase biodiversity and reduce external inputs; however little information exists about how cover crop mixture composition, predicted climate and management systems could impact the performance of cover crops and weed communities. In the 4th cycle of a cover crop-wheat rotation, we experimentally increased temperature and reduced moisture as expected to occur with climate change, and assessed impacts on the presence and composition of cover crop mixtures and termination methods on weed communities. Under ambient climate conditions, mean total cover crop biomass was 43%– 53% greater in a five species early-season cover crop mixture compared with a seven species mid-season mixture, and differences were less pronounced in warmer and drier conditions (19%– 24%). We observed a total of 18 weed species; 13 occurring in the early-season mixture, 13 in the mid-season mixtures and 14 in the fallow treatments. Weed species richness and diversity was lower in warmer and drier treatments, and we observed a shift in weed communities due to the presence and composition of cover crop mixtures as well as climate manipulations. Overall, results suggest that adoption of cover crop mixtures in semiarid agroecosys - tems requires jointly addressing weed management and soil moisture retention goals, a challenge further complicated by predicted climate conditions.
预测的气候条件和覆盖作物组成改变半干旱农业生态系统的杂草群落
美国北部大平原是小型粮食农业面积最大的地区之一,但过度依赖非农投入和预计的更温暖、更干燥的条件阻碍了其农业的可持续性。在该区域,使用覆盖作物是增加生物多样性和减少外部投入的一种有希望的方法;然而,关于覆盖作物混合组成、预测气候和管理系统如何影响覆盖作物和杂草群落的表现的信息很少。在覆盖作物-小麦轮作的第4个周期中,我们实验了随着气候变化而发生的温度升高和湿度降低,并评估了覆盖作物混合物的存在和组成以及终止方法对杂草群落的影响。在环境气候条件下,5种早期覆盖作物混合物的平均覆盖作物总生物量比7种中期覆盖作物混合物的平均覆盖作物总生物量高43% ~ 53%,而在温暖和干燥条件下差异不明显(19% ~ 24%)。我们共观察到18种杂草;13个出现在季前混合,13个出现在季中混合,14个出现在休耕处理。在温暖和干燥处理下,杂草物种丰富度和多样性较低,并且由于覆盖作物混合物的存在和组成以及气候操纵,杂草群落发生了变化。总体而言,研究结果表明,在半干旱农业生态系统中采用覆盖作物混合需要共同解决杂草管理和土壤保持水分的目标,这一挑战因预测的气候条件而进一步复杂化。
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来源期刊
Weed Research
Weed Research 农林科学-农艺学
CiteScore
4.30
自引率
0.00%
发文量
41
审稿时长
12-24 weeks
期刊介绍: Weed Research is an international peer-reviewed journal that publishes topical and innovative papers on weed science, in the English language. Its aim is to publish the best weed science from around the globe and to be the journal of choice for weed science researchers. It is the official journal of the European Weed Research Society. Papers are taken on all aspects of weeds, defined as plants that impact adversely on economic, aesthetic or environmental aspects of any system. Topics include, amongst others, weed biology and control, herbicides, invasive plant species in all environments, population and spatial biology, modelling, genetics, biodiversity and parasitic plants. The journal welcomes submissions on work carried out in any part of the world.
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